Inheritance: BigInt
Esempio n. 1
0
	public ImageStoreData(NodeId nodeId, string name, int width, int height, byte[] data)
		: this()
	{
		this.NodeId = nodeId;
		this.Name = name;
		this.Width = width;
		this.Height = height;
		this.Data = data;
	}
Esempio n. 2
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        public void StartReloadTLSClient(NodeId nodeid, Socket socket, IPEndPoint attacherEndpoint)
        {
            // simply call InitReloadTLSClient
            ReloadSendParameters send_params = new ReloadSendParameters();
            send_params.destinationAddress = attacherEndpoint.Address;
            link.InitReloadTLSClient(send_params, socket, attacherEndpoint);

            if (send_params.connectionTableEntry != null)
            {
                ReloadConnectionTableEntry connectionTableEntry = send_params.connectionTableEntry; //TODO: not nice but does the trick
                if (send_params.connectionTableEntry.NodeID != null)        //TODO: correct?
                    nodeid = send_params.connectionTableEntry.NodeID;
            }
        }
Esempio n. 3
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            public bool isNewNeighbour(NodeId attacher) {
                if (m_predecessors.Count == 0 && m_successors.Count == 0)
                    return true;

                List<NodeId> updateList = new List<NodeId>(m_successors);
                updateList.AddRange(m_predecessors);
                updateList.Add(attacher);
                updateList = removeDuplicates(updateList);

                List<NodeId> newPres = NeighborsFromTotal(updateList, false);
                List<NodeId> newSuccs = NeighborsFromTotal(updateList, true);


                if (IsChangedList(m_predecessors, newPres) ||
                    IsChangedList(m_successors, newSuccs)) {
                    return true;
                }

                return false;
            }
Esempio n. 4
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        }   // Send


        public bool NextHopInConnectionTable(NodeId dest_node_id)
        {
            return connectionTable.lookupEntry(dest_node_id) == null;
        }
Esempio n. 5
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            internal void SetWaitForJoinAnsw(NodeId nodeId, Boolean fTrue) {
                try {
                    RTableEntry rtable_entry;

                    lock (m_RtTable) {
                        if (nodeId != null && m_RtTable.TryGetValue(nodeId.ToString(), out rtable_entry))
                            rtable_entry.wait_for_join_answ = fTrue;
                    }
                }
                catch (Exception ex) {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "SetWaitForJoinAnsw: " + ex.Message);
                }
            }
Esempio n. 6
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        public IEnumerator<ITask> AttachProcedure(Destination dest, NodeId NextHopId, AttachOption attach_option)
        {
            ReloadMessage reloadSendMsg;

            /* 9.5.1 
             *     When a peer needs to Attach to a new peer in its neighbor table, it
                   MUST source-route the Attach request through the peer from which it
                   learned the new peer's Node-ID.  Source-routing these requests allows
                   the overlay to recover from instability.
            */

            reloadSendMsg = create_attach_req(dest, (attach_option & AttachOption.forceupdate) != 0);


            if (dest.type == DestinationType.node)
            {
                NodeState nodestate = m_topology.routing_table.GetNodeState(dest.destination_data.node_id);

                if (nodestate == NodeState.attaching)
                {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("Ignoring redundant Attach for {0}", dest));
                    yield break;
                }
            }

            Boolean NextHopIsDestination = false;
            Node NextHopNode = null;

            if (NextHopId != null)
                NextHopNode = m_topology.routing_table.GetNode(NextHopId);

            if (NextHopNode == null)
                NextHopNode = NextHopToDestination(dest, ref NextHopIsDestination);

            if (NextHopNode == null)
                yield break;

            if (dest.type == DestinationType.node)
                m_topology.routing_table.SetNodeState(dest.destination_data.node_id, NodeState.attaching);

            ReloadDialog reloadDialog = null;

            int RetransmissionTime = ReloadGlobals.RetransmissionTime + ReloadGlobals.MaxTimeToSendPacket;
            int iRetrans = ReloadGlobals.MaxRetransmissions;

            while (iRetrans >= 0 && m_ReloadConfig.State < ReloadConfig.RELOAD_State.Shutdown)
            {
                try
                {
                    /* use a new ReloadDialog instance for every usage, Monitor requires it                         */
                    reloadDialog = new ReloadDialog(m_ReloadConfig, m_flm, NextHopNode);

                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD, String.Format("{0} via {1} ==> Dest={2} TransId={3:x16}",
                                                                                            RELOAD_MessageCode.Attach_Request.ToString().PadRight(16, ' '),
                                                                                            NextHopNode,
                                                                                            dest.ToString(),
                                                                                            reloadSendMsg.TransactionID));

                    Arbiter.Activate(m_DispatcherQueue, new IterativeTask<ReloadMessage, ReloadMessageFilter, int>(reloadSendMsg, new ReloadMessageFilter(reloadSendMsg.TransactionID), RetransmissionTime, reloadDialog.Execute));
                }
                catch (Exception ex)
                {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "AttachProcedure: " + ex.Message);
                    yield break;
                }

                yield return Arbiter.Receive(false, reloadDialog.Done, done => { });

                if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                {
                    ReloadMessage reloadRcvMsg = reloadDialog.ReceivedMessage;

                    if (dest.type == DestinationType.node)
                    {
                        if (reloadRcvMsg.OriginatorID != dest.destination_data.node_id)
                        {
                            // drop message and retransmit request
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("Received answer from unexpected peer"));
                            reloadRcvMsg = null;
                        }
                    }
                    else if (dest.type == DestinationType.resource)
                    {
                        int suc = m_topology.routing_table.GetSuccessorCount(false);
                        int pre = m_topology.routing_table.GetPredecessorCount(false);

                        if (suc >= 2 && pre >= 2)
                        {
                            // check if resource is mapping to a node in my routing table
                            if (dest.destination_data.ressource_id.ElementOfInterval(
                                m_topology.routing_table.Predecessors[pre - 2],
                                m_topology.routing_table.Successors[suc - 1],
                                true)
                            )
                            {
                                if (reloadRcvMsg.OriginatorID < m_topology.routing_table.Predecessors[pre - 2] && reloadRcvMsg.OriginatorID > m_topology.routing_table.Successors[suc - 1])
                                {
                                    // drop message and retransmit request
                                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("Received answer from unexpected peer"));
                                    reloadRcvMsg = null;
                                }
                            }
                        }
                    }

                    if (reloadRcvMsg != null)
                        break;
                }

                /* If a response has not been received when the timer fires, the request
                   is retransmitted with the same transaction identifier. 
                */
                --iRetrans;
                if (iRetrans >= 0)
                {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING, String.Format("Retrans {0} SendAttach  via {1} TransId={2:x16}", iRetrans, NextHopNode, reloadSendMsg.TransactionID));
                    m_ReloadConfig.Statistics.IncRetransmission();
                }
                else
                {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("Failed! SendAttach  via {0} TransId={1:x16}", NextHopNode, reloadSendMsg.TransactionID));
                    m_ReloadConfig.Statistics.IncTransmissionError();

                    if (dest.destination_data.node_id != null)
                    {
                        //m_topology.routing_table.SetNodeState(dest.destination_data.node_id, NodeState.unknown);
                        m_topology.routing_table.Leave(dest.destination_data.node_id);
                    }
                }
            }

            try
            {
                if (reloadDialog != null && !reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                {
                    /*the SourceNodeID delivered from reloadDialog comes from connection
                     * table and is the last hop of the message
                     */
                    ReloadMessage reloadRcvMsg = reloadDialog.ReceivedMessage;
                    RELOAD_MessageCode msgCode = reloadRcvMsg.reload_message_body.RELOAD_MsgCode;

                    AttachReqAns answ = (AttachReqAns)reloadRcvMsg.reload_message_body;

                    if (msgCode == RELOAD_MessageCode.Attach_Answer)
                    {
                        /* TKTODO
                         * 1.  The response to a message sent to a specific Node-ID MUST have
                               been sent by that Node-ID.
                           2.  The response to a message sent to a Resource-Id MUST have been
                               sent by a Node-ID which is as close to or closer to the target
                               Resource-Id than any node in the requesting node's neighbor
                               table.
                        */
                        if (answ != null)
                        {

                            Node Originator = new Node(reloadRcvMsg.OriginatorID, answ.ice_candidates);

                            /*  An Attach in and of itself does not result in updating the routing
                             *  table of either node.
                             *  Note: We use the routing table here only for storing ice candidates 
                             *  for later use, we will not update successor or predecessor list
                             */

                            m_topology.routing_table.AddNode(Originator);
                            m_topology.routing_table.SetNodeState(Originator.Id, NodeState.attached);

                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD,
                              String.Format("{0} <== {1} last={2} TransId={3:x16}",
                              msgCode.ToString().PadRight(16, ' '), reloadRcvMsg.OriginatorID,
                              reloadRcvMsg.LastHopNodeId, reloadRcvMsg.TransactionID));

                            if ((CheckAndSetAdmittingPeer(Originator) &&
                              Originator.Id != reloadRcvMsg.LastHopNodeId)
                                || (attach_option & AttachOption.sendping) != 0)
                            {
                                // Send ping to get a physical connection
                                Arbiter.Activate(m_DispatcherQueue, new IterativeTask<Destination, PingOption>(new Destination(Originator.Id), PingOption.direct, SendPing));
                            }
                        }
                    }
                    else if (msgCode == RELOAD_MessageCode.Error)
                    {
                        if (dest.type == DestinationType.node)
                        {
                            ErrorResponse error = (ErrorResponse)reloadRcvMsg.reload_message_body;

                            if (error != null)
                            {
                                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR,
                                  String.Format("AttachProcedure: Got Error {0} from {1} deleting {2}",
                                    error.ErrorMsg,
                                    reloadRcvMsg.OriginatorID,
                                    dest.destination_data.node_id));

                                m_topology.routing_table.Leave(dest.destination_data.node_id);
                            }
                        }
                    }
                }
            }
            catch (Exception ex)
            {
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "AttachProcedure: " + ex.Message);

                if (dest.destination_data.node_id != null)
                    m_topology.routing_table.SetNodeState(dest.destination_data.node_id, NodeState.unknown);
            }
        }
Esempio n. 7
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        /// <summary>
        /// TASK: Waits for the reception for max rx_timeout milliseconds. Filters if required.
        /// </summary>
        /// <param name="rx_filter">The rx_filter.</param>
        /// <param name="rx_timeout">The rx_timeout.</param>
        /// <returns></returns>
        private IEnumerator<ITask> Receive(ReloadMessageFilter rx_filter, int rx_timeout, String messageCode) {

            m_DispatcherQueue.EnqueueTimer(TimeSpan.FromMilliseconds(rx_timeout), timeouted);
            m_fError = false;
            bool fTimeouted = false;
            
            //m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TEST, String.Format("Receiver {0} started", rx_filter.transactionID));

            /* there are multiple incoming packets possible, if there wasn't a matching packet so far, 
             * wait for it as long there is no timout condition
             */
            while (!fTimeouted && m_ReloadConfig.State < ReloadConfig.RELOAD_State.Exit)
            {
                yield return Arbiter.Choice(
                    Arbiter.Receive(false, timeouted, to =>
                    {
                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING, String.Format("Receiver {0} Rx Timeout after sending {1}", rx_filter.transactionID, messageCode));
                        fTimeouted = true;
                    }),
                    Arbiter.Receive(false, m_portWaitForRx, trigger =>
                    {
                        //m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TEST, String.Format("Receiver {0} released, error is {1}", rx_filter.transactionID, error));
                    }));

                    if (!fTimeouted && !m_fError)
                        while (m_Queue.Count != 0 && m_ReloadConfig.State < ReloadConfig.RELOAD_State.Exit)
                        {
                            
                            ReloadFLMEventArgs args = (ReloadFLMEventArgs)m_Queue.Dequeue();

                            if (args == null || args.Message == null)
                            {
                                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("Receive: Args == null"));
                                break;
                            }

                            if (args.Eventtype == ReloadFLMEventArgs.ReloadFLMEventTypes.RELOAD_EVENT_RECEIVE_OK)
                            {
                                ReloadMessage reloadMsg = args.Message;
                                
                                if (reloadMsg == null)
                                {
                                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("Receive: Dropping invalid packet from {0}", args.ConnectionTableEntry != null ? args.ConnectionTableEntry.NodeID.ToString() : "unknown"));
                                    break;
                                }
                                //m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("Receiver {0} Queuecount {1} Transactionid: {2}", rx_filter.transactionID, m_Queue.Count, reloadMsg.TransactionID));
                                if (reloadMsg.IsFragmented() && reloadMsg.IsSingleFragmentMessage() == false && rx_filter != null && reloadMsg.TransactionID == rx_filter.transactionID) 
                                {
                                  ReloadMessage reassembledMsg = null;
                                  lock (fragmentedMessageBuffer) {
                                    reassembledMsg = reloadMsg.ReceiveFragmentedMessage(ref fragmentedMessageBuffer);
                                  }
                                    if (reassembledMsg == null) //not yet all fragments received => not reassembled
                                    {
                                      Arbiter.Activate(m_DispatcherQueue, new IterativeTask<ReloadMessageFilter, int, String>(rx_filter, rx_timeout, "", Receive));
                                      m_TimeStart = DateTime.Now;
                                      yield break;
                                    }
                                    else
                                      reloadMsg = reassembledMsg; //message reassembled => continue as usual
                                }

                                if (args.ConnectionTableEntry != null)
                                    m_SourceNodeID = args.ConnectionTableEntry.NodeID;
                                else
                                    m_SourceNodeID = reloadMsg.LastHopNodeId;

                                if (rx_filter != null)
                                {
                                    //                              m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TEST, String.Format("Receiver {0} Checking against {1}", rx_filter.transactionID, reloadMsg.TransactionID));

                                    /* Most important part: Do only accept messages with the same transaction id
                                     * this ReloadDialog had been registered to and ignore the rest                */
                                    if (reloadMsg.TransactionID == rx_filter.transactionID)
                                    {
                                        if (!reloadMsg.IsRequest())
                                        {
                                            //m_ReceivedMessage = args.Message;
                                            m_ReceivedMessage = reloadMsg; //--joscha
                                            /* just a trick to get out of the parent loop */
                                            fTimeouted = true;
                                            break;
                                        }
                                        else
                                        {
                                          /* Our Request looped back to us, module Forwarding is handling this */

                                          if (reloadMsg.reload_message_body.RELOAD_MsgCode == RELOAD_MessageCode.Error) {
                                            if (((ErrorResponse)reloadMsg.reload_message_body).ErrorCode == RELOAD_ErrorCode.Error_Not_Found) { // --joscha not found response => don't wait for timeout
                                              m_ReceivedMessage = null;
                                              /* just a trick to get out of the parent loop */
                                              fTimeouted = true;
                                              break;
                                            }
                                          }
                                        }
                                    }
                                }
                                else
                                {
                                    /* No filter specified, deliver every packet */
                                    //m_ReceivedMessage = args.Message;
                                    m_ReceivedMessage = reloadMsg; //--joscha;
                                    /* just a trick to get out of the parent loop */
                                    fTimeouted = true;
                                    break;
                                }
                            }
                        }
            }
            m_Transport.ReloadFLMEventHandler -= OVL_ReloadForwardLinkManagementEventHandler;
            m_fDone.Post(true);
        }
Esempio n. 8
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        // --josch

        /// <summary>
        /// Proprietary: Stores the Usage data in a different RELOAD overlay using viaGateWay as gateway
        /// </summary>
        /// <param name="ResourceName"></param>
        /// <param name="kind_data"></param>
        /// <param name="viaGateWay"></param>
        /// <returns></returns>
        public IEnumerator<ITask> Store(string ResourceName, List<StoreKindData> kind_data, NodeId viaGateWay)
        {
            if (m_ReloadConfig.IamClient)
                m_ReloadConfig.StartStoreMobile = DateTime2.Now;
            else
                m_ReloadConfig.StartStore = DateTime.Now;

            ReloadDialog reloadDialog = null;
            ReloadMessage reloadSendMsg;
            ResourceId res_id = new ResourceId(ResourceName);
            //List<StoreKindData> kind_data = new List<StoreKindData>();


            Node node = null;

            if (viaGateWay != null)
            {
                //NodeId gateway = new ResourceId(viaGateWay);

                node = m_topology.routing_table.FindNextHopTo(viaGateWay, true, false);

                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_USAGE, String.Format("Store {0} as ResID: {1} via Gateway {2}", ResourceName, res_id, viaGateWay));

                if (m_ReloadConfig.IamClient && node == null)
                {
                    node = m_ReloadConfig.AdmittingPeer;
                }

                foreach (StoreKindData storeKindData in kind_data)
                {
                    if (node == null || node.Id == m_ReloadConfig.LocalNodeID)
                    {
                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO, String.Format("Local storage at NodeId {0}", node.Id));
                        m_topology.Store(res_id, storeKindData);
                        yield break;
                    }
                }

                Destination gateway = new Destination(new NodeId(viaGateWay.Data));
                Destination storeDestination = new Destination(res_id);
                StoreReq storeRequest = new StoreReq(storeDestination.destination_data.ressource_id,
                                                      kind_data,
                                                      m_machine.UsageManager, false);
                reloadSendMsg = create_reload_message(gateway, ++m_ReloadConfig.TransactionID, storeRequest);
                reloadSendMsg.forwarding_header.destination_list.Add(storeDestination);  //this is the real destination

                if (reloadSendMsg.AddDestinationOverlay(ResourceName))
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "AddDestinationOverlay successful");
            }
            else
            {
                res_id = new ResourceId(ResourceName);

                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_USAGE, String.Format("Store {0} as ResID: {1}", ResourceName, res_id));
                node = m_topology.routing_table.FindNextHopTo(new NodeId(res_id), true, false);

                if (m_ReloadConfig.IamClient && node == null)
                {
                    node = m_ReloadConfig.AdmittingPeer;
                }
                if (node == null || node.Id == m_ReloadConfig.LocalNodeID)
                {
                    foreach (StoreKindData storeKindData in kind_data)
                    {

                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO,
                          String.Format("Local storage at NodeId {0}", node.Id));
                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_MEASURE,
                          "Store:0,011111");
                        m_topology.Store(res_id, storeKindData);
                    }
                    if (storeDone != null) storeDone.Post(reloadDialog);
                    yield break;
                }
                reloadSendMsg = create_store_req(new Destination(res_id), kind_data, false);
            }

            int RetransmissionTime = ReloadGlobals.RetransmissionTime + ReloadGlobals.MaxTimeToSendPacket;

            int iRetrans = ReloadGlobals.MaxRetransmissions;

            while (iRetrans >= 0 && m_ReloadConfig.State < ReloadConfig.RELOAD_State.Exit)
            {
                try
                {
                    reloadDialog = new ReloadDialog(m_ReloadConfig, m_flm, node);

                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD, String.Format("{0} ==> {1} TransId={2:x16}",
                        reloadSendMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '), node.Id, reloadSendMsg.TransactionID));

                    Arbiter.Activate(m_DispatcherQueue,
                        new IterativeTask<ReloadMessage, ReloadMessageFilter, int>(reloadSendMsg,
                            new ReloadMessageFilter(reloadSendMsg.TransactionID), RetransmissionTime, reloadDialog.Execute));
                }
                catch (Exception ex)
                {
                    storeDone.Post(reloadDialog);
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "Send Store: " + ex.Message);
                    ReloadGlobals.PrintException(m_ReloadConfig, ex);
                }

                yield return Arbiter.Receive(false, reloadDialog.Done, done => { });

                if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                    break;


                /* If a response has not been received when the timer fires, the request
                   is retransmitted with the same transaction identifier. 
                */
                --iRetrans;
            }

            try
            {
                if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                {
                    //the SourceNodeID delivered from reloadDialog comes from connection table and is the last hop of the message
                    ReloadMessage reloadRcvMsg = reloadDialog.ReceivedMessage;

                    if (reloadRcvMsg.reload_message_body.RELOAD_MsgCode == RELOAD_MessageCode.Store_Answer)
                    {
                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_USAGE,
                          String.Format("Store successful:{0} <== {1} TransId={2:x16}",
                          reloadRcvMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '),
                          reloadRcvMsg.OriginatorID, reloadRcvMsg.TransactionID));

                        m_ReloadConfig.EndStore = DateTime.Now;

                        TimeSpan storeSpan = storeSpan = m_ReloadConfig.EndStore - m_ReloadConfig.StartStore;

                        if (m_ReloadConfig.IamClient)
                            storeSpan = DateTime2.Now - m_ReloadConfig.StartStoreMobile;

                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_MEASURE,
                                              String.Format("Store:{0}",
                                              storeSpan.TotalSeconds.ToString()));

                        if (storeDone != null) storeDone.Post(reloadDialog);
                    }
                }
                else
                {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING,
                      String.Format("Store failed"));
                    m_statistics.IncTransmissionError();
                }
            }
            catch (Exception ex)
            {
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "Send Store 2: " + ex.Message);
                ReloadGlobals.PrintException(m_ReloadConfig, ex);
            }

            if (m_ReloadConfig.State == ReloadConfig.RELOAD_State.Shutdown)
                m_machine.Finish();

        }
Esempio n. 9
0
        /// <summary>
        /// Proprietary: Starts an AppAttachProcedure which is routed through the viaGateWay Node into the "overlayName" Overlay 
        /// </summary>
        /// <param name="dest">Destination to appattach to </param>
        /// <param name="viaGateWay">Node Id of the GateWay into interconnection Overlay</param>
        /// <param name="overlayName">Name of the Overlay the other Peer is participating. Needed by the Gateway for further routing.</param>
        /// <returns></returns>
        public IEnumerator<ITask> AppAttachProcedure(Destination dest, NodeId viaGateWay, string overlayName)
        {
            ReloadMessage reloadSendMsg;
            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("AppAttachProcedure to {0} via GateWay {1}", dest, viaGateWay));
            reloadSendMsg = create_app_attach_req(new Destination(new NodeId(viaGateWay.Data)));
            reloadSendMsg.forwarding_header.destination_list.Add(dest);

            if (reloadSendMsg.AddDestinationOverlay(overlayName))
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "AddDestinationOverlay successful");

            //create_reload_message(new ReloadMessage(m_ReloadConfig, m_topology.LocalNode.Id, dest, ++m_ReloadConfig.TransactionID, new AppAttachReqAns(m_topology.LocalNode, true)));

            if (dest.type != DestinationType.node)
            {
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("AppAttachProcedure failed: unexpected destination type"));
                yield break;
            }

            if (dest.destination_data.node_id == m_topology.Id)
            {
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("local AppAttachProcedure dropped"));
                yield break;
            }

            //Node node = m_topology.routing_table.FindNextHopTo(dest.destination_data.node_id, true, false);
            Node node = m_topology.routing_table.FindNextHopTo(viaGateWay, true, false);

            if (node == null)
            {
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, String.Format("AppAttachProcedure: failed, did not found next hop to {0}", dest.destination_data.node_id));
                yield break;
            }

            ReloadDialog reloadDialog = null;

            int RetransmissionTime = ReloadGlobals.RetransmissionTime + ReloadGlobals.MaxTimeToSendPacket;
            int iRetrans = ReloadGlobals.MaxRetransmissions;

            m_topology.routing_table.SetNodeState(dest.destination_data.node_id, NodeState.attaching);

            while (iRetrans >= 0 && m_ReloadConfig.State < ReloadConfig.RELOAD_State.Shutdown)
            {
                try
                {
                    /* use a new ReloadDialog instance for every usage, Monitor requires it                         */
                    reloadDialog = new ReloadDialog(m_ReloadConfig, m_flm, node);

                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD, String.Format("{0} via {1} ==> Dest={2} TransId={3:x16}",
                                                                                            RELOAD_MessageCode.App_Attach_Request.ToString().PadRight(16, ' '),
                                                                                            node,
                                                                                            dest.ToString(),
                                                                                            reloadSendMsg.TransactionID));

                    Arbiter.Activate(m_DispatcherQueue, new IterativeTask<ReloadMessage, ReloadMessageFilter, int>(reloadSendMsg, new ReloadMessageFilter(reloadSendMsg.TransactionID), RetransmissionTime, reloadDialog.Execute));
                }
                catch (Exception ex)
                {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "AppAttachProcedure: " + ex.Message);
                }

                yield return Arbiter.Receive(false, reloadDialog.Done, done => { });


                if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                    break;

                /* If a response has not been received when the timer fires, the request
                   is retransmitted with the same transaction identifier. 
                */
                --iRetrans;
            }

            try
            {
                if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                {
                    //the SourceNodeID delivered from reloadDialog comes from connection table and is the last hop of the message
                    ReloadMessage reloadRcvMsg = reloadDialog.ReceivedMessage;

                    if (reloadRcvMsg.reload_message_body.RELOAD_MsgCode == RELOAD_MessageCode.App_Attach_Answer)
                    {
                        AppAttachReqAns answ = (AppAttachReqAns)reloadRcvMsg.reload_message_body;

                        if (answ != null)
                        {
                            node = new Node(reloadRcvMsg.OriginatorID, answ.ice_candidates);
                            /*  An Attach in and of itself does not result in updating the routing
                             *  table of either node.
                             *  Note: We use the routing table here only for storing ice candidates 
                             *  for later use, we will not update successor or predecessor list
                             */
                            m_topology.routing_table.AddNode(node);
                            if (m_topology.routing_table.GetNodeState(node.Id) < NodeState.attached)
                                m_topology.routing_table.SetNodeState(node.Id, NodeState.attached);

                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD, String.Format("{0} <== {1} last={2} TransId={3:x16}",
                                reloadRcvMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '), reloadRcvMsg.OriginatorID, reloadRcvMsg.LastHopNodeId, reloadRcvMsg.TransactionID));

                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_USAGE, String.Format("AppAttach returns IP: {0}", answ.ice_candidates[0].addr_port.ipaddr.ToString()));
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_USAGE, String.Format("AppAttach returns IP: {0}:{1}", answ.ice_candidates[0].addr_port.ipaddr.ToString(), answ.ice_candidates[0].addr_port.port.ToString()));
                            /* Proprietary registry interface function to support external clients */
                            ReloadGlobals.StoreRegAnswer("sip:" + answ.ice_candidates[0].addr_port.ipaddr.ToString() + ":5060");
                            m_ReloadConfig.ConnEstEnd = DateTime.Now;
                        }
                    }
                }
                else
                {
                    m_topology.routing_table.SetNodeState(dest.destination_data.node_id, NodeState.unknown);
                }
            }
            catch (Exception ex)
            {
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "AppAttachProcedure: " + ex.Message);
                m_topology.routing_table.SetNodeState(dest.destination_data.node_id, NodeState.unknown);
            }
        }
Esempio n. 10
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 public bool GotUpdatesFrom(NodeId nodeid) {
     NodeState nodestate = GetNodeState(nodeid);
     return nodestate == NodeState.updates_received;
 }
Esempio n. 11
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 public char GetStatusShortLetter(NodeId nodeid) {
     NodeState nodestate = GetNodeState(nodeid);
     switch (nodestate) {
         case NodeState.updates_received:
             return 'U';
         case NodeState.attached:
             return 'A';
         case NodeState.attaching:
             return 'I';
         case NodeState.unknown:
             return '?';
     }
     return ' ';
 }
Esempio n. 12
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            public bool IsWaitForJoinAnsw(NodeId nodeid) {
                RTableEntry rtable;

                if (nodeid != null && m_RtTable.TryGetValue(nodeid.ToString(), out rtable)) {
                    return rtable.wait_for_join_answ;
                }
                return false;
            }
Esempio n. 13
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 public bool IsAttached(NodeId nodeid) {
     NodeState nodestate = GetNodeState(nodeid);
     return nodestate == NodeState.attached || nodestate == NodeState.updates_received;
 }
Esempio n. 14
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            public bool GetPing(NodeId nodeid) {
                RTableEntry rtable;

                if (nodeid != null && m_RtTable.TryGetValue(nodeid.ToString(), out rtable)) {
                    return rtable.pinging;
                }
                return false;
            }
Esempio n. 15
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            /// <summary>
            /// We need the information if a node (nodeid) has already been attached to
            /// and is valid. This is stored in the routing table
            /// </summary>
            /// <param name="nodeid">The Node Id</param>
            /// <returns>bool</returns>
            public NodeState GetNodeState(NodeId nodeid) {
                RTableEntry rtable;

                if (nodeid != null && m_RtTable.TryGetValue(nodeid.ToString(), out rtable)) {
                    return rtable.nodestate;
                }
                return NodeState.unknown;
            }
Esempio n. 16
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            /// <summary>
            /// Returns the ice candidates stored in a dicationary along with a nodeid
            /// </summary>
            /// <param name="nodeid">The Node Id</param>
            /// <returns>List<IceCandidate></returns>
            /// <summary>
            public List<IceCandidate> GetCandidates(NodeId nodeid) {
                RTableEntry rtable;

                if (nodeid != null && m_RtTable.TryGetValue(nodeid.ToString(), out rtable))
                    return rtable.icecandidates;
                return null;
            }
Esempio n. 17
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 public void SetFingerState(NodeId finger, NodeState state) {
     foreach (FTableEntry fte in m_FingerTable)
         if (fte.Successor == finger)
             fte.nodestate = state;
 }
Esempio n. 18
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 public Node GetNode(NodeId node_id) {
     RTableEntry rte;
     if (node_id == null)
         return null;
     m_RtTable.TryGetValue(node_id.ToString(), out rte);
     if (rte != null)
         return rte.node;
     else
         return new Node(node_id, GetCandidates(node_id));
 }
Esempio n. 19
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            /// <summary>
            /// If any peer sends an update we merge this information with our local tables
            /// </summary>
            /// <param name="Originator">The originator of the update message</param>
            /// <param name="successors">List of successors provided</param>
            /// <param name="predecessors">List of predecessors provided</param>
            /// <param name="transport">The transport layer.</param>
            /// <param name="transport">The forwarding layer.</param>
            /// <returns>IEnumerator<ITask></returns>
            internal IEnumerator<ITask> Merge(NodeId originator, UpdateReqAns req_answ, Boolean ForceSendUpdate) {
                /*
                When a peer, N, receives an Update request, it examines the Node-IDs
                   in the UpdateReq and at its neighbor table and decides if this
                 * UpdateReq would change its neighbor table.*/
                lock ("merge") {
                    try {

                        if (!IsAttached(originator))
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING, String.Format("A none attached node sent me an update {0}:", originator));

                        List<NodeId> total_update_list = new List<NodeId>();

                        var validSuccessors = new List<NodeId>();
                        var validPredecessors = new List<NodeId>();

                        if (LeavingNodes.Count > 0)
                        {
                            if (!LeavingNodes.ContainsKey(originator))
                                total_update_list.Add(originator);

                            List<NodeId> keys = LeavingNodes.Keys.ToList();

                            foreach (NodeId node in req_answ.Successors)
                            {
                                if (!keys.Contains(node))
                                    validSuccessors.Add(node);
                            }

                            total_update_list.AddRange(validSuccessors);

                            foreach (NodeId node in req_answ.Predecessors)
                            {
                                if (!keys.Contains(node))
                                    validPredecessors.Add(node);
                            }

                            total_update_list.AddRange(validPredecessors);
                        }
                        else
                        {
                            total_update_list.Add(originator);
                            total_update_list.AddRange(req_answ.Successors);
                            total_update_list.AddRange(req_answ.Predecessors);
                        }
                            

                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("<== Successors from {0}:", originator));
                        for (int i = req_answ.Successors.Count - 1; i >= 0; i--)
                        {
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("    S{0}: {1}", i, req_answ.Successors[i]));
                        }

                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("<== Predecessors from {0}:", originator));
                        for (int i = 0; i < req_answ.Predecessors.Count; i++)
                        {
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("    P{0}: {1}", i, req_answ.Predecessors[i]));
                        }

                        total_update_list = removeDuplicates(total_update_list);

                        if (m_ReloadConfig.IamClient) {
                            if (m_ReloadConfig.AdmittingPeer != null) {
                                NodeId nodeid = m_ReloadConfig.AdmittingPeer.Id;

                                foreach (NodeId id in total_update_list) {
                                    if (id.ElementOfInterval(m_local_node.Id, nodeid, false))
                                        nodeid = id;
                                }

                                //found a new admitting (responsible) peer
                                if (nodeid != m_local_node.Id && nodeid != m_ReloadConfig.AdmittingPeer.Id) {
                                    NodeState nodestate = GetNodeState(nodeid);
                                    if (nodestate == NodeState.unknown) {
                                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO,
                                          String.Format("Found a new admitting peer: {0} via {1}",
                                          nodeid, originator));
                                        Arbiter.Activate(m_DispatcherQueue,
                                          new IterativeTask<Destination, NodeId, AttachOption>(
                                          new Destination(nodeid), originator,
                                          AttachOption.forceupdate, m_transport.AttachProcedure));
                                    }
                                }
                            }
                            yield break;
                        }

                        foreach (NodeId id in total_update_list) {
                            if (id != originator) {
                                NodeId value;
                                if (m_LearnedFromTable.TryGetValue(id.ToString(), out value)) {
                                    if (IsAttached(originator) && value != originator) {
                                        m_LearnedFromTable.Remove(id.ToString());
                                        m_LearnedFromTable.Add(id.ToString(), originator);
                                        //m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("    Upd: Learned {0} from {1}", id, originator));
                                    }
                                }
                                else {
                                    m_LearnedFromTable.Add(id.ToString(), originator);
                                    //m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("    New: Learned {0} from {1}", id, originator));
                                }
                            }
                        }

                        total_update_list.AddRange(m_successors);
                        total_update_list.AddRange(m_predecessors);

                        total_update_list = removeDuplicates(total_update_list);

                        List<NodeId> m_new_predecessors = NeighborsFromTotal(total_update_list, false);
                        List<NodeId> m_new_successors = NeighborsFromTotal(total_update_list, true);

                        // REPLICATEST
                        foreach (NodeId node in LeavingNodes.Keys)
                        {
                            if (m_new_predecessors.Contains(node))
                                m_new_predecessors.Remove(node);

                            if (m_new_successors.Contains(node))
                                m_new_successors.Remove(node);
                        }

                        Boolean fAnyNewNeighbor = false;

                        /*                      if(    IsChangedList(GetApproved(m_predecessors), GetApproved(m_new_predecessors))
                                                    || IsChangedList(GetApproved(m_successors), GetApproved(m_new_successors)))
                                                {
                                                    fNewUpdateRequired = true;
                                                }
                        */
                        if (IsChangedList(m_predecessors, m_new_predecessors)
                            || IsChangedList(m_successors, m_new_successors)) {
                            fAnyNewNeighbor = true;
                        }

                        if (IsChangedList(m_predecessors, m_new_predecessors)) {
                            //got new predecessor. Handover Keys
                            Arbiter.Activate(m_ReloadConfig.DispatcherQueue, new IterativeTask<bool>(false, m_transport.HandoverKeys));
                        }

                        if (IsChangedList(m_successors, m_new_successors))
                        {
                            List<NodeId> nodesWithReplicas = new List<NodeId>();
                            if(m_successors.Count > 0)
                                nodesWithReplicas.Add(m_successors[0]);
                            if (m_successors.Count > 1)
                                nodesWithReplicas.Add(m_successors[1]);

                            if(m_new_successors.Count > 0)
                                if(!nodesWithReplicas.Contains(m_new_successors[0]))
                                    Arbiter.Activate(m_ReloadConfig.DispatcherQueue, new IterativeTask<NodeId>(m_new_successors[0], m_transport.StoreReplicas));

                            if (m_new_successors.Count > 1)
                                if(!nodesWithReplicas.Contains(m_new_successors[1]))
                                    Arbiter.Activate(m_ReloadConfig.DispatcherQueue, new IterativeTask<NodeId>(m_new_successors[1], m_transport.StoreReplicas));
                        }

                        m_predecessors = m_new_predecessors;
                        m_successors = m_new_successors;

                        // update all neighbors on changes in the local neighbor table
                        if (fAnyNewNeighbor || ForceSendUpdate) {
                            PrintNeigborState();
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_BUG, String.Format("Merge: New approved neighbors, send updates to all"));
                            SendUpdateToAllNeighbors();
                        }

                    }
                    catch (Exception ex) {
                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "Merge: " + ex.Message);
                        ReloadGlobals.PrintException(m_ReloadConfig, ex);
                        //System.Diagnostics.Debugger.Break();
                    }
                }

                // 6.  AP MUST do a series of Store requests to JP to store the data
                // that   will be responsible for. RELOAD base -13 p.105
                // m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD, "Handover Keys");
                // Arbiter.Activate(m_DispatcherQueue, new IterativeTask<Boolean>(false, m_transport.HandoverKeys));


                yield break;
            }
Esempio n. 20
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            public Node FindNextHopTo(NodeId TargetId, bool fIncluding, bool fExludeMe) {

                /* Nodes of the connection table may be not part of the ring. So never
                 * use them as via nodes
                 */
                foreach (ReloadConnectionTableInfoElement rce in m_flm.ConnectionTable)
                    if (rce.NodeID != null && rce.NodeID == TargetId)
                        return GetNode(rce.NodeID);

                /* Already in routing table? Route to destination directly then */
                if (GotUpdatesFrom(TargetId))
                    return GetNode(TargetId);

                /* As Client always contact admitting peer and do not forward anything
                 * as long as not having joined (bootstraps are an exception)
                 */
                if (m_ReloadConfig.IamClient)
                    return m_ReloadConfig.AdmittingPeer;

                /* Now use any information available to find the hop nearest to 
                 * destination where we have ice candidates of or have an existing 
                 * connection to
                 */

                if (m_successors.Count == 0)
                    return m_local_node;
                if (TargetId.ElementOfInterval(GetPredecessor(0).Id, m_local_node.Id, true))
                    return m_local_node;
                foreach (NodeId succ in m_successors) {
                    if (TargetId.ElementOfInterval(m_local_node.Id, succ, false) ||
                        TargetId == succ)
                        return GetNode(succ);
                }

                Node closestNode = GetClosestPrecedingNode(TargetId);

                return closestNode;

                //return FindNextHopTo(closestNode.Id, false , false);

                // watch out! NextHopId might be null
                //return GetNode(NextHopId);
            }
Esempio n. 21
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        /// <summary>
        /// Proprietary: Tries to fetch the Data specified by the StoredDataSpecifier List from different RELOAD overlay using viaGateWay as gateway
        /// </summary>
        /// <param name="resourceName"></param>
        /// <param name="specifiers"></param>
        /// <param name="viaGateWay"></param>
        /// <returns></returns>
        public IEnumerator<ITask> Fetch(string resourceName, List<StoredDataSpecifier> specifiers, NodeId viaGateWay)
        {
            ReloadDialog reloadDialog = null;
            ReloadMessage reloadSendMsg;
            List<IUsage> recUsages = new List<IUsage>();
            ResourceId res_id = new ResourceId(resourceName);

            Node node = null;
            List<FetchKindResponse> fetchKindResponses = new List<FetchKindResponse>();
            FetchKindResponse fetchKindResponse = null;

            if (viaGateWay != null)
            {

                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_USAGE, String.Format("Fetch {0} as ResID: {1} via Gateway {2}", resourceName, res_id, viaGateWay));

                node = m_topology.routing_table.FindNextHopTo(viaGateWay, true, false);
                //node = m_topology.routing_table.FindNextHopTo(new NodeId(res_id), true, false);

                if (m_ReloadConfig.IamClient && node == null)
                {
                    node = m_ReloadConfig.AdmittingPeer;
                }

                Destination gateway = new Destination(new NodeId(viaGateWay.Data));
                Destination fetchDestination = new Destination(res_id);
                //reloadSendMsg = create_fetch_req(gateway, specifiers);
                FetchReq fetchRequest = new FetchReq(fetchDestination.destination_data.ressource_id,
                                                      specifiers,
                                                      m_machine.UsageManager);

                reloadSendMsg = create_reload_message(gateway, ++m_ReloadConfig.TransactionID, fetchRequest);
                reloadSendMsg.forwarding_header.destination_list.Add(fetchDestination);

                //reloadSendMsg = create_fetch_req(new Destination(res_id), specifiers);
                //reloadSendMsg.AddViaHeader(viaGateWay);

                if (reloadSendMsg.AddDestinationOverlay(resourceName))
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "AddDestinationOverlay successful");
            }
            else
            {

                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_USAGE,
                  String.Format("Fetch {0} as ResID: {1}", resourceName, res_id));

                node = m_topology.routing_table.FindNextHopTo(new NodeId(res_id), true, false);

                if (m_ReloadConfig.IamClient && node == null)
                {
                    node = m_ReloadConfig.AdmittingPeer;
                }

                List<Destination> dest_list = new List<Destination>();
                dest_list.Add(new Destination(m_topology.LocalNode.Id));

                if (node == null || node.Id == m_ReloadConfig.LocalNodeID)
                {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO, "Local Fetch.");
                    m_ReloadConfig.StartFetchAttach = DateTime.Now;
                    foreach (StoredDataSpecifier specifier in specifiers)
                    {
                        var responses = new List<FetchKindResponse>();
                        if (m_topology.Fetch(res_id, specifier, out fetchKindResponse))
                        {
                            responses.Add(fetchKindResponse);
                            foreach (StoredData sd in fetchKindResponse.values)
                            {
                                if (m_ReloadConfig.AccessController.validateDataSignature(res_id, fetchKindResponse.kind, sd))
                                    recUsages.Add(sd.Value.GetUsageValue);
                                else
                                {
                                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO, "DATA SIGNATURE INVALID!!");
                                }
                                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO,
                                    String.Format("Fetch successful, got {0}",
                                        sd.Value.GetUsageValue.Report()));
                            }
                            m_ReloadConfig.ConnEstEnd = DateTime.Now;
                        }
                        OnFetchedData(res_id, responses);
                    }


                    if (fetchDone != null)
                    {
                        if (recUsages.Count == 0)
                        {
                            foreach (StoredDataSpecifier specifier in specifiers)
                                recUsages.Add(new NoResultUsage(specifier.ResourceName));
                        }
                        fetchDone.Post(recUsages);
                    }
                    yield break;
                }
                else
                {
                    reloadSendMsg = create_fetch_req(new Destination(res_id), specifiers);
                }
            }

            int RetransmissionTime = ReloadGlobals.RetransmissionTime +
              ReloadGlobals.MaxTimeToSendPacket;

            int iRetrans = ReloadGlobals.MaxRetransmissions;

            while (iRetrans >= 0 &&
              m_ReloadConfig.State < ReloadConfig.RELOAD_State.Shutdown)
            {
                try
                {
                    reloadDialog = new ReloadDialog(m_ReloadConfig, m_flm, node);

                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD,
                      String.Format("{0} ==> {1} TransId={2:x16}",
                        reloadSendMsg.reload_message_body.RELOAD_MsgCode.ToString().
                        PadRight(16, ' '), node.Id, reloadSendMsg.TransactionID));
                    m_ReloadConfig.StartFetchAttach = DateTime.Now;
                    Arbiter.Activate(m_DispatcherQueue,
                      new IterativeTask<ReloadMessage, ReloadMessageFilter, int>(
                      reloadSendMsg, new ReloadMessageFilter(reloadSendMsg.TransactionID),
                      RetransmissionTime, reloadDialog.Execute));
                }
                catch (Exception ex)
                {
                    fetchDone.Post(new List<IUsage> { new NullUsage() });
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR,
                      "Fetch: " + ex.Message);
                }

                yield return Arbiter.Receive(false, reloadDialog.Done, done => { });

                if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                    break;


                /* If a response has not been received when the timer fires, the request
                   is retransmitted with the same transaction identifier. 
                */
                --iRetrans;
            }

            try
            {
                if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                {
                    //the SourceNodeID delivered from reloadDialog comes from connection table and is the last hop of the message
                    ReloadMessage reloadRcvMsg = reloadDialog.ReceivedMessage;
                    RELOAD_MessageCode recMsgCode = reloadRcvMsg.reload_message_body.RELOAD_MsgCode;
                    if (recMsgCode == RELOAD_MessageCode.Fetch_Answer)
                    {
                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD,
                          String.Format("{0} <== {1} TransId={2:x16}",
                            recMsgCode.ToString().PadRight(16, ' '), reloadRcvMsg.OriginatorID,
                              reloadRcvMsg.TransactionID));
                        FetchAns answ = (FetchAns)reloadRcvMsg.reload_message_body;

                        if (answ != null)
                        {
                            fetchKindResponses = answ.KindResponses;
                            foreach (FetchKindResponse kind in fetchKindResponses)
                            {
                                foreach (StoredData sd in kind.values)
                                {
                                    if (m_ReloadConfig.AccessController.validateDataSignature(res_id, kind.kind, sd))
                                        recUsages.Add(sd.Value.GetUsageValue);
                                    else
                                    {
                                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO, "DATA SIGNATURE INVALID!!");
                                    }
                                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO,
                                      String.Format("Fetch successful, got {0}",
                                        sd.Value.GetUsageValue.Report()));
                                }
                            }
                            OnFetchedData(res_id, fetchKindResponses);
                            if (fetchDone != null)
                            {
                                if (recUsages.Count == 0)
                                {
                                    foreach (StoredDataSpecifier specifier in specifiers)
                                        recUsages.Add(new NoResultUsage(specifier.ResourceName));
                                }
                                fetchDone.Post(recUsages);
                            }
                        }
                    }
                }
                else
                {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING, String.Format("Fetch failed"));
                    foreach (StoredDataSpecifier specifier in specifiers)
                        recUsages.Add(new NoResultUsage(specifier.ResourceName));
                    fetchDone.Post(recUsages);
                    m_statistics.IncTransmissionError();
                }
            }
            catch (Exception ex)
            {
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "Fetch: " + ex.Message);
            }
        }
Esempio n. 22
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            private Node GetClosestPrecedingNode(NodeId key) {
                /*  List of all remote peers*/
                List<NodeId> mexthop_list = new List<NodeId>();
                /* insert all successors into list */
                mexthop_list.AddRange(m_successors);
                /* predecessor is appropriate only if it precedes the given id */
                if (m_predecessors.Count > 0)
                    foreach (NodeId pre in m_predecessors)
                        if (key.ElementOfInterval(pre, m_local_node.Id, false))
                            mexthop_list.AddRange(m_predecessors);
                /* determine closest preceding reference of finger table */
                Node closetPrecedingFinger = GetClosestPrecedingFinger(key);

                if (closetPrecedingFinger != null)
                    mexthop_list.Add(closetPrecedingFinger.Id);

                Node closestNode = null;
                mexthop_list.Add(key);

                mexthop_list = removeDuplicates(mexthop_list);
                int sizeOfList = mexthop_list.Count;
                if (sizeOfList > 1)
                    mexthop_list.Sort();

                /*
                 * The list item with one index lower than that of the key must be the
                 * id of the closest predecessor or the key.
                 */
                int keyIndex = mexthop_list.IndexOf(key);
                /*
               * As all ids are located on a ring if the key is the first item in the
               * list we have to select the last item as predecessor with help of this
               * calculation.
               */
                int index = (sizeOfList + (keyIndex - 1)) % sizeOfList;

                NodeId idOfClosestNode = mexthop_list[index];

                closestNode = GetNode(idOfClosestNode);

                return closestNode;
            }
Esempio n. 23
0
        /// <summary>
        /// Store Replicas: My next two successors have changed. Replicate my data
        /// </summary>
        /// <param name="node"></param>
        /// <returns></returns>
        public IEnumerator<ITask> StoreReplicas(NodeId node)
        {
            // For each Resource stored at this Peer, handover StoredData
            List<string> storedKeys;
            if ((storedKeys = m_topology.Storage.StoredKeys) != null && storedKeys.Count > 0)
            {

                m_topology.Storage.RemoveExpired();

                Dictionary<ResourceId, List<StoreKindData>> nodes = new Dictionary<ResourceId, List<StoreKindData>>();

                foreach (string key in storedKeys)
                {
                    ResourceId res_id = new ResourceId(ReloadGlobals.HexToBytes(key));

                    if (!m_topology.Replicas.Contains(key))
                    {
                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO, "Store Replicas - will send store requests");
                        if (!nodes.ContainsKey(res_id))
                        {
                            nodes.Add(res_id, new List<StoreKindData>());
                            nodes[res_id].AddRange(m_topology.Storage.GetStoreKindData(key));
                        }
                        else
                        {
                            nodes[res_id].AddRange(m_topology.Storage.GetStoreKindData(key));
                        }
                    }
                }

                ReloadDialog reloadDialog = null;
                ReloadMessage reloadSendMsg;
                List<StoreKindData> storeKindData;

                foreach (ResourceId res_id in nodes.Keys)
                {
                    storeKindData = nodes[res_id];

                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO, "GOING TO REPLICATE UNDER RES_ID: " + res_id + " AT NODE: " + node);

                    List<SignerIdentity> signers = new List<SignerIdentity>();

                    foreach (StoreKindData skd in storeKindData)
                    {
                        foreach (StoredData sd in skd.Values)
                        {
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_TOPO, "STOREDATA: " + sd.Value.GetUsageValue.Report());

                            // add certificate
                            if (!signers.Contains(sd.Signature.Identity))
                                signers.Add(sd.Signature.Identity);
                        }
                    }

                    reloadSendMsg = create_store_req(new Destination(node), res_id, storeKindData, true);

                    // get certificates for this data
                    List<GenericCertificate> certs = new List<GenericCertificate>();
                    certs.AddRange(m_ReloadConfig.AccessController.GetPKCs(signers));

                    // add certificates to fetch answer
                    reloadSendMsg.security_block.Certificates.AddRange(certs);

                    int RetransmissionTime = ReloadGlobals.RetransmissionTime + ReloadGlobals.MaxTimeToSendPacket;

                    int iRetrans = ReloadGlobals.MaxRetransmissions;

                    while (iRetrans >= 0 && m_ReloadConfig.State < ReloadConfig.RELOAD_State.Exit)
                    {
                        try
                        {
                            reloadDialog = new ReloadDialog(m_ReloadConfig, m_flm, m_topology.routing_table.FindNextHopTo(node, false, false));

                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD, String.Format("{0} ==> {1} TransId={2:x16}",
                                reloadSendMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '), node, reloadSendMsg.TransactionID));

                            Arbiter.Activate(m_DispatcherQueue, new IterativeTask<ReloadMessage, ReloadMessageFilter, int>(reloadSendMsg, new ReloadMessageFilter(reloadSendMsg.TransactionID), RetransmissionTime, reloadDialog.Execute));
                        }
                        catch (Exception ex)
                        {
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "Send Store: " + ex.Message);
                        }

                        yield return Arbiter.Receive(false, reloadDialog.Done, done => { });

                        if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                            break;


                        /* If a response has not been received when the timer fires, the request
                           is retransmitted with the same transaction identifier. 
                        */
                        --iRetrans;
                    }

                    try
                    {
                        if (!reloadDialog.Error && reloadDialog.ReceivedMessage != null)
                        {
                            ReloadMessage reloadRcvMsg = reloadDialog.ReceivedMessage;

                            if (reloadRcvMsg.reload_message_body.RELOAD_MsgCode == RELOAD_MessageCode.Store_Answer)
                            {
                                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_RELOAD, String.Format("{0} <== {1} TransId={2:x16}", reloadRcvMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '), reloadRcvMsg.OriginatorID, reloadRcvMsg.TransactionID));

                                //StoreReqAns answ = (StoreReqAns)reloadRcvMsg.reload_message_body; --old
                                StoreAns answ = (StoreAns)reloadRcvMsg.reload_message_body; // --alex

                                if (answ != null)
                                {
                                }
                            }
                        }
                        else
                        {
                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING, String.Format("Store Replica failed"));
                            m_statistics.IncTransmissionError();
                        }
                    }
                    catch (Exception ex)
                    {
                        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "Send Store Replica: " + ex.Message);
                    }
                }
            }
        }
Esempio n. 24
0
            private Node GetClosestPrecedingFinger(NodeId key) {
                List<NodeId> successorIds = new List<NodeId>();
                List<FTableEntry> successors = new List<FTableEntry>();

                foreach (FTableEntry ft in FingerTable)
                    if (!successorIds.Contains(ft.Successor) &&
                        ft.nodestate == NodeState.updates_received) {
                        successorIds.Add(ft.Successor);
                        successors.Add(ft);
                    }

                foreach (FTableEntry finger in successors) {
                    if (finger.Successor != null &&
                        finger.Successor.ElementOfInterval(m_local_node.Id, key, false)// &&
                        )//GotUpdatesFrom(finger.Successor))
                        return GetNode(finger.Successor);
                }

                return null;
            }
Esempio n. 25
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        public void InboundClose(NodeId nodeid)
        {
            Boolean important_node = m_topology.routing_table.NodeWeNeed(nodeid);

            if (important_node)
                Arbiter.Activate(m_DispatcherQueue, new IterativeTask<Destination, PingOption>(new Destination(nodeid), PingOption.direct, SendPing));
        }
Esempio n. 26
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            internal void SetNodeState(NodeId nodeId, NodeState nodestate) {
                try {
                    RTableEntry rtable;

                    lock (m_RtTable) {
                        if (nodeId != null && m_RtTable.TryGetValue(nodeId.ToString(), out rtable)) {
                            NodeState oldstate = rtable.nodestate;

                            switch (rtable.nodestate) {
                                case NodeState.unknown:
                                    rtable.nodestate = nodestate;
                                    break;
                                case NodeState.attaching:
                                    rtable.nodestate = nodestate;
                                    break;
                                case NodeState.attached:
                                    if (nodestate == NodeState.attaching) {
                                        //m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "SetNodeState: invalid transition from attached to attaching");
                                        //ignore, should only occur on AppAttach
                                    }
                                    else {
                                        if (nodestate == NodeState.attached & m_UpdateReceivedFromUnattachedNode.Contains(nodeId)) {
                                            m_UpdateReceivedFromUnattachedNode.Remove(nodeId);
                                            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, "SetNodeState: attached -> updates_received on saved state");
                                            rtable.nodestate = NodeState.updates_received;

                                        }
                                        else
                                            rtable.nodestate = nodestate;
                                    }
                                    break;
                                case NodeState.updates_received:
                                    //ignore attach messages here
                                    if (nodestate != NodeState.attached && nodestate != NodeState.attaching)
                                        rtable.nodestate = nodestate;
                                    break;
                            }

                            if (m_ReloadConfig.State == ReloadConfig.RELOAD_State.Joined
                                && (nodestate == NodeState.attached || rtable.nodestate == NodeState.updates_received)
                                && (oldstate == NodeState.attaching || oldstate == NodeState.unknown)) {
                                if (m_predecessors.Contains(nodeId) || m_successors.Contains(nodeId)) {
                                    /* A not approved node stored in successor and predecessor list became valid (attached).
                                     * This is a trigger to send an update to all (valid) neighbors
                                     */
                                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_BUG, String.Format("AddNode: New approved neighbor, send updates to all"));
                                    SendUpdateToAllNeighbors();
                                }
                            }
                        }
                        else {
                            if (nodestate == NodeState.updates_received) {
                                /* bad situation, we received an update but probably no attach answ so far
                                 * save this info for later use */
                                m_UpdateReceivedFromUnattachedNode.Add(nodeId);
                            }
                        }
                    }
                }
                catch (Exception ex) {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "SetNodeState: " + ex.Message);
                }
            }
Esempio n. 27
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    /// <summary>
    /// Checks if a inbound message must be forwarded
    /// 
    /// Returns true, if it will be forwarded
    /// </summary>
    /// <param name="reloadMsg">The inbound msg</param>
    /// <returns>true, if the message will be forwarded</returns>
    public bool ProcessMsg(ReloadMessage reloadMsg) {
      if (reloadMsg.OriginatorID == m_topology.LocalNode.Id) {
        if (m_loopedTransactions != null)
          m_loopedTransactions.Post(reloadMsg.TransactionID);
        m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR,
          String.Format("Looped back and dropped {0} <== {1} TransId={2:x16}",
          reloadMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '),
          reloadMsg.OriginatorID, reloadMsg.TransactionID));
        lock ("print via") {
          if (reloadMsg.forwarding_header.via_list != null)
            foreach (Destination via in reloadMsg.forwarding_header.via_list)
              m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR,
                String.Format("Via: {0}", via));
        }
        return true;
      }

      //check for validity
      if (reloadMsg.forwarding_header.destination_list == null ||
          reloadMsg.forwarding_header.destination_list.Count == 0) {
        //empty destination list, reply with error
        m_transport.send(m_transport.create_erro_reply(
          new Destination(m_topology.LocalNode.Id),
            RELOAD_ErrorCode.Error_Unsupported_Forwarding_Option,
            "Empty destination list", ++m_ReloadConfig.TransactionID),
            m_topology.routing_table.GetNode(reloadMsg.LastHopNodeId));
        return true;
      }


    NextDestination:

      //check first entry on destination list
      Destination dest = reloadMsg.forwarding_header.destination_list[0];

      if (reloadMsg.forwarding_header.via_list != null) {
        // check for a remarkable lenght of via headers, they should not exceed a special value (MAX_VIA_LIST_ENTRIES)
        if (reloadMsg.forwarding_header.via_list.Count > ReloadGlobals.MAX_VIA_LIST_ENTRIES) {
          m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR,
             String.Format("==> maximum via list length exceeded {0}: {1} from {2} Dest={3} TransID={4:x16}",
             ReloadGlobals.MAX_VIA_LIST_ENTRIES,
             reloadMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '),
             reloadMsg.OriginatorID, dest.ToString(), reloadMsg.TransactionID));

          if (reloadMsg.forwarding_header.via_list != null) {
            foreach (Destination destx in reloadMsg.forwarding_header.via_list)
              m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO,
                String.Format("Via={0} ", destx.ToString()));
          }
          if (reloadMsg.forwarding_header.destination_list != null) {
            foreach (Destination desty in reloadMsg.forwarding_header.destination_list)
              if (desty.type != DestinationType.node ||
                  reloadMsg.forwarding_header.destination_list.Count > 1)
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO,
                  String.Format("    Dest={0} ", desty.ToString()));
          }
          return true;
        }
      }

      switch (dest.type) {
        case DestinationType.node:

          NodeId DestinationId = dest.destination_data.node_id;

          /* some loop checks first */
          if (m_topology.LocalNode.Id == reloadMsg.OriginatorID) {
            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING,
              String.Format("==> Suspicious: packet looped back to me: {0} from {1} Dest={2} TransID={3:x16}",
              reloadMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '),
              reloadMsg.OriginatorID, dest.ToString(), reloadMsg.TransactionID));
          }

          if (DestinationId == reloadMsg.OriginatorID) {
            m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR,
              String.Format("Loop Warning: Node {0} tries to attach to itself, last hop={1} dropping request TransID={2:x16}", reloadMsg.OriginatorID, reloadMsg.LastHopNodeId, reloadMsg.TransactionID));
            if (reloadMsg.forwarding_header.via_list != null) {
              foreach (Destination destx in reloadMsg.forwarding_header.via_list)
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("    Via={0} ", destx.ToString()));
            }
            if (reloadMsg.forwarding_header.destination_list != null) {
              foreach (Destination desty in reloadMsg.forwarding_header.destination_list)
                if (desty.type != DestinationType.node || reloadMsg.forwarding_header.destination_list.Count > 1)
                  m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO,
                    String.Format("    Dest={0} ", desty.ToString()));
            }
            return true;
          }

          if (reloadMsg.forwarding_header.via_list != null) {
            foreach (Destination destination in reloadMsg.forwarding_header.via_list) {
              if (destination.type == DestinationType.node &&
                destination.destination_data.node_id == DestinationId) {
                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING,
                  String.Format("==> packet looped back to me I'm already in via list: {0} from {1} Dest={2} TransID={3:x16}", reloadMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '), reloadMsg.OriginatorID, dest.ToString(), reloadMsg.TransactionID));
                if (reloadMsg.forwarding_header.via_list != null) {
                  foreach (Destination destx in reloadMsg.forwarding_header.via_list)
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("    Via={0} ", destx.ToString()));
                }
                if (reloadMsg.forwarding_header.destination_list != null) {
                  foreach (Destination desty in reloadMsg.forwarding_header.destination_list)
                    if (desty.type != DestinationType.node || reloadMsg.forwarding_header.destination_list.Count > 1)
                      m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_INFO, String.Format("    Dest={0} ", desty.ToString()));
                }
              }
            }
          }

          //is this this node?
          if (DestinationId == m_topology.LocalNode.Id || DestinationId == ReloadGlobals.WildcardNodeId) {
            //one single entry only?
            if (reloadMsg.forwarding_header.destination_list.Count == 1)
              //message for local node
              return false;
            else {
              //remove local node from destination list
              reloadMsg.RemoveFirstDestEntry();
              reloadMsg.AddViaHeader(m_topology.LocalNode.Id);
              if (handleInterdomainMessage(reloadMsg))
                return true; //message was processed! forwarded via GateWay!
              goto NextDestination;
            }
          }

          Node NextHopNode = null;

          foreach (ReloadConnectionTableInfoElement rce in m_flm.ConnectionTable) {
            if (rce.NodeID != null && rce.NodeID == DestinationId) {
              NextHopNode = m_topology.routing_table.GetNode(DestinationId);
              break;
            }
          }

          /* Do we have ice candidates already from destination?  */
          if (NextHopNode == null)
            if (m_topology.routing_table.IsAttached(DestinationId))
              NextHopNode = m_topology.routing_table.GetNode(DestinationId);

          /* no direct physical parameters available? -> use routing */
          if (NextHopNode == null)
            /*  The Topology Plugin is responsible for maintaining the overlay
                algorithm Routing Table, which is consulted by the Forwarding and
                Link Management Layer before routing a message. 
             */

            NextHopNode = m_topology.routing_table.FindNextHopTo(
              dest.destination_data.node_id, true, false);

          if (NextHopNode == null || NextHopNode.Id == m_topology.LocalNode.Id) {
            if (reloadMsg.OriginatorID != m_topology.LocalNode.Id) {
              m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR,
                String.Format("==> failed forwarding: {0} from {1} Dest={2}" +
                " TransID={3:x16}",
                reloadMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '),
                reloadMsg.OriginatorID, dest.ToString(), reloadMsg.TransactionID));
              m_transport.send(m_transport.create_erro_reply(
                new Destination(reloadMsg.OriginatorID),
                RELOAD_ErrorCode.Error_Not_Found,
                "Node not found", ++m_ReloadConfig.TransactionID),
                m_topology.routing_table.GetNode(reloadMsg.LastHopNodeId));
            }
          }
          else {
            if (NextHopNode.Id == reloadMsg.OriginatorID) {
              m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_WARNING,
                String.Format("Topo claims Originator responsible:" +
                " {0} from {1} Dest={2} TransID={3:x16}",
                reloadMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '),
                reloadMsg.OriginatorID, dest.ToString(), reloadMsg.TransactionID));
            }

            if (reloadMsg.IsRequest()) {
              reloadMsg.AddViaHeader(m_topology.LocalNode.Id);
            }
            //else
            //  reloadMsg.PutViaListToDestination();

            reloadMsg.LastHopNodeId = m_topology.LocalNode.Id;

                m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_FORWARDING,
                  String.Format("==> forwarding: {0} from {1} ==> {2}  Dest={3} TransID={4:x16}",
                  reloadMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '),
                  reloadMsg.OriginatorID, NextHopNode.ToString(), dest.ToString(),
                  reloadMsg.TransactionID));

                m_transport.send(reloadMsg, NextHopNode);
          }
          break;
        case DestinationType.resource: {
            DestinationId = new NodeId(dest.destination_data.ressource_id);
            NodeId test = new NodeId(HexStringConverter.ToByteArray(
              "464201D3D1BDA43AC047ECD75CE6201D"));
            if (DestinationId == test)
              m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_USAGE, "");
            /*  The Topology Plugin is responsible for maintaining the overlay
                algorithm Routing Table, which is consulted by the Forwarding and
                Link Management Layer before routing a message. 
             */

            if (DestinationId == m_topology.LocalNode.Id) // || (m_topology.routing_table.Predecessors.Count > 0 &&
              //DestinationId.ElementOfInterval(m_topology.routing_table.Predecessors[0], m_ReloadConfig.LocalNodeID, false)))
              //message for local node
              return false;

            /* be carefull here, if this request looped back to us, exclude us from the possible forwarding targets
             */
            NextHopNode = m_topology.routing_table.FindNextHopTo(DestinationId, true, m_topology.LocalNode.Id == reloadMsg.OriginatorID);

            if (NextHopNode == null) {
              //we did not found another node responsible, so we are => message for local node
              return false;
            }
            else if (NextHopNode.Id == m_topology.LocalNode.Id) {
              //silently drop packet if there is more then one entry in destination list
              if (reloadMsg.forwarding_header.destination_list.Count > 1)
                break;
              //message for local node
              return false;
            }
            else {
              if (reloadMsg.IsRequest())
                reloadMsg.AddViaHeader(m_topology.LocalNode.Id);
              else
                reloadMsg.RemoveFirstDestEntry();

                  m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_FORWARDING,
                    String.Format("==> forwarding: {0} from {1} ==> {2} Dest={3} TransID={4:x16}",
                    reloadMsg.reload_message_body.RELOAD_MsgCode.ToString().PadRight(16, ' '),
                    reloadMsg.OriginatorID, NextHopNode.ToString(), dest.ToString(),
                    reloadMsg.TransactionID));
                  /*  don't use create_reload* as it puts via header to destination   */
                  m_transport.send(reloadMsg, NextHopNode);
            }
          }
          break;
        case DestinationType.compressed:
          //empty destination list, reply with error
          m_transport.send(m_transport.create_erro_reply(
            new Destination(reloadMsg.OriginatorID),
            RELOAD_ErrorCode.Error_Unsupported_Forwarding_Option,
            "Compressed destination type not supported",
            ++m_ReloadConfig.TransactionID),
            m_topology.routing_table.GetNode(reloadMsg.LastHopNodeId));
          break;
      }
      return true;
    }
Esempio n. 28
0
 /// <summary>
 /// Returns true, if the tested Finger is needed for fingertable
 /// </summary>
 /// <param name="testFinger"></param>
 /// <returns></returns>
 public bool isFinger(NodeId testFinger) {
     FTableEntry finger = null;
     return isFinger(testFinger, out finger);
 }
Esempio n. 29
0
            } // end AttachFingers

            /// <summary>
            /// Returns true if attaching Node should be added to finger table.
            /// </summary>
            /// <param name="testFinger">The attaching node</param>
            /// <param name="finger">The first Finger Table entry machting the attaching node.</param>
            /// <returns>Boolean</returns>
            public bool isFinger(NodeId testFinger, out FTableEntry finger) {
                foreach (FTableEntry ftEntry in FingerTable) {
                    if (ftEntry.nodestate == NodeState.unknown) {
                        if (ftEntry.Finger.ElementOfInterval(m_local_node.Id, testFinger, true)) {
                            finger = ftEntry;
                            return true;
                        }
                    }
                    else { // is closer?
                        if (testFinger.ElementOfInterval(ftEntry.Finger, ftEntry.Successor, false)) {
                            finger = ftEntry;
                            return true;
                        }
                    }
                }
                finger = null;
                return false;
            }
Esempio n. 30
0
            internal void SetPinging(NodeId nodeId, bool ping, bool success) {
                try {
                    RTableEntry rtable_entry;

                    lock (m_RtTable) {
                        if (nodeId != null && m_RtTable.TryGetValue(nodeId.ToString(), out rtable_entry)) {
                            rtable_entry.pinging = ping;
                            if (success)
                                rtable_entry.dtLastSuccessfullPing = DateTime.Now;
                        }
                    }
                }
                catch (Exception ex) {
                    m_ReloadConfig.Logger(ReloadGlobals.TRACEFLAGS.T_ERROR, "SetPinging: " + ex.Message);
                }
            }