2 * Copyright (c) 2013 Cisco Systems, Inc. and others. All rights reserved.
4 * This program and the accompanying materials are made available under the
5 * terms of the Eclipse Public License v1.0 which accompanies this distribution,
6 * and is available at http://www.eclipse.org/legal/epl-v10.html
9 package org.opendaylight.controller.topologymanager.internal;
11 import java.io.FileNotFoundException;
12 import java.io.IOException;
13 import java.io.ObjectInputStream;
14 import java.util.ArrayList;
15 import java.util.Dictionary;
16 import java.util.EnumSet;
17 import java.util.HashMap;
18 import java.util.HashSet;
19 import java.util.Iterator;
20 import java.util.LinkedList;
21 import java.util.List;
24 import java.util.concurrent.BlockingQueue;
25 import java.util.concurrent.ConcurrentHashMap;
26 import java.util.concurrent.ConcurrentMap;
27 import java.util.concurrent.CopyOnWriteArraySet;
28 import java.util.concurrent.LinkedBlockingQueue;
30 import org.apache.commons.lang3.tuple.ImmutablePair;
31 import org.apache.felix.dm.Component;
32 import org.eclipse.osgi.framework.console.CommandInterpreter;
33 import org.eclipse.osgi.framework.console.CommandProvider;
34 import org.opendaylight.controller.clustering.services.CacheConfigException;
35 import org.opendaylight.controller.clustering.services.CacheExistException;
36 import org.opendaylight.controller.clustering.services.ICacheUpdateAware;
37 import org.opendaylight.controller.clustering.services.IClusterContainerServices;
38 import org.opendaylight.controller.clustering.services.IClusterServices;
39 import org.opendaylight.controller.configuration.ConfigurationObject;
40 import org.opendaylight.controller.configuration.IConfigurationContainerAware;
41 import org.opendaylight.controller.configuration.IConfigurationContainerService;
42 import org.opendaylight.controller.sal.core.Edge;
43 import org.opendaylight.controller.sal.core.Host;
44 import org.opendaylight.controller.sal.core.Node;
45 import org.opendaylight.controller.sal.core.NodeConnector;
46 import org.opendaylight.controller.sal.core.Property;
47 import org.opendaylight.controller.sal.core.TimeStamp;
48 import org.opendaylight.controller.sal.core.UpdateType;
49 import org.opendaylight.controller.sal.topology.IListenTopoUpdates;
50 import org.opendaylight.controller.sal.topology.ITopologyService;
51 import org.opendaylight.controller.sal.topology.TopoEdgeUpdate;
52 import org.opendaylight.controller.sal.utils.IObjectReader;
53 import org.opendaylight.controller.sal.utils.NodeConnectorCreator;
54 import org.opendaylight.controller.sal.utils.Status;
55 import org.opendaylight.controller.sal.utils.StatusCode;
56 import org.opendaylight.controller.switchmanager.ISwitchManager;
57 import org.opendaylight.controller.topologymanager.ITopologyManager;
58 import org.opendaylight.controller.topologymanager.ITopologyManagerAware;
59 import org.opendaylight.controller.topologymanager.ITopologyManagerClusterWideAware;
60 import org.opendaylight.controller.topologymanager.TopologyUserLinkConfig;
61 import org.osgi.framework.BundleContext;
62 import org.osgi.framework.FrameworkUtil;
63 import org.slf4j.Logger;
64 import org.slf4j.LoggerFactory;
67 * The class describes TopologyManager which is the central repository of the
68 * network topology. It provides service for applications to interact with
69 * topology database and notifies all the listeners of topology changes.
71 public class TopologyManagerImpl implements
72 ICacheUpdateAware<Object, Object>,
74 IConfigurationContainerAware,
78 protected static final String TOPOEDGESDB = "topologymanager.edgesDB";
79 protected static final String TOPOHOSTSDB = "topologymanager.hostsDB";
80 protected static final String TOPONODECONNECTORDB = "topologymanager.nodeConnectorDB";
81 protected static final String TOPOUSERLINKSDB = "topologymanager.userLinksDB";
82 private static final String USER_LINKS_FILE_NAME = "userTopology.conf";
83 private static final Logger log = LoggerFactory.getLogger(TopologyManagerImpl.class);
84 private ITopologyService topoService;
85 private IClusterContainerServices clusterContainerService;
86 private IConfigurationContainerService configurationService;
87 private ISwitchManager switchManager;
88 // DB of all the Edges with properties which constitute our topology
89 private ConcurrentMap<Edge, Set<Property>> edgesDB;
90 // DB of all NodeConnector which are part of ISL Edges, meaning they
91 // are connected to another NodeConnector on the other side of an ISL link.
92 // NodeConnector of a Production Edge is not part of this DB.
93 private ConcurrentMap<NodeConnector, Set<Property>> nodeConnectorsDB;
94 // DB of all the NodeConnectors with an Host attached to it
95 private ConcurrentMap<NodeConnector, Set<ImmutablePair<Host, Set<Property>>>> hostsDB;
96 // Topology Manager Aware listeners
97 private Set<ITopologyManagerAware> topologyManagerAware = new CopyOnWriteArraySet<ITopologyManagerAware>();
98 // Topology Manager Aware listeners - for clusterwide updates
99 private Set<ITopologyManagerClusterWideAware> topologyManagerClusterWideAware =
100 new CopyOnWriteArraySet<ITopologyManagerClusterWideAware>();
101 private ConcurrentMap<String, TopologyUserLinkConfig> userLinksDB;
102 private BlockingQueue<TopoEdgeUpdate> notifyQ = new LinkedBlockingQueue<TopoEdgeUpdate>();
103 private volatile Boolean shuttingDown = false;
104 private Thread notifyThread;
107 void nonClusterObjectCreate() {
108 edgesDB = new ConcurrentHashMap<Edge, Set<Property>>();
109 hostsDB = new ConcurrentHashMap<NodeConnector, Set<ImmutablePair<Host, Set<Property>>>>();
110 nodeConnectorsDB = new ConcurrentHashMap<NodeConnector, Set<Property>>();
111 userLinksDB = new ConcurrentHashMap<String, TopologyUserLinkConfig>();
114 void setTopologyManagerAware(ITopologyManagerAware s) {
115 if (this.topologyManagerAware != null) {
116 log.debug("Adding ITopologyManagerAware: {}", s);
117 this.topologyManagerAware.add(s);
121 void unsetTopologyManagerAware(ITopologyManagerAware s) {
122 if (this.topologyManagerAware != null) {
123 log.debug("Removing ITopologyManagerAware: {}", s);
124 this.topologyManagerAware.remove(s);
128 void setTopologyManagerClusterWideAware(ITopologyManagerClusterWideAware s) {
129 if (this.topologyManagerClusterWideAware != null) {
130 log.debug("Adding ITopologyManagerClusterWideAware: {}", s);
131 this.topologyManagerClusterWideAware.add(s);
135 void unsetTopologyManagerClusterWideAware(ITopologyManagerClusterWideAware s) {
136 if (this.topologyManagerClusterWideAware != null) {
137 log.debug("Removing ITopologyManagerClusterWideAware: {}", s);
138 this.topologyManagerClusterWideAware.remove(s);
142 void setTopoService(ITopologyService s) {
143 log.debug("Adding ITopologyService: {}", s);
144 this.topoService = s;
147 void unsetTopoService(ITopologyService s) {
148 if (this.topoService == s) {
149 log.debug("Removing ITopologyService: {}", s);
150 this.topoService = null;
154 void setClusterContainerService(IClusterContainerServices s) {
155 log.debug("Cluster Service set");
156 this.clusterContainerService = s;
159 void unsetClusterContainerService(IClusterContainerServices s) {
160 if (this.clusterContainerService == s) {
161 log.debug("Cluster Service removed!");
162 this.clusterContainerService = null;
166 public void setConfigurationContainerService(IConfigurationContainerService service) {
167 log.trace("Got configuration service set request {}", service);
168 this.configurationService = service;
171 public void unsetConfigurationContainerService(IConfigurationContainerService service) {
172 log.trace("Got configuration service UNset request");
173 this.configurationService = null;
176 void setSwitchManager(ISwitchManager s) {
177 log.debug("Adding ISwitchManager: {}", s);
178 this.switchManager = s;
181 void unsetSwitchManager(ISwitchManager s) {
182 if (this.switchManager == s) {
183 log.debug("Removing ISwitchManager: {}", s);
184 this.switchManager = null;
189 * Function called by the dependency manager when all the required
190 * dependencies are satisfied
193 void init(Component c) {
196 String containerName = null;
197 Dictionary<?, ?> props = c.getServiceProperties();
199 containerName = (String) props.get("containerName");
201 // In the Global instance case the containerName is empty
202 containerName = "UNKNOWN";
205 registerWithOSGIConsole();
208 // Restore the shuttingDown status on init of the component
209 shuttingDown = false;
210 notifyThread = new Thread(new TopologyNotify(notifyQ));
213 @SuppressWarnings({ "unchecked" })
214 private void allocateCaches() {
216 (ConcurrentMap<Edge, Set<Property>>) allocateCache(TOPOEDGESDB,EnumSet.of(IClusterServices.cacheMode.TRANSACTIONAL));
219 (ConcurrentMap<NodeConnector, Set<ImmutablePair<Host, Set<Property>>>>) allocateCache(TOPOHOSTSDB, EnumSet.of(IClusterServices.cacheMode.TRANSACTIONAL));
221 this.nodeConnectorsDB =
222 (ConcurrentMap<NodeConnector, Set<Property>>) allocateCache(
223 TOPONODECONNECTORDB, EnumSet.of(IClusterServices.cacheMode.TRANSACTIONAL));
225 (ConcurrentMap<String, TopologyUserLinkConfig>) allocateCache(
226 TOPOUSERLINKSDB, EnumSet.of(IClusterServices.cacheMode.TRANSACTIONAL));
229 private ConcurrentMap<?, ?> allocateCache(String cacheName, Set<IClusterServices.cacheMode> cacheModes) {
230 ConcurrentMap<?, ?> cache = null;
232 cache = this.clusterContainerService.createCache(cacheName, cacheModes);
233 } catch (CacheExistException e) {
234 log.debug(cacheName + " cache already exists - destroy and recreate if needed");
235 } catch (CacheConfigException e) {
236 log.error(cacheName + " cache configuration invalid - check cache mode");
241 @SuppressWarnings({ "unchecked" })
242 private void retrieveCaches() {
243 if (this.clusterContainerService == null) {
244 log.error("Cluster Services is null, can't retrieve caches.");
248 this.edgesDB = (ConcurrentMap<Edge, Set<Property>>) this.clusterContainerService.getCache(TOPOEDGESDB);
249 if (edgesDB == null) {
250 log.error("Failed to get cache for " + TOPOEDGESDB);
254 (ConcurrentMap<NodeConnector, Set<ImmutablePair<Host, Set<Property>>>>) this.clusterContainerService.getCache(TOPOHOSTSDB);
255 if (hostsDB == null) {
256 log.error("Failed to get cache for " + TOPOHOSTSDB);
259 this.nodeConnectorsDB =
260 (ConcurrentMap<NodeConnector, Set<Property>>) this.clusterContainerService.getCache(TOPONODECONNECTORDB);
261 if (nodeConnectorsDB == null) {
262 log.error("Failed to get cache for " + TOPONODECONNECTORDB);
266 (ConcurrentMap<String, TopologyUserLinkConfig>) this.clusterContainerService.getCache(TOPOUSERLINKSDB);
267 if (userLinksDB == null) {
268 log.error("Failed to get cache for " + TOPOUSERLINKSDB);
273 * Function called after the topology manager has registered the service in
274 * OSGi service registry.
278 // Start the batcher thread for the cluster wide topology updates
279 notifyThread.start();
280 // SollicitRefresh MUST be called here else if called at init
281 // time it may sollicit refresh too soon.
282 log.debug("Sollicit topology refresh");
283 topoService.sollicitRefresh();
288 notifyThread.interrupt();
292 * Function called by the dependency manager when at least one dependency
293 * become unsatisfied or when the component is shutting down because for
294 * example bundle is being stopped.
302 private void loadConfiguration() {
303 for (ConfigurationObject conf : configurationService.retrieveConfiguration(this, USER_LINKS_FILE_NAME)) {
304 addUserLink((TopologyUserLinkConfig) conf);
309 public Status saveConfig() {
310 return saveConfigInternal();
313 public Status saveConfigInternal() {
314 Status saveStatus = configurationService.persistConfiguration(
315 new ArrayList<ConfigurationObject>(userLinksDB.values()), USER_LINKS_FILE_NAME);
317 if (!saveStatus.isSuccess()) {
318 return new Status(StatusCode.INTERNALERROR, "Topology save failed: " + saveStatus.getDescription());
324 public Map<Node, Set<Edge>> getNodeEdges() {
325 if (this.edgesDB == null) {
329 Map<Node, Set<Edge>> res = new HashMap<Node, Set<Edge>>();
330 for (Edge edge : this.edgesDB.keySet()) {
331 // Lets analyze the tail
332 Node node = edge.getTailNodeConnector().getNode();
333 Set<Edge> nodeEdges = res.get(node);
334 if (nodeEdges == null) {
335 nodeEdges = new HashSet<Edge>();
336 res.put(node, nodeEdges);
340 // Lets analyze the head
341 node = edge.getHeadNodeConnector().getNode();
342 nodeEdges = res.get(node);
343 if (nodeEdges == null) {
344 nodeEdges = new HashSet<Edge>();
345 res.put(node, nodeEdges);
354 public boolean isInternal(NodeConnector p) {
355 if (this.nodeConnectorsDB == null) {
359 // This is an internal NodeConnector if is connected to
360 // another Node i.e it's part of the nodeConnectorsDB
361 return (this.nodeConnectorsDB.get(p) != null);
365 * This method returns true if the edge is an ISL link.
369 * @return true if it is an ISL link
371 public boolean isISLink(Edge e) {
372 return (!isProductionLink(e));
376 * This method returns true if the edge is a production link.
380 * @return true if it is a production link
382 public boolean isProductionLink(Edge e) {
383 return (e.getHeadNodeConnector().getType().equals(NodeConnector.NodeConnectorIDType.PRODUCTION)
384 || e.getTailNodeConnector().getType().equals(NodeConnector.NodeConnectorIDType.PRODUCTION));
388 * This method cross checks the determination of nodeConnector type by Discovery Service
389 * against the information in SwitchManager and updates it accordingly.
393 private void crossCheckNodeConnectors(Edge e) {
395 if (e.getHeadNodeConnector().getType().equals(NodeConnector.NodeConnectorIDType.PRODUCTION)) {
396 nc = updateNCTypeFromSwitchMgr(e.getHeadNodeConnector());
398 e.setHeadNodeConnector(nc);
401 if (e.getTailNodeConnector().getType().equals(NodeConnector.NodeConnectorIDType.PRODUCTION)) {
402 nc = updateNCTypeFromSwitchMgr(e.getTailNodeConnector());
404 e.setTailNodeConnector(nc);
410 * A NodeConnector may have been categorized as of type Production by Discovery Service.
411 * But at the time when this determination was made, only OF nodes were known to Discovery
412 * Service. This method checks if the node of nodeConnector is known to SwitchManager. If
413 * so, then it returns a new NodeConnector with correct type.
416 * NodeConnector as passed on in the edge
418 * If Node of the NodeConnector is in SwitchManager, then return a new NodeConnector
419 * with correct type, null otherwise
422 private NodeConnector updateNCTypeFromSwitchMgr(NodeConnector nc) {
424 for (Node node : switchManager.getNodes()) {
425 String nodeName = node.getNodeIDString();
426 log.trace("Switch Manager Node Name: {}, NodeConnector Node Name: {}", nodeName,
427 nc.getNode().getNodeIDString());
428 if (nodeName.equals(nc.getNode().getNodeIDString())) {
429 NodeConnector nodeConnector = NodeConnectorCreator
430 .createNodeConnector(node.getType(), nc.getID(), node);
431 return nodeConnector;
438 * The Map returned is a copy of the current topology hence if the topology
439 * changes the copy doesn't
441 * @return A Map representing the current topology expressed as edges of the
445 public Map<Edge, Set<Property>> getEdges() {
446 if (this.edgesDB == null) {
450 Map<Edge, Set<Property>> edgeMap = new HashMap<Edge, Set<Property>>();
452 for (Map.Entry<Edge, Set<Property>> edgeEntry : edgesDB.entrySet()) {
453 // Sets of props are copied because the composition of
454 // those properties could change with time
455 props = new HashSet<Property>(edgeEntry.getValue());
456 // We can simply reuse the key because the object is
457 // immutable so doesn't really matter that we are
458 // referencing the only owned by a different table, the
459 // meaning is the same because doesn't change with time.
460 edgeMap.put(edgeEntry.getKey(), props);
467 public Set<NodeConnector> getNodeConnectorWithHost() {
468 if (this.hostsDB == null) {
472 return (new HashSet<NodeConnector>(this.hostsDB.keySet()));
476 public Map<Node, Set<NodeConnector>> getNodesWithNodeConnectorHost() {
477 if (this.hostsDB == null) {
480 HashMap<Node, Set<NodeConnector>> res = new HashMap<Node, Set<NodeConnector>>();
482 Set<NodeConnector> portSet;
483 for (NodeConnector nc : this.hostsDB.keySet()) {
485 portSet = res.get(node);
486 if (portSet == null) {
487 // Create the HashSet if null
488 portSet = new HashSet<NodeConnector>();
489 res.put(node, portSet);
492 // Keep updating the HashSet, given this is not a
493 // clustered map we can just update the set without
494 // worrying to update the hashmap.
502 public Host getHostAttachedToNodeConnector(NodeConnector port) {
503 List<Host> hosts = getHostsAttachedToNodeConnector(port);
504 if(hosts != null && !hosts.isEmpty()){
511 public List<Host> getHostsAttachedToNodeConnector(NodeConnector p) {
512 Set<ImmutablePair<Host, Set<Property>>> hosts;
513 if (this.hostsDB == null || (hosts = this.hostsDB.get(p)) == null) {
516 // create a list of hosts
517 List<Host> retHosts = new LinkedList<Host>();
518 for(ImmutablePair<Host, Set<Property>> host : hosts) {
519 retHosts.add(host.getLeft());
525 public synchronized void updateHostLink(NodeConnector port, Host h, UpdateType t, Set<Property> props) {
527 // Clone the property set in case non null else just
528 // create an empty one. Caches allocated via infinispan
529 // don't allow null values
531 props = new HashSet<Property>();
533 props = new HashSet<Property>(props);
535 ImmutablePair<Host, Set<Property>> thisHost = new ImmutablePair<Host, Set<Property>>(h, props);
538 Set<ImmutablePair<Host, Set<Property>>> hostSet = this.hostsDB.get(port);
539 if(hostSet == null) {
540 hostSet = new HashSet<ImmutablePair<Host, Set<Property>>>();
545 hostSet.add(thisHost);
546 this.hostsDB.put(port, hostSet);
549 hostSet.remove(thisHost);
550 if(hostSet.isEmpty()) {
551 //remove only if hasn't been concurrently modified
552 this.hostsDB.remove(port, hostSet);
554 this.hostsDB.put(port, hostSet);
560 private boolean headNodeConnectorExist(Edge e) {
562 * Only check the head end point which is supposed to be part of a
563 * network node we control (present in our inventory). If we checked the
564 * tail end point as well, we would not store the edges that connect to
565 * a non sdn enable port on a non sdn capable production switch. We want
566 * to be able to see these switches on the topology.
568 NodeConnector head = e.getHeadNodeConnector();
569 return (switchManager.doesNodeConnectorExist(head));
572 private TopoEdgeUpdate edgeUpdate(Edge e, UpdateType type, Set<Property> props) {
577 if (this.edgesDB.containsKey(e)) {
578 // Avoid redundant updates (e.g. cluster switch-over) as notifications trigger expensive tasks
579 log.trace("Skipping redundant edge addition: {}", e);
583 // Make sure the props are non-null or create a copy
585 props = new HashSet<Property>();
587 props = new HashSet<Property>(props);
591 // Ensure that head node connector exists
592 if (!headNodeConnectorExist(e)) {
593 log.warn("Ignore edge that contains invalid node connector: {}", e);
597 // Check if nodeConnectors of the edge were correctly categorized
598 // by protocol plugin
599 crossCheckNodeConnectors(e);
601 // Now make sure there is the creation timestamp for the
602 // edge, if not there, stamp with the first update
603 boolean found_create = false;
604 for (Property prop : props) {
605 if (prop instanceof TimeStamp) {
606 TimeStamp t = (TimeStamp) prop;
607 if (t.getTimeStampName().equals("creation")) {
615 TimeStamp t = new TimeStamp(System.currentTimeMillis(), "creation");
619 // Now add this in the database eventually overriding
620 // something that may have been already existing
621 this.edgesDB.put(e, props);
623 // Now populate the DB of NodeConnectors
624 // NOTE WELL: properties are empty sets, not really needed
626 // The DB only contains ISL ports
628 this.nodeConnectorsDB.put(e.getHeadNodeConnector(), new HashSet<Property>(1));
629 this.nodeConnectorsDB.put(e.getTailNodeConnector(), new HashSet<Property>(1));
631 log.trace("Edge {} {}", e.toString(), type.name());
634 // Now remove the edge from edgesDB
635 this.edgesDB.remove(e);
637 // Now lets update the NodeConnectors DB, the assumption
638 // here is that two NodeConnector are exclusively
639 // connected by 1 and only 1 edge, this is reasonable in
640 // the same plug (virtual of phisical) we can assume two
641 // cables won't be plugged. This could break only in case
642 // of devices in the middle that acts as hubs, but it
643 // should be safe to assume that won't happen.
644 this.nodeConnectorsDB.remove(e.getHeadNodeConnector());
645 this.nodeConnectorsDB.remove(e.getTailNodeConnector());
646 log.trace("Edge {} {}", e.toString(), type.name());
649 Set<Property> oldProps = this.edgesDB.get(e);
651 // When property(s) changes lets make sure we can change it
652 // all except the creation time stamp because that should
653 // be set only when the edge is created
654 TimeStamp timeStamp = null;
655 for (Property prop : oldProps) {
656 if (prop instanceof TimeStamp) {
657 TimeStamp tsProp = (TimeStamp) prop;
658 if (tsProp.getTimeStampName().equals("creation")) {
665 // Now lets make sure new properties are non-null
667 props = new HashSet<Property>();
669 // Copy the set so noone is going to change the content
670 props = new HashSet<Property>(props);
673 // Now lets remove the creation property if exist in the
675 for (Iterator<Property> i = props.iterator(); i.hasNext();) {
676 Property prop = i.next();
677 if (prop instanceof TimeStamp) {
678 TimeStamp t = (TimeStamp) prop;
679 if (t.getTimeStampName().equals("creation")) {
686 // Now lets add the creation timestamp in it
687 if (timeStamp != null) {
688 props.add(timeStamp);
692 this.edgesDB.put(e, props);
693 log.trace("Edge {} {}", e.toString(), type.name());
696 return new TopoEdgeUpdate(e, props, type);
700 public void edgeUpdate(List<TopoEdgeUpdate> topoedgeupdateList) {
701 List<TopoEdgeUpdate> teuList = new ArrayList<TopoEdgeUpdate>();
702 for (int i = 0; i < topoedgeupdateList.size(); i++) {
703 Edge e = topoedgeupdateList.get(i).getEdge();
704 Set<Property> p = topoedgeupdateList.get(i).getProperty();
705 UpdateType type = topoedgeupdateList.get(i).getUpdateType();
706 TopoEdgeUpdate teu = edgeUpdate(e, type, p);
712 if (!teuList.isEmpty()) {
713 // Now update the listeners
714 for (ITopologyManagerAware s : this.topologyManagerAware) {
716 s.edgeUpdate(teuList);
717 } catch (Exception exc) {
718 log.error("Exception on edge update:", exc);
724 private Edge getReverseLinkTuple(TopologyUserLinkConfig link) {
725 TopologyUserLinkConfig rLink = new TopologyUserLinkConfig(
726 link.getName(), link.getDstNodeConnector(), link.getSrcNodeConnector());
727 return getLinkTuple(rLink);
731 private Edge getLinkTuple(TopologyUserLinkConfig link) {
732 NodeConnector srcNodeConnector = NodeConnector.fromString(link.getSrcNodeConnector());
733 NodeConnector dstNodeConnector = NodeConnector.fromString(link.getDstNodeConnector());
735 return new Edge(srcNodeConnector, dstNodeConnector);
736 } catch (Exception e) {
742 public ConcurrentMap<String, TopologyUserLinkConfig> getUserLinks() {
743 return new ConcurrentHashMap<String, TopologyUserLinkConfig>(userLinksDB);
747 public Status addUserLink(TopologyUserLinkConfig userLink) {
748 if (!userLink.isValid()) {
749 return new Status(StatusCode.BADREQUEST,
750 "User link configuration invalid.");
752 userLink.setStatus(TopologyUserLinkConfig.STATUS.LINKDOWN);
754 //Check if this link already configured
755 //NOTE: infinispan cache doesn't support Map.containsValue()
756 // (which is linear time in most ConcurrentMap impl anyway)
757 for (TopologyUserLinkConfig existingLink : userLinksDB.values()) {
758 if (existingLink.equals(userLink)) {
759 return new Status(StatusCode.CONFLICT, "Link configuration exists");
762 //attempt put, if mapping for this key already existed return conflict
763 if (userLinksDB.putIfAbsent(userLink.getName(), userLink) != null) {
764 return new Status(StatusCode.CONFLICT, "Link with name : " + userLink.getName()
765 + " already exists. Please use another name");
768 Edge linkTuple = getLinkTuple(userLink);
769 if (linkTuple != null) {
770 if (!isProductionLink(linkTuple)) {
771 TopoEdgeUpdate teu = edgeUpdate(linkTuple, UpdateType.ADDED,
772 new HashSet<Property>());
774 userLinksDB.remove(userLink.getName());
775 return new Status(StatusCode.NOTFOUND,
776 "Link configuration contains invalid node connector: "
781 linkTuple = getReverseLinkTuple(userLink);
782 if (linkTuple != null) {
783 userLink.setStatus(TopologyUserLinkConfig.STATUS.SUCCESS);
784 if (!isProductionLink(linkTuple)) {
785 edgeUpdate(linkTuple, UpdateType.ADDED, new HashSet<Property>());
789 return new Status(StatusCode.SUCCESS);
793 public Status deleteUserLink(String linkName) {
794 if (linkName == null) {
795 return new Status(StatusCode.BADREQUEST, "User link name cannot be null.");
798 TopologyUserLinkConfig link = userLinksDB.remove(linkName);
800 if ((link != null) && ((linkTuple = getLinkTuple(link)) != null)) {
801 if (! isProductionLink(linkTuple)) {
802 edgeUpdate(linkTuple, UpdateType.REMOVED, null);
805 linkTuple = getReverseLinkTuple(link);
806 if (! isProductionLink(linkTuple)) {
807 edgeUpdate(linkTuple, UpdateType.REMOVED, null);
810 return new Status(StatusCode.SUCCESS);
813 private void registerWithOSGIConsole() {
814 BundleContext bundleContext = FrameworkUtil.getBundle(this.getClass())
816 bundleContext.registerService(CommandProvider.class.getName(), this,
821 public String getHelp() {
822 StringBuffer help = new StringBuffer();
823 help.append("---Topology Manager---\n");
824 help.append("\t addUserLink <name> <node connector string> <node connector string>\n");
825 help.append("\t deleteUserLink <name>\n");
826 help.append("\t printUserLink\n");
827 help.append("\t printNodeEdges\n");
828 return help.toString();
831 public void _printUserLink(CommandInterpreter ci) {
832 for (String name : this.userLinksDB.keySet()) {
833 TopologyUserLinkConfig linkConfig = userLinksDB.get(name);
834 ci.println("Name : " + name);
835 ci.println(linkConfig);
836 ci.println("Edge " + getLinkTuple(linkConfig));
837 ci.println("Reverse Edge " + getReverseLinkTuple(linkConfig));
841 public void _addUserLink(CommandInterpreter ci) {
842 String name = ci.nextArgument();
843 if ((name == null)) {
844 ci.println("Please enter a valid Name");
848 String ncStr1 = ci.nextArgument();
849 if (ncStr1 == null) {
850 ci.println("Please enter two node connector strings");
853 String ncStr2 = ci.nextArgument();
854 if (ncStr2 == null) {
855 ci.println("Please enter second node connector string");
859 NodeConnector nc1 = NodeConnector.fromString(ncStr1);
861 ci.println("Invalid input node connector 1 string: " + ncStr1);
864 NodeConnector nc2 = NodeConnector.fromString(ncStr2);
866 ci.println("Invalid input node connector 2 string: " + ncStr2);
870 TopologyUserLinkConfig config = new TopologyUserLinkConfig(name, ncStr1, ncStr2);
871 ci.println(this.addUserLink(config));
874 public void _deleteUserLink(CommandInterpreter ci) {
875 String name = ci.nextArgument();
876 if ((name == null)) {
877 ci.println("Please enter a valid Name");
880 this.deleteUserLink(name);
883 public void _printNodeEdges(CommandInterpreter ci) {
884 Map<Node, Set<Edge>> nodeEdges = getNodeEdges();
885 if (nodeEdges == null) {
888 Set<Node> nodeSet = nodeEdges.keySet();
889 if (nodeSet == null) {
892 ci.println(" Node Edge");
893 for (Node node : nodeSet) {
894 Set<Edge> edgeSet = nodeEdges.get(node);
895 if (edgeSet == null) {
898 for (Edge edge : edgeSet) {
899 ci.println(node + " " + edge);
905 public Object readObject(ObjectInputStream ois)
906 throws FileNotFoundException, IOException, ClassNotFoundException {
907 return ois.readObject();
911 public Status saveConfiguration() {
916 public void edgeOverUtilized(Edge edge) {
917 log.warn("Link Utilization above normal: {}", edge);
921 public void edgeUtilBackToNormal(Edge edge) {
922 log.warn("Link Utilization back to normal: {}", edge);
925 private void edgeUpdateClusterWide(Edge e, UpdateType type, Set<Property> props, boolean isLocal) {
926 TopoEdgeUpdate upd = new TopoEdgeUpdate(e, props, type);
927 upd.setLocal(isLocal);
932 public void entryCreated(final Object key, final String cacheName, final boolean originLocal) {
933 if (cacheName.equals(TOPOEDGESDB)) {
934 // This is the case of an Edge being added to the topology DB
935 final Edge e = (Edge) key;
936 log.trace("Edge {} CREATED isLocal:{}", e, originLocal);
937 edgeUpdateClusterWide(e, UpdateType.ADDED, null, originLocal);
942 public void entryUpdated(final Object key, final Object new_value, final String cacheName, final boolean originLocal) {
943 if (cacheName.equals(TOPOEDGESDB)) {
944 final Edge e = (Edge) key;
945 log.trace("Edge {} UPDATED isLocal:{}", e, originLocal);
946 final Set<Property> props = (Set<Property>) new_value;
947 edgeUpdateClusterWide(e, UpdateType.CHANGED, props, originLocal);
952 public void entryDeleted(final Object key, final String cacheName, final boolean originLocal) {
953 if (cacheName.equals(TOPOEDGESDB)) {
954 final Edge e = (Edge) key;
955 log.trace("Edge {} DELETED isLocal:{}", e, originLocal);
956 edgeUpdateClusterWide(e, UpdateType.REMOVED, null, originLocal);
960 class TopologyNotify implements Runnable {
961 private final BlockingQueue<TopoEdgeUpdate> notifyQ;
962 private TopoEdgeUpdate entry;
963 private List<TopoEdgeUpdate> teuList = new ArrayList<TopoEdgeUpdate>();
964 private boolean notifyListeners;
966 TopologyNotify(BlockingQueue<TopoEdgeUpdate> notifyQ) {
967 this.notifyQ = notifyQ;
974 log.trace("New run of TopologyNotify");
975 notifyListeners = false;
976 // First we block waiting for an element to get in
977 entry = notifyQ.take();
978 // Then we drain the whole queue if elements are
979 // in it without getting into any blocking condition
980 for (; entry != null; entry = notifyQ.poll()) {
982 notifyListeners = true;
985 // Notify listeners only if there were updates drained else
987 if (notifyListeners) {
988 log.trace("Notifier thread, notified a listener");
989 // Now update the listeners
990 for (ITopologyManagerClusterWideAware s : topologyManagerClusterWideAware) {
992 s.edgeUpdate(teuList);
993 } catch (Exception exc) {
994 log.error("Exception on edge update:", exc);
1000 // Lets sleep for sometime to allow aggregation of event
1002 } catch (InterruptedException e1) {
1006 log.warn("TopologyNotify interrupted {}", e1.getMessage());
1007 } catch (Exception e2) {