import java.util.concurrent.Callable;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
+import java.util.concurrent.CopyOnWriteArraySet;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.Future;
import org.apache.felix.dm.Component;
+import org.eclipse.osgi.framework.console.CommandInterpreter;
+import org.eclipse.osgi.framework.console.CommandProvider;
import org.opendaylight.controller.clustering.services.CacheConfigException;
import org.opendaylight.controller.clustering.services.CacheExistException;
+import org.opendaylight.controller.clustering.services.ICacheUpdateAware;
import org.opendaylight.controller.clustering.services.IClusterContainerServices;
import org.opendaylight.controller.clustering.services.IClusterServices;
import org.opendaylight.controller.hosttracker.IfHostListener;
import org.opendaylight.controller.switchmanager.Subnet;
import org.opendaylight.controller.topologymanager.ITopologyManager;
import org.opendaylight.controller.topologymanager.ITopologyManagerAware;
+import org.osgi.framework.BundleContext;
+import org.osgi.framework.FrameworkUtil;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
*/
public class HostTracker implements IfIptoHost, IfHostListener, ISwitchManagerAware, IInventoryListener,
- ITopologyManagerAware {
+ ITopologyManagerAware, ICacheUpdateAware<InetAddress, HostNodeConnector>, CommandProvider {
+ static final String ACTIVE_HOST_CACHE = "hosttracker.ActiveHosts";
+ static final String INACTIVE_HOST_CACHE = "hosttracker.InactiveHosts";
private static final Logger logger = LoggerFactory.getLogger(HostTracker.class);
- private IHostFinder hostFinder;
- private ConcurrentMap<InetAddress, HostNodeConnector> hostsDB;
+ protected final Set<IHostFinder> hostFinder = new CopyOnWriteArraySet<IHostFinder>();;
+ protected ConcurrentMap<InetAddress, HostNodeConnector> hostsDB;
/*
* Following is a list of hosts which have been requested by NB APIs to be
* added, but either the switch or the port is not sup, so they will be
private final Set<IfNewHostNotify> newHostNotify = Collections.synchronizedSet(new HashSet<IfNewHostNotify>());
private ITopologyManager topologyManager;
- private IClusterContainerServices clusterContainerService = null;
- private ISwitchManager switchManager = null;
+ protected IClusterContainerServices clusterContainerService = null;
+ protected ISwitchManager switchManager = null;
private Timer timer;
- private Timer arp_refresh_timer;
+ private Timer arpRefreshTimer;
private String containerName = null;
-
+ private ExecutorService executor;
+ protected boolean stopping;
+ private static boolean hostRefresh = true;
+ private static int hostRetryCount = 5;
private static class ARPPending {
protected InetAddress hostIP;
protected short sent_count;
// This list contains the hosts for which ARP requests are being sent
// periodically
- private final List<ARPPending> ARPPendingList = new ArrayList<HostTracker.ARPPending>();
+ ConcurrentMap<InetAddress, ARPPending> ARPPendingList;
/*
* This list below contains the hosts which were initially in ARPPendingList
* above, but ARP response didn't come from there hosts after multiple
*
* We can't recover from condition 3 above
*/
- private final ArrayList<ARPPending> failedARPReqList = new ArrayList<HostTracker.ARPPending>();
+ ConcurrentMap<InetAddress, ARPPending> failedARPReqList;
public HostTracker() {
}
private void startUp() {
+ nonClusterObjectCreate();
allocateCache();
retrieveCache();
+ stopping = false;
timer = new Timer();
timer.schedule(new OutStandingARPHandler(), 4000, 4000);
-
+ executor = Executors.newFixedThreadPool(2);
/* ARP Refresh Timer to go off every 5 seconds to implement ARP aging */
- arp_refresh_timer = new Timer();
- arp_refresh_timer.schedule(new ARPRefreshHandler(), 5000, 5000);
+ arpRefreshTimer = new Timer();
+ arpRefreshTimer.schedule(new ARPRefreshHandler(), 5000, 5000);
logger.debug("startUp: Caches created, timers started");
}
- @SuppressWarnings("deprecation")
private void allocateCache() {
if (this.clusterContainerService == null) {
logger.error("un-initialized clusterContainerService, can't create cache");
}
logger.debug("Creating Cache for HostTracker");
try {
- this.clusterContainerService.createCache("hostTrackerAH",
- EnumSet.of(IClusterServices.cacheMode.NON_TRANSACTIONAL));
- this.clusterContainerService.createCache("hostTrackerIH",
- EnumSet.of(IClusterServices.cacheMode.NON_TRANSACTIONAL));
+ this.clusterContainerService.createCache(ACTIVE_HOST_CACHE,
+ EnumSet.of(IClusterServices.cacheMode.TRANSACTIONAL));
+ this.clusterContainerService.createCache(INACTIVE_HOST_CACHE,
+ EnumSet.of(IClusterServices.cacheMode.TRANSACTIONAL));
} catch (CacheConfigException cce) {
logger.error("Cache couldn't be created for HostTracker - check cache mode");
} catch (CacheExistException cce) {
logger.debug("Cache successfully created for HostTracker");
}
- @SuppressWarnings({ "unchecked", "deprecation" })
+ @SuppressWarnings({ "unchecked" })
private void retrieveCache() {
if (this.clusterContainerService == null) {
logger.error("un-initialized clusterContainerService, can't retrieve cache");
}
logger.debug("Retrieving cache for HostTrackerAH");
hostsDB = (ConcurrentMap<InetAddress, HostNodeConnector>) this.clusterContainerService
- .getCache("hostTrackerAH");
+ .getCache(ACTIVE_HOST_CACHE);
if (hostsDB == null) {
logger.error("Cache couldn't be retrieved for HostTracker");
}
logger.debug("Cache was successfully retrieved for HostTracker");
logger.debug("Retrieving cache for HostTrackerIH");
inactiveStaticHosts = (ConcurrentMap<NodeConnector, HostNodeConnector>) this.clusterContainerService
- .getCache("hostTrackerIH");
+ .getCache(INACTIVE_HOST_CACHE);
if (inactiveStaticHosts == null) {
logger.error("Cache couldn't be retrieved for HostTrackerIH");
}
public void nonClusterObjectCreate() {
hostsDB = new ConcurrentHashMap<InetAddress, HostNodeConnector>();
inactiveStaticHosts = new ConcurrentHashMap<NodeConnector, HostNodeConnector>();
+ ARPPendingList = new ConcurrentHashMap<InetAddress, ARPPending>();
+ failedARPReqList = new ConcurrentHashMap<InetAddress, ARPPending>();
}
-
public void shutDown() {
}
}
public void setArpHandler(IHostFinder hostFinder) {
- this.hostFinder = hostFinder;
+ if (this.hostFinder != null) {
+ this.hostFinder.add(hostFinder);
+ }
}
public void unsetArpHandler(IHostFinder hostFinder) {
- if (this.hostFinder == hostFinder) {
+ if (this.hostFinder != null) {
logger.debug("Arp Handler Service removed!");
- this.hostFinder = null;
+ this.hostFinder.remove(hostFinder);
}
}
@Override
public Future<HostNodeConnector> discoverHost(InetAddress networkAddress) {
- ExecutorService executor = Executors.newFixedThreadPool(1);
if (executor == null) {
- logger.error("discoverHost: Null executor");
+ logger.debug("discoverHost: Null executor");
return null;
}
Callable<HostNodeConnector> worker = new HostTrackerCallable(this, networkAddress);
logger.debug("hostFind(): Host found for IP: {}", networkAddress.getHostAddress());
return host;
}
- /* host is not found, initiate a discovery */
- hostFinder.find(networkAddress);
- /* Also add this host to ARPPending List for any potential retries */
- AddtoARPPendingList(networkAddress);
+
+ /* Add this host to ARPPending List for any potential retries */
+
+ addToARPPendingList(networkAddress);
logger.debug("hostFind(): Host Not Found for IP: {}, Inititated Host Discovery ...",
networkAddress.getHostAddress());
+
+ /* host is not found, initiate a discovery */
+ for (IHostFinder hf : hostFinder) {
+ hf.find(networkAddress);
+ }
return null;
}
@Override
public Set<HostNodeConnector> getAllHosts() {
- Set<HostNodeConnector> allHosts = new HashSet<HostNodeConnector>();
- for (Entry<InetAddress, HostNodeConnector> entry : hostsDB.entrySet()) {
- HostNodeConnector host = entry.getValue();
- allHosts.add(host);
- }
- logger.debug("Exiting getAllHosts, Found {} Hosts", allHosts.size());
+ Set<HostNodeConnector> allHosts = new HashSet<HostNodeConnector>(hostsDB.values());
return allHosts;
}
list.add(host);
}
}
- logger.debug("getActiveStaticHosts(): Found {} Hosts", list.size());
return list;
}
@Override
public Set<HostNodeConnector> getInactiveStaticHosts() {
- Set<HostNodeConnector> list = new HashSet<HostNodeConnector>();
- for (Entry<NodeConnector, HostNodeConnector> entry : inactiveStaticHosts.entrySet()) {
- list.add(entry.getValue());
- }
- logger.debug("getInactiveStaticHosts(): Found {} Hosts", list.size());
+ Set<HostNodeConnector> list = new HashSet<HostNodeConnector>(inactiveStaticHosts.values());
return list;
}
- private void AddtoARPPendingList(InetAddress networkAddr) {
+ private void addToARPPendingList(InetAddress networkAddr) {
ARPPending arphost = new ARPPending();
arphost.setHostIP(networkAddr);
arphost.setSent_count((short) 1);
- ARPPendingList.add(arphost);
+ ARPPendingList.put(networkAddr, arphost);
logger.debug("Host Added to ARPPending List, IP: {}", networkAddr);
}
- private void removePendingARPFromList(int index) {
- if (index >= ARPPendingList.size()) {
- logger.warn("removePendingARPFromList(): index greater than the List. Size:{}, Index:{}",
- ARPPendingList.size(), index);
- return;
- }
- ARPPending arphost = ARPPendingList.remove(index);
- HostTrackerCallable htCallable = arphost.getHostTrackerCallable();
- if (htCallable != null)
- htCallable.wakeup();
- }
-
public void setCallableOnPendingARP(InetAddress networkAddr, HostTrackerCallable callable) {
ARPPending arphost;
- for (int i = 0; i < ARPPendingList.size(); i++) {
- arphost = ARPPendingList.get(i);
+ for (Entry<InetAddress, ARPPending> entry : ARPPendingList.entrySet()) {
+ arphost = entry.getValue();
if (arphost.getHostIP().equals(networkAddr)) {
arphost.setHostTrackerCallable(callable);
}
}
}
- private void ProcPendingARPReqs(InetAddress networkAddr) {
+ private void processPendingARPReqs(InetAddress networkAddr) {
ARPPending arphost;
- for (int i = 0; i < ARPPendingList.size(); i++) {
- arphost = ARPPendingList.get(i);
- if (arphost.getHostIP().equals(networkAddr)) {
- /*
- * An ARP was sent for this host. The address is learned, remove
- * the request
- */
- removePendingARPFromList(i);
- logger.debug("Host Removed from ARPPending List, IP: {}", networkAddr);
- return;
+ if ((arphost = ARPPendingList.remove(networkAddr)) != null) {
+ // Remove the arphost from ARPPendingList as it has been learned now
+ logger.debug("Host Removed from ARPPending List, IP: {}", networkAddr);
+ HostTrackerCallable htCallable = arphost.getHostTrackerCallable();
+ if (htCallable != null) {
+ htCallable.wakeup();
}
+ return;
}
/*
* It could have been a host from the FailedARPReqList
*/
- for (int i = 0; i < failedARPReqList.size(); i++) {
- arphost = failedARPReqList.get(i);
- if (arphost.getHostIP().equals(networkAddr)) {
- /*
- * An ARP was sent for this host. The address is learned, remove
- * the request
- */
- failedARPReqList.remove(i);
- logger.debug("Host Removed from FailedARPReqList List, IP: {}", networkAddr);
- return;
- }
+ if (failedARPReqList.containsKey(networkAddr)) {
+ failedARPReqList.remove(networkAddr);
+ logger.debug("Host Removed from FailedARPReqList List, IP: {}", networkAddr);
}
}
}
private void replaceHost(InetAddress networkAddr, HostNodeConnector removedHost, HostNodeConnector newHost) {
+ // Ignore ARP messages from internal nodes
+ NodeConnector newHostNc = newHost.getnodeConnector();
+ boolean newHostIsInternal = topologyManager.isInternal(newHostNc);
+ if (newHostIsInternal) {
+ return;
+ }
+
newHost.initArpSendCountDown();
+
if (hostsDB.replace(networkAddr, removedHost, newHost)) {
- logger.debug("Host move occurred. Old Host:{}, New Host: {}", removedHost, newHost);
+ logger.debug("Host move occurred: Old Host IP:{}, New Host IP: {}", removedHost.getNetworkAddress()
+ .getHostAddress(), newHost.getNetworkAddress().getHostAddress());
+ logger.debug("Old Host MAC: {}, New Host MAC: {}",
+ HexEncode.bytesToHexString(removedHost.getDataLayerAddressBytes()),
+ HexEncode.bytesToHexString(newHost.getDataLayerAddressBytes()));
+ // Display the Old and New HostNodeConnectors also
+ logger.debug("Old {}, New {}", removedHost, newHost);
} else {
/*
* Host replacement has failed, do the recovery
notifyHostLearnedOrRemoved(removedHost, false);
notifyHostLearnedOrRemoved(newHost, true);
if (!newHost.isStaticHost()) {
- ProcPendingARPReqs(networkAddr);
+ processPendingARPReqs(networkAddr);
}
}
replaceHost(networkAddr, removedHost, host);
return;
} else {
- logger.error("Host to be removed not found in hostsDB. Host {}", removedHost);
+ logger.error("Host to be removed not found in hostsDB");
}
}
- if (removedHost == null) {
- // It is a new host
- learnNewHost(host);
- }
+ // It is a new host
+ learnNewHost(host);
/* check if there is an outstanding request for this host */
- ProcPendingARPReqs(networkAddr);
+ processPendingARPReqs(networkAddr);
notifyHostLearnedOrRemoved(host, true);
}
}
@Override
public void hostListener(HostNodeConnector host) {
-
+ logger.debug("Received for Host: IP {}, MAC {}, {}", host.getNetworkAddress().getHostAddress(),
+ HexEncode.bytesToHexString(host.getDataLayerAddressBytes()), host);
if (hostExists(host)) {
- logger.debug("ARP received for Host: {}", host);
HostNodeConnector existinghost = hostsDB.get(host.getNetworkAddress());
existinghost.initArpSendCountDown();
+ // Update the host
+ hostsDB.put(host.getNetworkAddress(), existinghost);
return;
}
new NotifyHostThread(host).start();
private void notifyHostLearnedOrRemoved(HostNodeConnector host, boolean add) {
// Update listeners if any
if (newHostNotify != null) {
+ logger.debug("Notifying Applications for Host {} Being {}", host.getNetworkAddress().getHostAddress(),
+ add ? "Added" : "Deleted");
synchronized (this.newHostNotify) {
for (IfNewHostNotify ta : newHostNotify) {
try {
ta.notifyHTClientHostRemoved(host);
}
} catch (Exception e) {
- logger.error("Exception on callback", e);
+ logger.error("Exception on new host notification", e);
}
}
}
}
if (topologyManager != null && p != null && h != null) {
+ logger.debug("Notifying Topology Manager for Host {} Being {}", h.getNetworkAddress().getHostAddress(),
+ add ? "Added" : "Deleted");
if (add == true) {
Tier tier = new Tier(1);
switchManager.setNodeProp(node, tier);
* @param currentTier
* The Tier on which n belongs
*/
+ @SuppressWarnings("unused")
private void updateSwitchTiers(Node n, int currentTier) {
Map<Node, Set<Edge>> ndlinks = topologyManager.getNodeEdges();
if (ndlinks == null) {
}
// This is the case where Tier was never set for this node
Tier t = (Tier) switchManager.getNodeProp(n, Tier.TierPropName);
- if (t == null)
+ if (t == null) {
return true;
- if (t.getValue() == 0)
+ }
+ if (t.getValue() == 0) {
return true;
- else if (t.getValue() > tier)
+ } else if (t.getValue() > tier) {
return true;
+ }
return false;
}
* cleanup is performed during cases such as Topology Change where the
* existing Tier values might become incorrect
*/
+ @SuppressWarnings("unused")
private void clearTiers() {
Set<Node> nodes = null;
if (switchManager == null) {
int num = 1;
for (ArrayList<String> hierarchy : hierarchies) {
StringBuffer buf = new StringBuffer();
- buf.append("Hierarchy#" + num + " : ");
+ buf.append("Hierarchy#").append(num).append(" : ");
for (String switchName : hierarchy) {
- buf.append(switchName + "/");
+ buf.append(switchName).append("/");
}
logger.debug("{} -> {}", getContainerName(), buf);
num++;
@Override
public List<List<String>> getHostNetworkHierarchy(InetAddress hostAddress) {
HostNodeConnector host = hostQuery(hostAddress);
- if (host == null)
+ if (host == null) {
return null;
+ }
List<List<String>> hierarchies = new ArrayList<List<String>>();
ArrayList<String> currHierarchy = new ArrayList<String>();
int result = 0;
for (int i = 0; i < hex.length(); i++) {
result = (int) ((dpid >> (i * 8)) & 0xff);
- if (result == 0)
+ if (result == 0) {
continue;
- if (result < 0x30)
+ }
+ if (result < 0x30) {
result += 0x40;
+ }
sb.append(String.format("%c", result));
}
return sb.reverse().toString();
*/
@SuppressWarnings("unchecked")
private void updateCurrentHierarchy(Node node, ArrayList<String> currHierarchy, List<List<String>> fullHierarchy) {
- // currHierarchy.add(String.format("%x", currSw.getId()));
currHierarchy.add(dpidToHostNameHack((Long) node.getID()));
- ArrayList<String> currHierarchyClone = (ArrayList<String>) currHierarchy.clone(); // Shallow
- // copy
- // as
- // required
+ // Shallow copy as required
+ ArrayList<String> currHierarchyClone = (ArrayList<String>) currHierarchy.clone();
Map<Node, Set<Edge>> ndlinks = topologyManager.getNodeEdges();
if (ndlinks == null) {
Node dstNode = lt.getHeadNodeConnector().getNode();
Tier nodeTier = (Tier) switchManager.getNodeProp(node, Tier.TierPropName);
+ /*
+ * If the host is directly attached to the src node, then the node
+ * should have been assigned the "Access" tier in
+ * notifyHostLearnedOrRemoved. If not, it would be assigned
+ * "Unknown" tier. Thus the tier of host attached node cannot be
+ * null. If the src node here, is the next node in the hierarchy of
+ * the nodes, then its tier cannot be null
+ */
+
Tier dstNodeTier = (Tier) switchManager.getNodeProp(dstNode, Tier.TierPropName);
+ /*
+ * Skip if the tier of the destination node is null
+ */
+ if (dstNodeTier == null) {
+ continue;
+ }
if (dstNodeTier.getValue() > nodeTier.getValue()) {
ArrayList<String> buildHierarchy = currHierarchy;
if (currHierarchy.size() > currHierarchyClone.size()) {
- buildHierarchy = (ArrayList<String>) currHierarchyClone.clone(); // Shallow
- // copy
- // as
- // required
+ // Shallow copy as required
+ buildHierarchy = (ArrayList<String>) currHierarchyClone.clone();
fullHierarchy.add(buildHierarchy);
}
updateCurrentHierarchy(dstNode, buildHierarchy, fullHierarchy);
}
}
- private void edgeUpdate(Edge e, UpdateType type, Set<Property> props) {
+ private void debugEdgeUpdate(Edge e, UpdateType type, Set<Property> props) {
Long srcNid = null;
Short srcPort = null;
Long dstNid = null;
}
if (!srcType.equals(NodeConnector.NodeConnectorIDType.OPENFLOW)) {
- logger.error("For now we cannot handle updates for " + "non-openflow nodes");
+ logger.debug("For now we cannot handle updates for non-openflow nodes");
return;
}
}
if (!dstType.equals(NodeConnector.NodeConnectorIDType.OPENFLOW)) {
- logger.error("For now we cannot handle updates for " + "non-openflow nodes");
+ logger.debug("For now we cannot handle updates for non-openflow nodes");
return;
}
@Override
public void edgeUpdate(List<TopoEdgeUpdate> topoedgeupdateList) {
- for (int i = 0; i < topoedgeupdateList.size(); i++) {
- Edge e = topoedgeupdateList.get(i).getEdge();
- Set<Property> p = topoedgeupdateList.get(i).getProperty();
- UpdateType type = topoedgeupdateList.get(i).getUpdateType();
- edgeUpdate(e, type, p);
+ if (logger.isDebugEnabled()) {
+ for (TopoEdgeUpdate topoEdgeUpdate : topoedgeupdateList) {
+ Edge e = topoEdgeUpdate.getEdge();
+ Set<Property> p = topoEdgeUpdate.getProperty();
+ UpdateType type = topoEdgeUpdate.getUpdateType();
+
+ debugEdgeUpdate(e, type, p);
+ }
}
}
public void subnetNotify(Subnet sub, boolean add) {
logger.debug("Received subnet notification: {} add={}", sub, add);
if (add) {
- for (int i = 0; i < failedARPReqList.size(); i++) {
+ for (Entry<InetAddress, ARPPending> entry : failedARPReqList.entrySet()) {
ARPPending arphost;
- arphost = failedARPReqList.get(i);
+ arphost = entry.getValue();
+ if (hostFinder == null) {
+ logger.warn("ARPHandler Services are not available on subnet addition");
+ continue;
+ }
logger.debug("Sending the ARP from FailedARPReqList fors IP: {}", arphost.getHostIP().getHostAddress());
- hostFinder.find(arphost.getHostIP());
+ for (IHostFinder hf : hostFinder) {
+ hf.find(arphost.getHostIP());
+ }
}
}
}
class OutStandingARPHandler extends TimerTask {
@Override
public void run() {
+ if (stopping) {
+ return;
+ }
ARPPending arphost;
/* This routine runs every 4 seconds */
- // logger.info ("ARP Handler called");
- for (int i = 0; i < ARPPendingList.size(); i++) {
- arphost = ARPPendingList.get(i);
- if (arphost.getSent_count() < switchManager.getHostRetryCount()) {
+ logger.trace("Number of Entries in ARP Pending/Failed Lists: ARPPendingList = {}, failedARPReqList = {}",
+ ARPPendingList.size(), failedARPReqList.size());
+ for (Entry<InetAddress, ARPPending> entry : ARPPendingList.entrySet()) {
+ arphost = entry.getValue();
+
+ if (hostsDB.containsKey(arphost.getHostIP())) {
+ // this host is already learned, shouldn't be in
+ // ARPPendingList
+ // Remove it and continue
+ logger.warn("Learned Host {} found in ARPPendingList", arphost.getHostIP());
+ ARPPendingList.remove(entry.getKey());
+ continue;
+ }
+ if (arphost.getSent_count() < hostRetryCount) {
/*
* No reply has been received of first ARP Req, send the
- * next one
+ * next one. Before sending the ARP, check if ARPHandler is
+ * available or not
*/
- hostFinder.find(arphost.getHostIP());
+ if (hostFinder == null) {
+ logger.warn("ARPHandler Services are not available for Outstanding ARPs");
+ continue;
+ }
+ for (IHostFinder hf : hostFinder) {
+ hf.find(arphost.getHostIP());
+ }
arphost.sent_count++;
logger.debug("ARP Sent from ARPPending List, IP: {}", arphost.getHostIP().getHostAddress());
- } else if (arphost.getSent_count() >= switchManager.getHostRetryCount()) {
+ } else if (arphost.getSent_count() >= hostRetryCount) {
/*
- * Two ARP requests have been sent without receiving a
- * reply, remove this from the pending list
+ * ARP requests have been sent without receiving a reply,
+ * remove this from the pending list
*/
- removePendingARPFromList(i);
- logger.debug("ARP reply not received after two attempts, removing from Pending List IP: {}",
+ ARPPendingList.remove(entry.getKey());
+ logger.debug("ARP reply not received after multiple attempts, removing from Pending List IP: {}",
arphost.getHostIP().getHostAddress());
/*
* Add this host to a different list which will be processed
* on link up events
*/
logger.debug("Adding the host to FailedARPReqList IP: {}", arphost.getHostIP().getHostAddress());
- failedARPReqList.add(arphost);
+ failedARPReqList.put(entry.getKey(), arphost);
} else {
- logger.error("Inavlid arp_sent count for entery at index: {}", i);
+ logger.error("Inavlid arp_sent count for entry: {}", entry);
}
}
}
private class ARPRefreshHandler extends TimerTask {
@Override
- @SuppressWarnings("deprecation")
public void run() {
+ if (stopping) {
+ return;
+ }
if ((clusterContainerService != null) && !clusterContainerService.amICoordinator()) {
return;
}
- if ((switchManager != null) && !switchManager.isHostRefreshEnabled()) {
+ if (!hostRefresh) {
/*
- * The host probe procedure was disabled by CLI
+ * The host probe procedure is turned off
*/
return;
}
short arp_cntdown = host.getArpSendCountDown();
arp_cntdown--;
- if (arp_cntdown > switchManager.getHostRetryCount()) {
+ if (arp_cntdown > hostRetryCount) {
host.setArpSendCountDown(arp_cntdown);
} else if (arp_cntdown <= 0) {
/*
*/
removeKnownHost(entry.getKey());
notifyHostLearnedOrRemoved(host, false);
- } else if (arp_cntdown <= switchManager.getHostRetryCount()) {
+ } else if (arp_cntdown <= hostRetryCount) {
/*
* Use the services of arphandler to check if host is still
* there
HexEncode.bytesToHexString(host.getDataLayerAddressBytes()) });
}
host.setArpSendCountDown(arp_cntdown);
- hostFinder.probe(host);
+ if (hostFinder == null) {
+ /*
+ * If hostfinder is not available, then can't send the
+ * probe. However, continue the age out the hosts since
+ * we don't know if the host is indeed out there or not.
+ */
+ logger.trace("ARPHandler is not avaialable, can't send the probe");
+ continue;
+ }
+ for (IHostFinder hf : hostFinder) {
+ hf.probe(host);
+ }
}
}
}
* indicating the result of this action.
*/
- public Status addStaticHostReq(InetAddress networkAddr, byte[] dataLayerAddress, NodeConnector nc, short vlan) {
+ protected Status addStaticHostReq(InetAddress networkAddr, byte[] dataLayerAddress, NodeConnector nc, short vlan) {
if (dataLayerAddress.length != NetUtils.MACAddrLengthInBytes) {
return new Status(StatusCode.BADREQUEST, "Invalid MAC address");
}
// northbound request
HostNodeConnector transHost = hostsDB.get(networkAddr);
transHost.setStaticHost(true);
- return new Status(StatusCode.SUCCESS, null);
+ return new Status(StatusCode.SUCCESS);
}
if (hostsDB.get(networkAddr) != null) {
// There is already a host with this IP address (but behind
// a different (switch, port, vlan) tuple. Return an error
- return new Status(StatusCode.CONFLICT, "Existing IP, Use PUT to update");
+ return new Status(StatusCode.CONFLICT, "Host with this IP already exists.");
}
host.setStaticHost(true);
/*
*/
if (switchManager.isNodeConnectorEnabled(nc)) {
learnNewHost(host);
+ processPendingARPReqs(networkAddr);
notifyHostLearnedOrRemoved(host, true);
} else {
inactiveStaticHosts.put(nc, host);
logger.debug("Switch or switchport is not up, adding host {} to inactive list",
networkAddr.getHostName());
}
- return new Status(StatusCode.SUCCESS, null);
+ return new Status(StatusCode.SUCCESS);
} catch (ConstructionException e) {
logger.error("", e);
return new Status(StatusCode.INTERNALERROR, "Host could not be created");
@Override
public void notifyNode(Node node, UpdateType type, Map<String, Property> propMap) {
- if (node == null)
+ if (node == null) {
return;
+ }
switch (type) {
case REMOVED:
@Override
public void notifyNodeConnector(NodeConnector nodeConnector, UpdateType type, Map<String, Property> propMap) {
- if (nodeConnector == null)
+ if (nodeConnector == null) {
return;
+ }
boolean up = false;
switch (type) {
public Status addStaticHost(String networkAddress, String dataLayerAddress, NodeConnector nc, String vlan) {
try {
InetAddress ip = InetAddress.getByName(networkAddress);
- if (nc == null) {
- return new Status(StatusCode.BADREQUEST, "Invalid NodeId");
+ short vl = 0;
+ if (vlan != null && !vlan.isEmpty()) {
+ vl = Short.decode(vlan);
+ if (vl < 1 || vl > 4095) {
+ return new Status(StatusCode.BADREQUEST, "Host vlan out of range [1 - 4095]");
+ }
}
- return addStaticHostReq(ip, HexEncode.bytesFromHexString(dataLayerAddress), nc, Short.valueOf(vlan));
+
+ return addStaticHostReq(ip, HexEncode.bytesFromHexString(dataLayerAddress), nc, vl);
+
} catch (UnknownHostException e) {
- logger.error("", e);
- return new Status(StatusCode.BADREQUEST, "Invalid Address");
+ logger.debug("Invalid host IP specified when adding static host", e);
+ return new Status(StatusCode.BADREQUEST, "Invalid Host IP Address");
+ } catch (NumberFormatException nfe) {
+ logger.debug("Invalid host vlan or MAC specified when adding static host", nfe);
+ return new Status(StatusCode.BADREQUEST, "Invalid Host vLan/MAC");
}
}
@Override
public Status removeStaticHost(String networkAddress) {
- InetAddress address;
try {
- address = InetAddress.getByName(networkAddress);
+ InetAddress address = InetAddress.getByName(networkAddress);
return removeStaticHostReq(address);
} catch (UnknownHostException e) {
- logger.error("", e);
- return new Status(StatusCode.BADREQUEST, "Invalid Address");
+ logger.debug("Invalid IP Address when trying to remove host", e);
+ return new Status(StatusCode.BADREQUEST, "Invalid IP Address when trying to remove host");
}
}
private void handleNodeConnectorStatusUp(NodeConnector nodeConnector) {
ARPPending arphost;
+ HostNodeConnector host = null;
- logger.debug("handleNodeConnectorStatusUp {}", nodeConnector);
+ logger.trace("handleNodeConnectorStatusUp {}", nodeConnector);
- for (int i = 0; i < failedARPReqList.size(); i++) {
- arphost = failedARPReqList.get(i);
- logger.debug("Sending the ARP from FailedARPReqList fors IP: {}", arphost.getHostIP().getHostAddress());
- hostFinder.find(arphost.getHostIP());
+ for (Entry<InetAddress, ARPPending> entry : failedARPReqList.entrySet()) {
+ arphost = entry.getValue();
+ logger.trace("Sending the ARP from FailedARPReqList fors IP: {}", arphost.getHostIP().getHostAddress());
+ if (hostFinder == null) {
+ logger.warn("ARPHandler is not available at interface up");
+ logger.warn("Since this event is missed, host(s) connected to interface {} may not be discovered",
+ nodeConnector);
+ continue;
+ }
+
+ // Send a broadcast ARP only on the interface which just came up.
+ // Use hostFinder's "probe" method
+ try {
+ byte[] dataLayerAddress = NetUtils.getBroadcastMACAddr();
+ host = new HostNodeConnector(dataLayerAddress, arphost.getHostIP(), nodeConnector, (short) 0);
+ for (IHostFinder hf : hostFinder) {
+ hf.probe(host);
+ }
+ } catch (ConstructionException e) {
+ logger.debug("HostNodeConnector couldn't be created for Host: {}, NodeConnector: {}",
+ arphost.getHostIP(), nodeConnector);
+ logger.error("", e);
+ }
}
- HostNodeConnector host = inactiveStaticHosts.get(nodeConnector);
+
+ host = inactiveStaticHosts.get(nodeConnector);
if (host != null) {
inactiveStaticHosts.remove(nodeConnector);
learnNewHost(host);
+ processPendingARPReqs(host.getNetworkAddress());
notifyHostLearnedOrRemoved(host, true);
}
}
private void handleNodeConnectorStatusDown(NodeConnector nodeConnector) {
- logger.debug("handleNodeConnectorStatusDown {}", nodeConnector);
+ logger.trace("handleNodeConnectorStatusDown {}", nodeConnector);
for (Entry<InetAddress, HostNodeConnector> entry : hostsDB.entrySet()) {
HostNodeConnector host = entry.getValue();
}
public String getContainerName() {
- if (containerName == null)
+ if (containerName == null) {
return GlobalConstants.DEFAULT.toString();
+ }
return containerName;
}
*
*/
void start() {
+ registerWithOSGIConsole();
}
/**
void stop() {
}
+ void stopping() {
+ stopping = true;
+ arpRefreshTimer.cancel();
+ timer.cancel();
+ executor.shutdownNow();
+ }
+
@Override
public void edgeOverUtilized(Edge edge) {
- // TODO Auto-generated method stub
}
@Override
public void edgeUtilBackToNormal(Edge edge) {
- // TODO Auto-generated method stub
}
+ @Override
+ public void entryCreated(InetAddress key, String cacheName, boolean originLocal) {
+ if (originLocal) {
+ return;
+ }
+ processPendingARPReqs(key);
+ }
+
+ @Override
+ public void entryUpdated(InetAddress key, HostNodeConnector new_value, String cacheName, boolean originLocal) {
+ }
+
+ @Override
+ public void entryDeleted(InetAddress key, String cacheName, boolean originLocal) {
+ }
+
+ private void registerWithOSGIConsole() {
+ BundleContext bundleContext = FrameworkUtil.getBundle(this.getClass()).getBundleContext();
+ bundleContext.registerService(CommandProvider.class.getName(), this, null);
+ }
+
+ @Override
+ public String getHelp() {
+ return null;
+ }
+
+ public void _dumpPendingARPReqList(CommandInterpreter ci) {
+ ARPPending arphost;
+ for (Entry<InetAddress, ARPPending> entry : ARPPendingList.entrySet()) {
+ arphost = entry.getValue();
+ ci.println(arphost.getHostIP().toString());
+ }
+ }
+
+ public void _dumpFailedARPReqList(CommandInterpreter ci) {
+ ARPPending arphost;
+ for (Entry<InetAddress, ARPPending> entry : failedARPReqList.entrySet()) {
+ arphost = entry.getValue();
+ ci.println(arphost.getHostIP().toString());
+ }
+ }
}