import java.nio.charset.Charset;
import java.util.ArrayList;
import java.util.Collection;
+import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import org.opendaylight.controller.protocol_plugin.openflow.IInventoryShimExternalListener;
import org.opendaylight.controller.protocol_plugin.openflow.core.IController;
import org.opendaylight.controller.protocol_plugin.openflow.core.ISwitch;
-import org.openflow.protocol.OFPhysicalPort;
-import org.osgi.framework.BundleContext;
-import org.osgi.framework.FrameworkUtil;
-import org.slf4j.Logger;
-import org.slf4j.LoggerFactory;
-
+import org.opendaylight.controller.sal.connection.IPluginOutConnectionService;
import org.opendaylight.controller.sal.core.Config;
import org.opendaylight.controller.sal.core.ConstructionException;
-import org.opendaylight.controller.sal.core.Edge;
import org.opendaylight.controller.sal.core.ContainerFlow;
+import org.opendaylight.controller.sal.core.Edge;
import org.opendaylight.controller.sal.core.IContainerListener;
import org.opendaylight.controller.sal.core.Node;
import org.opendaylight.controller.sal.core.NodeConnector;
import org.opendaylight.controller.sal.utils.NetUtils;
import org.opendaylight.controller.sal.utils.NodeConnectorCreator;
import org.opendaylight.controller.sal.utils.NodeCreator;
+import org.openflow.protocol.OFPhysicalPort;
+import org.osgi.framework.BundleContext;
+import org.osgi.framework.FrameworkUtil;
+import org.slf4j.Logger;
+import org.slf4j.LoggerFactory;
/**
* The class describes neighbor discovery service for an OpenFlow network.
private IDiscoveryListener discoveryListener = null;
private IInventoryProvider inventoryProvider = null;
private IDataPacketMux iDataPacketMux = null;
- // Newly added ports go into this list and will be served first
+ // High priority list containing newly added ports which will be served first
private List<NodeConnector> readyListHi = null;
- // Come here after served at least once
+ // List containing all the ports which will be served periodically
private List<NodeConnector> readyListLo = null;
// Staging area during quiet period
- private List<NodeConnector> waitingList = null;
+ private List<NodeConnector> stagingList = null;
// Wait for next discovery packet. The map contains the time elapsed since
// the last received LLDP frame on each node connector
- private ConcurrentMap<NodeConnector, Integer> pendingMap = null;
- // openflow edges keyed by head connector
+ private ConcurrentMap<NodeConnector, Integer> holdTime = null;
+ // Allow one more retry for newly added ports. This map contains the time
+ // period elapsed since last discovery pkt transmission on the port.
+ private ConcurrentMap<NodeConnector, Integer> elapsedTime = null;
+ // OpenFlow edges keyed by head connector
private ConcurrentMap<NodeConnector, Edge> edgeMap = null;
- // Aging entries keyed by head edge connector
+ // The map contains aging entry keyed by head connector of Production edge
private ConcurrentMap<NodeConnector, Integer> agingMap = null;
- // Production edges keyed by head edge connector
+ // Production edges keyed by head connector
private ConcurrentMap<NodeConnector, Edge> prodMap = null;
private Timer discoveryTimer;
private final static long discoveryTimerTick = 2L * 1000; // per tick in msec
private int discoveryTimerTickCount = 0; // main tick counter
// Max # of ports handled in one batch
- private int discoveryBatchMaxPorts = 500;
+ private int discoveryBatchMaxPorts;
// Periodically restart batching process
- private int discoveryBatchRestartTicks = getDiscoveryInterval();
- private int discoveryBatchPausePeriod = 5;
+ private int discoveryBatchRestartTicks;
+ private int discoveryBatchPausePeriod = 2;
// Pause after this point
- private int discoveryBatchPauseTicks = discoveryBatchRestartTicks - discoveryBatchPausePeriod;
- // Number of retries after initial timeout
- private int discoveryRetry = getDiscoveryRetry();
- private int discoveryTimeoutTicks = getDiscoveryTimeout();
- private int discoveryAgeoutTicks = getDiscoveryAgeout();
+ private int discoveryBatchPauseTicks;
+ private int discoveryTimeoutTicks;
+ private int discoveryThresholdTicks;
+ private int discoveryAgeoutTicks;
// multiple of discoveryBatchRestartTicks
private int discoveryConsistencyCheckMultiple = 2;
// CC tick counter
- private int discoveryConsistencyCheckTickCount = discoveryBatchPauseTicks;
- // # of times CC getscalled
+ private int discoveryConsistencyCheckTickCount;
+ // # of times CC gets called
private int discoveryConsistencyCheckCallingTimes = 0;
// # of cases CC corrected
private int discoveryConsistencyCheckCorrected = 0;
private Boolean throttling = false; // if true, no more batching.
private volatile Boolean shuttingDown = false;
- private LLDPTLV chassisIdTlv, portIdTlv, ttlTlv, customTlv;
+ private LLDPTLV chassisIdTlv, systemNameTlv, portIdTlv, ttlTlv, customTlv;
+ private IPluginOutConnectionService connectionOutService;
class DiscoveryTransmit implements Runnable {
private final BlockingQueue<NodeConnector> transmitQ;
+ private int count = 0;
DiscoveryTransmit(BlockingQueue<NodeConnector> transmitQ) {
this.transmitQ = transmitQ;
RawPacket outPkt = createDiscoveryPacket(nodeConnector);
sendDiscoveryPacket(nodeConnector, outPkt);
nodeConnector = null;
+ if ((++count & 0x7f) == 0) {
+ Thread.sleep(10);
+ }
} catch (InterruptedException e1) {
logger.warn("DiscoveryTransmit interupted", e1.getMessage());
if (shuttingDown) {
}
public enum DiscoveryPeriod {
- INTERVAL(300),
- TIMEOUT (60),
- AGEOUT (120);
+ INTERVAL (300),
+ AGEOUT (120),
+ THRESHOLD (30);
private int time; // sec
private int tick; // tick
return tick;
}
+ public void setTick(int tick) {
+ this.time = tick2Time(tick);
+ this.tick = tick;
+ }
+
private int time2Tick(int time) {
return (int) (time / (discoveryTimerTick / 1000));
}
+
+ private int tick2Time(int tick) {
+ return (int) (tick * (discoveryTimerTick / 1000));
+ }
}
private RawPacket createDiscoveryPacket(NodeConnector nodeConnector) {
chassisIdTlv.setType(LLDPTLV.TLVType.ChassisID.getValue()).setLength((short) cidValue.length)
.setValue(cidValue);
+ // Create LLDP SystemName TLV
+ byte[] snValue = LLDPTLV.createSystemNameTLVValue(nodeConnector.getNode().toString());
+ systemNameTlv.setType(LLDPTLV.TLVType.SystemName.getValue()).setLength((short) snValue.length)
+ .setValue(snValue);
+
// Create LLDP PortID TLV
String portId = nodeConnector.getNodeConnectorIDString();
byte[] pidValue = LLDPTLV.createPortIDTLVValue(portId);
// Create discovery pkt
LLDP discoveryPkt = new LLDP();
- discoveryPkt.setChassisId(chassisIdTlv).setPortId(portIdTlv).setTtl(ttlTlv).setOptionalTLVList(customList);
+ discoveryPkt.setChassisId(chassisIdTlv).setPortId(portIdTlv).setTtl(ttlTlv).setSystemNameId(systemNameTlv)
+ .setOptionalTLVList(customList);
RawPacket rawPkt = null;
try {
return;
}
+ if (!connectionOutService.isLocal(nodeConnector.getNode())) {
+ logger.debug("Discoery packets will not be sent to {} in a non-master controller", nodeConnector.toString());
+ return;
+ }
+
if (outPkt == null) {
logger.debug("Can not send discovery packet out since outPkt is null");
return;
return PacketResult.IGNORED;
}
- if (((Short) inPkt.getIncomingNodeConnector().getID()).equals(NodeConnector.SPECIALNODECONNECTORID)) {
+ NodeConnector nodeConnector = inPkt.getIncomingNodeConnector();
+ if (((Short) nodeConnector.getID()).equals(NodeConnector.SPECIALNODECONNECTORID)) {
logger.trace("Ignoring ethernet packet received on special port: "
+ inPkt.getIncomingNodeConnector().toString());
return PacketResult.IGNORED;
}
+ if (!connectionOutService.isLocal(nodeConnector.getNode())) {
+ logger.debug("Discoery packets will not be processed from {} in a non-master controller", nodeConnector.toString());
+ return PacketResult.IGNORED;
+ }
+
Ethernet ethPkt = new Ethernet();
try {
ethPkt.deserialize(data, 0, data.length * NetUtils.NumBitsInAByte);
updateProdEdge(edge, props);
} catch (Exception e) {
- logger.warn("Caught exception ", e);
+ if (logger.isDebugEnabled()) {
+ logger.debug(
+ "Caught exception while attempting to snoop non controller generated or malformed LLDP frame sent by {} and received on {}: {}",
+ HexEncode.bytesToHexStringFormat(ethPkt.getSourceMACAddress()), dstNodeConnector,
+ e.getMessage());
+ }
}
}
List<LLDPTLV> optionalTLVList = lldp.getOptionalTLVList();
if (optionalTLVList == null) {
- logger.info("The discovery packet with null custom option from {}", dstNodeConnector);
+ logger.warn("The discovery packet with null custom option from {}", dstNodeConnector);
return false;
}
logger.error("Caught exception ", e);
}
addEdge(edge, props);
- pendingMap.put(dstNodeConnector, 0);
logger.trace("Received discovery packet for Edge {}", edge);
return true;
}
- if (pendingMap.keySet().contains(nodeConnector)) {
+ if (holdTime.keySet().contains(nodeConnector)) {
return true;
}
- if (waitingList.contains(nodeConnector)) {
+ if (stagingList.contains(nodeConnector)) {
return true;
}
workingSet.add(nodeConnector);
removeSet.add(nodeConnector);
+
+ // Put it in the map and start the timer. It may need retry.
+ elapsedTime.put(nodeConnector, 0);
}
readyListHi.removeAll(removeSet);
private void addDiscovery(Node node) {
Map<Long, ISwitch> switches = controller.getSwitches();
ISwitch sw = switches.get(node.getID());
- List<OFPhysicalPort> ports = sw.getEnabledPorts();
- if (ports == null) {
+ if (sw == null) {
+ //switch could be removed by now, stop propagation
return;
}
+ List<OFPhysicalPort> ports = sw.getEnabledPorts();
for (OFPhysicalPort port : ports) {
NodeConnector nodeConnector = NodeConnectorCreator.createOFNodeConnector(port.getPortNumber(), node);
if (!readyListHi.contains(nodeConnector)) {
readyListHi.add(nodeConnector);
}
+ private void removeNodeConnector(NodeConnector nodeConnector) {
+ readyListLo.remove(nodeConnector);
+ readyListHi.remove(nodeConnector);
+ stagingList.remove(nodeConnector);
+ holdTime.remove(nodeConnector);
+ elapsedTime.remove(nodeConnector);
+ }
+
private Set<NodeConnector> getRemoveSet(Collection<NodeConnector> c, Node node) {
Set<NodeConnector> removeSet = new HashSet<NodeConnector>();
if (c == null) {
private void removeDiscovery(Node node) {
Set<NodeConnector> removeSet;
+ removeSet = getRemoveSet(edgeMap.keySet(), node);
+ NodeConnector peerConnector;
+ Edge edge1, edge2;
+ for (NodeConnector nodeConnector : removeSet) {
+ // get the peer for fast removal of the edge in reverse direction
+ peerConnector = null;
+ edge1 = edgeMap.get(nodeConnector);
+ if (edge1 != null) {
+ edge2 = edgeMap.get(edge1.getTailNodeConnector());
+ if ((edge2 != null) && node.equals(edge2.getTailNodeConnector().getNode())) {
+ peerConnector = edge2.getHeadNodeConnector();
+ }
+ }
+
+ removeEdge(nodeConnector, false);
+ removeEdge(peerConnector, isEnabled(peerConnector));
+ }
+
+ removeSet = getRemoveSet(prodMap.keySet(), node);
+ for (NodeConnector nodeConnector : removeSet) {
+ removeProdEdge(nodeConnector);
+ }
+
removeSet = getRemoveSet(readyListHi, node);
readyListHi.removeAll(removeSet);
removeSet = getRemoveSet(readyListLo, node);
readyListLo.removeAll(removeSet);
- removeSet = getRemoveSet(waitingList, node);
- waitingList.removeAll(removeSet);
+ removeSet = getRemoveSet(stagingList, node);
+ stagingList.removeAll(removeSet);
- removeSet = getRemoveSet(pendingMap.keySet(), node);
+ removeSet = getRemoveSet(holdTime.keySet(), node);
for (NodeConnector nodeConnector : removeSet) {
- pendingMap.remove(nodeConnector);
+ holdTime.remove(nodeConnector);
}
- removeSet = getRemoveSet(edgeMap.keySet(), node);
+ removeSet = getRemoveSet(elapsedTime.keySet(), node);
for (NodeConnector nodeConnector : removeSet) {
- removeEdge(nodeConnector, false);
- }
-
- removeSet = getRemoveSet(prodMap.keySet(), node);
- for (NodeConnector nodeConnector : removeSet) {
- removeProdEdge(nodeConnector);
+ elapsedTime.remove(nodeConnector);
}
}
private void removeDiscovery(NodeConnector nodeConnector) {
- readyListHi.remove(nodeConnector);
- readyListLo.remove(nodeConnector);
- waitingList.remove(nodeConnector);
- pendingMap.remove(nodeConnector);
+ removeNodeConnector(nodeConnector);
removeEdge(nodeConnector, false);
removeProdEdge(nodeConnector);
}
private void checkTimeout() {
Set<NodeConnector> removeSet = new HashSet<NodeConnector>();
- Set<NodeConnector> retrySet = new HashSet<NodeConnector>();
int ticks;
- Set<NodeConnector> pendingSet = pendingMap.keySet();
- if (pendingSet != null) {
- for (NodeConnector nodeConnector : pendingSet) {
- ticks = pendingMap.get(nodeConnector);
- pendingMap.put(nodeConnector, ++ticks);
- if (ticks > getDiscoveryFinalTimeoutInterval()) {
+ Set<NodeConnector> monitorSet = holdTime.keySet();
+ if (monitorSet != null) {
+ for (NodeConnector nodeConnector : monitorSet) {
+ ticks = holdTime.get(nodeConnector);
+ holdTime.put(nodeConnector, ++ticks);
+ if (ticks >= discoveryTimeoutTicks) {
// timeout the edge
removeSet.add(nodeConnector);
logger.trace("Discovery timeout {}", nodeConnector);
- } else if (ticks % discoveryTimeoutTicks == 0) {
- retrySet.add(nodeConnector);
}
}
}
removeEdge(nodeConnector);
}
- for (NodeConnector nodeConnector : retrySet) {
- transmitQ.add(nodeConnector);
+ Set<NodeConnector> retrySet = new HashSet<NodeConnector>();
+ Set<NodeConnector> ncSet = elapsedTime.keySet();
+ if ((ncSet != null) && (ncSet.size() > 0)) {
+ for (NodeConnector nodeConnector : ncSet) {
+ ticks = elapsedTime.get(nodeConnector);
+ elapsedTime.put(nodeConnector, ++ticks);
+ if (ticks >= discoveryThresholdTicks) {
+ retrySet.add(nodeConnector);
+ }
+ }
+
+ for (NodeConnector nodeConnector : retrySet) {
+ // Allow one more retry
+ elapsedTime.remove(nodeConnector);
+ if (connectionOutService.isLocal(nodeConnector.getNode())) {
+ transmitQ.add(nodeConnector);
+ }
+ }
}
}
private void doDiscovery() {
if (++discoveryTimerTickCount <= discoveryBatchPauseTicks) {
for (NodeConnector nodeConnector : getWorkingSet()) {
- transmitQ.add(nodeConnector);
+ if (connectionOutService.isLocal(nodeConnector.getNode())) {
+ transmitQ.add(nodeConnector);
+ // Move to staging area after it's served
+ if (!stagingList.contains(nodeConnector)) {
+ stagingList.add(nodeConnector);
+ }
+ }
}
} else if (discoveryTimerTickCount >= discoveryBatchRestartTicks) {
discoveryTimerTickCount = 0;
- for (NodeConnector nodeConnector : waitingList) {
+ for (NodeConnector nodeConnector : stagingList) {
if (!readyListLo.contains(nodeConnector)) {
readyListLo.add(nodeConnector);
}
}
- waitingList.removeAll(readyListLo);
+ stagingList.removeAll(readyListLo);
}
}
}
if (!isTracked(nodeConnector)) {
- waitingList.add(nodeConnector);
+ stagingList.add(nodeConnector);
discoveryConsistencyCheckCorrected++;
logger.debug("ConsistencyChecker: add back untracked {}", nodeConnector);
continue;
// remove stale entries
removeSet.clear();
- for (NodeConnector nodeConnector : waitingList) {
+ for (NodeConnector nodeConnector : stagingList) {
if (!isEnabled(nodeConnector)) {
removeSet.add(nodeConnector);
discoveryConsistencyCheckCorrected++;
logger.debug("ConsistencyChecker: remove disabled {}", nodeConnector);
}
}
- waitingList.removeAll(removeSet);
+ stagingList.removeAll(removeSet);
// Get a snapshot of all the existing switches
Map<Long, ISwitch> switches = this.controller.getSwitches();
Node node = NodeCreator.createOFNode(sw.getId());
NodeConnector nodeConnector = NodeConnectorCreator.createOFNodeConnector(port.getPortNumber(), node);
if (!isTracked(nodeConnector)) {
- waitingList.add(nodeConnector);
+ stagingList.add(nodeConnector);
discoveryConsistencyCheckCorrected++;
logger.debug("ConsistencyChecker: add back untracked {}", nodeConnector);
}
}
NodeConnector src = edge.getTailNodeConnector();
+ NodeConnector dst = edge.getHeadNodeConnector();
if (!src.getType().equals(NodeConnector.NodeConnectorIDType.PRODUCTION)) {
- pendingMap.remove(src);
+ holdTime.put(dst, 0);
} else {
- NodeConnector dst = edge.getHeadNodeConnector();
agingMap.put(dst, 0);
}
+ elapsedTime.remove(src);
+ // fast discovery of the edge in reverse direction
+ if (!edgeMap.containsKey(dst) && !readyListHi.contains(dst) && !elapsedTime.keySet().contains(dst)) {
+ moveToReadyListHi(dst);
+ }
+
+ //checking only OF map, since production edge discovery always overwrites any existing edge
+ UpdateType ut = edgeMap.containsKey(dst) ? UpdateType.CHANGED : UpdateType.ADDED;
// notify
- updateEdge(edge, UpdateType.ADDED, props);
+ updateEdge(edge, ut, props);
logger.trace("Add edge {}", edge);
}
* Remove OpenFlow edge
*/
private void removeEdge(NodeConnector nodeConnector, boolean stillEnabled) {
- pendingMap.remove(nodeConnector);
- readyListLo.remove(nodeConnector);
- readyListHi.remove(nodeConnector);
+ if (nodeConnector == null) {
+ return;
+ }
+
+ removeNodeConnector(nodeConnector);
if (stillEnabled) {
// keep discovering
- if (!waitingList.contains(nodeConnector)) {
- waitingList.add(nodeConnector);
- }
- } else {
- // stop it
- waitingList.remove(nodeConnector);
+ stagingList.add(nodeConnector);
}
Edge edge = null;
return;
}
+
this.discoveryListener.notifyEdge(edge, type, props);
NodeConnector src = edge.getTailNodeConnector(), dst = edge.getHeadNodeConnector();
private void moveToReadyListHi(NodeConnector nodeConnector) {
if (readyListLo.contains(nodeConnector)) {
readyListLo.remove(nodeConnector);
- } else if (waitingList.contains(nodeConnector)) {
- waitingList.remove(nodeConnector);
+ } else if (stagingList.contains(nodeConnector)) {
+ stagingList.remove(nodeConnector);
}
readyListHi.add(nodeConnector);
}
return discoveryConsistencyCheckMultiple * discoveryBatchRestartTicks;
}
- private int getDiscoveryFinalTimeoutInterval() {
- return (discoveryRetry + 1) * discoveryTimeoutTicks;
- }
-
@Override
public String getHelp() {
StringBuffer help = new StringBuffer();
help.append("---Topology Discovery---\n");
help.append("\t prlh - Print readyListHi entries\n");
help.append("\t prll - Print readyListLo entries\n");
- help.append("\t pwl - Print waitingList entries\n");
- help.append("\t ppl - Print pendingList entries\n");
+ help.append("\t psl - Print stagingList entries\n");
+ help.append("\t pht - Print hold time\n");
+ help.append("\t pet - Print elapsed time\n");
help.append("\t ptick - Print tick time in msec\n");
help.append("\t pcc - Print CC info\n");
help.append("\t psize - Print sizes of all the lists\n");
help.append("\t sports [ports] - Set/show max ports per batch\n");
help.append("\t spause [ticks] - Set/show pause period\n");
help.append("\t sdi [ticks] - Set/show discovery interval in ticks\n");
- help.append("\t stm [ticks] - Set/show per timeout ticks\n");
- help.append("\t sretry [count] - Set/show num of retries\n");
help.append("\t addsw <swid> - Add a switch\n");
help.append("\t remsw <swid> - Remove a switch\n");
help.append("\t page - Print aging info\n");
return help.toString();
}
+ private List<NodeConnector> sortList(Collection<NodeConnector> ncs) {
+ List<String> ncStrArray = new ArrayList<String>();
+ for (NodeConnector nc : ncs) {
+ ncStrArray.add(nc.toString());
+ }
+ Collections.sort(ncStrArray);
+
+ List<NodeConnector> sortedNodeConnectors = new ArrayList<NodeConnector>();
+ for (String ncStr : ncStrArray) {
+ sortedNodeConnectors.add(NodeConnector.fromString(ncStr));
+ }
+
+ return sortedNodeConnectors;
+ }
+
public void _prlh(CommandInterpreter ci) {
- ci.println("ReadyListHi\n");
- for (NodeConnector nodeConnector : readyListHi) {
+ ci.println("readyListHi\n");
+ for (NodeConnector nodeConnector : sortList(readyListHi)) {
if (nodeConnector == null) {
continue;
}
ci.println(nodeConnector);
}
+ ci.println("Total number of Node Connectors: " + readyListHi.size());
}
public void _prll(CommandInterpreter ci) {
- ci.println("ReadyListLo\n");
- for (NodeConnector nodeConnector : readyListLo) {
+ ci.println("readyListLo\n");
+ for (NodeConnector nodeConnector : sortList(readyListLo)) {
if (nodeConnector == null) {
continue;
}
ci.println(nodeConnector);
}
+ ci.println("Total number of Node Connectors: " + readyListLo.size());
}
- public void _pwl(CommandInterpreter ci) {
- ci.println("WaitingList\n");
- for (NodeConnector nodeConnector : waitingList) {
+ public void _psl(CommandInterpreter ci) {
+ ci.println("stagingList\n");
+ for (NodeConnector nodeConnector : sortList(stagingList)) {
if (nodeConnector == null) {
continue;
}
ci.println(nodeConnector);
}
+ ci.println("Total number of Node Connectors: " + stagingList.size());
+ }
+
+ public void _pht(CommandInterpreter ci) {
+ ci.println(" NodeConnector Last rx LLDP (sec)");
+ for (ConcurrentMap.Entry<NodeConnector, Integer> entry: holdTime.entrySet()) {
+ ci.println(entry.getKey() + "\t\t" + entry.getValue() * (discoveryTimerTick / 1000));
+ }
+ ci.println("\nSize: " + holdTime.size() + "\tTimeout: " + discoveryTimeoutTicks * (discoveryTimerTick / 1000)
+ + " sec");
}
- public void _ppl(CommandInterpreter ci) {
- ci.println("pendingMap\n");
- ci.println(" NodeConnector Last rx LLDP (s)");
- for (ConcurrentMap.Entry<NodeConnector, Integer> entry: pendingMap.entrySet()) {
- ci.println(entry.getKey() + "\t\t" + entry.getValue());
+ public void _pet(CommandInterpreter ci) {
+ ci.println(" NodeConnector Elapsed Time (sec)");
+ for (ConcurrentMap.Entry<NodeConnector, Integer> entry: elapsedTime.entrySet()) {
+ ci.println(entry.getKey() + "\t\t" + entry.getValue() * (discoveryTimerTick / 1000));
}
+ ci.println("\nSize: " + elapsedTime.size() + "\tThreshold: " + DiscoveryPeriod.THRESHOLD.getTime() + " sec");
}
public void _ptick(CommandInterpreter ci) {
}
public void _ptm(CommandInterpreter ci) {
- ci.println("Final timeout ticks " + getDiscoveryFinalTimeoutInterval());
- ci.println("Per timeout ticks " + discoveryTimeoutTicks);
- ci.println("Number of retries after initial timeout " + discoveryRetry);
+ ci.println("Timeout " + discoveryTimeoutTicks + " ticks, " + discoveryTimerTick / 1000 + " sec per tick.");
}
public void _psize(CommandInterpreter ci) {
ci.println("readyListLo size " + readyListLo.size() + "\n" + "readyListHi size " + readyListHi.size() + "\n"
- + "waitingList size " + waitingList.size() + "\n" + "pendingMap size " + pendingMap.size() + "\n"
+ + "stagingList size " + stagingList.size() + "\n" + "holdTime size " + holdTime.size() + "\n"
+ "edgeMap size " + edgeMap.size() + "\n" + "prodMap size " + prodMap.size() + "\n" + "agingMap size "
- + agingMap.size());
+ + agingMap.size() + "\n" + "elapsedTime size " + elapsedTime.size());
}
public void _page(CommandInterpreter ci) {
public void _spause(CommandInterpreter ci) {
String val = ci.nextArgument();
String out = "Please enter pause period less than " + discoveryBatchRestartTicks + ". Current pause period is "
- + discoveryBatchPausePeriod + " pause tick is " + discoveryBatchPauseTicks + ".";
+ + discoveryBatchPausePeriod + " ticks, pause at " + discoveryBatchPauseTicks + " ticks, "
+ + discoveryTimerTick / 1000 + " sec per tick.";
if (val != null) {
try {
int pause = Integer.parseInt(val);
if (pause < discoveryBatchRestartTicks) {
discoveryBatchPausePeriod = pause;
- discoveryBatchPauseTicks = discoveryBatchRestartTicks - discoveryBatchPausePeriod;
+ discoveryBatchPauseTicks = getDiscoveryPauseInterval();
return;
}
} catch (Exception e) {
public void _sdi(CommandInterpreter ci) {
String val = ci.nextArgument();
- String out = "Please enter discovery interval greater than " + discoveryBatchPausePeriod
- + ". Current value is " + discoveryBatchRestartTicks + ".";
+ String out = "Please enter discovery interval in ticks. Current value is " + discoveryBatchRestartTicks + " ticks, "
+ + discoveryTimerTick / 1000 + " sec per tick.";
if (val != null) {
try {
- int restart = Integer.parseInt(val);
- if (restart > discoveryBatchPausePeriod) {
- discoveryBatchRestartTicks = restart;
- discoveryBatchPauseTicks = discoveryBatchRestartTicks - discoveryBatchPausePeriod;
- return;
+ int ticks;
+ Set<NodeConnector> monitorSet = holdTime.keySet();
+ if (monitorSet != null) {
+ for (NodeConnector nodeConnector : monitorSet) {
+ holdTime.put(nodeConnector, 0);
+ }
}
+
+ ticks = Integer.parseInt(val);
+ DiscoveryPeriod.INTERVAL.setTick(ticks);
+ discoveryBatchRestartTicks = getDiscoveryInterval();
+ discoveryBatchPauseTicks = getDiscoveryPauseInterval();
+ discoveryTimeoutTicks = getDiscoveryTimeout();
+ return;
} catch (Exception e) {
}
}
return;
}
- public void _sretry(CommandInterpreter ci) {
- String val = ci.nextArgument();
- if (val == null) {
- ci.println("Please enter number of retries. Current value is " + discoveryRetry);
- return;
- }
- try {
- discoveryRetry = Integer.parseInt(val);
- } catch (Exception e) {
- ci.println("Please enter a valid number");
- }
- return;
- }
-
- public void _stm(CommandInterpreter ci) {
- String val = ci.nextArgument();
- String out = "Please enter timeout tick value less than " + discoveryBatchRestartTicks + ". Current value is "
- + discoveryTimeoutTicks;
- if (val != null) {
- try {
- int timeout = Integer.parseInt(val);
- if (timeout < discoveryBatchRestartTicks) {
- discoveryTimeoutTicks = timeout;
- return;
- }
- } catch (Exception e) {
- }
- }
-
- ci.println(out);
- }
-
public void _addsw(CommandInterpreter ci) {
String val = ci.nextArgument();
Long sid;
}
}
+ void setIPluginOutConnectionService(IPluginOutConnectionService s) {
+ connectionOutService = s;
+ }
+
+ void unsetIPluginOutConnectionService(IPluginOutConnectionService s) {
+ if (connectionOutService == s) {
+ connectionOutService = null;
+ }
+ }
+
private void initDiscoveryPacket() {
// Create LLDP ChassisID TLV
chassisIdTlv = new LLDPTLV();
chassisIdTlv.setType(LLDPTLV.TLVType.ChassisID.getValue());
+ // Create LLDP SystemName TLV
+ systemNameTlv = new LLDPTLV();
+ systemNameTlv.setType(LLDPTLV.TLVType.SystemName.getValue());
+
// Create LLDP PortID TLV
portIdTlv = new LLDPTLV();
portIdTlv.setType(LLDPTLV.TLVType.PortID.getValue());
readyListHi = new CopyOnWriteArrayList<NodeConnector>();
readyListLo = new CopyOnWriteArrayList<NodeConnector>();
- waitingList = new CopyOnWriteArrayList<NodeConnector>();
- pendingMap = new ConcurrentHashMap<NodeConnector, Integer>();
+ stagingList = new CopyOnWriteArrayList<NodeConnector>();
+ holdTime = new ConcurrentHashMap<NodeConnector, Integer>();
+ elapsedTime = new ConcurrentHashMap<NodeConnector, Integer>();
edgeMap = new ConcurrentHashMap<NodeConnector, Edge>();
agingMap = new ConcurrentHashMap<NodeConnector, Integer>();
prodMap = new ConcurrentHashMap<NodeConnector, Edge>();
discoverySnoopingDisableList = new CopyOnWriteArrayList<NodeConnector>();
+ discoveryBatchRestartTicks = getDiscoveryInterval();
+ discoveryBatchPauseTicks = getDiscoveryPauseInterval();
+ discoveryTimeoutTicks = getDiscoveryTimeout();
+ discoveryThresholdTicks = getDiscoveryThreshold();
+ discoveryAgeoutTicks = getDiscoveryAgeout();
+ discoveryConsistencyCheckTickCount = discoveryBatchPauseTicks;
+ discoveryBatchMaxPorts = getDiscoveryBatchMaxPorts();
+
discoveryTimer = new Timer("DiscoveryService");
discoveryTimerTask = new DiscoveryTimerTask();
transmitQ = null;
readyListHi = null;
readyListLo = null;
- waitingList = null;
- pendingMap = null;
+ stagingList = null;
+ holdTime = null;
edgeMap = null;
agingMap = null;
prodMap = null;
}
/**
- * This method returns the timeout value in waiting for response of a
- * discovery query.
+ * This method returns the timeout value in receiving subsequent discovery packets on a port.
*
* @return The discovery timeout in ticks
*/
private int getDiscoveryTimeout() {
- String timeout = System.getProperty("of.discoveryTimeout");
- return getDiscoveryTicks(DiscoveryPeriod.TIMEOUT, timeout);
+ String val = System.getProperty("of.discoveryTimeoutMultiple");
+ int multiple = 2;
+
+ if (val != null) {
+ try {
+ multiple = Integer.parseInt(val);
+ } catch (Exception e) {
+ }
+ }
+ return getDiscoveryInterval() * multiple + 3;
+ }
+
+ /**
+ * This method returns the user configurable threshold value
+ *
+ * @return The discovery threshold value in ticks
+ */
+ private int getDiscoveryThreshold() {
+ String val = System.getProperty("of.discoveryThreshold");
+ return getDiscoveryTicks(DiscoveryPeriod.THRESHOLD, val);
}
/**
}
/**
- * This method returns the number of retries after the initial discovery
- * packet is not received within the timeout period. Default is 2 times.
+ * This method returns the pause interval
+ *
+ * @return The pause interval in ticks
+ */
+ private int getDiscoveryPauseInterval() {
+ if (discoveryBatchRestartTicks > discoveryBatchPausePeriod) {
+ return discoveryBatchRestartTicks - discoveryBatchPausePeriod;
+ } else {
+ return discoveryBatchRestartTicks - 1;
+ }
+ }
+
+ /**
+ * This method returns the user configurable maximum number of ports handled
+ * in one discovery batch.
*
- * @return The number of discovery retries
+ * @return The maximum number of ports
*/
- private int getDiscoveryRetry() {
- String retry = System.getProperty("of.discoveryRetry");
- int rv = 2;
+ private int getDiscoveryBatchMaxPorts() {
+ String val = System.getProperty("of.discoveryBatchMaxPorts");
+ int ports = 512;
- if (retry != null) {
+ if (val != null) {
try {
- rv = Integer.parseInt(retry);
+ ports = Integer.parseInt(val);
} catch (Exception e) {
}
}
-
- return rv;
+ return ports;
}
+
}