/*
* Copyright 2014-present Open Networking Laboratory
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.onosproject.store.cluster.impl;
import com.google.common.base.MoreObjects;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Maps;
import org.apache.felix.scr.annotations.Activate;
import org.apache.felix.scr.annotations.Component;
import org.apache.felix.scr.annotations.Deactivate;
import org.apache.felix.scr.annotations.Modified;
import org.apache.felix.scr.annotations.Property;
import org.apache.felix.scr.annotations.Reference;
import org.apache.felix.scr.annotations.ReferenceCardinality;
import org.apache.felix.scr.annotations.ReferencePolicy;
import org.apache.felix.scr.annotations.Service;
import org.joda.time.DateTime;
import org.onlab.packet.IpAddress;
import org.onlab.util.KryoNamespace;
import org.onosproject.cfg.ConfigProperty;
import org.onosproject.cfg.ComponentConfigService;
import org.onosproject.cluster.ClusterEvent;
import org.onosproject.cluster.ClusterMetadataService;
import org.onosproject.cluster.ClusterStore;
import org.onosproject.cluster.ClusterStoreDelegate;
import org.onosproject.cluster.ControllerNode;
import org.onosproject.cluster.ControllerNode.State;
import org.onosproject.cluster.DefaultControllerNode;
import org.onosproject.cluster.NodeId;
import org.onosproject.store.AbstractStore;
import org.onosproject.store.cluster.messaging.Endpoint;
import org.onosproject.store.cluster.messaging.MessagingService;
import org.onosproject.store.serializers.KryoNamespaces;
import org.onosproject.store.serializers.StoreSerializer;
import org.osgi.service.component.ComponentContext;
import org.slf4j.Logger;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.TimeUnit;
import java.util.function.BiConsumer;
import java.util.stream.Collectors;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Strings.isNullOrEmpty;
import static org.onlab.util.Tools.groupedThreads;
import static org.onosproject.cluster.ClusterEvent.Type.INSTANCE_ACTIVATED;
import static org.onosproject.cluster.ClusterEvent.Type.INSTANCE_DEACTIVATED;
import static org.onosproject.cluster.ClusterEvent.Type.INSTANCE_READY;
import static org.slf4j.LoggerFactory.getLogger;
@Component(immediate = true)
@Service
/**
* Distributed cluster nodes store that employs an accrual failure
* detector to identify cluster member up/down status.
*/
public class DistributedClusterStore
extends AbstractStore<ClusterEvent, ClusterStoreDelegate>
implements ClusterStore {
private static final Logger log = getLogger(DistributedClusterStore.class);
public static final String HEARTBEAT_MESSAGE = "onos-cluster-heartbeat";
private static final int DEFAULT_HEARTBEAT_INTERVAL = 100;
@Property(name = "heartbeatInterval", intValue = DEFAULT_HEARTBEAT_INTERVAL,
label = "Interval time to send heartbeat to other controller nodes (millisecond)")
private int heartbeatInterval = DEFAULT_HEARTBEAT_INTERVAL;
private static final int DEFAULT_PHI_FAILURE_THRESHOLD = 10;
@Property(name = "phiFailureThreshold", intValue = DEFAULT_PHI_FAILURE_THRESHOLD,
label = "the value of Phi threshold to detect accrual failure")
private int phiFailureThreshold = DEFAULT_PHI_FAILURE_THRESHOLD;
private static final StoreSerializer SERIALIZER = StoreSerializer.using(
KryoNamespace.newBuilder()
.register(KryoNamespaces.API)
.nextId(KryoNamespaces.BEGIN_USER_CUSTOM_ID)
.register(HeartbeatMessage.class)
.build("ClusterStore"));
private static final String INSTANCE_ID_NULL = "Instance ID cannot be null";
private final Map<NodeId, ControllerNode> allNodes = Maps.newConcurrentMap();
private final Map<NodeId, State> nodeStates = Maps.newConcurrentMap();
private final Map<NodeId, DateTime> nodeStateLastUpdatedTimes = Maps.newConcurrentMap();
private ScheduledExecutorService heartBeatSender = Executors.newSingleThreadScheduledExecutor(
groupedThreads("onos/cluster/membership", "heartbeat-sender", log));
private ExecutorService heartBeatMessageHandler = Executors.newSingleThreadExecutor(
groupedThreads("onos/cluster/membership", "heartbeat-receiver", log));
private PhiAccrualFailureDetector failureDetector;
private ControllerNode localNode;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected ClusterMetadataService clusterMetadataService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
protected MessagingService messagingService;
// This must be optional to avoid a cyclic dependency
@Reference(cardinality = ReferenceCardinality.OPTIONAL_UNARY,
bind = "bindComponentConfigService",
unbind = "unbindComponentConfigService",
policy = ReferencePolicy.DYNAMIC)
protected ComponentConfigService cfgService;
/**
* Hook for wiring up optional reference to a service.
*
* @param service service being announced
*/
protected void bindComponentConfigService(ComponentConfigService service) {
if (cfgService == null) {
cfgService = service;
cfgService.registerProperties(getClass());
readComponentConfiguration();
}
}
/**
* Hook for unwiring optional reference to a service.
*
* @param service service being withdrawn
*/
protected void unbindComponentConfigService(ComponentConfigService service) {
if (cfgService == service) {
cfgService.unregisterProperties(getClass(), false);
cfgService = null;
}
}
@Activate
public void activate() {
localNode = clusterMetadataService.getLocalNode();
messagingService.registerHandler(HEARTBEAT_MESSAGE,
new HeartbeatMessageHandler(), heartBeatMessageHandler);
failureDetector = new PhiAccrualFailureDetector();
heartBeatSender.scheduleWithFixedDelay(this::heartbeat, 0,
heartbeatInterval, TimeUnit.MILLISECONDS);
log.info("Started");
}
@Deactivate
public void deactivate() {
messagingService.unregisterHandler(HEARTBEAT_MESSAGE);
heartBeatSender.shutdownNow();
heartBeatMessageHandler.shutdownNow();
log.info("Stopped");
}
@Modified
public void modified(ComponentContext context) {
readComponentConfiguration();
}
@Override
public void setDelegate(ClusterStoreDelegate delegate) {
checkNotNull(delegate, "Delegate cannot be null");
this.delegate = delegate;
}
@Override
public void unsetDelegate(ClusterStoreDelegate delegate) {
this.delegate = null;
}
@Override
public boolean hasDelegate() {
return this.delegate != null;
}
@Override
public ControllerNode getLocalNode() {
return localNode;
}
@Override
public Set<ControllerNode> getNodes() {
return ImmutableSet.copyOf(allNodes.values());
}
@Override
public ControllerNode getNode(NodeId nodeId) {
checkNotNull(nodeId, INSTANCE_ID_NULL);
return allNodes.get(nodeId);
}
@Override
public State getState(NodeId nodeId) {
checkNotNull(nodeId, INSTANCE_ID_NULL);
return MoreObjects.firstNonNull(nodeStates.get(nodeId), State.INACTIVE);
}
@Override
public void markFullyStarted(boolean started) {
updateState(localNode.id(), started ? State.READY : State.ACTIVE);
}
@Override
public ControllerNode addNode(NodeId nodeId, IpAddress ip, int tcpPort) {
checkNotNull(nodeId, INSTANCE_ID_NULL);
ControllerNode node = new DefaultControllerNode(nodeId, ip, tcpPort);
addNode(node);
return node;
}
@Override
public void removeNode(NodeId nodeId) {
checkNotNull(nodeId, INSTANCE_ID_NULL);
ControllerNode node = allNodes.remove(nodeId);
if (node != null) {
nodeStates.remove(nodeId);
notifyDelegate(new ClusterEvent(ClusterEvent.Type.INSTANCE_REMOVED, node));
}
}
private void addNode(ControllerNode node) {
allNodes.put(node.id(), node);
updateState(node.id(), node.equals(localNode) ? State.ACTIVE : State.INACTIVE);
notifyDelegate(new ClusterEvent(ClusterEvent.Type.INSTANCE_ADDED, node));
}
private void updateState(NodeId nodeId, State newState) {
State currentState = nodeStates.get(nodeId);
if (!Objects.equals(currentState, newState)) {
nodeStates.put(nodeId, newState);
nodeStateLastUpdatedTimes.put(nodeId, DateTime.now());
notifyStateChange(nodeId, currentState, newState);
}
}
private void heartbeat() {
try {
Set<ControllerNode> peers = allNodes.values()
.stream()
.filter(node -> !(node.id().equals(localNode.id())))
.collect(Collectors.toSet());
State state = nodeStates.get(localNode.id());
byte[] hbMessagePayload = SERIALIZER.encode(new HeartbeatMessage(localNode, state));
peers.forEach((node) -> {
heartbeatToPeer(hbMessagePayload, node);
State currentState = nodeStates.get(node.id());
double phi = failureDetector.phi(node.id());
if (phi >= phiFailureThreshold) {
if (currentState.isActive()) {
updateState(node.id(), State.INACTIVE);
}
} else {
if (currentState == State.INACTIVE) {
updateState(node.id(), State.ACTIVE);
}
}
});
} catch (Exception e) {
log.debug("Failed to send heartbeat", e);
}
}
private void notifyStateChange(NodeId nodeId, State oldState, State newState) {
if (oldState != newState) {
ControllerNode node = allNodes.get(nodeId);
// Either this node or that node is no longer part of the same cluster
if (node == null) {
log.debug("Could not find node {} in the cluster, ignoring state change", nodeId);
return;
}
ClusterEvent.Type type = newState == State.READY ? INSTANCE_READY :
newState == State.ACTIVE ? INSTANCE_ACTIVATED :
INSTANCE_DEACTIVATED;
notifyDelegate(new ClusterEvent(type, node));
}
}
private void heartbeatToPeer(byte[] messagePayload, ControllerNode peer) {
Endpoint remoteEp = new Endpoint(peer.ip(), peer.tcpPort());
messagingService.sendAsync(remoteEp, HEARTBEAT_MESSAGE, messagePayload).whenComplete((result, error) -> {
if (error != null) {
log.trace("Sending heartbeat to {} failed", remoteEp, error);
}
});
}
private class HeartbeatMessageHandler implements BiConsumer<Endpoint, byte[]> {
@Override
public void accept(Endpoint sender, byte[] message) {
HeartbeatMessage hb = SERIALIZER.decode(message);
if (clusterMetadataService.getClusterMetadata().getNodes().contains(hb.source())) {
failureDetector.report(hb.source().id());
updateState(hb.source().id(), hb.state);
}
}
}
private static class HeartbeatMessage {
private ControllerNode source;
private State state;
public HeartbeatMessage(ControllerNode source, State state) {
this.source = source;
this.state = state != null ? state : State.ACTIVE;
}
public ControllerNode source() {
return source;
}
}
@Override
public DateTime getLastUpdated(NodeId nodeId) {
return nodeStateLastUpdatedTimes.get(nodeId);
}
/**
* Extracts properties from the component configuration.
*
*/
private void readComponentConfiguration() {
Set<ConfigProperty> configProperties = cfgService.getProperties(getClass().getName());
for (ConfigProperty property : configProperties) {
if ("heartbeatInterval".equals(property.name())) {
String s = property.value();
if (s == null) {
setHeartbeatInterval(DEFAULT_HEARTBEAT_INTERVAL);
log.info("Heartbeat interval time is not configured, default value is {}",
DEFAULT_HEARTBEAT_INTERVAL);
} else {
int newHeartbeatInterval = isNullOrEmpty(s) ? DEFAULT_HEARTBEAT_INTERVAL
: Integer.parseInt(s.trim());
if (newHeartbeatInterval > 0 && heartbeatInterval != newHeartbeatInterval) {
heartbeatInterval = newHeartbeatInterval;
restartHeartbeatSender();
}
log.info("Configured. Heartbeat interval time is configured to {}",
heartbeatInterval);
}
}
if ("phiFailureThreshold".equals(property.name())) {
String s = property.value();
if (s == null) {
setPhiFailureThreshold(DEFAULT_PHI_FAILURE_THRESHOLD);
log.info("Phi failure threshold is not configured, default value is {}",
DEFAULT_PHI_FAILURE_THRESHOLD);
} else {
int newPhiFailureThreshold = isNullOrEmpty(s) ? DEFAULT_HEARTBEAT_INTERVAL
: Integer.parseInt(s.trim());
setPhiFailureThreshold(newPhiFailureThreshold);
log.info("Configured. Phi failure threshold is configured to {}",
phiFailureThreshold);
}
}
}
}
/**
* Sets heartbeat interval between the termination of one execution of heartbeat
* and the commencement of the next.
*
* @param interval term between each heartbeat
*/
private void setHeartbeatInterval(int interval) {
try {
checkArgument(interval > 0, "Interval must be greater than zero");
heartbeatInterval = interval;
} catch (IllegalArgumentException e) {
log.warn(e.getMessage());
heartbeatInterval = DEFAULT_HEARTBEAT_INTERVAL;
}
}
/**
* Sets Phi failure threshold.
* Phi is based on a paper titled: "The φ Accrual Failure Detector" by Hayashibara, et al.
*
* @param threshold
*/
private void setPhiFailureThreshold(int threshold) {
phiFailureThreshold = threshold;
}
/**
* Restarts heartbeatSender executor.
*/
private void restartHeartbeatSender() {
try {
ScheduledExecutorService prevSender = heartBeatSender;
heartBeatSender = Executors.newSingleThreadScheduledExecutor(
groupedThreads("onos/cluster/membership", "heartbeat-sender-%d", log));
heartBeatSender.scheduleWithFixedDelay(this::heartbeat, 0,
heartbeatInterval, TimeUnit.MILLISECONDS);
prevSender.shutdown();
} catch (Exception e) {
log.warn(e.getMessage());
}
}
}