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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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.apache.zookeeper.server.quorum;
import java.nio.ByteBuffer;
import java.util.concurrent.atomic.AtomicReference;
import org.apache.jute.Record;
import org.apache.zookeeper.server.ObserverBean;
import org.apache.zookeeper.server.Request;
import org.apache.zookeeper.server.ServerMetrics;
import org.apache.zookeeper.server.TxnLogEntry;
import org.apache.zookeeper.server.quorum.QuorumPeer.QuorumServer;
import org.apache.zookeeper.server.quorum.flexible.QuorumVerifier;
import org.apache.zookeeper.server.util.SerializeUtils;
import org.apache.zookeeper.txn.SetDataTxn;
import org.apache.zookeeper.txn.TxnDigest;
import org.apache.zookeeper.txn.TxnHeader;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* Observers are peers that do not take part in the atomic broadcast protocol.
* Instead, they are informed of successful proposals by the Leader. Observers
* therefore naturally act as a relay point for publishing the proposal stream
* and can relieve Followers of some of the connection load. Observers may
* submit proposals, but do not vote in their acceptance.
*
* See ZOOKEEPER-368 for a discussion of this feature.
*/
public class Observer extends Learner {
private static final Logger LOG = LoggerFactory.getLogger(Observer.class);
/**
* When observer lost its connection with the leader, it waits for 0 to the
* specified value before trying to reconnect with the leader. So that
* the entire observer fleet won't try to run leader election and reconnect
* to the leader at once. Default value is zero.
*/
public static final String OBSERVER_RECONNECT_DELAY_MS = "zookeeper.observer.reconnectDelayMs";
/**
* Delay the Observer's participation in a leader election upon disconnect
* so as to prevent unexpected additional load on the voting peers during
* the process. Default value is 200.
*/
public static final String OBSERVER_ELECTION_DELAY_MS = "zookeeper.observer.election.DelayMs";
private static final long reconnectDelayMs;
private static volatile long observerElectionDelayMs;
static {
reconnectDelayMs = Long.getLong(OBSERVER_RECONNECT_DELAY_MS, 0);
LOG.info("{} = {}", OBSERVER_RECONNECT_DELAY_MS, reconnectDelayMs);
observerElectionDelayMs = Long.getLong(OBSERVER_ELECTION_DELAY_MS, 200);
LOG.info("{} = {}", OBSERVER_ELECTION_DELAY_MS , observerElectionDelayMs);
}
/**
* next learner master to try, when specified
*/
private static final AtomicReference nextLearnerMaster = new AtomicReference<>();
private QuorumPeer.QuorumServer currentLearnerMaster = null;
Observer(QuorumPeer self, ObserverZooKeeperServer observerZooKeeperServer) {
this.self = self;
this.zk = observerZooKeeperServer;
}
@Override
public String toString() {
StringBuilder sb = new StringBuilder();
sb.append("Observer ").append(sock);
sb.append(" pendingRevalidationCount:").append(pendingRevalidations.size());
return sb.toString();
}
/**
* the main method called by the observer to observe the leader
* @throws Exception
*/
void observeLeader() throws Exception {
zk.registerJMX(new ObserverBean(this, zk), self.jmxLocalPeerBean);
long connectTime = 0;
boolean completedSync = false;
try {
self.setZabState(QuorumPeer.ZabState.DISCOVERY);
QuorumServer master = findLearnerMaster();
try {
connectToLeader(master.addr, master.hostname);
connectTime = System.currentTimeMillis();
long newLeaderZxid = registerWithLeader(Leader.OBSERVERINFO);
if (self.isReconfigStateChange()) {
throw new Exception("learned about role change");
}
self.setLeaderAddressAndId(master.addr, master.getId());
self.setZabState(QuorumPeer.ZabState.SYNCHRONIZATION);
syncWithLeader(newLeaderZxid);
self.setZabState(QuorumPeer.ZabState.BROADCAST);
completedSync = true;
QuorumPacket qp = new QuorumPacket();
while (this.isRunning() && nextLearnerMaster.get() == null) {
readPacket(qp);
processPacket(qp);
}
} catch (Exception e) {
LOG.warn("Exception when observing the leader", e);
closeSocket();
// clear pending revalidations
pendingRevalidations.clear();
}
} finally {
currentLearnerMaster = null;
zk.unregisterJMX(this);
if (connectTime != 0) {
long connectionDuration = System.currentTimeMillis() - connectTime;
LOG.info(
"Disconnected from leader (with address: {}). Was connected for {}ms. Sync state: {}",
leaderAddr,
connectionDuration,
completedSync);
messageTracker.dumpToLog(leaderAddr.toString());
}
}
}
private QuorumServer findLearnerMaster() {
QuorumPeer.QuorumServer prescribedLearnerMaster = nextLearnerMaster.getAndSet(null);
if (prescribedLearnerMaster != null
&& self.validateLearnerMaster(Long.toString(prescribedLearnerMaster.id)) == null) {
LOG.warn("requested next learner master {} is no longer valid", prescribedLearnerMaster);
prescribedLearnerMaster = null;
}
final QuorumPeer.QuorumServer master = (prescribedLearnerMaster == null)
? self.findLearnerMaster(findLeader())
: prescribedLearnerMaster;
currentLearnerMaster = master;
if (master == null) {
LOG.warn("No learner master found");
} else {
LOG.info("Observing new leader sid={} addr={}", master.id, master.addr);
}
return master;
}
/**
* Controls the response of an observer to the receipt of a quorumpacket
* @param qp
* @throws Exception
*/
protected void processPacket(QuorumPacket qp) throws Exception {
TxnLogEntry logEntry;
TxnHeader hdr;
TxnDigest digest;
Record txn;
switch (qp.getType()) {
case Leader.PING:
ping(qp);
break;
case Leader.PROPOSAL:
LOG.warn("Ignoring proposal");
break;
case Leader.COMMIT:
LOG.warn("Ignoring commit");
break;
case Leader.UPTODATE:
LOG.error("Received an UPTODATE message after Observer started");
break;
case Leader.REVALIDATE:
revalidate(qp);
break;
case Leader.SYNC:
((ObserverZooKeeperServer) zk).sync();
break;
case Leader.INFORM:
ServerMetrics.getMetrics().LEARNER_COMMIT_RECEIVED_COUNT.add(1);
logEntry = SerializeUtils.deserializeTxn(qp.getData());
hdr = logEntry.getHeader();
txn = logEntry.getTxn();
digest = logEntry.getDigest();
Request request = new Request(hdr.getClientId(), hdr.getCxid(), hdr.getType(), hdr, txn, 0);
request.logLatency(ServerMetrics.getMetrics().COMMIT_PROPAGATION_LATENCY);
request.setTxnDigest(digest);
ObserverZooKeeperServer obs = (ObserverZooKeeperServer) zk;
obs.commitRequest(request);
break;
case Leader.INFORMANDACTIVATE:
// get new designated leader from (current) leader's message
ByteBuffer buffer = ByteBuffer.wrap(qp.getData());
long suggestedLeaderId = buffer.getLong();
byte[] remainingdata = new byte[buffer.remaining()];
buffer.get(remainingdata);
logEntry = SerializeUtils.deserializeTxn(remainingdata);
hdr = logEntry.getHeader();
txn = logEntry.getTxn();
digest = logEntry.getDigest();
QuorumVerifier qv = self.configFromString(new String(((SetDataTxn) txn).getData()));
request = new Request(hdr.getClientId(), hdr.getCxid(), hdr.getType(), hdr, txn, 0);
request.setTxnDigest(digest);
obs = (ObserverZooKeeperServer) zk;
boolean majorChange = self.processReconfig(qv, suggestedLeaderId, qp.getZxid(), true);
obs.commitRequest(request);
if (majorChange) {
throw new Exception("changes proposed in reconfig");
}
break;
default:
LOG.warn("Unknown packet type: {}", LearnerHandler.packetToString(qp));
break;
}
}
/**
* Shutdown the Observer.
*/
public void shutdown() {
LOG.info("shutdown Observer");
super.shutdown();
}
static void waitForReconnectDelay() {
waitForReconnectDelayHelper(reconnectDelayMs);
}
static void waitForObserverElectionDelay() {
waitForReconnectDelayHelper(observerElectionDelayMs);
}
private static void waitForReconnectDelayHelper(long delayValueMs) {
if (delayValueMs > 0) {
long randomDelay = (long) (delayValueMs * Math.random());
LOG.info("Waiting for {} ms before reconnecting with the leader", randomDelay);
try {
Thread.sleep(randomDelay);
} catch (InterruptedException e) {
LOG.warn("Interrupted while waiting", e);
}
}
}
public long getLearnerMasterId() {
QuorumPeer.QuorumServer current = currentLearnerMaster;
return current == null ? -1 : current.id;
}
/**
* Prompts the Observer to disconnect from its current learner master and reconnect
* to the specified server. If that connection attempt fails, the Observer will
* fail over to the next available learner master.
*/
public boolean setLearnerMaster(String learnerMaster) {
final QuorumPeer.QuorumServer server = self.validateLearnerMaster(learnerMaster);
if (server == null) {
return false;
} else if (server.equals(currentLearnerMaster)) {
LOG.info("Already connected to requested learner master sid={} addr={}", server.id, server.addr);
return true;
} else {
LOG.info("Requesting disconnect and reconnect to new learner master sid={} addr={}", server.id, server.addr);
nextLearnerMaster.set(server);
return true;
}
}
public QuorumPeer.QuorumServer getCurrentLearnerMaster() {
return currentLearnerMaster;
}
public static long getObserverElectionDelayMs() {
return observerElectionDelayMs;
}
public static void setObserverElectionDelayMs(long electionDelayMs) {
observerElectionDelayMs = electionDelayMs;
LOG.info("{} = {}", OBSERVER_ELECTION_DELAY_MS, observerElectionDelayMs);
}
}
