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com.alibaba.rocketmq.client.impl.consumer.RebalanceImpl Maven / Gradle / Ivy
/**
* 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 com.alibaba.rocketmq.client.impl.consumer;
import com.alibaba.rocketmq.client.consumer.AllocateMessageQueueStrategy;
import com.alibaba.rocketmq.client.impl.FindBrokerResult;
import com.alibaba.rocketmq.client.impl.factory.MQClientInstance;
import com.alibaba.rocketmq.client.log.ClientLogger;
import com.alibaba.rocketmq.common.MixAll;
import com.alibaba.rocketmq.common.message.MessageQueue;
import com.alibaba.rocketmq.common.protocol.body.LockBatchRequestBody;
import com.alibaba.rocketmq.common.protocol.body.UnlockBatchRequestBody;
import com.alibaba.rocketmq.common.protocol.heartbeat.ConsumeType;
import com.alibaba.rocketmq.common.protocol.heartbeat.MessageModel;
import com.alibaba.rocketmq.common.protocol.heartbeat.SubscriptionData;
import org.slf4j.Logger;
import java.util.*;
import java.util.Map.Entry;
import java.util.concurrent.ConcurrentHashMap;
/**
* Base class for rebalance algorithm
*
* @author shijia.wxr
*/
public abstract class RebalanceImpl {
protected static final Logger log = ClientLogger.getLog();
protected final ConcurrentHashMap processQueueTable = new ConcurrentHashMap(64);
protected final ConcurrentHashMap> topicSubscribeInfoTable =
new ConcurrentHashMap>();
protected final ConcurrentHashMap subscriptionInner =
new ConcurrentHashMap();
protected String consumerGroup;
protected MessageModel messageModel;
protected AllocateMessageQueueStrategy allocateMessageQueueStrategy;
protected MQClientInstance mQClientFactory;
public RebalanceImpl(String consumerGroup, MessageModel messageModel, AllocateMessageQueueStrategy allocateMessageQueueStrategy,
MQClientInstance mQClientFactory) {
this.consumerGroup = consumerGroup;
this.messageModel = messageModel;
this.allocateMessageQueueStrategy = allocateMessageQueueStrategy;
this.mQClientFactory = mQClientFactory;
}
public void unlock(final MessageQueue mq, final boolean oneway) {
FindBrokerResult findBrokerResult = this.mQClientFactory.findBrokerAddressInSubscribe(mq.getBrokerName(), MixAll.MASTER_ID, true);
if (findBrokerResult != null) {
UnlockBatchRequestBody requestBody = new UnlockBatchRequestBody();
requestBody.setConsumerGroup(this.consumerGroup);
requestBody.setClientId(this.mQClientFactory.getClientId());
requestBody.getMqSet().add(mq);
try {
this.mQClientFactory.getMQClientAPIImpl().unlockBatchMQ(findBrokerResult.getBrokerAddr(), requestBody, 1000, oneway);
log.warn("unlock messageQueue. group:{}, clientId:{}, mq:{}", //
this.consumerGroup, //
this.mQClientFactory.getClientId(), //
mq);
} catch (Exception e) {
log.error("unlockBatchMQ exception, " + mq, e);
}
}
}
public void unlockAll(final boolean oneway) {
HashMap> brokerMqs = this.buildProcessQueueTableByBrokerName();
for (final Map.Entry> entry : brokerMqs.entrySet()) {
final String brokerName = entry.getKey();
final Set mqs = entry.getValue();
if (mqs.isEmpty())
continue;
FindBrokerResult findBrokerResult = this.mQClientFactory.findBrokerAddressInSubscribe(brokerName, MixAll.MASTER_ID, true);
if (findBrokerResult != null) {
UnlockBatchRequestBody requestBody = new UnlockBatchRequestBody();
requestBody.setConsumerGroup(this.consumerGroup);
requestBody.setClientId(this.mQClientFactory.getClientId());
requestBody.setMqSet(mqs);
try {
this.mQClientFactory.getMQClientAPIImpl().unlockBatchMQ(findBrokerResult.getBrokerAddr(), requestBody, 1000, oneway);
for (MessageQueue mq : mqs) {
ProcessQueue processQueue = this.processQueueTable.get(mq);
if (processQueue != null) {
processQueue.setLocked(false);
log.info("the message queue unlock OK, Group: {} {}", this.consumerGroup, mq);
}
}
} catch (Exception e) {
log.error("unlockBatchMQ exception, " + mqs, e);
}
}
}
}
private HashMap> buildProcessQueueTableByBrokerName() {
HashMap> result = new HashMap>();
for (MessageQueue mq : this.processQueueTable.keySet()) {
Set mqs = result.get(mq.getBrokerName());
if (null == mqs) {
mqs = new HashSet();
result.put(mq.getBrokerName(), mqs);
}
mqs.add(mq);
}
return result;
}
public boolean lock(final MessageQueue mq) {
FindBrokerResult findBrokerResult = this.mQClientFactory.findBrokerAddressInSubscribe(mq.getBrokerName(), MixAll.MASTER_ID, true);
if (findBrokerResult != null) {
LockBatchRequestBody requestBody = new LockBatchRequestBody();
requestBody.setConsumerGroup(this.consumerGroup);
requestBody.setClientId(this.mQClientFactory.getClientId());
requestBody.getMqSet().add(mq);
try {
Set lockedMq =
this.mQClientFactory.getMQClientAPIImpl().lockBatchMQ(findBrokerResult.getBrokerAddr(), requestBody, 1000);
for (MessageQueue mmqq : lockedMq) {
ProcessQueue processQueue = this.processQueueTable.get(mmqq);
if (processQueue != null) {
processQueue.setLocked(true);
processQueue.setLastLockTimestamp(System.currentTimeMillis());
}
}
boolean lockOK = lockedMq.contains(mq);
log.info("the message queue lock {}, {} {}", //
(lockOK ? "OK" : "Failed"), //
this.consumerGroup, //
mq);
return lockOK;
} catch (Exception e) {
log.error("lockBatchMQ exception, " + mq, e);
}
}
return false;
}
public void lockAll() {
HashMap> brokerMqs = this.buildProcessQueueTableByBrokerName();
Iterator>> it = brokerMqs.entrySet().iterator();
while (it.hasNext()) {
Entry> entry = it.next();
final String brokerName = entry.getKey();
final Set mqs = entry.getValue();
if (mqs.isEmpty())
continue;
FindBrokerResult findBrokerResult = this.mQClientFactory.findBrokerAddressInSubscribe(brokerName, MixAll.MASTER_ID, true);
if (findBrokerResult != null) {
LockBatchRequestBody requestBody = new LockBatchRequestBody();
requestBody.setConsumerGroup(this.consumerGroup);
requestBody.setClientId(this.mQClientFactory.getClientId());
requestBody.setMqSet(mqs);
try {
Set lockOKMQSet =
this.mQClientFactory.getMQClientAPIImpl().lockBatchMQ(findBrokerResult.getBrokerAddr(), requestBody, 1000);
for (MessageQueue mq : lockOKMQSet) {
ProcessQueue processQueue = this.processQueueTable.get(mq);
if (processQueue != null) {
if (!processQueue.isLocked()) {
log.info("the message queue locked OK, Group: {} {}", this.consumerGroup, mq);
}
processQueue.setLocked(true);
processQueue.setLastLockTimestamp(System.currentTimeMillis());
}
}
for (MessageQueue mq : mqs) {
if (!lockOKMQSet.contains(mq)) {
ProcessQueue processQueue = this.processQueueTable.get(mq);
if (processQueue != null) {
processQueue.setLocked(false);
log.warn("the message queue locked Failed, Group: {} {}", this.consumerGroup, mq);
}
}
}
} catch (Exception e) {
log.error("lockBatchMQ exception, " + mqs, e);
}
}
}
}
public void doRebalance() {
Map subTable = this.getSubscriptionInner();
if (subTable != null) {
for (final Map.Entry entry : subTable.entrySet()) {
final String topic = entry.getKey();
try {
this.rebalanceByTopic(topic);
} catch (Exception e) {
if (!topic.startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
log.warn("rebalanceByTopic Exception", e);
}
}
}
}
this.truncateMessageQueueNotMyTopic();
}
public ConcurrentHashMap getSubscriptionInner() {
return subscriptionInner;
}
private void rebalanceByTopic(final String topic) {
switch (messageModel) {
case BROADCASTING: {
Set mqSet = this.topicSubscribeInfoTable.get(topic);
if (mqSet != null) {
boolean changed = this.updateProcessQueueTableInRebalance(topic, mqSet);
if (changed) {
this.messageQueueChanged(topic, mqSet, mqSet);
log.info("messageQueueChanged {} {} {} {}", //
consumerGroup, //
topic, //
mqSet, //
mqSet);
}
} else {
log.warn("doRebalance, {}, but the topic[{}] not exist.", consumerGroup, topic);
}
break;
}
case CLUSTERING: {
Set mqSet = this.topicSubscribeInfoTable.get(topic);
List cidAll = this.mQClientFactory.findConsumerIdList(topic, consumerGroup);
if (null == mqSet) {
if (!topic.startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
log.warn("doRebalance, {}, but the topic[{}] not exist.", consumerGroup, topic);
}
}
if (null == cidAll) {
log.warn("doRebalance, {} {}, get consumer id list failed", consumerGroup, topic);
}
if (mqSet != null && cidAll != null) {
List mqAll = new ArrayList();
mqAll.addAll(mqSet);
Collections.sort(mqAll);
Collections.sort(cidAll);
AllocateMessageQueueStrategy strategy = this.allocateMessageQueueStrategy;
List allocateResult = null;
try {
allocateResult = strategy.allocate(//
this.consumerGroup, //
this.mQClientFactory.getClientId(), //
mqAll, //
cidAll);
} catch (Throwable e) {
log.error("AllocateMessageQueueStrategy.allocate Exception. allocateMessageQueueStrategyName={}", strategy.getName(),
e);
return;
}
Set allocateResultSet = new HashSet();
if (allocateResult != null) {
allocateResultSet.addAll(allocateResult);
}
boolean changed = this.updateProcessQueueTableInRebalance(topic, allocateResultSet);
if (changed) {
log.info(
"rebalanced result changed. allocateMessageQueueStrategyName={}, group={}, topic={}, clientId={}, mqAllSize={}, cidAllSize={}, rebalanceResultSize={}, rebalanceResultSet={}",
strategy.getName(), consumerGroup, topic, this.mQClientFactory.getClientId(), mqSet.size(), cidAll.size(),
allocateResultSet.size(), allocateResultSet);
this.messageQueueChanged(topic, mqSet, allocateResultSet);
}
}
break;
}
default:
break;
}
}
private void truncateMessageQueueNotMyTopic() {
Map subTable = this.getSubscriptionInner();
for (MessageQueue mq : this.processQueueTable.keySet()) {
if (!subTable.containsKey(mq.getTopic())) {
ProcessQueue pq = this.processQueueTable.remove(mq);
if (pq != null) {
pq.setDropped(true);
log.info("doRebalance, {}, truncateMessageQueueNotMyTopic remove unnecessary mq, {}", consumerGroup, mq);
}
}
}
}
private boolean updateProcessQueueTableInRebalance(final String topic, final Set mqSet) {
boolean changed = false;
Iterator> it = this.processQueueTable.entrySet().iterator();
while (it.hasNext()) {
Entry next = it.next();
MessageQueue mq = next.getKey();
ProcessQueue pq = next.getValue();
if (mq.getTopic().equals(topic)) {
if (!mqSet.contains(mq)) {
pq.setDropped(true);
if (this.removeUnnecessaryMessageQueue(mq, pq)) {
it.remove();
changed = true;
log.info("doRebalance, {}, remove unnecessary mq, {}", consumerGroup, mq);
}
} else if (pq.isPullExpired()) {
switch (this.consumeType()) {
case CONSUME_ACTIVELY:
break;
case CONSUME_PASSIVELY:
pq.setDropped(true);
if (this.removeUnnecessaryMessageQueue(mq, pq)) {
it.remove();
changed = true;
log.error("[BUG]doRebalance, {}, remove unnecessary mq, {}, because pull is pause, so try to fixed it",
consumerGroup, mq);
}
break;
default:
break;
}
}
}
}
List pullRequestList = new ArrayList();
for (MessageQueue mq : mqSet) {
if (!this.processQueueTable.containsKey(mq)) {
this.removeDirtyOffset(mq);
ProcessQueue pq = new ProcessQueue();
long nextOffset = this.computePullFromWhere(mq);
if (nextOffset >= 0) {
ProcessQueue pre = this.processQueueTable.putIfAbsent(mq, pq);
if (pre != null) {
log.info("doRebalance, {}, mq already exists, {}", consumerGroup, mq);
} else {
log.info("doRebalance, {}, add a new mq, {}", consumerGroup, mq);
PullRequest pullRequest = new PullRequest();
pullRequest.setConsumerGroup(consumerGroup);
pullRequest.setNextOffset(nextOffset);
pullRequest.setMessageQueue(mq);
pullRequest.setProcessQueue(pq);
pullRequestList.add(pullRequest);
changed = true;
}
} else {
log.warn("doRebalance, {}, add new mq failed, {}", consumerGroup, mq);
}
}
}
this.dispatchPullRequest(pullRequestList);
return changed;
}
public abstract void messageQueueChanged(final String topic, final Set mqAll, final Set mqDivided);
public abstract boolean removeUnnecessaryMessageQueue(final MessageQueue mq, final ProcessQueue pq);
public abstract ConsumeType consumeType();
public abstract void removeDirtyOffset(final MessageQueue mq);
public abstract long computePullFromWhere(final MessageQueue mq);
public abstract void dispatchPullRequest(final List pullRequestList);
public void removeProcessQueue(final MessageQueue mq) {
ProcessQueue prev = this.processQueueTable.remove(mq);
if (prev != null) {
boolean droped = prev.isDropped();
prev.setDropped(true);
this.removeUnnecessaryMessageQueue(mq, prev);
log.info("Fix Offset, {}, remove unnecessary mq, {} Droped: {}", consumerGroup, mq, droped);
}
}
public ConcurrentHashMap getProcessQueueTable() {
return processQueueTable;
}
public ConcurrentHashMap> getTopicSubscribeInfoTable() {
return topicSubscribeInfoTable;
}
public String getConsumerGroup() {
return consumerGroup;
}
public void setConsumerGroup(String consumerGroup) {
this.consumerGroup = consumerGroup;
}
public MessageModel getMessageModel() {
return messageModel;
}
public void setMessageModel(MessageModel messageModel) {
this.messageModel = messageModel;
}
public AllocateMessageQueueStrategy getAllocateMessageQueueStrategy() {
return allocateMessageQueueStrategy;
}
public void setAllocateMessageQueueStrategy(AllocateMessageQueueStrategy allocateMessageQueueStrategy) {
this.allocateMessageQueueStrategy = allocateMessageQueueStrategy;
}
public MQClientInstance getmQClientFactory() {
return mQClientFactory;
}
public void setmQClientFactory(MQClientInstance mQClientFactory) {
this.mQClientFactory = mQClientFactory;
}
public void destroy() {
Iterator> it = this.processQueueTable.entrySet().iterator();
while (it.hasNext()) {
Entry next = it.next();
next.getValue().setDropped(true);
}
this.processQueueTable.clear();
}
}
