分布式消息队列 RocketMQ 源码分析 —— Message 拉取与消费(下)

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1、概述

本文接:《RocketMQ 源码分析 —— Message 拉取与消费(上)》

主要解析 Consumer消费 逻辑涉及到的源码。

2、Consumer

MQ 提供了两类消费者:

  • PushConsumer:
    • 在大多数场景下使用。
    • 名字虽然是 Push 开头,实际在实现时,使用 Pull 方式实现。通过 Pull 不断不断不断轮询 Broker 获取消息。当不存在新消息时,Broker挂起请求,直到有新消息产生,取消挂起,返回新消息。这样,基本和 Broker 主动 Push 做到接近的实时性(当然,还是有相应的实时性损失)。原理类似 长轮询( Long-Polling )
  • PullConsumer

本文主要讲解PushConsumer,部分讲解PullConsumer,跳过顺序消费
本文主要讲解PushConsumer,部分讲解PullConsumer,跳过顺序消费
本文主要讲解PushConsumer,部分讲解PullConsumer,跳过顺序消费

3、PushConsumer 一览

先看一张 PushConsumer 包含的组件以及组件之间的交互图:

PushConsumer手绘图.png

  • RebalanceService:均衡消息队列服务,负责分配当前 Consumer 可消费的消息队列( MessageQueue )。当有新的 Consumer 的加入或移除,都会重新分配消息队列。
  • PullMessageService:拉取消息服务,不断不断不断Broker 拉取消息,并提交消费任务到 ConsumeMessageService
  • ConsumeMessageService:消费消息服务,不断不断不断消费消息,并处理消费结果。
  • RemoteBrokerOffsetStoreConsumer 消费进度管理,负责从 Broker 获取消费进度,同步消费进度到 Broker
  • ProcessQueue :消息处理队列。
  • MQClientInstance :封装对 NamesrvBroker 的 API调用,提供给 ProducerConsumer 使用。

4、PushConsumer 订阅

DefaultMQPushConsumerImpl#subscribe(…)

 1: public void subscribe(String topic, String subExpression) throws MQClientException {
 2:     try {
 3:         // 创建订阅数据
 4:         SubscriptionData subscriptionData = FilterAPI.buildSubscriptionData(this.defaultMQPushConsumer.getConsumerGroup(), //
 5:             topic, subExpression);
 6:         this.rebalanceImpl.getSubscriptionInner().put(topic, subscriptionData);
 7:         // 通过心跳同步Consumer信息到Broker
 8:         if (this.mQClientFactory != null) {
 9:             this.mQClientFactory.sendHeartbeatToAllBrokerWithLock();
10:         }
11:     } catch (Exception e) {
12:         throw new MQClientException("subscription exception", e);
13:     }
14: }
  • 说明 :订阅 Topic
  • 第 3 至 6 行 :创建订阅数据。详细解析见:FilterAPI.buildSubscriptionData(…)
  • 第 7 至 10 行 :通过心跳同步 Consumer 信息到 Broker

FilterAPI.buildSubscriptionData(…)

 1: public static SubscriptionData buildSubscriptionData(final String consumerGroup, String topic,
 2:     String subString) throws Exception {
 3:     SubscriptionData subscriptionData = new SubscriptionData();
 4:     subscriptionData.setTopic(topic);
 5:     subscriptionData.setSubString(subString);
 6:     // 处理订阅表达式
 7:     if (null == subString || subString.equals(SubscriptionData.SUB_ALL) || subString.length() == 0) {
 8:         subscriptionData.setSubString(SubscriptionData.SUB_ALL);
 9:     } else {
10:         String[] tags = subString.split("\\|\\|");
11:         if (tags.length > 0) {
12:             for (String tag : tags) {
13:                 if (tag.length() > 0) {
14:                     String trimString = tag.trim();
15:                     if (trimString.length() > 0) {
16:                         subscriptionData.getTagsSet().add(trimString);
17:                         subscriptionData.getCodeSet().add(trimString.hashCode());
18:                     }
19:                 }
20:             }
21:         } else {
22:             throw new Exception("subString split error");
23:         }
24:     }
25: 
26:     return subscriptionData;
27: }
  • 说明 :根据 Topic 和 订阅表达式 创建订阅数据
  • subscriptionData.subVersion = System.currentTimeMillis()。

DefaultMQPushConsumer#registerMessageListener(…)

1: public void registerMessageListener(MessageListenerConcurrently messageListener) {
2:     this.messageListener = messageListener;
3:     this.defaultMQPushConsumerImpl.registerMessageListener(messageListener);
4: }
  • 说明 :注册消息监听器。

5、PushConsumer 消息队列分配

RebalanceService&PushConsumer分配队列

RebalanceService

 1: public class RebalanceService extends ServiceThread {
 2: 
 3:     /**
 4:      * 等待间隔,单位:毫秒
 5:      */
 6:     private static long waitInterval =
 7:         Long.parseLong(System.getProperty(
 8:             "rocketmq.client.rebalance.waitInterval", "20000"));
 9: 
10:     private final Logger log = ClientLogger.getLog();
11:     /**
12:      * MQClient对象
13:      */
14:     private final MQClientInstance mqClientFactory;
15: 
16:     public RebalanceService(MQClientInstance mqClientFactory) {
17:         this.mqClientFactory = mqClientFactory;
18:     }
19: 
20:     @Override
21:     public void run() {
22:         log.info(this.getServiceName() + " service started");
23: 
24:         while (!this.isStopped()) {
25:             this.waitForRunning(waitInterval);
26:             this.mqClientFactory.doRebalance();
27:         }
28: 
29:         log.info(this.getServiceName() + " service end");
30:     }
31: 
32:     @Override
33:     public String getServiceName() {
34:         return RebalanceService.class.getSimpleName();
35:     }
36: }
  • 说明 :均衡消息队列服务,负责分配当前 Consumer 可消费的消息队列( MessageQueue )。
  • 第 26 行 :调用 MQClientInstance#doRebalance(...) 分配消息队列。目前有三种情况情况下触发:

    • 第 25 行 等待超时,每 20s 调用一次。
    • PushConsumer 启动时,调用 rebalanceService#wakeup(...) 触发。
    • Broker 通知 Consumer 加入 或 移除时,Consumer 响应通知,调用 rebalanceService#wakeup(...) 触发。

    详细解析见:MQClientInstance#doRebalance(…)

MQClientInstance#doRebalance(…)

 1: public void doRebalance() {
 2:     for (Map.Entry<String, MQConsumerInner> entry : this.consumerTable.entrySet()) {
 3:         MQConsumerInner impl = entry.getValue();
 4:         if (impl != null) {
 5:             try {
 6:                 impl.doRebalance();
 7:             } catch (Throwable e) {
 8:                 log.error("doRebalance exception", e);
 9:             }
10:         }
11:     }
12: }
  • 说明 :遍历当前 Client 包含的 consumerTable( Consumer集合 ),执行消息队列分配。
  • 疑问:目前代码调试下来,consumerTable 只包含 Consumer 自己。😈有大大对这个疑问有解答的,烦请解答下。
  • 第 6 行 :调用 MQConsumerInner#doRebalance(...) 进行队列分配。DefaultMQPushConsumerImplDefaultMQPullConsumerImpl 分别对该接口方法进行了实现。DefaultMQPushConsumerImpl#doRebalance(...) 详细解析见:DefaultMQPushConsumerImpl#doRebalance(…)

DefaultMQPushConsumerImpl#doRebalance(…)

1: public void doRebalance() {
2:     if (!this.pause) {
3:         this.rebalanceImpl.doRebalance(this.isConsumeOrderly());
4:     }
5: }

RebalanceImpl#doRebalance(…)

 1: /**
 2:  * 执行分配消息队列
 3:  *
 4:  * @param isOrder 是否顺序消息
 5:  */
 6: public void doRebalance(final boolean isOrder) {
 7:     // 分配每个 topic 的消息队列
 8:     Map<String, SubscriptionData> subTable = this.getSubscriptionInner();
 9:     if (subTable != null) {
10:         for (final Map.Entry<String, SubscriptionData> entry : subTable.entrySet()) {
11:             final String topic = entry.getKey();
12:             try {
13:                 this.rebalanceByTopic(topic, isOrder);
14:             } catch (Throwable e) {
15:                 if (!topic.startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
16:                     log.warn("rebalanceByTopic Exception", e);
17:                 }
18:             }
19:         }
20:     }
21:     // 移除未订阅的topic对应的消息队列
22:     this.truncateMessageQueueNotMyTopic();
23: }
24: 
25: /**
26:  * 移除未订阅的消息队列
27:  */
28: private void truncateMessageQueueNotMyTopic() {
29:     Map<String, SubscriptionData> subTable = this.getSubscriptionInner();
30:     for (MessageQueue mq : this.processQueueTable.keySet()) {
31:         if (!subTable.containsKey(mq.getTopic())) {
32: 
33:             ProcessQueue pq = this.processQueueTable.remove(mq);
34:             if (pq != null) {
35:                 pq.setDropped(true);
36:                 log.info("doRebalance, {}, truncateMessageQueueNotMyTopic remove unnecessary mq, {}", consumerGroup, mq);
37:             }
38:         }
39:     }
40: }
  • #doRebalance(...) 说明 :执行分配消息队列。
    • 第 7 至 20 行 :循环订阅主题集合( subscriptionInner ),分配每一个 Topic 的消息队列。
    • 第 22 行 :移除未订阅的 Topic 的消息队列。
  • #truncateMessageQueueNotMyTopic(...) 说明 :移除未订阅的消息队列。当调用 DefaultMQPushConsumer#unsubscribe(topic) 时,只移除订阅主题集合( subscriptionInner ),对应消息队列移除在该方法。

RebalanceImpl#rebalanceByTopic(…)

  1: private void rebalanceByTopic(final String topic, final boolean isOrder) {
  2:     switch (messageModel) {
  3:         case BROADCASTING: {
  4:             Set<MessageQueue> mqSet = this.topicSubscribeInfoTable.get(topic);
  5:             if (mqSet != null) {
  6:                 boolean changed = this.updateProcessQueueTableInRebalance(topic, mqSet, isOrder);
  7:                 if (changed) {
  8:                     this.messageQueueChanged(topic, mqSet, mqSet);
  9:                     log.info("messageQueueChanged {} {} {} {}", //
 10:                         consumerGroup, //
 11:                         topic, //
 12:                         mqSet, //
 13:                         mqSet);
 14:                 }
 15:             } else {
 16:                 log.warn("doRebalance, {}, but the topic[{}] not exist.", consumerGroup, topic);
 17:             }
 18:             break;
 19:         }
 20:         case CLUSTERING: {
 21:             // 获取 topic 对应的 队列 和 consumer信息
 22:             Set<MessageQueue> mqSet = this.topicSubscribeInfoTable.get(topic);
 23:             List<String> cidAll = this.mQClientFactory.findConsumerIdList(topic, consumerGroup);
 24:             if (null == mqSet) {
 25:                 if (!topic.startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
 26:                     log.warn("doRebalance, {}, but the topic[{}] not exist.", consumerGroup, topic);
 27:                 }
 28:             }
 29: 
 30:             if (null == cidAll) {
 31:                 log.warn("doRebalance, {} {}, get consumer id list failed", consumerGroup, topic);
 32:             }
 33: 
 34:             if (mqSet != null && cidAll != null) {
 35:                 // 排序 消息队列 和 消费者数组。因为是在Client进行分配队列,排序后,各Client的顺序才能保持一致。
 36:                 List<MessageQueue> mqAll = new ArrayList<>();
 37:                 mqAll.addAll(mqSet);
 38: 
 39:                 Collections.sort(mqAll);
 40:                 Collections.sort(cidAll);
 41: 
 42:                 AllocateMessageQueueStrategy strategy = this.allocateMessageQueueStrategy;
 43: 
 44:                 // 根据 队列分配策略 分配消息队列
 45:                 List<MessageQueue> allocateResult;
 46:                 try {
 47:                     allocateResult = strategy.allocate(//
 48:                         this.consumerGroup, //
 49:                         this.mQClientFactory.getClientId(), //
 50:                         mqAll, //
 51:                         cidAll);
 52:                 } catch (Throwable e) {
 53:                     log.error("AllocateMessageQueueStrategy.allocate Exception. allocateMessageQueueStrategyName={}", strategy.getName(),
 54:                         e);
 55:                     return;
 56:                 }
 57: 
 58:                 Set<MessageQueue> allocateResultSet = new HashSet<>();
 59:                 if (allocateResult != null) {
 60:                     allocateResultSet.addAll(allocateResult);
 61:                 }
 62: 
 63:                 // 更新消息队列
 64:                 boolean changed = this.updateProcessQueueTableInRebalance(topic, allocateResultSet, isOrder);
 65:                 if (changed) {
 66:                     log.info(
 67:                         "rebalanced result changed. allocateMessageQueueStrategyName={}, group={}, topic={}, clientId={}, mqAllSize={}, cidAllSize={}, rebalanceResultSize={}, rebalanceResultSet={}",
 68:                         strategy.getName(), consumerGroup, topic, this.mQClientFactory.getClientId(), mqSet.size(), cidAll.size(),
 69:                         allocateResultSet.size(), allocateResultSet);
 70:                     this.messageQueueChanged(topic, mqSet, allocateResultSet);
 71:                 }
 72:             }
 73:             break;
 74:         }
 75:         default:
 76:             break;
 77:     }
 78: }
 79: 
 80: /**
 81:  * 当负载均衡时,更新 消息处理队列
 82:  * - 移除 在processQueueTable && 不存在于 mqSet 里的消息队列
 83:  * - 增加 不在processQueueTable && 存在于mqSet 里的消息队列
 84:  *
 85:  * @param topic Topic
 86:  * @param mqSet 负载均衡结果后的消息队列数组
 87:  * @param isOrder 是否顺序
 88:  * @return 是否变更
 89:  */
 90: private boolean updateProcessQueueTableInRebalance(final String topic, final Set<MessageQueue> mqSet, final boolean isOrder) {
 91:     boolean changed = false;
 92: 
 93:     // 移除 在processQueueTable && 不存在于 mqSet 里的消息队列
 94:     Iterator<Entry<MessageQueue, ProcessQueue>> it = this.processQueueTable.entrySet().iterator();
 95:     while (it.hasNext()) { // TODO 待读:
 96:         Entry<MessageQueue, ProcessQueue> next = it.next();
 97:         MessageQueue mq = next.getKey();
 98:         ProcessQueue pq = next.getValue();
 99: 
100:         if (mq.getTopic().equals(topic)) {
101:             if (!mqSet.contains(mq)) { // 不包含的队列
102:                 pq.setDropped(true);
103:                 if (this.removeUnnecessaryMessageQueue(mq, pq)) {
104:                     it.remove();
105:                     changed = true;
106:                     log.info("doRebalance, {}, remove unnecessary mq, {}", consumerGroup, mq);
107:                 }
108:             } else if (pq.isPullExpired()) { // 队列拉取超时,进行清理
109:                 switch (this.consumeType()) {
110:                     case CONSUME_ACTIVELY:
111:                         break;
112:                     case CONSUME_PASSIVELY:
113:                         pq.setDropped(true);
114:                         if (this.removeUnnecessaryMessageQueue(mq, pq)) {
115:                             it.remove();
116:                             changed = true;
117:                             log.error("[BUG]doRebalance, {}, remove unnecessary mq, {}, because pull is pause, so try to fixed it",
118:                                 consumerGroup, mq);
119:                         }
120:                         break;
121:                     default:
122:                         break;
123:                 }
124:             }
125:         }
126:     }
127: 
128:     // 增加 不在processQueueTable && 存在于mqSet 里的消息队列。
129:     List<PullRequest> pullRequestList = new ArrayList<>(); // 拉消息请求数组
130:     for (MessageQueue mq : mqSet) {
131:         if (!this.processQueueTable.containsKey(mq)) {
132:             if (isOrder && !this.lock(mq)) {
133:                 log.warn("doRebalance, {}, add a new mq failed, {}, because lock failed", consumerGroup, mq);
134:                 continue;
135:             }
136: 
137:             this.removeDirtyOffset(mq);
138:             ProcessQueue pq = new ProcessQueue();
139:             long nextOffset = this.computePullFromWhere(mq);
140:             if (nextOffset >= 0) {
141:                 ProcessQueue pre = this.processQueueTable.putIfAbsent(mq, pq);
142:                 if (pre != null) {
143:                     log.info("doRebalance, {}, mq already exists, {}", consumerGroup, mq);
144:                 } else {
145:                     log.info("doRebalance, {}, add a new mq, {}", consumerGroup, mq);
146:                     PullRequest pullRequest = new PullRequest();
147:                     pullRequest.setConsumerGroup(consumerGroup);
148:                     pullRequest.setNextOffset(nextOffset);
149:                     pullRequest.setMessageQueue(mq);
150:                     pullRequest.setProcessQueue(pq);
151:                     pullRequestList.add(pullRequest);
152:                     changed = true;
153:                 }
154:             } else {
155:                 log.warn("doRebalance, {}, add new mq failed, {}", consumerGroup, mq);
156:             }
157:         }
158:     }
159: 
160:     // 发起消息拉取请求
161:     this.dispatchPullRequest(pullRequestList);
162: 
163:     return changed;
164: }
  • #rebalanceByTopic(...) 说明 :分配 Topic 的消息队列。
    • 第 3 至 19 行 :广播模式( BROADCASTING ) 下,分配 Topic 对应的所有消息队列。
    • 第 20 至 74 行 :集群模式( CLUSTERING ) 下,分配 Topic 对应的部分消息队列。
      • 第 21 至 40 行 :获取 Topic 对应的消息队列和消费者们,并对其进行排序。因为各 Consumer 是在本地分配消息队列,排序后才能保证各 Consumer 顺序一致。
      • 第 42 至 61 行 :根据 队列分配策略( AllocateMessageQueueStrategy ) 分配消息队列。详细解析见:AllocateMessageQueueStrategy
      • 第 63 至 72 行 :更新 Topic 对应的消息队列。
  • #updateProcessQueueTableInRebalance(...) 说明 :当分配队列时,更新 Topic 对应的消息队列,并返回是否有变更。
    • 第 93 至 126 行 :移除不存在于分配的消息队列( mqSet ) 的 消息处理队列( processQueueTable )。
      • 第 103 行 :移除不需要的消息队列。详细解析见:RebalancePushImpl#removeUnnecessaryMessageQueue(…)
      • 第 108 至 120 行 :队列拉取超时,即 当前时间 - 最后一次拉取消息时间 > 120s ( 120s 可配置),判定发生 BUG,过久未进行消息拉取,移除消息队列。移除后,下面#新增队列逻辑#可以重新加入新的该消息队列。
    • 第 128 至 158 行 :增加 分配的消息队列( mqSet ) 新增的消息队列。
    • 第 161 行 :发起新增的消息队列消息拉取请求。详细解析见:RebalancePushImpl#dispatchPullRequest(…)

RebalanceImpl#removeUnnecessaryMessageQueue(…)

RebalancePushImpl#removeUnnecessaryMessageQueue(…)

 1: public boolean removeUnnecessaryMessageQueue(MessageQueue mq, ProcessQueue pq) {
 2:     // 同步队列的消费进度,并移除之。
 3:     this.defaultMQPushConsumerImpl.getOffsetStore().persist(mq);
 4:     this.defaultMQPushConsumerImpl.getOffsetStore().removeOffset(mq);
 5:     // TODO 顺序消费
 6:     if (this.defaultMQPushConsumerImpl.isConsumeOrderly()
 7:         && MessageModel.CLUSTERING.equals(this.defaultMQPushConsumerImpl.messageModel())) {
 8:         try {
 9:             if (pq.getLockConsume().tryLock(1000, TimeUnit.MILLISECONDS)) {
10:                 try {
11:                     return this.unlockDelay(mq, pq);
12:                 } finally {
13:                     pq.getLockConsume().unlock();
14:                 }
15:             } else {
16:                 log.warn("[WRONG]mq is consuming, so can not unlock it, {}. maybe hanged for a while, {}", //
17:                     mq, //
18:                     pq.getTryUnlockTimes());
19: 
20:                 pq.incTryUnlockTimes();
21:             }
22:         } catch (Exception e) {
23:             log.error("removeUnnecessaryMessageQueue Exception", e);
24:         }
25: 
26:         return false;
27:     }
28:     return true;
29: }

[PullConsumer] RebalancePullImpl#removeUnnecessaryMessageQueue(…)

1: public boolean removeUnnecessaryMessageQueue(MessageQueue mq, ProcessQueue pq) {
2:     this.defaultMQPullConsumerImpl.getOffsetStore().persist(mq);
3:     this.defaultMQPullConsumerImpl.getOffsetStore().removeOffset(mq);
4:     return true;
5: }
  • 说明 :移除不需要的消息队列相关的信息,并返回移除成功。和RebalancePushImpl#removeUnnecessaryMessageQueue(...)基本一致。

RebalancePushImpl#dispatchPullRequest(…)

1: public void dispatchPullRequest(List<PullRequest> pullRequestList) {
2:     for (PullRequest pullRequest : pullRequestList) {
3:         this.defaultMQPushConsumerImpl.executePullRequestImmediately(pullRequest);
4:         log.info("doRebalance, {}, add a new pull request {}", consumerGroup, pullRequest);
5:     }
6: }
  • 说明 :发起消息拉取请求。该调用是PushConsumer不断不断不断拉取消息的起点。

DefaultMQPushConsumerImpl#executePullRequestImmediately(…)

1: public void executePullRequestImmediately(final PullRequest pullRequest) {
2:     this.mQClientFactory.getPullMessageService().executePullRequestImmediately(pullRequest);
3: }
  • 说明 :提交拉取请求。提交后,PullMessageService 异步执行非阻塞。详细解析见:PullMessageService

AllocateMessageQueueStrategy

AllocateMessageQueueStrategy类图

AllocateMessageQueueAveragely

 1: public class AllocateMessageQueueAveragely implements AllocateMessageQueueStrategy {
 2:     private final Logger log = ClientLogger.getLog();
 3: 
 4:     @Override
 5:     public List<MessageQueue> allocate(String consumerGroup, String currentCID, List<MessageQueue> mqAll,
 6:         List<String> cidAll) {
 7:         // 校验参数是否正确
 8:         if (currentCID == null || currentCID.length() < 1) {
 9:             throw new IllegalArgumentException("currentCID is empty");
10:         }
11:         if (mqAll == null || mqAll.isEmpty()) {
12:             throw new IllegalArgumentException("mqAll is null or mqAll empty");
13:         }
14:         if (cidAll == null || cidAll.isEmpty()) {
15:             throw new IllegalArgumentException("cidAll is null or cidAll empty");
16:         }
17: 
18:         List<MessageQueue> result = new ArrayList<>();
19:         if (!cidAll.contains(currentCID)) {
20:             log.info("[BUG] ConsumerGroup: {} The consumerId: {} not in cidAll: {}",
21:                 consumerGroup,
22:                 currentCID,
23:                 cidAll);
24:             return result;
25:         }
26:         // 平均分配
27:         int index = cidAll.indexOf(currentCID); // 第几个consumer。
28:         int mod = mqAll.size() % cidAll.size(); // 余数,即多少消息队列无法平均分配。
29:         int averageSize =
30:             mqAll.size() <= cidAll.size() ? 1 : (mod > 0 && index < mod ? mqAll.size() / cidAll.size()
31:                 + 1 : mqAll.size() / cidAll.size());
32:         int startIndex = (mod > 0 && index < mod) ? index * averageSize : index * averageSize + mod; // 有余数的情况下,[0, mod) 平分余数,即每consumer多分配一个节点;第index开始,跳过前mod余数。
33:         int range = Math.min(averageSize, mqAll.size() - startIndex); // 分配队列数量。之所以要Math.min()的原因是,mqAll.size() <= cidAll.size(),部分consumer分配不到消息队列。
34:         for (int i = 0; i < range; i++) {
35:             result.add(mqAll.get((startIndex + i) % mqAll.size()));
36:         }
37:         return result;
38:     }
39: 
40:     @Override
41:     public String getName() {
42:         return "AVG";
43:     }
44: }
  • 说明 :平均分配队列策略。
  • 第 7 至 25 行 :参数校验。
  • 第 26 至 36 行 :平均分配消息队列。
    • 第 27 行 :index :当前 Consumer 在消费集群里是第几个。这里就是为什么需要对传入的 cidAll 参数必须进行排序的原因。如果不排序,Consumer 在本地计算出来的 index 无法一致,影响计算结果。
    • 第 28 行 :mod :余数,即多少消息队列无法平均分配。
    • 第 29 至 31 行 :averageSize :代码可以简化成 (mod > 0 && index < mod ? mqAll.size() / cidAll.size() + 1 : mqAll.size() / cidAll.size())
      • [ 0, mod )mqAll.size() / cidAll.size() + 1。前面 modConsumer 平分余数,多获得 1 个消息队列。
      • [ mod, cidAll.size() )mqAll.size() / cidAll.size()
    • 第 32 行 :startIndexConsumer 分配消息队列开始位置。
    • 第 33 行 :range :分配队列数量。之所以要 Math#min(...) 的原因:当 mqAll.size() <= cidAll.size() 时,最后几个 Consumer 分配不到消息队列。
    • 第 34 至 36 行 :生成分配消息队列结果。
  • 举个例子:

固定消息队列长度为4

Consumer 2 可以整除* Consumer 3 不可整除* Consumer 5 无法都分配*
消息队列[0] Consumer[0] Consumer[0] Consumer[0]
消息队列[1] Consumer[0] Consumer[0] Consumer[1]
消息队列[2] Consumer[1] Consumer[1] Consumer[2]
消息队列[3] Consumer[1] Consumer[2] Consumer[3]

AllocateMessageQueueByMachineRoom

 1: public class AllocateMessageQueueByMachineRoom implements AllocateMessageQueueStrategy {
 2:     /**
 3:      * 消费者消费brokerName集合
 4:      */
 5:     private Set<String> consumeridcs;
 6: 
 7:     @Override
 8:     public List<MessageQueue> allocate(String consumerGroup, String currentCID, List<MessageQueue> mqAll,
 9:         List<String> cidAll) {
10:         // 参数校验
11:         List<MessageQueue> result = new ArrayList<MessageQueue>();
12:         int currentIndex = cidAll.indexOf(currentCID);
13:         if (currentIndex < 0) {
14:             return result;
15:         }
16:         // 计算符合当前配置的消费者数组('consumeridcs')对应的消息队列
17:         List<MessageQueue> premqAll = new ArrayList<MessageQueue>();
18:         for (MessageQueue mq : mqAll) {
19:             String[] temp = mq.getBrokerName().split("@");
20:             if (temp.length == 2 && consumeridcs.contains(temp[0])) {
21:                 premqAll.add(mq);
22:             }
23:         }
24:         // 平均分配
25:         int mod = premqAll.size() / cidAll.size();
26:         int rem = premqAll.size() % cidAll.size();
27:         int startIndex = mod * currentIndex;
28:         int endIndex = startIndex + mod;
29:         for (int i = startIndex; i < endIndex; i++) {
30:             result.add(mqAll.get(i));
31:         }
32:         if (rem > currentIndex) {
33:             result.add(premqAll.get(currentIndex + mod * cidAll.size()));
34:         }
35:         return result;
36:     }
37: 
38:     @Override
39:     public String getName() {
40:         return "MACHINE_ROOM";
41:     }
42: 
43:     public Set<String> getConsumeridcs() {
44:         return consumeridcs;
45:     }
46: 
47:     public void setConsumeridcs(Set<String> consumeridcs) {
48:         this.consumeridcs = consumeridcs;
49:     }
50: }
  • 说明 :平均分配可消费的 Broker 对应的消息队列。
  • 第 7 至 15 行 :参数校验。
  • 第 16 至 23 行 :计算可消费的 Broker 对应的消息队列。
  • 第 25 至 34 行 :平均分配消息队列。该平均分配方式和 AllocateMessageQueueAveragely 略有不同,其是将多余的结尾部分分配给前 remConsumer
  • 疑问:使用该分配策略时,ConsumerBroker 分配需要怎么配置。😈等研究主从相关源码时,仔细考虑下。

AllocateMessageQueueAveragelyByCircle

  1: public class AllocateMessageQueueAveragelyByCircle implements AllocateMessageQueueStrategy {
 2:     private final Logger log = ClientLogger.getLog();
 3: 
 4:     @Override
 5:     public List<MessageQueue> allocate(String consumerGroup, String currentCID, List<MessageQueue> mqAll,
 6:         List<String> cidAll) {
 7:         // 校验参数是否正确
 8:         if (currentCID == null || currentCID.length() < 1) {
 9:             throw new IllegalArgumentException("currentCID is empty");
10:         }
11:         if (mqAll == null || mqAll.isEmpty()) {
12:             throw new IllegalArgumentException("mqAll is null or mqAll empty");
13:         }
14:         if (cidAll == null || cidAll.isEmpty()) {
15:             throw new IllegalArgumentException("cidAll is null or cidAll empty");
16:         }
17: 
18:         List<MessageQueue> result = new ArrayList<MessageQueue>();
19:         if (!cidAll.contains(currentCID)) {
20:             log.info("[BUG] ConsumerGroup: {} The consumerId: {} not in cidAll: {}",
21:                 consumerGroup,
22:                 currentCID,
23:                 cidAll);
24:             return result;
25:         }
26: 
27:         // 环状分配
28:         int index = cidAll.indexOf(currentCID);
29:         for (int i = index; i < mqAll.size(); i++) {
30:             if (i % cidAll.size() == index) {
31:                 result.add(mqAll.get(i));
32:             }
33:         }
34:         return result;
35:     }
36: 
37:     @Override
38:     public String getName() {
39:         return "AVG_BY_CIRCLE";
40:     }
41: }
  • 说明 :环状分配消息队列。

AllocateMessageQueueByConfig

 1: public class AllocateMessageQueueByConfig implements AllocateMessageQueueStrategy {
 2:     private List<MessageQueue> messageQueueList;
 3: 
 4:     @Override
 5:     public List<MessageQueue> allocate(String consumerGroup, String currentCID, List<MessageQueue> mqAll,
 6:         List<String> cidAll) {
 7:         return this.messageQueueList;
 8:     }
 9: 
10:     @Override
11:     public String getName() {
12:         return "CONFIG";
13:     }
14: 
15:     public List<MessageQueue> getMessageQueueList() {
16:         return messageQueueList;
17:     }
18: 
19:     public void setMessageQueueList(List<MessageQueue> messageQueueList) {
20:         this.messageQueueList = messageQueueList;
21:     }
22: }
  • 说明 :分配配置的消息队列。
  • 疑问 :该分配策略的使用场景。

5、PushConsumer 消费进度读取

RebalancePushImpl#computePullFromWhere(…)

 1: public long computePullFromWhere(MessageQueue mq) {
 2:     long result = -1;
 3:     final ConsumeFromWhere consumeFromWhere = this.defaultMQPushConsumerImpl.getDefaultMQPushConsumer().getConsumeFromWhere();
 4:     final OffsetStore offsetStore = this.defaultMQPushConsumerImpl.getOffsetStore();
 5:     switch (consumeFromWhere) {
 6:         case CONSUME_FROM_LAST_OFFSET_AND_FROM_MIN_WHEN_BOOT_FIRST: // 废弃
 7:         case CONSUME_FROM_MIN_OFFSET: // 废弃
 8:         case CONSUME_FROM_MAX_OFFSET: // 废弃
 9:         case CONSUME_FROM_LAST_OFFSET: {
10:             long lastOffset = offsetStore.readOffset(mq, ReadOffsetType.READ_FROM_STORE);
11:             if (lastOffset >= 0) {
12:                 result = lastOffset;
13:             }
14:             // First start,no offset
15:             else if (-1 == lastOffset) {
16:                 if (mq.getTopic().startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
17:                     result = 0L;
18:                 } else {
19:                     try {
20:                         result = this.mQClientFactory.getMQAdminImpl().maxOffset(mq);
21:                     } catch (MQClientException e) {
22:                         result = -1;
23:                     }
24:                 }
25:             } else {
26:                 result = -1;
27:             }
28:             break;
29:         }
30:         case CONSUME_FROM_FIRST_OFFSET: {
31:             long lastOffset = offsetStore.readOffset(mq, ReadOffsetType.READ_FROM_STORE);
32:             if (lastOffset >= 0) {
33:                 result = lastOffset;
34:             } else if (-1 == lastOffset) {
35:                 result = 0L;
36:             } else {
37:                 result = -1;
38:             }
39:             break;
40:         }
41:         case CONSUME_FROM_TIMESTAMP: {
42:             long lastOffset = offsetStore.readOffset(mq, ReadOffsetType.READ_FROM_STORE);
43:             if (lastOffset >= 0) {
44:                 result = lastOffset;
45:             } else if (-1 == lastOffset) {
46:                 if (mq.getTopic().startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
47:                     try {
48:                         result = this.mQClientFactory.getMQAdminImpl().maxOffset(mq);
49:                     } catch (MQClientException e) {
50:                         result = -1;
51:                     }
52:                 } else {
53:                     try {
54:                         long timestamp = UtilAll.parseDate(this.defaultMQPushConsumerImpl.getDefaultMQPushConsumer().getConsumeTimestamp(),
55:                             UtilAll.YYYY_MMDD_HHMMSS).getTime();
56:                         result = this.mQClientFactory.getMQAdminImpl().searchOffset(mq, timestamp);
57:                     } catch (MQClientException e) {
58:                         result = -1;
59:                     }
60:                 }
61:             } else {
62:                 result = -1;
63:             }
64:             break;
65:         }
66: 
67:         default:
68:             break;
69:     }
70: 
71:     return result;
72: }
  • 说明 :计算消息队列开始消费位置。
  • PushConsumer 读取消费进度有三种选项:
    • CONSUME_FROM_LAST_OFFSET :第 6 至 29 行 :一个新的消费集群第一次启动从队列的最后位置开始消费。后续再启动接着上次消费的进度开始消费
    • CONSUME_FROM_FIRST_OFFSET :第 30 至 40 行 :一个新的消费集群第一次启动从队列的最前位置开始消费。后续再启动接着上次消费的进度开始消费
    • CONSUME_FROM_TIMESTAMP :第 41 至 65 行 :一个新的消费集群第一次启动从指定时间点开始消费。后续再启动接着上次消费的进度开始消费

[PullConsumer] RebalancePullImpl#computePullFromWhere(…)

暂时跳过。😈

6、PushConsumer 拉取消息

DefaultMQPushConsumerImpl拉取消息

PullMessageService

  1: public class PullMessageService extends ServiceThread {
  2:     private final Logger log = ClientLogger.getLog();
  3:     /**
  4:      * 拉取消息请求队列
  5:      */
  6:     private final LinkedBlockingQueue<PullRequest> pullRequestQueue = new LinkedBlockingQueue<>();
  7:     /**
  8:      * MQClient对象
  9:      */
 10:     private final MQClientInstance mQClientFactory;
 11:     /**
 12:      * 定时器。用于延迟提交拉取请求
 13:      */
 14:     private final ScheduledExecutorService scheduledExecutorService = Executors
 15:         .newSingleThreadScheduledExecutor(new ThreadFactory() {
 16:             @Override
 17:             public Thread newThread(Runnable r) {
 18:                 return new Thread(r, "PullMessageServiceScheduledThread");
 19:             }
 20:         });
 21: 
 22:     public PullMessageService(MQClientInstance mQClientFactory) {
 23:         this.mQClientFactory = mQClientFactory;
 24:     }
 25: 
 26:     /**
 27:      * 执行延迟拉取消息请求
 28:      *
 29:      * @param pullRequest 拉取消息请求
 30:      * @param timeDelay 延迟时长
 31:      */
 32:     public void executePullRequestLater(final PullRequest pullRequest, final long timeDelay) {
 33:         this.scheduledExecutorService.schedule(new Runnable() {
 34: 
 35:             @Override
 36:             public void run() {
 37:                 PullMessageService.this.executePullRequestImmediately(pullRequest);
 38:             }
 39:         }, timeDelay, TimeUnit.MILLISECONDS);
 40:     }
 41: 
 42:     /**
 43:      * 执行立即拉取消息请求
 44:      *
 45:      * @param pullRequest 拉取消息请求
 46:      */
 47:     public void executePullRequestImmediately(final PullRequest pullRequest) {
 48:         try {
 49:             this.pullRequestQueue.put(pullRequest);
 50:         } catch (InterruptedException e) {
 51:             log.error("executePullRequestImmediately pullRequestQueue.put", e);
 52:         }
 53:     }
 54: 
 55:     /**
 56:      * 执行延迟任务
 57:      *
 58:      * @param r 任务
 59:      * @param timeDelay 延迟时长
 60:      */
 61:     public void executeTaskLater(final Runnable r, final long timeDelay) {
 62:         this.scheduledExecutorService.schedule(r, timeDelay, TimeUnit.MILLISECONDS);
 63:     }
 64: 
 65:     public ScheduledExecutorService getScheduledExecutorService() {
 66:         return scheduledExecutorService;
 67:     }
 68: 
 69:     /**
 70:      * 拉取消息
 71:      *
 72:      * @param pullRequest 拉取消息请求
 73:      */
 74:     private void pullMessage(final PullRequest pullRequest) {
 75:         final MQConsumerInner consumer = this.mQClientFactory.selectConsumer(pullRequest.getConsumerGroup());
 76:         if (consumer != null) {
 77:             DefaultMQPushConsumerImpl impl = (DefaultMQPushConsumerImpl) consumer;
 78:             impl.pullMessage(pullRequest);
 79:         } else {
 80:             log.warn("No matched consumer for the PullRequest {}, drop it", pullRequest);
 81:         }
 82:     }
 83: 
 84:     @Override
 85:     public void run() {
 86:         log.info(this.getServiceName() + " service started");
 87: 
 88:         while (!this.isStopped()) {
 89:             try {
 90:                 PullRequest pullRequest = this.pullRequestQueue.take();
 91:                 if (pullRequest != null) {
 92:                     this.pullMessage(pullRequest);
 93:                 }
 94:             } catch (InterruptedException e) {
 95:             } catch (Exception e) {
 96:                 log.error("Pull Message Service Run Method exception", e);
 97:             }
 98:         }
 99: 
100:         log.info(this.getServiceName() + " service end");
101:     }
102: 
103:     @Override
104:     public String getServiceName() {
105:         return PullMessageService.class.getSimpleName();
106:     }
107: 
108: }
  • 说明 :拉取消息服务,不断不断不断从 Broker 拉取消息,并提交消费任务到 ConsumeMessageService
  • #executePullRequestLater(...) :第 26 至 40 行 : 提交延迟拉取消息请求。
  • #executePullRequestImmediately(...) :第 42 至 53 行 :提交立即拉取消息请求。
  • #executeTaskLater(...) :第 55 至 63 行 :提交延迟任务
  • #pullMessage(...) :第 69 至 82 行 :执行拉取消息逻辑。详细解析见:DefaultMQPushConsumerImpl#pullMessage(…)
  • #run(...) :第 84 至 101 行 :循环拉取消息请求队列( pullRequestQueue ),进行消息拉取。

DefaultMQPushConsumerImpl#pullMessage(…)

  1: public void pullMessage(final PullRequest pullRequest) {
  2:     final ProcessQueue processQueue = pullRequest.getProcessQueue();
  3:     if (processQueue.isDropped()) {
  4:         log.info("the pull request[{}] is dropped.", pullRequest.toString());
  5:         return;
  6:     }
  7: 
  8:     // 设置队列最后拉取消息时间
  9:     pullRequest.getProcessQueue().setLastPullTimestamp(System.currentTimeMillis());
 10: 
 11:     // 判断consumer状态是否运行中。如果不是,则延迟拉取消息。
 12:     try {
 13:         this.makeSureStateOK();
 14:     } catch (MQClientException e) {
 15:         log.warn("pullMessage exception, consumer state not ok", e);
 16:         this.executePullRequestLater(pullRequest, PULL_TIME_DELAY_MILLS_WHEN_EXCEPTION);
 17:         return;
 18:     }
 19: 
 20:     // 判断是否暂停中。
 21:     if (this.isPause()) {
 22:         log.warn("consumer was paused, execute pull request later. instanceName={}, group={}", this.defaultMQPushConsumer.getInstanceName(), this.defaultMQPushConsumer.getConsumerGroup());
 23:         this.executePullRequestLater(pullRequest, PULL_TIME_DELAY_MILLS_WHEN_SUSPEND);
 24:         return;
 25:     }
 26: 
 27:     // 判断是否超过最大持有消息数量。默认最大值为1000。
 28:     long size = processQueue.getMsgCount().get();
 29:     if (size > this.defaultMQPushConsumer.getPullThresholdForQueue()) {
 30:         this.executePullRequestLater(pullRequest, PULL_TIME_DELAY_MILLS_WHEN_FLOW_CONTROL); // 提交延迟消息拉取请求。50ms。
 31:         if ((flowControlTimes1++ % 1000) == 0) {
 32:             log.warn(
 33:                 "the consumer message buffer is full, so do flow control, minOffset={}, maxOffset={}, size={}, pullRequest={}, flowControlTimes={}",
 34:                 processQueue.getMsgTreeMap().firstKey(), processQueue.getMsgTreeMap().lastKey(), size, pullRequest, flowControlTimes1);
 35:         }
 36:         return;
 37:     }
 38: 
 39:     if (!this.consumeOrderly) { // 判断消息跨度是否过大。
 40:         if (processQueue.getMaxSpan() > this.defaultMQPushConsumer.getConsumeConcurrentlyMaxSpan()) {
 41:             this.executePullRequestLater(pullRequest, PULL_TIME_DELAY_MILLS_WHEN_FLOW_CONTROL); // 提交延迟消息拉取请求。50ms。
 42:             if ((flowControlTimes2++ % 1000) == 0) {
 43:                 log.warn(
 44:                     "the queue's messages, span too long, so do flow control, minOffset={}, maxOffset={}, maxSpan={}, pullRequest={}, flowControlTimes={}",
 45:                     processQueue.getMsgTreeMap().firstKey(), processQueue.getMsgTreeMap().lastKey(), processQueue.getMaxSpan(),
 46:                     pullRequest, flowControlTimes2);
 47:             }
 48:             return;
 49:         }
 50:     } else { // TODO 顺序消费
 51:         if (processQueue.isLocked()) {
 52:             if (!pullRequest.isLockedFirst()) {
 53:                 final long offset = this.rebalanceImpl.computePullFromWhere(pullRequest.getMessageQueue());
 54:                 boolean brokerBusy = offset < pullRequest.getNextOffset();
 55:                 log.info("the first time to pull message, so fix offset from broker. pullRequest: {} NewOffset: {} brokerBusy: {}",
 56:                     pullRequest, offset, brokerBusy);
 57:                 if (brokerBusy) {
 58:                     log.info("[NOTIFYME]the first time to pull message, but pull request offset larger than broker consume offset. pullRequest: {} NewOffset: {}",
 59:                         pullRequest, offset);
 60:                 }
 61: 
 62:                 pullRequest.setLockedFirst(true);
 63:                 pullRequest.setNextOffset(offset);
 64:             }
 65:         } else {
 66:             this.executePullRequestLater(pullRequest, PULL_TIME_DELAY_MILLS_WHEN_EXCEPTION);
 67:             log.info("pull message later because not locked in broker, {}", pullRequest);
 68:             return;
 69:         }
 70:     }
 71: 
 72:     // 获取Topic 对应的订阅信息。若不存在,则延迟拉取消息
 73:     final SubscriptionData subscriptionData = this.rebalanceImpl.getSubscriptionInner().get(pullRequest.getMessageQueue().getTopic());
 74:     if (null == subscriptionData) {
 75:         this.executePullRequestLater(pullRequest, PULL_TIME_DELAY_MILLS_WHEN_EXCEPTION);
 76:         log.warn("find the consumer's subscription failed, {}", pullRequest);
 77:         return;
 78:     }
 79: 
 80:     final long beginTimestamp = System.currentTimeMillis();
 81: 
 82:     PullCallback pullCallback = new PullCallback() {
 83:         @Override
 84:         public void onSuccess(PullResult pullResult) {
 85:             if (pullResult != null) {
 86:                 pullResult = DefaultMQPushConsumerImpl.this.pullAPIWrapper.processPullResult(pullRequest.getMessageQueue(), pullResult,
 87:                     subscriptionData);
 88: 
 89:                 switch (pullResult.getPullStatus()) {
 90:                     case FOUND:
 91:                         // 设置下次拉取消息队列位置
 92:                         long prevRequestOffset = pullRequest.getNextOffset();
 93:                         pullRequest.setNextOffset(pullResult.getNextBeginOffset());
 94: 
 95:                         // 统计
 96:                         long pullRT = System.currentTimeMillis() - beginTimestamp;
 97:                         DefaultMQPushConsumerImpl.this.getConsumerStatsManager().incPullRT(pullRequest.getConsumerGroup(),
 98:                             pullRequest.getMessageQueue().getTopic(), pullRT);
 99: 
100:                         long firstMsgOffset = Long.MAX_VALUE;
101:                         if (pullResult.getMsgFoundList() == null || pullResult.getMsgFoundList().isEmpty()) {
102:                             DefaultMQPushConsumerImpl.this.executePullRequestImmediately(pullRequest);
103:                         } else {
104:                             firstMsgOffset = pullResult.getMsgFoundList().get(0).getQueueOffset();
105: 
106:                             // 统计
107:                             DefaultMQPushConsumerImpl.this.getConsumerStatsManager().incPullTPS(pullRequest.getConsumerGroup(),
108:                                 pullRequest.getMessageQueue().getTopic(), pullResult.getMsgFoundList().size());
109: 
110:                             // 提交拉取到的消息到消息处理队列
111:                             boolean dispathToConsume = processQueue.putMessage(pullResult.getMsgFoundList());
112: 
113:                             // 提交消费请求
114:                             DefaultMQPushConsumerImpl.this.consumeMessageService.submitConsumeRequest(//
115:                                 pullResult.getMsgFoundList(), //
116:                                 processQueue, //
117:                                 pullRequest.getMessageQueue(), //
118:                                 dispathToConsume);
119: 
120:                             // 提交下次拉取消息请求
121:                             if (DefaultMQPushConsumerImpl.this.defaultMQPushConsumer.getPullInterval() > 0) {
122:                                 DefaultMQPushConsumerImpl.this.executePullRequestLater(pullRequest,
123:                                     DefaultMQPushConsumerImpl.this.defaultMQPushConsumer.getPullInterval());
124:                             } else {
125:                                 DefaultMQPushConsumerImpl.this.executePullRequestImmediately(pullRequest);
126:                             }
127:                         }
128: 
129:                         // 下次拉取消息队列位置小于上次拉取消息队列位置 或者 第一条消息的消息队列位置小于上次拉取消息队列位置,则判定为BUG,输出log
130:                         if (pullResult.getNextBeginOffset() < prevRequestOffset//
131:                             || firstMsgOffset < prevRequestOffset) {
132:                             log.warn(
133:                                 "[BUG] pull message result maybe data wrong, nextBeginOffset: {} firstMsgOffset: {} prevRequestOffset: {}", //
134:                                 pullResult.getNextBeginOffset(), //
135:                                 firstMsgOffset, //
136:                                 prevRequestOffset);
137:                         }
138: 
139:                         break;
140:                     case NO_NEW_MSG:
141:                         // 设置下次拉取消息队列位置
142:                         pullRequest.setNextOffset(pullResult.getNextBeginOffset());
143: 
144:                         // 持久化消费进度
145:                         DefaultMQPushConsumerImpl.this.correctTagsOffset(pullRequest);
146: 
147:                         // 立即提交拉取消息请求
148:                         DefaultMQPushConsumerImpl.this.executePullRequestImmediately(pullRequest);
149:                         break;
150:                     case NO_MATCHED_MSG:
151:                         // 设置下次拉取消息队列位置
152:                         pullRequest.setNextOffset(pullResult.getNextBeginOffset());
153: 
154:                         // 持久化消费进度
155:                         DefaultMQPushConsumerImpl.this.correctTagsOffset(pullRequest);
156: 
157:                         // 提交立即拉取消息请求
158:                         DefaultMQPushConsumerImpl.this.executePullRequestImmediately(pullRequest);
159:                         break;
160:                     case OFFSET_ILLEGAL:
161:                         log.warn("the pull request offset illegal, {} {}", //
162:                             pullRequest.toString(), pullResult.toString());
163:                         // 设置下次拉取消息队列位置
164:                         pullRequest.setNextOffset(pullResult.getNextBeginOffset());
165: 
166:                         // 设置消息处理队列为dropped
167:                         pullRequest.getProcessQueue().setDropped(true);
168: 
169:                         // 提交延迟任务,进行消费处理队列移除。不立即移除的原因:可能有地方正在使用,避免受到影响。
170:                         DefaultMQPushConsumerImpl.this.executeTaskLater(new Runnable() {
171: 
172:                             @Override
173:                             public void run() {
174:                                 try {
175:                                     // 更新消费进度,同步消费进度到Broker
176:                                     DefaultMQPushConsumerImpl.this.offsetStore.updateOffset(pullRequest.getMessageQueue(),
177:                                         pullRequest.getNextOffset(), false);
178:                                     DefaultMQPushConsumerImpl.this.offsetStore.persist(pullRequest.getMessageQueue());
179: 
180:                                     // 移除消费处理队列
181:                                     DefaultMQPushConsumerImpl.this.rebalanceImpl.removeProcessQueue(pullRequest.getMessageQueue());
182: 
183:                                     log.warn("fix the pull request offset, {}", pullRequest);
184:                                 } catch (Throwable e) {
185:                                     log.error("executeTaskLater Exception", e);
186:                                 }
187:                             }
188:                         }, 10000);
189:                         break;
190:                     default:
191:                         break;
192:                 }
193:             }
194:         }
195: 
196:         @Override
197:         public void onException(Throwable e) {
198:             if (!pullRequest.getMessageQueue().getTopic().startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
199:                 log.warn("execute the pull request exception", e);
200:             }
201: 
202:             // 提交延迟拉取消息请求
203:             DefaultMQPushConsumerImpl.this.executePullRequestLater(pullRequest, PULL_TIME_DELAY_MILLS_WHEN_EXCEPTION);
204:         }
205:     };
206: 
207:     // 集群消息模型下,计算提交的消费进度。
208:     boolean commitOffsetEnable = false;
209:     long commitOffsetValue = 0L;
210:     if (MessageModel.CLUSTERING == this.defaultMQPushConsumer.getMessageModel()) {
211:         commitOffsetValue = this.offsetStore.readOffset(pullRequest.getMessageQueue(), ReadOffsetType.READ_FROM_MEMORY);
212:         if (commitOffsetValue > 0) {
213:             commitOffsetEnable = true;
214:         }
215:     }
216: 
217:     // 计算请求的 订阅表达式 和 是否进行filtersrv过滤消息
218:     String subExpression = null;
219:     boolean classFilter = false;
220:     SubscriptionData sd = this.rebalanceImpl.getSubscriptionInner().get(pullRequest.getMessageQueue().getTopic());
221:     if (sd != null) {
222:         if (this.defaultMQPushConsumer.isPostSubscriptionWhenPull() && !sd.isClassFilterMode()) {
223:             subExpression = sd.getSubString();
224:         }
225: 
226:         classFilter = sd.isClassFilterMode();
227:     }
228: 
229:     // 计算拉取消息系统标识
230:     int sysFlag = PullSysFlag.buildSysFlag(//
231:         commitOffsetEnable, // commitOffset
232:         true, // suspend
233:         subExpression != null, // subscription
234:         classFilter // class filter
235:     );
236: 
237:     // 执行拉取。如果拉取请求发生异常时,提交延迟拉取消息请求。
238:     try {
239:         this.pullAPIWrapper.pullKernelImpl(//
240:             pullRequest.getMessageQueue(), // 1
241:             subExpression, // 2
242:             subscriptionData.getSubVersion(), // 3
243:             pullRequest.getNextOffset(), // 4
244:             this.defaultMQPushConsumer.getPullBatchSize(), // 5
245:             sysFlag, // 6
246:             commitOffsetValue, // 7
247:             BROKER_SUSPEND_MAX_TIME_MILLIS, // 8
248:             CONSUMER_TIMEOUT_MILLIS_WHEN_SUSPEND, // 9
249:             CommunicationMode.ASYNC, // 10
250:             pullCallback// 11
251:         );
252:     } catch (Exception e) {
253:         log.error("pullKernelImpl exception", e);
254:         this.executePullRequestLater(pullRequest, PULL_TIME_DELAY_MILLS_WHEN_EXCEPTION);
255:     }
256: }
257: 
258: private void correctTagsOffset(final PullRequest pullRequest) {
259:     if (0L == pullRequest.getProcessQueue().getMsgCount().get()) {
260:         this.offsetStore.updateOffset(pullRequest.getMessageQueue(), pullRequest.getNextOffset(), true);
261:     }
262: }
  • #pullMessage(...) 说明 :拉取消息。
    • 第 3 至 6 行 :消息处理队列已经终止,不进行消息拉取。
    • 第 9 行 :设置消息处理队列最后拉取消息时间。
    • 第 11 至 18 行 :Consumer 未处于运行中状态,不进行消息拉取,提交延迟拉取消息请求。
    • 第 20 至 25 行 : Consumer 处于暂停中,不进行消息拉取,提交延迟拉取消息请求。
    • 第 27 至 37 行 :消息处理队列持有消息超过最大允许值(默认:1000条),不进行消息拉取,提交延迟拉取消息请求。
    • 第 39 至 49 行 :Consumer并发消费 并且 消息队列持有消息跨度过大(消息跨度 = 持有消息最后一条和第一条的消息位置差,默认:2000),不进行消息拉取,提交延迟拉取消息请求。
    • 第 50 至 70 行 :顺序消费 相关跳过,详细解析见:《RocketMQ 源码分析 —— Message 顺序发送与消费》
    • 第 72 至 78 行 :Topic 对应的订阅信息不存在,不进行消息拉取,提交延迟拉取消息请求。
    • 第 222 至 224 行 :判断请求是否使用 Consumer 本地的订阅信息( SubscriptionData ),而不使用 Broker 里的订阅信息。详细解析见:PullMessageProcessor#processRequest(…) 第 64 至 110 行代码
    • 第 226 行 :是否开启过滤类过滤模式。详细解析见:《RocketMQ 源码分析 —— Filtersrv》
    • 第 229 至 235 行 :计算拉取消息请求系统标识。详细解析见:PullMessageRequestHeader.sysFlag
    • 第 237 至 255 行 :
  • PullCallback :拉取消息回调:
    • 第 86 行 :处理拉取结果。详细逻辑见:PullAPIWrapper#processPullResult(…)
    • 第 89 至 192 行 :处理拉取状态结果:
      • 第 90 至 139 行 :拉取到消息( FOUND ) :
        • 第 91 至 93 行 :设置下次拉取消息队列位置。
        • 第 95 至 97 行 :统计。
        • 第 101 至 102 行 :拉取到消息的消息列表为空,提交立即拉取消息请求。为什么会存在拉取到消息,但是消息结果未空呢?原因见:PullAPIWrapper#processPullResult(…)
        • 第 106 至 108 行 :统计。
        • 第 111 行 :提交拉取到的消息到消息处理队列。详细解析见:ProcessQueue#putMessage(…)
        • 第 113 至 118 行 :提交消费请求到 ConsumeMessageService。详细解析见:ConsumeMessageConcurrentlyService
        • 第 120 至 126 行 :根据拉取频率( pullInterval ),提交立即或者延迟拉取消息请求。默认拉取频率为 0ms ,提交立即拉取消息请求。
        • 第 129 至 137 行 :下次拉取消息队列位置小于上次拉取消息队列位置 或者 第一条消息的消息队列位置小于上次拉取消息队列位置,则判定为BUG,输出警告日志。
          • 第 140 至 149 行 :没有新消息( NO_NEW_MSG ) :
        • 第 142 行 : 设置下次拉取消息队列位置。
        • 第 145 行 :更正消费进度。详细解析见:#correctTagsOffset(...)
        • 第 148 行 :提交立即拉取消息请求。
          • 第 150 至 159 行 :有新消息但是不匹配( NO_MATCHED_MSG )。逻辑同 NO_NEW_MSG
          • 第 160 至 189 行 :拉取请求的消息队列位置不合法 (OFFSET_ILLEGAL)。
        • 第 164 行 :设置下次拉取消息队列位置。
        • 第 167 行 :设置消息处理队列为 dropped
        • 第 169 至 188 行 :提交延迟任务,进行队列移除。
          • 第 175 至 178 行 :更新消费进度,同步消费进度到 Broker
          • 第 181 行 :移除消费处理队列。
            • 疑问:为什么不立即移除???
              • 第 196 至 204 行 :发生异常,提交延迟拉取消息请求。
  • #correctTagsOffset(...) :更正消费进度。
    • 第 258 至 261 行 : 当消费处理队列持有消息数量为 0 时,更新消费进度为拉取请求的拉取消息队列位置。

PullAPIWrapper#pullKernelImpl(…)

 1: /**
 2:  * 拉取消息核心方法
 3:  *
 4:  * @param mq 消息队列
 5:  * @param subExpression 订阅表达式
 6:  * @param subVersion 订阅版本号
 7:  * @param offset 拉取队列开始位置
 8:  * @param maxNums 拉取消息数量
 9:  * @param sysFlag 拉取请求系统标识
10:  * @param commitOffset 提交消费进度
11:  * @param brokerSuspendMaxTimeMillis broker挂起请求最大时间
12:  * @param timeoutMillis 请求broker超时时长
13:  * @param communicationMode 通讯模式
14:  * @param pullCallback 拉取回调
15:  * @return 拉取消息结果。只有通讯模式为同步时,才返回结果,否则返回null。
16:  * @throws MQClientException 当寻找不到 broker 时,或发生其他client异常
17:  * @throws RemotingException 当远程调用发生异常时
18:  * @throws MQBrokerException 当 broker 发生异常时。只有通讯模式为同步时才会发生该异常。
19:  * @throws InterruptedException 当发生中断异常时
20:  */
21: protected PullResult pullKernelImpl(
22:     final MessageQueue mq,
23:     final String subExpression,
24:     final long subVersion,
25:     final long offset,
26:     final int maxNums,
27:     final int sysFlag,
28:     final long commitOffset,
29:     final long brokerSuspendMaxTimeMillis,
30:     final long timeoutMillis,
31:     final CommunicationMode communicationMode,
32:     final PullCallback pullCallback
33: ) throws MQClientException, RemotingException, MQBrokerException, InterruptedException {
34:     // 获取Broker信息
35:     FindBrokerResult findBrokerResult =
36:         this.mQClientFactory.findBrokerAddressInSubscribe(mq.getBrokerName(),
37:             this.recalculatePullFromWhichNode(mq), false);
38:     if (null == findBrokerResult) {
39:         this.mQClientFactory.updateTopicRouteInfoFromNameServer(mq.getTopic());
40:         findBrokerResult =
41:             this.mQClientFactory.findBrokerAddressInSubscribe(mq.getBrokerName(),
42:                 this.recalculatePullFromWhichNode(mq), false);
43:     }
44: 
45:     // 请求拉取消息
46:     if (findBrokerResult != null) {
47:         int sysFlagInner = sysFlag;
48: 
49:         if (findBrokerResult.isSlave()) {
50:             sysFlagInner = PullSysFlag.clearCommitOffsetFlag(sysFlagInner);
51:         }
52: 
53:         PullMessageRequestHeader requestHeader = new PullMessageRequestHeader();
54:         requestHeader.setConsumerGroup(this.consumerGroup);
55:         requestHeader.setTopic(mq.getTopic());
56:         requestHeader.setQueueId(mq.getQueueId());
57:         requestHeader.setQueueOffset(offset);
58:         requestHeader.setMaxMsgNums(maxNums);
59:         requestHeader.setSysFlag(sysFlagInner);
60:         requestHeader.setCommitOffset(commitOffset);
61:         requestHeader.setSuspendTimeoutMillis(brokerSuspendMaxTimeMillis);
62:         requestHeader.setSubscription(subExpression);
63:         requestHeader.setSubVersion(subVersion);
64: 
65:         String brokerAddr = findBrokerResult.getBrokerAddr();
66:         if (PullSysFlag.hasClassFilterFlag(sysFlagInner)) { // TODO filtersrv
67:             brokerAddr = computPullFromWhichFilterServer(mq.getTopic(), brokerAddr);
68:         }
69: 
70:         PullResult pullResult = this.mQClientFactory.getMQClientAPIImpl().pullMessage(
71:             brokerAddr,
72:             requestHeader,
73:             timeoutMillis,
74:             communicationMode,
75:             pullCallback);
76: 
77:         return pullResult;
78:     }
79: 
80:     // Broker信息不存在,则抛出异常
81:     throw new MQClientException("The broker[" + mq.getBrokerName() + "] not exist", null);
82: }

PullAPIWrapper#recalculatePullFromWhichNode(…)

 1: /**
 2:  * 消息队列 与 拉取Broker 的映射
 3:  * 当拉取消息时,会通过该映射获取拉取请求对应的Broker
 4:  */
 5: private ConcurrentHashMap<MessageQueue, AtomicLong/* brokerId */> pullFromWhichNodeTable =
 6:     new ConcurrentHashMap<MessageQueue, AtomicLong>(32);
 7: /**
 8:  * 是否使用默认Broker
 9:  */
10: private volatile boolean connectBrokerByUser = false;
11: /**
12:  * 默认Broker编号
13:  */
14: private volatile long defaultBrokerId = MixAll.MASTER_ID;
15: 
16: /**
17:  * 计算消息队列拉取消息对应的Broker编号
18:  *
19:  * @param mq 消息队列
20:  * @return Broker编号
21:  */
22: public long recalculatePullFromWhichNode(final MessageQueue mq) {
23:     // 若开启默认Broker开关,则返回默认Broker编号
24:     if (this.isConnectBrokerByUser()) {
25:         return this.defaultBrokerId;
26:     }
27: 
28:     // 若消息队列映射拉取Broker存在,则返回映射Broker编号
29:     AtomicLong suggest = this.pullFromWhichNodeTable.get(mq);
30:     if (suggest != null) {
31:         return suggest.get();
32:     }
33: 
34:     // 返回Broker主节点编号
35:     return MixAll.MASTER_ID;
36: }
  • 说明 :计算消息队列拉取消息对应的 Broker 编号。

MQClientInstance#findBrokerAddressInSubscribe(…)

 1: /**
 2:  * Broker名字 和 Broker地址相关 Map
 3:  */
 4: private final ConcurrentHashMap<String/* Broker Name */, HashMap<Long/* brokerId */, String/* address */>> brokerAddrTable =
 5:         new ConcurrentHashMap<>();
 6: 
 7: /**
 8:  * 获得Broker信息
 9:  *
10:  * @param brokerName broker名字
11:  * @param brokerId broker编号
12:  * @param onlyThisBroker 是否必须是该broker
13:  * @return Broker信息
14:  */
15: public FindBrokerResult findBrokerAddressInSubscribe(//
16:     final String brokerName, //
17:     final long brokerId, //
18:     final boolean onlyThisBroker//
19: ) {
20:     String brokerAddr = null; // broker地址
21:     boolean slave = false; // 是否为从节点
22:     boolean found = false; // 是否找到
23: 
24:     // 获得Broker信息
25:     HashMap<Long/* brokerId */, String/* address */> map = this.brokerAddrTable.get(brokerName);
26:     if (map != null && !map.isEmpty()) {
27:         brokerAddr = map.get(brokerId);
28:         slave = brokerId != MixAll.MASTER_ID;
29:         found = brokerAddr != null;
30: 
31:         // 如果不强制获得,选择一个Broker
32:         if (!found && !onlyThisBroker) {
33:             Entry<Long, String> entry = map.entrySet().iterator().next();
34:             brokerAddr = entry.getValue();
35:             slave = entry.getKey() != MixAll.MASTER_ID;
36:             found = true;
37:         }
38:     }
39: 
40:     // 找到broker,则返回信息
41:     if (found) {
42:         return new FindBrokerResult(brokerAddr, slave);
43:     }
44: 
45:     // 找不到,则返回空
46:     return null;
47: }
  • 说明 :获取 Broker 信息(Broker 地址、是否为从节点)。

PullAPIWrapper#processPullResult(…)

 1: /**
 2:  * 处理拉取结果
 3:  * 1. 更新消息队列拉取消息Broker编号的映射
 4:  * 2. 解析消息,并根据订阅信息消息tagCode匹配合适消息
 5:  *
 6:  * @param mq 消息队列
 7:  * @param pullResult 拉取结果
 8:  * @param subscriptionData 订阅信息
 9:  * @return 拉取结果
10:  */
11: public PullResult processPullResult(final MessageQueue mq, final PullResult pullResult,
12:     final SubscriptionData subscriptionData) {
13:     PullResultExt pullResultExt = (PullResultExt) pullResult;
14: 
15:     // 更新消息队列拉取消息Broker编号的映射
16:     this.updatePullFromWhichNode(mq, pullResultExt.getSuggestWhichBrokerId());
17: 
18:     // 解析消息,并根据订阅信息消息tagCode匹配合适消息
19:     if (PullStatus.FOUND == pullResult.getPullStatus()) {
20:         // 解析消息
21:         ByteBuffer byteBuffer = ByteBuffer.wrap(pullResultExt.getMessageBinary());
22:         List<MessageExt> msgList = MessageDecoder.decodes(byteBuffer);
23: 
24:         // 根据订阅信息消息tagCode匹配合适消息
25:         List<MessageExt> msgListFilterAgain = msgList;
26:         if (!subscriptionData.getTagsSet().isEmpty() && !subscriptionData.isClassFilterMode()) {
27:             msgListFilterAgain = new ArrayList<>(msgList.size());
28:             for (MessageExt msg : msgList) {
29:                 if (msg.getTags() != null) {
30:                     if (subscriptionData.getTagsSet().contains(msg.getTags())) {
31:                         msgListFilterAgain.add(msg);
32:                     }
33:                 }
34:             }
35:         }
36: 
37:         // Hook
38:         if (this.hasHook()) {
39:             FilterMessageContext filterMessageContext = new FilterMessageContext();
40:             filterMessageContext.setUnitMode(unitMode);
41:             filterMessageContext.setMsgList(msgListFilterAgain);
42:             this.executeHook(filterMessageContext);
43:         }
44: 
45:         // 设置消息队列当前最小/最大位置到消息拓展字段
46:         for (MessageExt msg : msgListFilterAgain) {
47:             MessageAccessor.putProperty(msg, MessageConst.PROPERTY_MIN_OFFSET,
48:                 Long.toString(pullResult.getMinOffset()));
49:             MessageAccessor.putProperty(msg, MessageConst.PROPERTY_MAX_OFFSET,
50:                 Long.toString(pullResult.getMaxOffset()));
51:         }
52: 
53:         // 设置消息列表
54:         pullResultExt.setMsgFoundList(msgListFilterAgain);
55:     }
56: 
57:     // 清空消息二进制数组
58:     pullResultExt.setMessageBinary(null);
59: 
60:     return pullResult;
61: }
  • 说明 :处理拉取结果。
    • 更新消息队列拉取消息 Broker 编号的映射。
    • 解析消息,并根据订阅信息消息 tagCode匹配合适消息。
  • 第 16 行 :更新消息队列拉取消息 Broker 编号的映射。下次拉取消息时,如果未设置默认拉取的 Broker 编号,会使用更新后的 Broker 编号。
  • 第 18 至 55 行 :解析消息,并根据订阅信息消息 tagCode 匹配合适消息。
    • 第 20 至 22 行 :解析消息。详细解析见:《RocketMQ 源码分析 —— Message基础》
    • 第 24 至 35 行 :根据订阅信息tagCode 匹配消息。
    • 第 37 至 43 行 :Hook
    • 第 45 至 51 行 :设置消息队列当前最小/最大位置到消息拓展字段。
    • 第 54 行 :设置消息队列。
  • 第 58 行 :清空消息二进制数组。

ProcessQueue#putMessage(…)

 1:  /**
 2:  * 消息映射读写锁
 3:  */
 4: private final ReadWriteLock lockTreeMap = new ReentrantReadWriteLock();
 5: /**
 6:  * 消息映射
 7:  * key:消息队列位置
 8:  */
 9: private final TreeMap<Long, MessageExt> msgTreeMap = new TreeMap<>();
10: /**
11:  * 消息数
12:  */
13: private final AtomicLong msgCount = new AtomicLong();
14: /**
15:  * 添加消息最大队列位置
16:  */
17: private volatile long queueOffsetMax = 0L;
18: /**
19:  * 是否正在消费
20:  */
21: private volatile boolean consuming = false;
22: /**
23:  * Broker累计消息数量
24:  * 计算公式 = queueMaxOffset - 新添加消息数组[n - 1].queueOffset
25:  * Acc = Accumulation
26:  * cnt = (猜测)对比度
27:  */
28: private volatile long msgAccCnt = 0;
29: 
30: /**
31:  * 添加消息,并返回是否提交给消费者
32:  * 返回true,当有新消息添加成功时,
33:  *
34:  * @param msgs 消息
35:  * @return 是否提交给消费者
36:  */
37: public boolean putMessage(final List<MessageExt> msgs) {
38:     boolean dispatchToConsume = false;
39:     try {
40:         this.lockTreeMap.writeLock().lockInterruptibly();
41:         try {
42:             // 添加消息
43:             int validMsgCnt = 0;
44:             for (MessageExt msg : msgs) {
45:                 MessageExt old = msgTreeMap.put(msg.getQueueOffset(), msg);
46:                 if (null == old) {
47:                     validMsgCnt++;
48:                     this.queueOffsetMax = msg.getQueueOffset();
49:                 }
50:             }
51:             msgCount.addAndGet(validMsgCnt);
52: 
53:             // 计算是否正在消费
54:             if (!msgTreeMap.isEmpty() && !this.consuming) {
55:                 dispatchToConsume = true;
56:                 this.consuming = true;
57:             }
58: 
59:             // Broker累计消息数量
60:             if (!msgs.isEmpty()) {
61:                 MessageExt messageExt = msgs.get(msgs.size() - 1);
62:                 String property = messageExt.getProperty(MessageConst.PROPERTY_MAX_OFFSET);
63:                 if (property != null) {
64:                     long accTotal = Long.parseLong(property) - messageExt.getQueueOffset();
65:                     if (accTotal > 0) {
66:                         this.msgAccCnt = accTotal;
67:                     }
68:                 }
69:             }
70:         } finally {
71:             this.lockTreeMap.writeLock().unlock();
72:         }
73:     } catch (InterruptedException e) {
74:         log.error("putMessage exception", e);
75:     }
76: 
77:     return dispatchToConsume;
78: }

总结

如果用最简单粗暴的方式描述 PullConsumer 拉取消息的过程,那就是如下的代码:

while (true) {
    if (不满足拉取消息) {
        Thread.sleep(间隔);
        continue;
    }
    主动拉取消息();
}

6、PushConsumer 消费消息

DefaultMQPushConsumerImpl消费消息

ConsumeMessageConcurrentlyService 提交消费请求

ConsumeMessageConcurrentlyService#submitConsumeRequest(…)

 1: /**
 2:  * 消费线程池队列
 3:  */
 4: private final BlockingQueue<Runnable> consumeRequestQueue;
 5: /**
 6:  * 消费线程池
 7:  */
 8: private final ThreadPoolExecutor consumeExecutor;
 9: 
10: public void submitConsumeRequest(//
11:     final List<MessageExt> msgs, //
12:     final ProcessQueue processQueue, //
13:     final MessageQueue messageQueue, //
14:     final boolean dispatchToConsume) {
15:     final int consumeBatchSize = this.defaultMQPushConsumer.getConsumeMessageBatchMaxSize();
16:     if (msgs.size() <= consumeBatchSize) { // 提交消息小于批量消息数,直接提交消费请求
17:         ConsumeRequest consumeRequest = new ConsumeRequest(msgs, processQueue, messageQueue);
18:         try {
19:             this.consumeExecutor.submit(consumeRequest);
20:         } catch (RejectedExecutionException e) {
21:             this.submitConsumeRequestLater(consumeRequest);
22:         }
23:     } else { // 提交消息大于批量消息数,进行分拆成多个消费请求
24:         for (int total = 0; total < msgs.size(); ) {
25:             // 计算当前拆分请求包含的消息
26:             List<MessageExt> msgThis = new ArrayList<>(consumeBatchSize);
27:             for (int i = 0; i < consumeBatchSize; i++, total++) {
28:                 if (total < msgs.size()) {
29:                     msgThis.add(msgs.get(total));
30:                 } else {
31:                     break;
32:                 }
33:             }
34: 
35:             // 提交拆分消费请求
36:             ConsumeRequest consumeRequest = new ConsumeRequest(msgThis, processQueue, messageQueue);
37:             try {
38:                 this.consumeExecutor.submit(consumeRequest);
39:             } catch (RejectedExecutionException e) {
40:                 // 如果被拒绝,则将当前拆分消息+剩余消息提交延迟消费请求。
41:                 for (; total < msgs.size(); total++) {
42:                     msgThis.add(msgs.get(total));
43:                 }
44:                 this.submitConsumeRequestLater(consumeRequest);
45:             }
46:         }
47:     }
48: }
  • 说明 :提交立即消费请求。
  • 第 16 至 22 行 :提交消息小于等于批量消费数,直接提交消费请求。
  • 第 23 至 47 行 :当提交消息大于批量消费数,进行分拆成多个请求。
    • 第 25 至 33 行 :计算当前拆分请求包含的消息。
    • 第 35 至 38 行 :提交拆分消费请求。
    • 第 39 至 44 行 :提交请求被拒绝,则将当前拆分消息 + 剩余消息提交延迟消费请求,结束拆分循环。

ConsumeMessageConcurrentlyService#submitConsumeRequestLater

  1: /**
 2:  * 提交延迟消费请求
 3:  *
 4:  * @param msgs 消息列表
 5:  * @param processQueue 消息处理队列
 6:  * @param messageQueue 消息队列
 7:  */
 8: private void submitConsumeRequestLater(//
 9:     final List<MessageExt> msgs, //
10:     final ProcessQueue processQueue, //
11:     final MessageQueue messageQueue//
12: ) {
13: 
14:     this.scheduledExecutorService.schedule(new Runnable() {
15: 
16:         @Override
17:         public void run() {
18:             ConsumeMessageConcurrentlyService.this.submitConsumeRequest(msgs, processQueue, messageQueue, true);
19:         }
20:     }, 5000, TimeUnit.MILLISECONDS);
21: }
22: 
23: /**
24:  * 提交延迟消费请求
25:  * @param consumeRequest 消费请求
26:  */
27: private void submitConsumeRequestLater(final ConsumeRequest consumeRequest//
28: ) {
29: 
30:     this.scheduledExecutorService.schedule(new Runnable() {
31: 
32:         @Override
33:         public void run() {
34:             ConsumeMessageConcurrentlyService.this.consumeExecutor.submit(consumeRequest); // TODO BUG ?
35:         }
36:     }, 5000, TimeUnit.MILLISECONDS);
37: }
  • 说明 :提交延迟消费请求。
  • 第 34 行 :直接调用 ConsumeMessageConcurrentlyService.this.consumeExecutor.submit(consumeRequest);。如果消息数超过批量消费上限,会不会是BUG

ConsumeRequest

  1: class ConsumeRequest implements Runnable {
  2: 
  3:     /**
  4:      * 消费消息列表
  5:      */
  6:     private final List<MessageExt> msgs;
  7:     /**
  8:      * 消息处理队列
  9:      */
 10:     private final ProcessQueue processQueue;
 11:     /**
 12:      * 消息队列
 13:      */
 14:     private final MessageQueue messageQueue;
 15: 
 16:     public ConsumeRequest(List<MessageExt> msgs, ProcessQueue processQueue, MessageQueue messageQueue) {
 17:         this.msgs = msgs;
 18:         this.processQueue = processQueue;
 19:         this.messageQueue = messageQueue;
 20:     }
 21: 
 22:     @Override
 23:     public void run() {
 24:         // 废弃队列不进行消费
 25:         if (this.processQueue.isDropped()) {
 26:             log.info("the message queue not be able to consume, because it's dropped. group={} {}", ConsumeMessageConcurrentlyService.this.consumerGroup, this.messageQueue);
 27:             return;
 28:         }
 29: 
 30:         MessageListenerConcurrently listener = ConsumeMessageConcurrentlyService.this.messageListener; // 监听器
 31:         ConsumeConcurrentlyContext context = new ConsumeConcurrentlyContext(messageQueue); // 消费Context
 32:         ConsumeConcurrentlyStatus status = null; // 消费结果状态
 33: 
 34:         // Hook
 35:         ConsumeMessageContext consumeMessageContext = null;
 36:         if (ConsumeMessageConcurrentlyService.this.defaultMQPushConsumerImpl.hasHook()) {
 37:             consumeMessageContext = new ConsumeMessageContext();
 38:             consumeMessageContext.setConsumerGroup(defaultMQPushConsumer.getConsumerGroup());
 39:             consumeMessageContext.setProps(new HashMap<String, String>());
 40:             consumeMessageContext.setMq(messageQueue);
 41:             consumeMessageContext.setMsgList(msgs);
 42:             consumeMessageContext.setSuccess(false);
 43:             ConsumeMessageConcurrentlyService.this.defaultMQPushConsumerImpl.executeHookBefore(consumeMessageContext);
 44:         }
 45: 
 46:         long beginTimestamp = System.currentTimeMillis();
 47:         boolean hasException = false;
 48:         ConsumeReturnType returnType = ConsumeReturnType.SUCCESS; // 消费返回结果类型
 49:         try {
 50:             // 当消息为重试消息,设置Topic为原始Topic
 51:             ConsumeMessageConcurrentlyService.this.resetRetryTopic(msgs);
 52: 
 53:             // 设置开始消费时间
 54:             if (msgs != null && !msgs.isEmpty()) {
 55:                 for (MessageExt msg : msgs) {
 56:                     MessageAccessor.setConsumeStartTimeStamp(msg, String.valueOf(System.currentTimeMillis()));
 57:                 }
 58:             }
 59: 
 60:             // 进行消费
 61:             status = listener.consumeMessage(Collections.unmodifiableList(msgs), context);
 62:         } catch (Throwable e) {
 63:             log.warn("consumeMessage exception: {} Group: {} Msgs: {} MQ: {}",
 64:                 RemotingHelper.exceptionSimpleDesc(e), //
 65:                 ConsumeMessageConcurrentlyService.this.consumerGroup,
 66:                 msgs,
 67:                 messageQueue);
 68:             hasException = true;
 69:         }
 70: 
 71:         // 解析消费返回结果类型
 72:         long consumeRT = System.currentTimeMillis() - beginTimestamp;
 73:         if (null == status) {
 74:             if (hasException) {
 75:                 returnType = ConsumeReturnType.EXCEPTION;
 76:             } else {
 77:                 returnType = ConsumeReturnType.RETURNNULL;
 78:             }
 79:         } else if (consumeRT >= defaultMQPushConsumer.getConsumeTimeout() * 60 * 1000) {
 80:             returnType = ConsumeReturnType.TIME_OUT;
 81:         } else if (ConsumeConcurrentlyStatus.RECONSUME_LATER == status) {
 82:             returnType = ConsumeReturnType.FAILED;
 83:         } else if (ConsumeConcurrentlyStatus.CONSUME_SUCCESS == status) {
 84:             returnType = ConsumeReturnType.SUCCESS;
 85:         }
 86: 
 87:         // Hook
 88:         if (ConsumeMessageConcurrentlyService.this.defaultMQPushConsumerImpl.hasHook()) {
 89:             consumeMessageContext.getProps().put(MixAll.CONSUME_CONTEXT_TYPE, returnType.name());
 90:         }
 91: 
 92:         // 消费结果状态为空时,则设置为稍后重新消费
 93:         if (null == status) {
 94:             log.warn("consumeMessage return null, Group: {} Msgs: {} MQ: {}",
 95:                 ConsumeMessageConcurrentlyService.this.consumerGroup,
 96:                 msgs,
 97:                 messageQueue);
 98:             status = ConsumeConcurrentlyStatus.RECONSUME_LATER;
 99:         }
100: 
101:         // Hook
102:         if (ConsumeMessageConcurrentlyService.this.defaultMQPushConsumerImpl.hasHook()) {
103:             consumeMessageContext.setStatus(status.toString());
104:             consumeMessageContext.setSuccess(ConsumeConcurrentlyStatus.CONSUME_SUCCESS == status);
105:             ConsumeMessageConcurrentlyService.this.defaultMQPushConsumerImpl.executeHookAfter(consumeMessageContext);
106:         }
107: 
108:         // 统计
109:         ConsumeMessageConcurrentlyService.this.getConsumerStatsManager()
110:             .incConsumeRT(ConsumeMessageConcurrentlyService.this.consumerGroup, messageQueue.getTopic(), consumeRT);
111: 
112:         // 处理消费结果
113:         if (!processQueue.isDropped()) {
114:             ConsumeMessageConcurrentlyService.this.processConsumeResult(status, context, this);
115:         } else {
116:             log.warn("processQueue is dropped without process consume result. messageQueue={}, msgs={}", messageQueue, msgs);
117:         }
118:     }
119: 
120: }
  • 说明 :消费请求。提交请求执行消费。
  • 第 24 至 28 行 :废弃处理队列不进行消费。
  • 第 34 至 44 行 :Hook。
  • 第 51 行 :当消息为重试消息,设置 Topic为原始 Topic。例如:原始 TopicTopicTest,重试时 Topic%RETRY%please_rename_unique_group_name_4,经过该方法,Topic 设置回 TopicTest
  • 第 53 至 58 行 :设置开始消费时间。
  • 第 61 行 :进行消费
  • 第 71 至 85 行 :解析消费返回结果类型
  • 第 87 至 90 行 :Hook
  • 第 92 至 99 行 :消费结果状态未空时,则设置消费结果状态为稍后消费。
  • 第 101 至 106 行 :Hook
  • 第 108 至 110 行 :统计。
  • 第 112 至 117 行 :处理消费结果。如果消费处理队列被移除,恰好消息被消费,则可能导致消息重复消费,因此,消息消费要尽最大可能性实现幂等性。详细解析见:ConsumeMessageConcurrentlyService#processConsumeResult(…)

ConsumeMessageConcurrentlyService#processConsumeResult(…)

 1: public void processConsumeResult(//
 2:     final ConsumeConcurrentlyStatus status, //
 3:     final ConsumeConcurrentlyContext context, //
 4:     final ConsumeRequest consumeRequest//
 5: ) {
 6:     int ackIndex = context.getAckIndex();
 7: 
 8:     // 消息为空,直接返回
 9:     if (consumeRequest.getMsgs().isEmpty())
10:         return;
11: 
12:     // 计算从consumeRequest.msgs[0]到consumeRequest.msgs[ackIndex]的消息消费成功
13:     switch (status) {
14:         case CONSUME_SUCCESS:
15:             if (ackIndex >= consumeRequest.getMsgs().size()) {
16:                 ackIndex = consumeRequest.getMsgs().size() - 1;
17:             }
18:             // 统计成功/失败数量
19:             int ok = ackIndex + 1;
20:             int failed = consumeRequest.getMsgs().size() - ok;
21:             this.getConsumerStatsManager().incConsumeOKTPS(consumerGroup, consumeRequest.getMessageQueue().getTopic(), ok);
22:             this.getConsumerStatsManager().incConsumeFailedTPS(consumerGroup, consumeRequest.getMessageQueue().getTopic(), failed);
23:             break;
24:         case RECONSUME_LATER:
25:             ackIndex = -1;
26:             // 统计成功/失败数量
27:             this.getConsumerStatsManager().incConsumeFailedTPS(consumerGroup, consumeRequest.getMessageQueue().getTopic(),
28:                 consumeRequest.getMsgs().size());
29:             break;
30:         default:
31:             break;
32:     }
33: 
34:     // 处理消费失败的消息
35:     switch (this.defaultMQPushConsumer.getMessageModel()) {
36:         case BROADCASTING: // 广播模式,无论是否消费失败,不发回消息到Broker,只打印Log
37:             for (int i = ackIndex + 1; i < consumeRequest.getMsgs().size(); i++) {
38:                 MessageExt msg = consumeRequest.getMsgs().get(i);
39:                 log.warn("BROADCASTING, the message consume failed, drop it, {}", msg.toString());
40:             }
41:             break;
42:         case CLUSTERING:
43:             // 发回消息失败到Broker。
44:             List<MessageExt> msgBackFailed = new ArrayList<>(consumeRequest.getMsgs().size());
45:             for (int i = ackIndex + 1; i < consumeRequest.getMsgs().size(); i++) {
46:                 MessageExt msg = consumeRequest.getMsgs().get(i);
47:                 boolean result = this.sendMessageBack(msg, context);
48:                 if (!result) {
49:                     msg.setReconsumeTimes(msg.getReconsumeTimes() + 1);
50:                     msgBackFailed.add(msg);
51:                 }
52:             }
53: 
54:             // 发回Broker失败的消息,直接提交延迟重新消费
55:             if (!msgBackFailed.isEmpty()) {
56:                 consumeRequest.getMsgs().removeAll(msgBackFailed);
57: 
58:                 this.submitConsumeRequestLater(msgBackFailed, consumeRequest.getProcessQueue(), consumeRequest.getMessageQueue());
59:             }
60:             break;
61:         default:
62:             break;
63:     }
64: 
65:     // 移除消费成功消息,并更新最新消费进度
66:     long offset = consumeRequest.getProcessQueue().removeMessage(consumeRequest.getMsgs());
67:     if (offset >= 0 && !consumeRequest.getProcessQueue().isDropped()) {
68:         this.defaultMQPushConsumerImpl.getOffsetStore().updateOffset(consumeRequest.getMessageQueue(), offset, true);
69:     }
70: }
  • 说明 :处理消费结果。
  • 第 8 至 10 行 :消费请求消息未空时,直接返回。
  • 第 12 至 32 行 :计算 ackIndex 值。consumeRequest.msgs[0 - ackIndex]为消费成功,需要进行 ack 确认。
    • 第 14 至 23 行 :CONSUME_SUCCESSackIndex = context.getAckIndex()
    • 第 24 至 29 行 :RECONSUME_LATERackIndex = -1
  • 第34 至 63 行 :处理消费失败的消息。
    • 第 36 至 41 行 :BROADCASTING :广播模式,无论是否消费失败,不发回消息到 Broker,只打印日志。
    • 第 42 至 60 行 :CLUSTERING :集群模式,消费失败的消息发回到 Broker
      • 第 43 至 52 行 :发回消费失败的消息到 Broker。详细解析见:DefaultMQPushConsumerImpl#sendMessageBack(…)
      • 第 54 至 59 行 :发回 Broker 失败的消息,直接提交延迟重新消费。
      • 如果发回 Broker 成功,结果因为例如网络异常,导致 Consumer以为发回失败,判定消费发回失败,会导致消息重复消费,因此,消息消费要尽最大可能性实现幂等性。
  • 第 65 至 69 行 :移除【消费成功】和【消费失败但发回Broker成功】的消息,并更新最新消费进度。

ProcessQueue#removeMessage(…)

 1: /**
 2:  * 移除消息,并返回第一条消息队列位置
 3:  *
 4:  * @param msgs 消息
 5:  * @return 消息队列位置
 6:  */
 7: public long removeMessage(final List<MessageExt> msgs) {
 8:     long result = -1;
 9:     final long now = System.currentTimeMillis();
10:     try {
11:         this.lockTreeMap.writeLock().lockInterruptibly();
12:         this.lastConsumeTimestamp = now;
13:         try {
14:             if (!msgTreeMap.isEmpty()) {
15:                 result = this.queueOffsetMax + 1; // 这里+1的原因是:如果msgTreeMap为空时,下一条获得的消息位置为queueOffsetMax+1
16: 
17:                 // 移除消息
18:                 int removedCnt = 0;
19:                 for (MessageExt msg : msgs) {
20:                     MessageExt prev = msgTreeMap.remove(msg.getQueueOffset());
21:                     if (prev != null) {
22:                         removedCnt--;
23:                     }
24:                 }
25:                 msgCount.addAndGet(removedCnt);
26: 
27:                 if (!msgTreeMap.isEmpty()) {
28:                     result = msgTreeMap.firstKey();
29:                 }
30:             }
31:         } finally {
32:             this.lockTreeMap.writeLock().unlock();
33:         }
34:     } catch (Throwable t) {
35:         log.error("removeMessage exception", t);
36:     }
37: 
38:     return result;
39: }

ConsumeMessageConcurrentlyService#cleanExpireMsg(…)

 1: public void start() {
 2:     this.cleanExpireMsgExecutors.scheduleAtFixedRate(new Runnable() {
 3: 
 4:         @Override
 5:         public void run() {
 6:             cleanExpireMsg();
 7:         }
 8: 
 9:     }, this.defaultMQPushConsumer.getConsumeTimeout(), this.defaultMQPushConsumer.getConsumeTimeout(), TimeUnit.MINUTES);
10: }
11: 
12: /**
13:  * 清理过期消息
14:  */
15: private void cleanExpireMsg() {
16:     Iterator<Map.Entry<MessageQueue, ProcessQueue>> it =
17:         this.defaultMQPushConsumerImpl.getRebalanceImpl().getProcessQueueTable().entrySet().iterator();
18:     while (it.hasNext()) {
19:         Map.Entry<MessageQueue, ProcessQueue> next = it.next();
20:         ProcessQueue pq = next.getValue();
21:         pq.cleanExpiredMsg(this.defaultMQPushConsumer);
22:     }
23: }
  • 说明 :定时清理过期消息,默认周期:15min。

ProcessQueue#cleanExpiredMsg(…)

 1: public void cleanExpiredMsg(DefaultMQPushConsumer pushConsumer) {
 2:     // 顺序消费时,直接返回
 3:     if (pushConsumer.getDefaultMQPushConsumerImpl().isConsumeOrderly()) {
 4:         return;
 5:     }
 6: 
 7:     // 循环移除消息
 8:     int loop = msgTreeMap.size() < 16 ? msgTreeMap.size() : 16; // 每次循环最多移除16条
 9:     for (int i = 0; i < loop; i++) {
10:         // 获取第一条消息。判断是否超时,若不超时,则结束循环
11:         MessageExt msg = null;
12:         try {
13:             this.lockTreeMap.readLock().lockInterruptibly();
14:             try {
15:                 if (!msgTreeMap.isEmpty() && System.currentTimeMillis() - Long.parseLong(MessageAccessor.getConsumeStartTimeStamp(msgTreeMap.firstEntry().getValue())) > pushConsumer.getConsumeTimeout() * 60 * 1000) {
16:                     msg = msgTreeMap.firstEntry().getValue();
17:                 } else {
18:                     break;
19:                 }
20:             } finally {
21:                 this.lockTreeMap.readLock().unlock();
22:             }
23:         } catch (InterruptedException e) {
24:             log.error("getExpiredMsg exception", e);
25:         }
26: 
27:         try {
28:             // 发回超时消息
29:             pushConsumer.sendMessageBack(msg, 3);
30:             log.info("send expire msg back. topic={}, msgId={}, storeHost={}, queueId={}, queueOffset={}", msg.getTopic(), msg.getMsgId(), msg.getStoreHost(), msg.getQueueId(), msg.getQueueOffset());
31: 
32:             // 判断此时消息是否依然是第一条,若是,则进行移除
33:             try {
34:                 this.lockTreeMap.writeLock().lockInterruptibly();
35:                 try {
36:                     if (!msgTreeMap.isEmpty() && msg.getQueueOffset() == msgTreeMap.firstKey()) {
37:                         try {
38:                             msgTreeMap.remove(msgTreeMap.firstKey());
39:                         } catch (Exception e) {
40:                             log.error("send expired msg exception", e);
41:                         }
42:                     }
43:                 } finally {
44:                     this.lockTreeMap.writeLock().unlock();
45:                 }
46:             } catch (InterruptedException e) {
47:                 log.error("getExpiredMsg exception", e);
48:             }
49:         } catch (Exception e) {
50:             log.error("send expired msg exception", e);
51:         }
52:     }
53: }
  • 说明 :移除过期消息。
  • 第 2 至 5 行 :顺序消费时,直接返回。
  • 第 7 至 9 行 :循环移除消息。默认最大循环次数:16次。
  • 第 10 至 25 行 :获取第一条消息。判断是否超时,若不超时,则结束循环。
  • 第 29 行 :发回超时消息到Broker
  • 第 32 至 48 行 :判断此时消息是否依然是第一条,若是,则进行移除。

7、PushConsumer 发回消费失败消息

DefaultMQPushConsumerImpl#sendMessageBack(…)

 1: public void sendMessageBack(MessageExt msg, int delayLevel, final String brokerName)
 2:     throws RemotingException, MQBrokerException, InterruptedException, MQClientException {
 3:     try {
 4:         // Consumer发回消息
 5:         String brokerAddr = (null != brokerName) ? this.mQClientFactory.findBrokerAddressInPublish(brokerName)
 6:             : RemotingHelper.parseSocketAddressAddr(msg.getStoreHost());
 7:         this.mQClientFactory.getMQClientAPIImpl().consumerSendMessageBack(brokerAddr, msg,
 8:             this.defaultMQPushConsumer.getConsumerGroup(), delayLevel, 5000, getMaxReconsumeTimes());
 9:     } catch (Exception e) { // TODO 疑问:什么情况下会发生异常
10:         // 异常时,使用Client内置Producer发回消息
11:         log.error("sendMessageBack Exception, " + this.defaultMQPushConsumer.getConsumerGroup(), e);
12: 
13:         Message newMsg = new Message(MixAll.getRetryTopic(this.defaultMQPushConsumer.getConsumerGroup()), msg.getBody());
14: 
15:         String originMsgId = MessageAccessor.getOriginMessageId(msg);
16:         MessageAccessor.setOriginMessageId(newMsg, UtilAll.isBlank(originMsgId) ? msg.getMsgId() : originMsgId);
17: 
18:         newMsg.setFlag(msg.getFlag());
19:         MessageAccessor.setProperties(newMsg, msg.getProperties());
20:         MessageAccessor.putProperty(newMsg, MessageConst.PROPERTY_RETRY_TOPIC, msg.getTopic());
21:         MessageAccessor.setReconsumeTime(newMsg, String.valueOf(msg.getReconsumeTimes() + 1));
22:         MessageAccessor.setMaxReconsumeTimes(newMsg, String.valueOf(getMaxReconsumeTimes()));
23:         newMsg.setDelayTimeLevel(3 + msg.getReconsumeTimes());
24: 
25:         this.mQClientFactory.getDefaultMQProducer().send(newMsg);
26:     }
27: }
  • 说明 :发回消息。
  • 第 4 至 8 行 :Consumer 发回消息。详细解析见:MQClientAPIImpl#consumerSendMessageBack(…)
  • 第 10 至 25 行 :发生异常时,Consumer 内置默认 Producer 发送消息。
    • 😈疑问:什么样的情况下会发生异常呢?

MQClientAPIImpl#consumerSendMessageBack(…)

 1: /**
 2:  * Consumer发回消息
 3:  * @param addr Broker地址
 4:  * @param msg 消息
 5:  * @param consumerGroup 消费分组
 6:  * @param delayLevel 延迟级别
 7:  * @param timeoutMillis 超时
 8:  * @param maxConsumeRetryTimes 消费最大重试次数
 9:  * @throws RemotingException 当远程调用发生异常时
10:  * @throws MQBrokerException 当Broker发生异常时
11:  * @throws InterruptedException 当线程中断时
12:  */
13: public void consumerSendMessageBack(
14:     final String addr,
15:     final MessageExt msg,
16:     final String consumerGroup,
17:     final int delayLevel,
18:     final long timeoutMillis,
19:     final int maxConsumeRetryTimes
20: ) throws RemotingException, MQBrokerException, InterruptedException {
21:     ConsumerSendMsgBackRequestHeader requestHeader = new ConsumerSendMsgBackRequestHeader();
22:     RemotingCommand request = RemotingCommand.createRequestCommand(RequestCode.CONSUMER_SEND_MSG_BACK, requestHeader);
23: 
24:     requestHeader.setGroup(consumerGroup);
25:     requestHeader.setOriginTopic(msg.getTopic());
26:     requestHeader.setOffset(msg.getCommitLogOffset());
27:     requestHeader.setDelayLevel(delayLevel);
28:     requestHeader.setOriginMsgId(msg.getMsgId());
29:     requestHeader.setMaxReconsumeTimes(maxConsumeRetryTimes);
30: 
31:     RemotingCommand response = this.remotingClient.invokeSync(MixAll.brokerVIPChannel(this.clientConfig.isVipChannelEnabled(), addr),
32:         request, timeoutMillis);
33:     assert response != null;
34:     switch (response.getCode()) {
35:         case ResponseCode.SUCCESS: {
36:             return;
37:         }
38:         default:
39:             break;
40:     }
41: 
42:     throw new MQBrokerException(response.getCode(), response.getRemark());
43: }

8、Consumer 消费进度

OffsetStore

OffsetStore类图.png

  • RemoteBrokerOffsetStoreConsumer 集群模式 下,使用远程 Broker 消费进度。
  • LocalFileOffsetStoreConsumer 广播模式下,使用本地 文件 消费进度。

OffsetStore#load(…)

LocalFileOffsetStore#load(…)

 1: @Override
 2: public void load() throws MQClientException {
 3:     // 从本地硬盘读取消费进度
 4:     OffsetSerializeWrapper offsetSerializeWrapper = this.readLocalOffset();
 5:     if (offsetSerializeWrapper != null && offsetSerializeWrapper.getOffsetTable() != null) {
 6:         offsetTable.putAll(offsetSerializeWrapper.getOffsetTable());
 7: 
 8:         // 打印每个消息队列的消费进度
 9:         for (MessageQueue mq : offsetSerializeWrapper.getOffsetTable().keySet()) {
10:             AtomicLong offset = offsetSerializeWrapper.getOffsetTable().get(mq);
11:             log.info("load consumer's offset, {} {} {}",
12:                 this.groupName,
13:                 mq,
14:                 offset.get());
15:         }
16:     }
17: }
  • 说明 :从本地文件加载消费进度到内存。
OffsetSerializeWrapper
 1: public class OffsetSerializeWrapper extends RemotingSerializable {
 2:     private ConcurrentHashMap<MessageQueue, AtomicLong> offsetTable =
 3:             new ConcurrentHashMap<>();
 4: 
 5:     public ConcurrentHashMap<MessageQueue, AtomicLong> getOffsetTable() {
 6:         return offsetTable;
 7:     }
 8: 
 9:     public void setOffsetTable(ConcurrentHashMap<MessageQueue, AtomicLong> offsetTable) {
10:         this.offsetTable = offsetTable;
11:     }
12: }
  • 说明 :本地 Offset 存储序列化。
Yunai-MacdeMacBook-Pro-2:config yunai$ cat /Users/yunai/.rocketmq_offsets/192.168.17.0@DEFAULT/please_rename_unique_group_name_1/offsets.json
{
	"offsetTable":{{
			"brokerName":"broker-a",
			"queueId":3,
			"topic":"TopicTest"
		}:1470,{
			"brokerName":"broker-a",
			"queueId":2,
			"topic":"TopicTest"
		}:1471,{
			"brokerName":"broker-a",
			"queueId":1,
			"topic":"TopicTest"
		}:1470,{
			"brokerName":"broker-a",
			"queueId":0,
			"topic":"TopicTest"
		}:1470
	}
}

RemoteBrokerOffsetStore#load(…)

1: @Override
2: public void load() {
3: }
  • 说明 :不进行加载,实际读取消费进度时,从 Broker 获取。

OffsetStore#readOffset(…)

读取消费进度类型:

  • READ_FROM_MEMORY :从内存读取。
  • READ_FROM_STORE :从存储( Broker文件 )读取。
  • MEMORY_FIRST_THEN_STORE :优先从内存读取,读取不到,从存储读取。

LocalFileOffsetStore#readOffset(…)

 1: @Override
 2: public long readOffset(final MessageQueue mq, final ReadOffsetType type) {
 3:     if (mq != null) {
 4:         switch (type) {
 5:             case MEMORY_FIRST_THEN_STORE:
 6:             case READ_FROM_MEMORY: {
 7:                 AtomicLong offset = this.offsetTable.get(mq);
 8:                 if (offset != null) {
 9:                     return offset.get();
10:                 } else if (ReadOffsetType.READ_FROM_MEMORY == type) {
11:                     return -1;
12:                 }
13:             }
14:             case READ_FROM_STORE: {
15:                 OffsetSerializeWrapper offsetSerializeWrapper;
16:                 try {
17:                     offsetSerializeWrapper = this.readLocalOffset();
18:                 } catch (MQClientException e) {
19:                     return -1;
20:                 }
21:                 if (offsetSerializeWrapper != null && offsetSerializeWrapper.getOffsetTable() != null) {
22:                     AtomicLong offset = offsetSerializeWrapper.getOffsetTable().get(mq);
23:                     if (offset != null) {
24:                         this.updateOffset(mq, offset.get(), false);
25:                         return offset.get();
26:                     }
27:                 }
28:             }
29:             default:
30:                 break;
31:         }
32:     }
33: 
34:     return -1;
35: }
  • 第 16 行 :从 文件 读取消费进度。

RemoteBrokerOffsetStore#readOffset(…)

 1: @Override
 2: public long readOffset(final MessageQueue mq, final ReadOffsetType type) {
 3:     if (mq != null) {
 4:         switch (type) {
 5:             case MEMORY_FIRST_THEN_STORE:
 6:             case READ_FROM_MEMORY: {
 7:                 AtomicLong offset = this.offsetTable.get(mq);
 8:                 if (offset != null) {
 9:                     return offset.get();
10:                 } else if (ReadOffsetType.READ_FROM_MEMORY == type) {
11:                     return -1;
12:                 }
13:             }
14:             case READ_FROM_STORE: {
15:                 try {
16:                     long brokerOffset = this.fetchConsumeOffsetFromBroker(mq);
17:                     AtomicLong offset = new AtomicLong(brokerOffset);
18:                     this.updateOffset(mq, offset.get(), false);
19:                     return brokerOffset;
20:                 }
21:                 // No offset in broker
22:                 catch (MQBrokerException e) {
23:                     return -1;
24:                 }
25:                 //Other exceptions
26:                 catch (Exception e) {
27:                     log.warn("fetchConsumeOffsetFromBroker exception, " + mq, e);
28:                     return -2;
29:                 }
30:             }
31:             default:
32:                 break;
33:         }
34:     }
35: 
36:     return -1;
37: }
  • 第 16 行 :从 Broker 读取消费进度。

OffsetStore#updateOffset(…)

该方法 RemoteBrokerOffsetStoreLocalFileOffsetStore 实现相同。

 1: @Override
 2: public void updateOffset(MessageQueue mq, long offset, boolean increaseOnly) {
 3:     if (mq != null) {
 4:         AtomicLong offsetOld = this.offsetTable.get(mq);
 5:         if (null == offsetOld) {
 6:             offsetOld = this.offsetTable.putIfAbsent(mq, new AtomicLong(offset));
 7:         }
 8: 
 9:         if (null != offsetOld) {
10:             if (increaseOnly) {
11:                 MixAll.compareAndIncreaseOnly(offsetOld, offset);
12:             } else {
13:                 offsetOld.set(offset);
14:             }
15:         }
16:     }
17: }

OffsetStore#persistAll(…)

LocalFileOffsetStore#persistAll(…)

 1: @Override
 2: public void persistAll(Set<MessageQueue> mqs) {
 3:     if (null == mqs || mqs.isEmpty())
 4:         return;
 5: 
 6:     OffsetSerializeWrapper offsetSerializeWrapper = new OffsetSerializeWrapper();
 7:     for (Map.Entry<MessageQueue, AtomicLong> entry : this.offsetTable.entrySet()) {
 8:         if (mqs.contains(entry.getKey())) {
 9:             AtomicLong offset = entry.getValue();
10:             offsetSerializeWrapper.getOffsetTable().put(entry.getKey(), offset);
11:         }
12:     }
13: 
14:     String jsonString = offsetSerializeWrapper.toJson(true);
15:     if (jsonString != null) {
16:         try {
17:             MixAll.string2File(jsonString, this.storePath);
18:         } catch (IOException e) {
19:             log.error("persistAll consumer offset Exception, " + this.storePath, e);
20:         }
21:     }
22: }
  • 说明 :持久化消费进度。将消费进度写入文件

RemoteBrokerOffsetStore#persistAll(…)

 1: @Override
 2: public void persistAll(Set<MessageQueue> mqs) {
 3:     if (null == mqs || mqs.isEmpty())
 4:         return;
 5: 
 6:     // 持久化消息队列
 7:     final HashSet<MessageQueue> unusedMQ = new HashSet<>();
 8:     if (!mqs.isEmpty()) {
 9:         for (Map.Entry<MessageQueue, AtomicLong> entry : this.offsetTable.entrySet()) {
10:             MessageQueue mq = entry.getKey();
11:             AtomicLong offset = entry.getValue();
12:             if (offset != null) {
13:                 if (mqs.contains(mq)) {
14:                     try {
15:                         this.updateConsumeOffsetToBroker(mq, offset.get());
16:                         log.info("[persistAll] Group: {} ClientId: {} updateConsumeOffsetToBroker {} {}",
17:                             this.groupName,
18:                             this.mQClientFactory.getClientId(),
19:                             mq,
20:                             offset.get());
21:                     } catch (Exception e) {
22:                         log.error("updateConsumeOffsetToBroker exception, " + mq.toString(), e);
23:                     }
24:                 } else {
25:                     unusedMQ.add(mq);
26:                 }
27:             }
28:         }
29:     }
30: 
31:     // 移除不适用的消息队列
32:     if (!unusedMQ.isEmpty()) {
33:         for (MessageQueue mq : unusedMQ) {
34:             this.offsetTable.remove(mq);
35:             log.info("remove unused mq, {}, {}", mq, this.groupName);
36:         }
37:     }
38: }
  • 说明 :持久化指定消息队列数组的消费进度到 Broker,并移除非指定消息队列。

MQClientInstance#persistAllConsumerOffset(…)

 1: private void startScheduledTask() {
 2:     // 定时同步消费进度
 3:     this.scheduledExecutorService.scheduleAtFixedRate(new Runnable() {
 4: 
 5:         @Override
 6:         public void run() {
 7:             try {
 8:                 MQClientInstance.this.cleanOfflineBroker();
 9:                 MQClientInstance.this.sendHeartbeatToAllBrokerWithLock();
10:             } catch (Exception e) {
11:                 log.error("ScheduledTask sendHeartbeatToAllBroker exception", e);
12:             }
13:         }
14:     }, 1000, this.clientConfig.getHeartbeatBrokerInterval(), TimeUnit.MILLISECONDS);
15: }
  • 说明 :定时进行持久化,默认周期:5000ms。
  • 重要说明 :
    • 消费进度持久化不仅仅只有定时持久化,拉取消息、分配消息队列等等操作,都会进行消费进度持久化。
    • 消费进度持久化不仅仅只有定时持久化,拉取消息、分配消息队列等等操作,都会进行消费进度持久化。
    • 消费进度持久化不仅仅只有定时持久化,拉取消息、分配消息队列等等操作,都会进行消费进度持久化。

9、结尾

知识星球

😈可能是本系列最长的一篇文章,如有表达错误和不清晰,请多多见谅。
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