10、RocketMQ源码分析:BrokerasyncSendMessage处理消息以及自动创建Topic

基于RocketMQ release-4.9.3,深入的介绍了Broker接收消息源码,以及自动创建Topic的源码。

此前我们学习RocketMQ的Broker接收Producer消息的入口源码:RocketMQ源码(9)—Broker接收消息入口源码,在文章的最后我们到了asyncSendMessage方法。

asyncSendMessage方法用来处理来自producer发送的消息,内部内容非常多,本次我们学习asyncSendMessage方法的整体流程,以及自动创建topic的源码

文章目录

  • 1 asyncSendMessage异步处理单条消息
  • 2 preSend准备响应命令对象
    • 2.1 msgCheck检查并自动创建topic
    • 2.1.1 createTopicInSendMessageMethod创建普通topic
    • 2.1.2 createTopicInSendMessageBackMethod创建重试topc
    • 2.1.3 autoCreateTopicEnable自动创建topic的问题
  • 3 handlePutMessageResultFuture处理消息存放结果
    • 3.1 handlePutMessageResult处理存放消息的结果
  • 4 总结

1 asyncSendMessage异步处理单条消息

该方法是broker处理单条消息的通用入口方法,该方法非常重要,大概步骤为:

1、 调用preSend方法创建响应的命令对象,包括自动创建topic的逻辑,随后创建响应头对象;
2、 随后创建MessageExtBrokerInner对象,从请求中获取消息的属性并设置到对象属性中,例如消息体,topic等等;
3、 判断如果是重试或者死信消息,则调用handleRetryAndDLQ方法处理重试和死信队列消息,如果已重试次数大于最大重试次数,那么替换topic为死信队列topic,消息会被发送至死信队列;
4、 判断如果是事务准备消息,并且不会拒绝处理事务消息,则调用asyncPrepareMessage方法以异步的方式处理、存储事务准备消息;
5、 否则表示普通消息,调用asyncPutMessage方法处理、存储普通消息asyncPutMessage以异步方式将消息存储到存储器中,处理器可以处理下一个请求而不是等待结果,当结果完成时,以异步方式通知客户端;
6、 最后调用handlePutMessageResultFuture方法处理消息存储的处理结果;

/**
 * SendMessageProcessor的方法
 * <p>
 * 处理单条消息
 */
private CompletableFuture<RemotingCommand> asyncSendMessage(ChannelHandlerContext ctx, RemotingCommand request,
                                                            SendMessageContext mqtraceContext,
                                                            SendMessageRequestHeader requestHeader) {
   
     
    /*
     * 1 创建响应的命令对象,包括自动创建topic的逻辑
     */
    final RemotingCommand response = preSend(ctx, request, requestHeader);
    //获取响应头
    final SendMessageResponseHeader responseHeader = (SendMessageResponseHeader) response.readCustomHeader();

    if (response.getCode() != -1) {
   
     
        return CompletableFuture.completedFuture(response);
    }
    //获取消息体
    final byte[] body = request.getBody();
    //获取队列id
    int queueIdInt = requestHeader.getQueueId();
    //从broker的topicConfigTable缓存中根据topicName获取TopicConfig
    TopicConfig topicConfig = this.brokerController.getTopicConfigManager().selectTopicConfig(requestHeader.getTopic());
    //如果队列id小于0,则随机选择一个写队列索引作为id
    if (queueIdInt < 0) {
   
     
        queueIdInt = randomQueueId(topicConfig.getWriteQueueNums());
    }
    //构建消息对象,保存着要存入commitLog的数据
    MessageExtBrokerInner msgInner = new MessageExtBrokerInner();
    //设置topic
    msgInner.setTopic(requestHeader.getTopic());
    //设置队列id
    msgInner.setQueueId(queueIdInt);
    /*
     * 2 处理重试和死信队列消息,将会对死信消息替换为死信topic
     */
    if (!handleRetryAndDLQ(requestHeader, response, request, msgInner, topicConfig)) {
   
     
        return CompletableFuture.completedFuture(response);
    }
    /*
     * 设置一系列属性
     */
    msgInner.setBody(body);
    msgInner.setFlag(requestHeader.getFlag());
    Map<String, String> origProps = MessageDecoder.string2messageProperties(requestHeader.getProperties());
    //设置到properties属性中
    MessageAccessor.setProperties(msgInner, origProps);
    msgInner.setBornTimestamp(requestHeader.getBornTimestamp());
    msgInner.setBornHost(ctx.channel().remoteAddress());
    msgInner.setStoreHost(this.getStoreHost());
    msgInner.setReconsumeTimes(requestHeader.getReconsumeTimes() == null ? 0 : requestHeader.getReconsumeTimes());
    String clusterName = this.brokerController.getBrokerConfig().getBrokerClusterName();
    MessageAccessor.putProperty(msgInner, MessageConst.PROPERTY_CLUSTER, clusterName);
    //WAIT属性表示 消息发送时是否等消息存储完成后再返回
    if (origProps.containsKey(MessageConst.PROPERTY_WAIT_STORE_MSG_OK)) {
   
     
        // There is no need to store "WAIT=true", remove it from propertiesString to save 9 bytes for each message.
        // It works for most case. In some cases msgInner.setPropertiesString invoked later and replace it.
        //不需要存储"WAIT=true"属性,从propertiesString中移除它,为每个消息节省9个字节。
        String waitStoreMsgOKValue = origProps.remove(MessageConst.PROPERTY_WAIT_STORE_MSG_OK);
        //将没有WAIT属性的origProps存入msgInner的propertiesString属性
        msgInner.setPropertiesString(MessageDecoder.messageProperties2String(msgInner.getProperties()));
        // Reput to properties, since msgInner.isWaitStoreMsgOK() will be invoked later
        //将WAIT属性重新存入origProps集合中,因为msgInner.isWaitStoreMsgOK()稍后将被调用
        origProps.put(MessageConst.PROPERTY_WAIT_STORE_MSG_OK, waitStoreMsgOKValue);
    } else {
   
     
        //将没有WAIT属性的origProps存入msgInner的propertiesString属性
        msgInner.setPropertiesString(MessageDecoder.messageProperties2String(msgInner.getProperties()));
    }

    CompletableFuture<PutMessageResult> putMessageResult = null;
    /*
     * 处理事务消息逻辑
     */
    //TRAN_MSG属性值为true,表示为事务消息
    String transFlag = origProps.get(MessageConst.PROPERTY_TRANSACTION_PREPARED);
    //处理事务消息
    if (transFlag != null && Boolean.parseBoolean(transFlag)) {
   
     
        //判断是否需要拒绝事务消息,如果需要拒绝,则返回NO_PERMISSION异常
        if (this.brokerController.getBrokerConfig().isRejectTransactionMessage()) {
   
     
            response.setCode(ResponseCode.NO_PERMISSION);
            response.setRemark(
                    "the broker[" + this.brokerController.getBrokerConfig().getBrokerIP1()
                            + "] sending transaction message is forbidden");
            return CompletableFuture.completedFuture(response);
        }
        //调用asyncPrepareMessage方法以异步的方式处理、存储事务准备消息,底层仍是asyncPutMessage方法
        putMessageResult = this.brokerController.getTransactionalMessageService().asyncPrepareMessage(msgInner);
    } else {
   
     
        //不是事务消息,那么调用asyncPutMessage方法处理,存储消息
        //以异步方式将消息存储到存储器中,处理器可以处理下一个请求而不是等待结果,当结果完成时,以异步方式通知客户端
        putMessageResult = this.brokerController.getMessageStore().asyncPutMessage(msgInner);
    }
    //处理消息存放的结果
    return handlePutMessageResultFuture(putMessageResult, response, request, msgInner, responseHeader, mqtraceContext, ctx, queueIdInt);
}

2 preSend准备响应命令对象

该方法用于创建响应的命令对象,其中还包括topic的校验,以及自动创建topic的逻辑。

该方法中将会创建一个RemotingCommand对象,并且设置唯一id为请求的id。除此之外还会校验如果当前时间小于该broker的起始服务时间,那么broker会返回一个SYSTEM_ERROR,表示现在broker还不能提供服务。

在最后,会调用msgCheck方法进行一系列的校验,包括自动创建topic的逻辑。

/**
 * SendMessageProcessor的方法
 * <p>
 * 准备响应数据
 */
private RemotingCommand preSend(ChannelHandlerContext ctx, RemotingCommand request,
                                SendMessageRequestHeader requestHeader) {
   
     
    //创建响应命令对象
    final RemotingCommand response = RemotingCommand.createResponseCommand(SendMessageResponseHeader.class);
    //设置唯一id为请求id
    response.setOpaque(request.getOpaque());
    //添加扩展字段属性"MSG_REGION"、"TRACE_ON"
    response.addExtField(MessageConst.PROPERTY_MSG_REGION, this.brokerController.getBrokerConfig().getRegionId());
    response.addExtField(MessageConst.PROPERTY_TRACE_SWITCH, String.valueOf(this.brokerController.getBrokerConfig().isTraceOn()));

    log.debug("Receive SendMessage request command {}", request);
    //获取配置的broker的处理请求的起始服务时间,默认为0
    final long startTimestamp = this.brokerController.getBrokerConfig().getStartAcceptSendRequestTimeStamp();
    //如果当前时间小于起始时间,那么broker会返回一个SYSTEM_ERROR,表示现在broker还不能提供服务
    if (this.brokerController.getMessageStore().now() < startTimestamp) {
   
     
        response.setCode(ResponseCode.SYSTEM_ERROR);
        response.setRemark(String.format("broker unable to service, until %s", UtilAll.timeMillisToHumanString2(startTimestamp)));
        return response;
    }
    //设置code为-1
    response.setCode(-1);
    /*
     * 消息校验,包括自动创建topic的逻辑
     */
    super.msgCheck(ctx, requestHeader, response);
    if (response.getCode() != -1) {
   
     
        return response;
    }

    return response;
}

2.1 msgCheck检查并自动创建topic

该方法进行一系列的消息校验,并且会尝试自动创建topic。大概步骤为:

1、 校验如果当前broker没有写的权限,那么broker会返回一个NO_PERMISSION异常,sendingmessageisforbidden,禁止向该broker发送消息;
2、 校验topic不能为空,必须属于合法字符regex:^[%|a-zA-Z0-9_-]+$,且长度不超过127个字符;
3、 校验如果当前topic是不为允许使用的系统topic,那么抛出异常,默认不能为SCHEDULE_TOPIC_XXXX;
4、 随后从broker的topicConfigTable缓存中根据topicName获取TopicConfig;

1、 如果不存在该topic信息,比如第一次发送消息,那么首先调用createTopicInSendMessageMethod方法尝试创建普通topic,如果失败了,则判断是否是重试topic,即topic名是否以%RETRY%开头,如果是的话则尝试创建重试topic,如果还是创建失败,则返回TOPIC_NOT_EXIST异常信息;
5、 如果找到或者创建了topic,则校验queutId不能大于等于该broker的读或写的最大queueId;

/**
 * AbstractSendMessageProcessor的方法
 * <p>
 * 消息校验,包括自动创建topic的逻辑
 */
protected RemotingCommand msgCheck(final ChannelHandlerContext ctx,
                                   final SendMessageRequestHeader requestHeader, final RemotingCommand response) {
   
     
    //如果当前broker没有写的权限,那么broker会返回一个NO_PERMISSION异常,sending message is forbidden,禁止向该broker发送消息
    if (!PermName.isWriteable(this.brokerController.getBrokerConfig().getBrokerPermission())
            && this.brokerController.getTopicConfigManager().isOrderTopic(requestHeader.getTopic())) {
   
     
        response.setCode(ResponseCode.NO_PERMISSION);
        response.setRemark("the broker[" + this.brokerController.getBrokerConfig().getBrokerIP1()
                + "] sending message is forbidden");
        return response;
    }
    //校验topic不能为空,必须属于合法字符regex: ^[%|a-zA-Z0-9_-]+$,且长度不超过127个字符
    if (!TopicValidator.validateTopic(requestHeader.getTopic(), response)) {
   
     
        return response;
    }
    //校验如果当前topic是不为允许使用的系统topic,那么抛出异常,默认不能为SCHEDULE_TOPIC_XXXX
    if (TopicValidator.isNotAllowedSendTopic(requestHeader.getTopic(), response)) {
   
     
        return response;
    }
    //从broker的topicConfigTable缓存中根据topicName获取TopicConfig
    TopicConfig topicConfig =
            this.brokerController.getTopicConfigManager().selectTopicConfig(requestHeader.getTopic());
    //如果不存在该topic信息
    if (null == topicConfig) {
   
     
        int topicSysFlag = 0;
        if (requestHeader.isUnitMode()) {
   
     
            if (requestHeader.getTopic().startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
   
     
                topicSysFlag = TopicSysFlag.buildSysFlag(false, true);
            } else {
   
     
                topicSysFlag = TopicSysFlag.buildSysFlag(true, false);
            }
        }

        log.warn("the topic {} not exist, producer: {}", requestHeader.getTopic(), ctx.channel().remoteAddress());
        /*
         * 尝试创建普通topic
         */
        topicConfig = this.brokerController.getTopicConfigManager().createTopicInSendMessageMethod(
                requestHeader.getTopic(),
                requestHeader.getDefaultTopic(),
                RemotingHelper.parseChannelRemoteAddr(ctx.channel()),
                requestHeader.getDefaultTopicQueueNums(), topicSysFlag);
        /*
         * 尝试创建重试topic
         */
        if (null == topicConfig) {
   
     
            if (requestHeader.getTopic().startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
   
     
                topicConfig =
                        this.brokerController.getTopicConfigManager().createTopicInSendMessageBackMethod(
                                requestHeader.getTopic(), 1, PermName.PERM_WRITE | PermName.PERM_READ,
                                topicSysFlag);
            }
        }

        if (null == topicConfig) {
   
     
            response.setCode(ResponseCode.TOPIC_NOT_EXIST);
            response.setRemark("topic[" + requestHeader.getTopic() + "] not exist, apply first please!"
                    + FAQUrl.suggestTodo(FAQUrl.APPLY_TOPIC_URL));
            return response;
        }
    }
    //校验queutId 不能大于等于该broker的读或写的最大数量
    int queueIdInt = requestHeader.getQueueId();
    int idValid = Math.max(topicConfig.getWriteQueueNums(), topicConfig.getReadQueueNums());
    if (queueIdInt >= idValid) {
   
     
        String errorInfo = String.format("request queueId[%d] is illegal, %s Producer: %s",
                queueIdInt,
                topicConfig.toString(),
                RemotingHelper.parseChannelRemoteAddr(ctx.channel()));

        log.warn(errorInfo);
        response.setCode(ResponseCode.SYSTEM_ERROR);
        response.setRemark(errorInfo);

        return response;
    }
    return response;
}

2.1.1 createTopicInSendMessageMethod创建普通topic

该方法尝试创建一个新的topic,大概步骤为:

1、 首先需要获取锁防止并发创建相同的topic,获得锁之再次尝试从topicConfigTable获取topic信息,如果获取到了,那么直接返回如果还是没有,那么创建topic;
2、 获取默认topic的信息,用于作为模板创建新topic,默认的默认topic实际上就是TBW102,其有8个读写队列,权限为读写并且可继承,即7;
3、 如果默认topic就是TBW102,并且如果broker配置不支持自动创建topic,即autoCreateTopicEnable为false,那么设置权限为可读写,不可继承,即6;
4、 如果默认topic配置的权限包括可继承,那么从默认topic继承属性创建新topic;

1、 新建一个TopicConfig对象,选择默认队列数量与默认topic写队列数中最小的值作为新topic的读写队列数量,默认为4设置权限,去除可继承权限等操作;
5、 如果topic不为null,说明创建了新topic将新的topic信息存入topicConfigTable缓存中,生成下一个数据版本,标识位置为true,随后调用persist方法将topic配置持久化到配置文件{user.home}/store/config/topics.json中;
6、 最后解锁,然后判断如果创建了新topic,那么马上调用registerBrokerAll方法向nameServer注册当前broker的新配置路由信息;

  /**
   * TopicConfigManager的方法
   * <p>
   * 创建普通topic,并持久化至配置文件 {user.home}/store/config/topics.json中
   *
   * @param topic                       待创建topic
   * @param defaultTopic                默认topic,用于作为模板创建新topic
   * @param remoteAddress               远程地址
   * @param clientDefaultTopicQueueNums 自动创建服务器不存在的topic时,默认创建的队列数,默认为4
*                                    可通过生产者DefaultMQProducer的defaultTopicQueueNums属性进行配置
   * @param topicSysFlag                topic标识
   * @return topic配置
   */
  public TopicConfig createTopicInSendMessageMethod(final String topic, final String defaultTopic,
                                                    final String remoteAddress, final int clientDefaultTopicQueueNums, final int topicSysFlag) {
   
     
      TopicConfig topicConfig = null;
      boolean createNew = false;

      try {
   
     
          //需要加锁防止并发创建相同的topic
          if (this.topicConfigTableLock.tryLock(LOCK_TIMEOUT_MILLIS, TimeUnit.MILLISECONDS)) {
   
     
              try {
   
     
                  //再次尝试从topicConfigTable获取topic信息,如果获取到了,那么直接返回
                  topicConfig = this.topicConfigTable.get(topic);
                  if (topicConfig != null)
                      return topicConfig;
                  //获取默认topic的信息,用于作为模板创建新topic,默认的默认topic实际上就是TBW102,其有8个读写队列,权限为读写并且可继承,即7
                  TopicConfig defaultTopicConfig = this.topicConfigTable.get(defaultTopic);
                  if (defaultTopicConfig != null) {
   
     
                   //如果默认topic就是TBW102
                      if (defaultTopic.equals(TopicValidator.AUTO_CREATE_TOPIC_KEY_TOPIC)) {
   
     
                       //如果broker配置不支持自动创建topic,那么设置权限为可读写,不可继承,即6
                          if (!this.brokerController.getBrokerConfig().isAutoCreateTopicEnable()) {
   
     
                              defaultTopicConfig.setPerm(PermName.PERM_READ | PermName.PERM_WRITE);
                          }
                      }
                      //如果默认topic配置的权限包括可继承,那么从默认topic继承属性
                      if (PermName.isInherited(defaultTopicConfig.getPerm())) {
   
     
                       //创建topic配置
                          topicConfig = new TopicConfig(topic);
                          //选择默认队列数量与默认topic写队列数中最小的值作为新topic的读写队列数量,默认为4
                          int queueNums = Math.min(clientDefaultTopicQueueNums, defaultTopicConfig.getWriteQueueNums());

                          if (queueNums < 0) {
   
     
                              queueNums = 0;
                          }

                          topicConfig.setReadQueueNums(queueNums);
                          topicConfig.setWriteQueueNums(queueNums);
                          //权限
                          int perm = defaultTopicConfig.getPerm();
                          //去掉可继承权限
                          perm &= ~PermName.PERM_INHERIT;
                          topicConfig.setPerm(perm);
                          topicConfig.setTopicSysFlag(topicSysFlag);
                          topicConfig.setTopicFilterType(defaultTopicConfig.getTopicFilterType());
                      } else {
   
     
                          log.warn("Create new topic failed, because the default topic[{}] has no perm [{}] producer:[{}]",
                                  defaultTopic, defaultTopicConfig.getPerm(), remoteAddress);
                      }
                  } else {
   
     
                      log.warn("Create new topic failed, because the default topic[{}] not exist. producer:[{}]",
                              defaultTopic, remoteAddress);
                  }
                  //如果topic不为null,说明创建了新topic
                  if (topicConfig != null) {
   
     
                      log.info("Create new topic by default topic:[{}] config:[{}] producer:[{}]",
                              defaultTopic, topicConfig, remoteAddress);
                      //将新的topic信息存入topicConfigTable缓存中
                      this.topicConfigTable.put(topic, topicConfig);
                      //生成下一个数据版本
                      this.dataVersion.nextVersion();
                      //标识位置为true
                      createNew = true;
                      /*
                       * 将topic配置持久化到配置文件 {user.home}/store/config/topics.json中
                       */
                      this.persist();
                  }
              } finally {
   
     
               //解锁
                  this.topicConfigTableLock.unlock();
              }
          }
      } catch (InterruptedException e) {
   
     
          log.error("createTopicInSendMessageMethod exception", e);
      }
      //如果创建了新topic,那么马上向nameServer注册当前broker的新配置路由信息
      if (createNew) {
   
     
          this.brokerController.registerBrokerAll(false, true, true);
      }

      return topicConfig;
  }

2.1.2 createTopicInSendMessageBackMethod创建重试topc

该方法用于自动创建重试topic,其源码和创建普通topic差不多,区别就是重试topic不需要模板topic,默认读写队列数都是1,权限为读写。

/**
 * TopicConfigManager的方法
 * <p>
 * 创建重试topic,并持久化至配置文件 {user.home}/store/config/topics.json中
 *
 * @param topic                       待创建topic
 * @param perm                        权限
 * @param clientDefaultTopicQueueNums 自动创建服务器不存在的topic时,默认创建的队列数,默认为4
 *                                    可通过生产者DefaultMQProducer的defaultTopicQueueNums属性进行配置
 * @param topicSysFlag                topic标识
 * @return topic配置
 */
public TopicConfig createTopicInSendMessageBackMethod(
        final String topic,
        final int clientDefaultTopicQueueNums,
        final int perm,
        final int topicSysFlag) {
   
     
    //尝试获取topic
    TopicConfig topicConfig = this.topicConfigTable.get(topic);
    //如果存在则直接返回
    if (topicConfig != null)
        return topicConfig;

    boolean createNew = false;

    try {
   
     
        //需要加锁防止并发创建相同的topic
        if (this.topicConfigTableLock.tryLock(LOCK_TIMEOUT_MILLIS, TimeUnit.MILLISECONDS)) {
   
     
            try {
   
     
                //再次尝试从topicConfigTable获取topic信息,如果获取到了,那么直接返回
                topicConfig = this.topicConfigTable.get(topic);
                if (topicConfig != null)
                    return topicConfig;
                //创建topic
                topicConfig = new TopicConfig(topic);
                //重试topic的默认读写队列数量为1
                topicConfig.setReadQueueNums(clientDefaultTopicQueueNums);
                topicConfig.setWriteQueueNums(clientDefaultTopicQueueNums);
                //重试topic的默认权限为读写
                topicConfig.setPerm(perm);
                topicConfig.setTopicSysFlag(topicSysFlag);

                log.info("create new topic {}", topicConfig);
                this.topicConfigTable.put(topic, topicConfig);
                createNew = true;
                //获取下一个版本
                this.dataVersion.nextVersion();
                //持久化broker信息
                this.persist();
            } finally {
   
     
                //解锁
                this.topicConfigTableLock.unlock();
            }
        }
    } catch (InterruptedException e) {
   
     
        log.error("createTopicInSendMessageBackMethod exception", e);
    }

    if (createNew) {
   
     
        //注册broker信息
        this.brokerController.registerBrokerAll(false, true, true);
    }

    return topicConfig;
}

2.1.3 autoCreateTopicEnable自动创建topic的问题

之前将Producer发送消息源码的时候,我们的客户端,在发送消息的之前,会先选择一个topic所在的broker地址,如果topic不存在,那么选择默认topic的路由信息中的一个broker进行发送。

当发送到broker之后,会发现没有指定的topic并且如果broker的autoCreateTopicEnable为true,那么将会走刚才的createTopicInSendMessageMethod源码,自动创建topic的方法的最后会马上调用registerBrokerAll方法向nameServer注册当前broker的新配置路由信息。

生产者客户端会定时每30s从nameServer更新路由数据,如果此时有其他的producer的存在,并且刚好从nameServer获取到了这个新的topic的路由信息,假设其他producer也需要向该topic发送信息,由于发现topic路由信息已存在,并且只存在于刚才那一个broker中,此时这些producer都会将该topic的消息发送到这一个broker中来。

这样,接下来所有的Producer都只会向这一个Broker发送消息,其他Broker也就不会再有机会创建新Topic。我们本想要该Topic在每个broker上都被自动创建,但结果仅仅是在一个broker上有该topic的信息,这样就背离了RocketMQ集群的初衷,不能实现压力的分摊。

因此,RocketMQ官方建议生产环境下将broker的autoCreateTopicEnable设置为false,即关闭自动创建topic,全部改为手动在每个broker上创建,这样安全又保险。

3 handlePutMessageResultFuture处理消息存放结果

当存放消息完毕时,执行后续的操作,即执行handlePutMessageResult方法。

/**
 * SendMessageProcessor的方法
 * <p>
 * 处理消息存放结果
 *
 * @param putMessageResult   存放结果
 * @param response           响应对象
 * @param request            请求对象
 * @param msgInner           内部消息对象
 * @param responseHeader     响应头
 * @param sendMessageContext 发送消息上下文
 * @param ctx                连接上下文
 * @param queueIdInt         queueId
 * @return
 */
private CompletableFuture<RemotingCommand> handlePutMessageResultFuture(CompletableFuture<PutMessageResult> putMessageResult,
                                                                        RemotingCommand response,
                                                                        RemotingCommand request,
                                                                        MessageExt msgInner,
                                                                        SendMessageResponseHeader responseHeader,
                                                                        SendMessageContext sendMessageContext,
                                                                        ChannelHandlerContext ctx,
                                                                        int queueIdInt) {
   
     
    //阻塞,当从存放消息完毕时,执行后续的操作,即执行handlePutMessageResult方法
    return putMessageResult.thenApply((r) ->
            handlePutMessageResult(r, response, request, msgInner, responseHeader, sendMessageContext, ctx, queueIdInt)
    );
}

3.1 handlePutMessageResult处理存放消息的结果

该方法处理存放消息的结果,并且将响应写回给客户端。

/**
 * SendMessageProcessor的方法
 * <p>
 * 处理存放消息的结果
 *
 * @param putMessageResult   存放结果
 * @param response           响应对象
 * @param request            请求对象
 * @param msg                内部消息对象
 * @param responseHeader     响应头
 * @param sendMessageContext 发送消息上下文
 * @param ctx                连接上下文
 * @param queueIdInt         queueId
 * @return
 */
private RemotingCommand handlePutMessageResult(PutMessageResult putMessageResult, RemotingCommand response,
                                               RemotingCommand request, MessageExt msg,
                                               SendMessageResponseHeader responseHeader, SendMessageContext sendMessageContext, ChannelHandlerContext ctx,
                                               int queueIdInt) {
   
     
    //结果为null,那么直接返回系统异常
    if (putMessageResult == null) {
   
     
        response.setCode(ResponseCode.SYSTEM_ERROR);
        response.setRemark("store putMessage return null");
        return response;
    }
    boolean sendOK = false;
    //解析存放消息状态码,转换为对应的响应码
    switch (putMessageResult.getPutMessageStatus()) {
   
     
        // Success
        case PUT_OK:
            sendOK = true;
            response.setCode(ResponseCode.SUCCESS);
            break;
        case FLUSH_DISK_TIMEOUT:
            response.setCode(ResponseCode.FLUSH_DISK_TIMEOUT);
            sendOK = true;
            break;
        case FLUSH_SLAVE_TIMEOUT:
            response.setCode(ResponseCode.FLUSH_SLAVE_TIMEOUT);
            sendOK = true;
            break;
        case SLAVE_NOT_AVAILABLE:
            response.setCode(ResponseCode.SLAVE_NOT_AVAILABLE);
            sendOK = true;
            break;

        // Failed
        case CREATE_MAPEDFILE_FAILED:
            response.setCode(ResponseCode.SYSTEM_ERROR);
            response.setRemark("create mapped file failed, server is busy or broken.");
            break;
        case MESSAGE_ILLEGAL:
        case PROPERTIES_SIZE_EXCEEDED:
            response.setCode(ResponseCode.MESSAGE_ILLEGAL);
            response.setRemark(
                    "the message is illegal, maybe msg body or properties length not matched. msg body length limit 128k, msg properties length limit 32k.");
            break;
        case SERVICE_NOT_AVAILABLE:
            response.setCode(ResponseCode.SERVICE_NOT_AVAILABLE);
            response.setRemark(
                    "service not available now. It may be caused by one of the following reasons: " +
                            "the broker's disk is full [" + diskUtil() + "], messages are put to the slave, message store has been shut down, etc.");
            break;
        case OS_PAGECACHE_BUSY:
            response.setCode(ResponseCode.SYSTEM_ERROR);
            response.setRemark("[PC_SYNCHRONIZED]broker busy, start flow control for a while");
            break;
        case LMQ_CONSUME_QUEUE_NUM_EXCEEDED:
            response.setCode(ResponseCode.SYSTEM_ERROR);
            response.setRemark("[LMQ_CONSUME_QUEUE_NUM_EXCEEDED]broker config enableLmq and enableMultiDispatch, lmq consumeQueue num exceed maxLmqConsumeQueueNum config num, default limit 2w.");
            break;
        case UNKNOWN_ERROR:
            response.setCode(ResponseCode.SYSTEM_ERROR);
            response.setRemark("UNKNOWN_ERROR");
            break;
        default:
            response.setCode(ResponseCode.SYSTEM_ERROR);
            response.setRemark("UNKNOWN_ERROR DEFAULT");
            break;
    }

    String owner = request.getExtFields().get(BrokerStatsManager.COMMERCIAL_OWNER);
    //如果发送成功
    if (sendOK) {
   
     
        //如果topic是SCHEDULE_TOPIC_XXXX,即延迟消息的topic
        if (TopicValidator.RMQ_SYS_SCHEDULE_TOPIC.equals(msg.getTopic())) {
   
     
            //增加统计计数
            this.brokerController.getBrokerStatsManager().incQueuePutNums(msg.getTopic(), msg.getQueueId(), putMessageResult.getAppendMessageResult().getMsgNum(), 1);
            this.brokerController.getBrokerStatsManager().incQueuePutSize(msg.getTopic(), msg.getQueueId(), putMessageResult.getAppendMessageResult().getWroteBytes());
        }
        //增加统计计数
        this.brokerController.getBrokerStatsManager().incTopicPutNums(msg.getTopic(), putMessageResult.getAppendMessageResult().getMsgNum(), 1);
        this.brokerController.getBrokerStatsManager().incTopicPutSize(msg.getTopic(),
                putMessageResult.getAppendMessageResult().getWroteBytes());
        this.brokerController.getBrokerStatsManager().incBrokerPutNums(putMessageResult.getAppendMessageResult().getMsgNum());

        response.setRemark(null);
        //设置响应头中的migId,实际上就是broker生成的offsetMsgId属性
        responseHeader.setMsgId(putMessageResult.getAppendMessageResult().getMsgId());
        //消息队列Id
        responseHeader.setQueueId(queueIdInt);
        //消息逻辑偏移量
        responseHeader.setQueueOffset(putMessageResult.getAppendMessageResult().getLogicsOffset());
        //如果不是单向请求,那么将响应写会客户端
        doResponse(ctx, request, response);
        //如果有发送消息的钩子,那么执行
        if (hasSendMessageHook()) {
   
     
            sendMessageContext.setMsgId(responseHeader.getMsgId());
            sendMessageContext.setQueueId(responseHeader.getQueueId());
            sendMessageContext.setQueueOffset(responseHeader.getQueueOffset());

            int commercialBaseCount = brokerController.getBrokerConfig().getCommercialBaseCount();
            int wroteSize = putMessageResult.getAppendMessageResult().getWroteBytes();
            int incValue = (int) Math.ceil(wroteSize / BrokerStatsManager.SIZE_PER_COUNT) * commercialBaseCount;

            sendMessageContext.setCommercialSendStats(BrokerStatsManager.StatsType.SEND_SUCCESS);
            sendMessageContext.setCommercialSendTimes(incValue);
            sendMessageContext.setCommercialSendSize(wroteSize);
            sendMessageContext.setCommercialOwner(owner);
        }
        return null;
    } else {
   
     
        //如果有发送消息的钩子,那么执行
        if (hasSendMessageHook()) {
   
     
            int wroteSize = request.getBody().length;
            int incValue = (int) Math.ceil(wroteSize / BrokerStatsManager.SIZE_PER_COUNT);

            sendMessageContext.setCommercialSendStats(BrokerStatsManager.StatsType.SEND_FAILURE);
            sendMessageContext.setCommercialSendTimes(incValue);
            sendMessageContext.setCommercialSendSize(wroteSize);
            sendMessageContext.setCommercialOwner(owner);
        }
    }
    return response;
}

4 总结

本次我们学习了asyncSendMessage方法的整体流程,以及自动创建topic的源码,并且我们学习到了autoCreateTopicEnable属性为true,即自动创建topic的一些问题。下一章,我们将学习asyncPutMessage方法,该方法真正的用来存储消息。

版权声明:本文不是「本站」原创文章,版权归原作者所有 | 原文地址: