kafka删除一个topic

前言

当我们在shell中执行topic删除命令的时候` kafka-topics --delete --topic xxxx --zookeeper xxx`,会显示,xxxx已经被标记为删除。然后过了很久你再查看topic列表,发现那个topic依然被标记删除,显然删除没有真正执行。下面就深入了解,kafka删除topic的流程。 

先说结论

delete.topic.enable,配置默认是false,意思是 是否允许kafka集群删除topic,只有为true的情况,kafka才会删除那些已经被标记为删除的topic。否则topic将不会被删除,仅仅被标记,所谓标记,也就是在zk上记录那些delete的topic。注意修改完后需要重启集群。

如果想手动删除topic,那么需要做两件事情

      1. 删除zookeeper上topic的数据

          /brokers/ids/topics/xxx

          /config/topics/xxx

      2. 删除该topic所有partition和replica的数据

          数据在所有broker的`log.dirs`目录下,文件夹结构是topic-partition的方式,直接将该topic的整个文件夹删除即可 

Topic标记删除

通过shell命令可以找到操作topic的类TopicCommand,在删除topic这块逻辑中,只做了3件事情,1.判断该topic是否存在;2.判断topic是否是kafka内部topic(不允许被删除); 3.在zk上创建一个节点(/admin/delete_toppics/xxx)来记录删除的topic。下面是详细代码

def deleteTopic(zkUtils: ZkUtils, opts: TopicCommandOptions) {
  val topics = getTopics(zkUtils, opts)
  val ifExists = opts.options.has(opts.ifExistsOpt)
  // topic不存在 直接抛出异常
  if (topics.isEmpty && !ifExists) {
    throw new IllegalArgumentException("Topic %s does not exist on ZK path %s".format(opts.options.valueOf(opts.topicOpt),
       opts.options.valueOf(opts.zkConnectOpt)))
  }
  topics.foreach { topic =>
    try {
      // topic是kafka自己的,比如__offset之类的topic,那么不允许删除
      if (Topic.isInternal(topic)) {
        throw new AdminOperationException("Topic %s is a kafka internal topic and is not allowed to be marked for deletion.".format(topic))
      } else {
       // 在zk上创建一个节点,标记该topic是需要被删除的
       zkUtils.createPersistentPath(getDeleteTopicPath(topic))
        println("Topic %s is marked for deletion.".format(topic))
        println("Note: This will have no impact if delete.topic.enable is not set to true.")
      }
    } catch {
      case _: ZkNodeExistsException =>
        println("Topic %s is already marked for deletion.".format(topic))
      case e: AdminOperationException =>
        throw e
      case _: Throwable =>
        throw new AdminOperationException("Error while deleting topic %s".format(topic))
    }
  }
}

至此topic删除已经走完,那么背标记为删除的topic是在什么时候才被真正的删除呢?下面接着分析。

Topic删除

首先还是从zk上标记的删除topic开始,KafkaController通过订阅zookeeper的删除节点的变化来监听是否有新的topic需要被删除,再通过注册TopicDeletionListener处理监听到的删除事件,下面就贴一段处理删除事件类TopicDeletion的代码。主要逻辑也是3个,1.判断删除的topic是否存在;2.判断是否开启delete.topic.enable功能;3.判断是否有正在重新分配的topic,topic重分配会导致topic的partition数据在broker中转移,从而导致controller无法精准的定位到该topic所在broker的信息,所以正在重新分配的topic不能被删除,直到重分配结束;4.都满足条件,那么执行删除逻辑 

 override def process(): Unit = {
    if (!isActive) return
    debug("Delete topics listener fired for topics %s to be deleted".format(topicsToBeDeleted.mkString(",")))
    val nonExistentTopics = topicsToBeDeleted -- controllerContext.allTopics
    if (nonExistentTopics.nonEmpty) {
      warn("Ignoring request to delete non-existing topics " + nonExistentTopics.mkString(","))
      nonExistentTopics.foreach(topic => zkUtils.deletePathRecursive(getDeleteTopicPath(topic)))
    }
    topicsToBeDeleted --= nonExistentTopics
    if (config.deleteTopicEnable) {
      if (topicsToBeDeleted.nonEmpty) {
        info("Starting topic deletion for topics " + topicsToBeDeleted.mkString(","))
        // mark topic ineligible for deletion if other state changes are in progress
        topicsToBeDeleted.foreach { topic =>
          val partitionReassignmentInProgress =
           controllerContext.partitionsBeingReassigned.keySet.map(_.topic).contains(topic)
          if (partitionReassignmentInProgress)
            topicDeletionManager.markTopicIneligibleForDeletion(Set(topic))
        }
        // add topic to deletion list
       topicDeletionManager.enqueueTopicsForDeletion(topicsToBeDeleted)
      }
    } else {
      // If delete topic is disabled remove entries under zookeeper path : /admin/delete_topics
      for (topic <- topicsToBeDeleted) {
        info("Removing " + getDeleteTopicPath(topic) + " since delete topic is disabled")
       zkUtils.zkClient.delete(getDeleteTopicPath(topic))
      }
    }
  }
}

然后就进入删除topic的主角TopicDeletionManager,这个类控制了topic的删除逻辑。联系到`delete.topic.enable`这个配置,几乎所有方法中都很明确地说明了,只有在`delete.topic.enable`为true的情况下,topic才会被删除。方法名都可以很好的体现功能,我们直接看方法onTopicDeletion(),里面调用了onPartitionDeletion(),而onPartitionDeletion()又调用了startReplicaDeletion()。显而易见,删除topic其实就是把topic下所有partition删了,而partition又有很多replica组成,也就是说需要把partition的replica删了。上面提到的replica有可能正在重分配,或者出现replica暂时不可用的情况,那么拥有这些replica的topic会被当做不合格的topic,这些topic不会继续删除,直到下次重试的时候,topic的状态变为合格。

  /**
   * Invoked with the list of topics to be deleted
   * It invokes onPartitionDeletion for all partitions of a topic.
   * The updateMetadataRequest is also going to set the leader for the topics being deleted to
   * {@link LeaderAndIsr#LeaderDuringDelete}. This lets each broker know that this topic is being deleted and can be
   * removed from their caches.
   */
  private def onTopicDeletion(topics: Set[String]) {
    info("Topic deletion callback for %s".format(topics.mkString(",")))
    // send update metadata so that brokers stop serving data for topics to be deleted
    val partitions = topics.flatMap(controllerContext.partitionsForTopic)
    controller.sendUpdateMetadataRequest(controllerContext.liveOrShuttingDownBrokerIds.toSeq, partitions)
    val partitionReplicaAssignmentByTopic = controllerContext.partitionReplicaAssignment.groupBy(p => p._1.topic)
    topics.foreach { topic =>
      onPartitionDeletion(partitionReplicaAssignmentByTopic(topic).keySet)
    }
  }

  /**
   * Invoked by onTopicDeletion with the list of partitions for topics to be deleted
   * It does the following -
   * 1. Send UpdateMetadataRequest to all live brokers (that are not shutting down) for partitions that are being
   *    deleted. The brokers start rejecting all client requests with UnknownTopicOrPartitionException
   * 2. Move all replicas for the partitions to OfflineReplica state. This will send StopReplicaRequest to the replicas
   *    and LeaderAndIsrRequest to the leader with the shrunk ISR. When the leader replica itself is moved to OfflineReplica state,
   *    it will skip sending the LeaderAndIsrRequest since the leader will be updated to -1
   * 3. Move all replicas to ReplicaDeletionStarted state. This will send StopReplicaRequest with deletePartition=true. And
   *    will delete all persistent data from all replicas of the respective partitions
   */
  private def onPartitionDeletion(partitionsToBeDeleted: Set[TopicAndPartition]) {
    info("Partition deletion callback for %s".format(partitionsToBeDeleted.mkString(",")))
    val replicasPerPartition = controllerContext.replicasForPartition(partitionsToBeDeleted)
    startReplicaDeletion(replicasPerPartition)
  }

  /**
   * nvoked by onPartitionDeletion. It is the 2nd step of topic deletion, the first being sending
   * UpdateMetadata requests to all brokers to start rejecting requests for deleted topics. As part of starting deletion,
   * the topics are added to the in progress list. As long as a topic is in the in progress list, deletion for that topic
   * is never retried. A topic is removed from the in progress list when
   * 1. Either the topic is successfully deleted OR
   * 2. No replica for the topic is in ReplicaDeletionStarted state and at least one replica is in ReplicaDeletionIneligible state
   * If the topic is queued for deletion but deletion is not currently under progress, then deletion is retried for that topic
   * As part of starting deletion, all replicas are moved to the ReplicaDeletionStarted state where the controller sends
   * the replicas a StopReplicaRequest (delete=true)
   * This method does the following things -
   * 1. Move all dead replicas directly to ReplicaDeletionIneligible state. Also mark the respective topics ineligible
   *    for deletion if some replicas are dead since it won't complete successfully anyway
   * 2. Move all alive replicas to ReplicaDeletionStarted state so they can be deleted successfully
   *@param replicasForTopicsToBeDeleted
   */
  private def startReplicaDeletion(replicasForTopicsToBeDeleted: Set[PartitionAndReplica]) {
    replicasForTopicsToBeDeleted.groupBy(_.topic).keys.foreach { topic =>
      val aliveReplicasForTopic = controllerContext.allLiveReplicas().filter(p => p.topic == topic)
      val deadReplicasForTopic = replicasForTopicsToBeDeleted -- aliveReplicasForTopic
      val successfullyDeletedReplicas = controller.replicaStateMachine.replicasInState(topic, ReplicaDeletionSuccessful)
      val replicasForDeletionRetry = aliveReplicasForTopic -- successfullyDeletedReplicas
      // move dead replicas directly to failed state
      replicaStateMachine.handleStateChanges(deadReplicasForTopic, ReplicaDeletionIneligible)
      // send stop replica to all followers that are not in the OfflineReplica state so they stop sending fetch requests to the leader
      replicaStateMachine.handleStateChanges(replicasForDeletionRetry, OfflineReplica)
      debug("Deletion started for replicas %s".format(replicasForDeletionRetry.mkString(",")))
      controller.replicaStateMachine.handleStateChanges(replicasForDeletionRetry, ReplicaDeletionStarted,
        new Callbacks.CallbackBuilder().stopReplicaCallback((stopReplicaResponseObj, replicaId) =>
          eventManager.put(controller.TopicDeletionStopReplicaResult(stopReplicaResponseObj, replicaId))).build)
      if (deadReplicasForTopic.nonEmpty) {
        debug("Dead Replicas (%s) found for topic %s".format(deadReplicasForTopic.mkString(","), topic))
        markTopicIneligibleForDeletion(Set(topic))
      }
    }
  }

TopicDeletionManager将需要删除的replica通过rpc发送到各个broker,这里TopicDeletionManager更像一个元数据删除管理者,因为实际删除数据是broker干的事情,毕竟数据是分布式的。接着参考类ReplicaManager,在接收到stopReplica的rpc后,ReplicaManager负责删除本地的数据,参考方法stopReplica(),最后通过LogManager删除相关文件夹。这部分调用链比较长就不贴代码了。

在完成topic删除后,TopicDeletionManager再将topic的元数据删除,参考方法completeDeleteTopic(),删除内存中该topic的相关数据,删除topic在zookeeper上的数据,包括3个地方/brokers/ids/topics/,/config/topics/,/admin/delete_topics。

  private def completeDeleteTopic(topic: String) {
    // deregister partition change listener on the deleted topic. This is to prevent the partition change listener
    // firing before the new topic listener when a deleted topic gets auto created
    controller.deregisterPartitionModificationsListener(topic)
    val replicasForDeletedTopic = controller.replicaStateMachine.replicasInState(topic, ReplicaDeletionSuccessful)
    // controller will remove this replica from the state machine as well as its partition assignment cache
    replicaStateMachine.handleStateChanges(replicasForDeletedTopic, NonExistentReplica)
    val partitionsForDeletedTopic = controllerContext.partitionsForTopic(topic)
    // move respective partition to OfflinePartition and NonExistentPartition state
    partitionStateMachine.handleStateChanges(partitionsForDeletedTopic, OfflinePartition)
    partitionStateMachine.handleStateChanges(partitionsForDeletedTopic, NonExistentPartition)
    topicsToBeDeleted -= topic
    partitionsToBeDeleted.retain(_.topic != topic)
    val zkUtils = controllerContext.zkUtils
    zkUtils.zkClient.deleteRecursive(getTopicPath(topic))
    zkUtils.zkClient.deleteRecursive(getEntityConfigPath(ConfigType.Topic, topic))
    zkUtils.zkClient.delete(getDeleteTopicPath(topic))
    controllerContext.removeTopic(topic)
  }

总结

Kafka依托于zookeeper管理其自身的元数据,并由自己的controller管理所有元数据,客户端通过修改zookeeper节点数据来触发kafka的事件,从而完成相关操作。对于删除topic而言,kafka通过partition和replica的状态机和事件的机制来实现在复杂环境下对topic的删除。

参考

Kafka 0.11.0.2 源码

 

转载于:https://www.cnblogs.com/ulysses-you/p/10232746.html

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