前言

      在开始阅读代码前我们先来了解一下zk 的大致结构,具体大概要实现的核心功能有那些,心中有个大概的框架阅读代码时再深入其中的细节,就会非常好懂,本人觉得这是一个阅读源码的好方法,可以最快地切入到源码中,先知大体,后知细节。

我们先不考虑权限控制的问题,zk底层使用 zab ,是一种分布式一致性协议,服务的对象是客户端,需要做持久化,根据这些我们可以大致做出以下功能视图。

Zookeeper异地双活_Zookeeper异地双活

      更加细化 zk 底层细节可以从这几个方面学习 :

- master 与 peer , peer 与 peer 之间的消息通信

- Fast Election 过程

- 同步过程

- 执行事务过程

- 客户端连接,服务端如何执行任务,session 管理

- 信息持久化和通信协议

      上面的几点都是我们学习的目标,我们通过在阅读代码中进行总结。

配置文件

单机模式 zoo.cfg 示例

tickTime=2000

dataDir=/usr/zdatadir

dataLogDir=/usr/zlogdir

clientPort=2181

initLimit=5

syncLimit=2

集群模式 zoo.cfg 示例 

tickTime=2000

dataDir=/usr/zdatadir

dataLogDir=/usr/zlogdir

clientPort=2181

initLimit=5

syncLimit=2

server.1=cloud:2888:3888

server.2=cloud02:2888:3888

server.3=cloud03:2888:3888

server.4=cloud04:2888:3888

server.5=cloud05:2888:3888

源码解读

集群模式概述

Zookeeper异地双活_Zookeeper异地双活_02

        我安装window版本的 zk, 通过查看 startup.cmd ,我们直接看 QuorumPeerMain 这个类 ,该类内部持有一个 protected QuorumPeer quorumPeer的字段。

/**
 * To start the replicated server specify the configuration file name on
 * the command line.
 * @param args path to the configfile
 *
 * 做了两件事 :
 *  - 加载配置
 *  - 开始监听(listen),开始选举 (send)
 */
public static void main(String[] args) {
    args = new String[1];
    args[0] = "D:\\java_project_out\\zk\\zkben\\cofig\\zoo_sample.cfg";
    QuorumPeerMain main = new QuorumPeerMain();
    try {
        //重点执行逻辑
        main.initializeAndRun(args);
    } catch (IllegalArgumentException e) {
        LOG.error("Invalid arguments, exiting abnormally", e);
        LOG.info(USAGE);
        System.err.println(USAGE);
        System.exit(2);
    } catch (ConfigException e) {
        LOG.error("Invalid config, exiting abnormally", e);
        System.err.println("Invalid config, exiting abnormally");
        System.exit(2);
    } catch (Exception e) {
        LOG.error("Unexpected exception, exiting abnormally", e);
        System.exit(1);
    }
    LOG.info("Exiting normally");
    System.exit(0);
}


/**
 * 可以看到当 config.servers.size() > 1 的时候就是集群版本
 */
protected void initializeAndRun(String[] args)
    throws ConfigException, IOException
{
    QuorumPeerConfig config = new QuorumPeerConfig();
    if (args.length == 1) {
        config.parse(args[0]);
    }

    // Start and schedule the the purge task
    // 启动一个定时器,用于清理过期日志
    DatadirCleanupManager purgeMgr = new DatadirCleanupManager(config
            .getDataDir(), config.getDataLogDir(), config
            .getSnapRetainCount(), config.getPurgeInterval());
    purgeMgr.start();

    //判断参数
    if (args.length == 1 && config.servers.size() > 0) {
        //集群模式,看方法名就可以知道应该会根据配置执行某些操作
        runFromConfig(config);
    } else {
        LOG.warn("Either no config or no quorum defined in config, running "
                + " in standalone mode");
        // there is only server in the quorum -- run as standalone
        ZooKeeperServerMain.main(args);
    }
}

      接着看 runfromConfig 这个方法 。

public void runFromConfig(QuorumPeerConfig config) throws IOException {
  try {
      ManagedUtil.registerLog4jMBeans();
  } catch (JMException e) {
      LOG.warn("Unable to register log4j JMX control", e);
  }

  LOG.info("Starting quorum peer");
  try {
      ServerCnxnFactory cnxnFactory = ServerCnxnFactory.createFactory();
      cnxnFactory.configure(config.getClientPortAddress(),
                            config.getMaxClientCnxns());
      //创建这样一个对象
      quorumPeer = getQuorumPeer();
      quorumPeer.setQuorumPeers(config.getServers());
      //读写文件相关(log)
      quorumPeer.setTxnFactory(new FileTxnSnapLog(
              new File(config.getDataLogDir()),
              new File(config.getDataDir())));
      //各种参数
      quorumPeer.setElectionType(config.getElectionAlg());
      quorumPeer.setMyid(config.getServerId());
      quorumPeer.setTickTime(config.getTickTime());
      quorumPeer.setInitLimit(config.getInitLimit());
      quorumPeer.setSyncLimit(config.getSyncLimit());
      quorumPeer.setQuorumListenOnAllIPs(config.getQuorumListenOnAllIPs());
      quorumPeer.setCnxnFactory(cnxnFactory);
      quorumPeer.setQuorumVerifier(config.getQuorumVerifier());
      quorumPeer.setClientPortAddress(config.getClientPortAddress());
      quorumPeer.setMinSessionTimeout(config.getMinSessionTimeout());
      quorumPeer.setMaxSessionTimeout(config.getMaxSessionTimeout());
      // ZKDatabase 是数据加载内存的体现 (data in memory )
      quorumPeer.setZKDatabase(new ZKDatabase(quorumPeer.getTxnFactory()));
      quorumPeer.setLearnerType(config.getPeerType());
      quorumPeer.setSyncEnabled(config.getSyncEnabled());

      // sets quorum sasl authentication configurations
      quorumPeer.setQuorumSaslEnabled(config.quorumEnableSasl);
      if(quorumPeer.isQuorumSaslAuthEnabled()){
          quorumPeer.setQuorumServerSaslRequired(config.quorumServerRequireSasl);
          quorumPeer.setQuorumLearnerSaslRequired(config.quorumLearnerRequireSasl);
          quorumPeer.setQuorumServicePrincipal(config.quorumServicePrincipal);
          quorumPeer.setQuorumServerLoginContext(config.quorumServerLoginContext);
          quorumPeer.setQuorumLearnerLoginContext(config.quorumLearnerLoginContext);
      }

      quorumPeer.setQuorumCnxnThreadsSize(config.quorumCnxnThreadsSize);
      quorumPeer.initialize();

      quorumPeer.start();
      quorumPeer.join();
  } catch (InterruptedException e) {
      // warn, but generally this is ok
      LOG.warn("Quorum Peer interrupted", e);
  }
}

       我们看到这个方法就是为 QuorumPeer  quorumPeer 这个字段设置了属性,然后调用 start 方法,那么真正执行就到 QuorumPeer这个类中了。

Zookeeper异地双活_System_03

        既然 QuorumPeer 继承了 Thread 了,那么start 方法实际就是调用它的 run 方法 。

@Override
public void run() {
    setName("QuorumPeer" + "[myid=" + getId() + "]" +
            cnxnFactory.getLocalAddress());

    LOG.debug("Starting quorum peer");
    try {
        jmxQuorumBean = new QuorumBean(this);
        MBeanRegistry.getInstance().register(jmxQuorumBean, null);
        for (QuorumServer s : getView().values()) {
            ZKMBeanInfo p;
            if (getId() == s.id) {
                p = jmxLocalPeerBean = new LocalPeerBean(this);
                try {
                    MBeanRegistry.getInstance().register(p, jmxQuorumBean);
                } catch (Exception e) {
                    LOG.warn("Failed to register with JMX", e);
                    jmxLocalPeerBean = null;
                }
            } else {
                p = new RemotePeerBean(s);
                try {
                    MBeanRegistry.getInstance().register(p, jmxQuorumBean);
                } catch (Exception e) {
                    LOG.warn("Failed to register with JMX", e);
                }
            }
        }
    } catch (Exception e) {
        LOG.warn("Failed to register with JMX", e);
        jmxQuorumBean = null;
    }

    //发送请求
    try {
        /*
         * Main loop 主循环一直进行
         */
        while (running) {
            switch (getPeerState()) {
                case LOOKING:
                    LOG.info("LOOKING");

                    if (Boolean.getBoolean("readonlymode.enabled")) {
                        LOG.info("Attempting to start ReadOnlyZooKeeperServer");

                        // Create read-only server but don't start it immediately
                        final ReadOnlyZooKeeperServer roZk = new ReadOnlyZooKeeperServer(
                                logFactory, this,
                                new ZooKeeperServer.BasicDataTreeBuilder(),
                                this.zkDb);

                        // Instead of starting roZk immediately, wait some grace
                        // period before we decide we're partitioned.
                        //
                        // Thread is used here because otherwise it would require
                        // changes in each of election strategy classes which is
                        // unnecessary code coupling.
                        //
                        //一个线程被使用到这里,不然的话它将随着每一个选举策略而改变,这将产生不必要的代码连接
                        //
                        //
                        Thread roZkMgr = new Thread() {
                            public void run() {
                                try {
                                    // lower-bound grace period to 2 secs
                                    sleep(Math.max(2000, tickTime));
                                    if (ServerState.LOOKING.equals(getPeerState())) {
                                        roZk.startup();
                                    }
                                } catch (InterruptedException e) {
                                    LOG.info("Interrupted while attempting to start ReadOnlyZooKeeperServer, not started");
                                } catch (Exception e) {
                                    LOG.error("FAILED to start ReadOnlyZooKeeperServer", e);
                                }
                            }
                        };
                        //监听来自客户端的请求,notify ,同时开始选举了
                        try {
                            roZkMgr.start();
                            setBCVote(null);
                            //选举的逻辑,经过了选举,ServerStatue 一定会改变状态,有可能是 Leading 或是其他
                            setCurrentVote(makeLEStrategy().lookForLeader());
                        } catch (Exception e) {
                            LOG.warn("Unexpected exception", e);
                            setPeerState(ServerState.LOOKING);
                        } finally {
                            // If the thread is in the the grace period, interrupt
                            // to come out of waiting.
                            roZkMgr.interrupt();
                            roZk.shutdown();
                        }
                    } else {
                        try {
                            setBCVote(null);
                            setCurrentVote(makeLEStrategy().lookForLeader());
                        } catch (Exception e) {
                            LOG.warn("Unexpected exception", e);
                            setPeerState(ServerState.LOOKING);
                        }
                    }
                    break;
                case OBSERVING:
                    try {
                        LOG.info("OBSERVING");
                        setObserver(makeObserver(logFactory));
                        observer.observeLeader();
                    } catch (Exception e) {
                        LOG.warn("Unexpected exception", e);
                    } finally {
                        observer.shutdown();
                        setObserver(null);
                        setPeerState(ServerState.LOOKING);
                    }
                    break;
                case FOLLOWING:
                    try {
                        //假如自己变成了一名跟随者,那么更新属性
                        //进入一个 while 循环等待命令
                        LOG.info("FOLLOWING");
                        setFollower(makeFollower(logFactory));
                        //正常请求进入这个方法就一直while 出不来
                        follower.followLeader();
                    } catch (Exception e) {
                        LOG.warn("Unexpected exception", e);
                    } finally {
                        //出来了关闭,设置状态
                        follower.shutdown();
                        setFollower(null);
                        setPeerState(ServerState.LOOKING);
                    }
                    break;
                case LEADING:
                    LOG.info("LEADING");
                    try {
                        setLeader(makeLeader(logFactory));
                        leader.lead();
                        setLeader(null);
                    } catch (Exception e) {
                        LOG.warn("Unexpected exception", e);
                    } finally {
                        if (leader != null) {
                            leader.shutdown("Forcing shutdown");
                            setLeader(null);
                        }
                        setPeerState(ServerState.LOOKING);
                    }
                    break;
            }
        }
    } finally {
        LOG.warn("QuorumPeer main thread exited");
        try {
            MBeanRegistry.getInstance().unregisterAll();
        } catch (Exception e) {
            LOG.warn("Failed to unregister with JMX", e);
        }
        jmxQuorumBean = null;
        jmxLocalPeerBean = null;
    }
}

       ReadOnlyZooKeeperServer 的 startup 方法,此处会调用父类 startup 方法。

@Override
public synchronized void startup() {
    // check to avoid startup follows shutdown
    if (shutdown) {
        LOG.warn("Not starting Read-only server as startup follows shutdown!");
        return;
    }
    registerJMX(new ReadOnlyBean(this), self.jmxLocalPeerBean);
    super.startup();
    self.cnxnFactory.setZooKeeperServer(this);
    LOG.info("Read-only server started");
}


   父类 ZookeeperServer  startup 方法
/**
 *  - 开始 session 监听
 *  - 启动处理请求处理器
 *  - 注册到 JMX
 *  - 更改状态
 */
public synchronized void startup() {
    if (sessionTracker == null) {
        createSessionTracker();
    }
    //wait 在这里面调用
    startSessionTracker();
    //处理器链,使用责任链设计模式
    setupRequestProcessors();

    registerJMX();

    setState(State.RUNNING);
    //为什么这时候要 notifyAll(),因为只有启动完成后才可以处理来自客户端的请求
    notifyAll();
}

选举操作

          回到QuorumPeer 的 run 方法,在while内部,开始选举操作,具体就是 lookForLeader方法。

public Vote lookForLeader() throws InterruptedException {
    try {
        self.jmxLeaderElectionBean = new LeaderElectionBean();
        MBeanRegistry.getInstance().register(
                self.jmxLeaderElectionBean, self.jmxLocalPeerBean);
    } catch (Exception e) {
        LOG.warn("Failed to register with JMX", e);
        self.jmxLeaderElectionBean = null;
    }
    if (self.start_fle == 0) {
        self.start_fle = Time.currentElapsedTime();
    }
    try {
        //收到的某个服务器的 vote, <发送者的地址,对应的退票>
        HashMap<Long, Vote> recvset = new HashMap<Long, Vote>();

        //已经结束的选举
        HashMap<Long, Vote> outofelection = new HashMap<Long, Vote>();

        int notTimeout = finalizeWait;

        synchronized (this) {
            logicalclock.incrementAndGet();
            updateProposal(getInitId(), getInitLastLoggedZxid(), getPeerEpoch());
        }

        //初始化发送自身的 vote 让别人来为你 投票
        LOG.info("New election. My id =  " + self.getId() +
                ", proposed zxid=0x" + Long.toHexString(proposedZxid));
        sendNotifications();

        /*
         * Loop in which we exchange notifications until we find a leader
         *
         * 循环知道我们找到 leader
         *
         */

        while ((self.getPeerState() == ServerState.LOOKING) &&
                (!stop)) {
            /*
             * Remove next notification from queue, times out after 2 times
             * the termination time
             */
            Notification n = recvqueue.poll(notTimeout,
                    TimeUnit.MILLISECONDS);

            /*
             * Sends more notifications if haven't received enough.
             * Otherwise processes new notification.
             *
             * 如果收到的信息不够多,发多点,否则处理一个新的信息
             */
            if (n == null) {
                if (manager.haveDelivered()) {
                    sendNotifications();
                } else {
                    manager.connectAll();
                }

                /*
                 * Exponential backoff
                 */
                int tmpTimeOut = notTimeout * 2;
                notTimeout = (tmpTimeOut < maxNotificationInterval ?
                        tmpTimeOut : maxNotificationInterval);
                LOG.info("Notification time out: " + notTimeout);
            } else if (validVoter(n.sid) && validVoter(n.leader)) {
                /*
                 * Only proceed if the vote comes from a replica in the
                 * voting view for a replica in the voting view.
                 *
                 */
                switch (n.state) {

                    case LOOKING:
                        // If notification > current, replace and send messages out
                        // 如果收到的也是 LOOKING 的信息,比较后,假如比“我”新,则继续 sendNotifation
                        if (n.electionEpoch > logicalclock.get()) {
                            logicalclock.set(n.electionEpoch);
                            // 收到比自己新的,之前收到的选票都扔掉了
                            recvset.clear();
                            if (totalOrderPredicate(n.leader, n.zxid, n.peerEpoch,
                                    getInitId(), getInitLastLoggedZxid(), getPeerEpoch())) {
                                updateProposal(n.leader, n.zxid, n.peerEpoch);
                            } else {
                                updateProposal(getInitId(),
                                        getInitLastLoggedZxid(),
                                        getPeerEpoch());
                            }
                            sendNotifications();
                        } else if (n.electionEpoch < logicalclock.get()) {
                            if (LOG.isDebugEnabled()) {
                                LOG.debug("Notification election epoch is smaller than logicalclock. n.electionEpoch = 0x"
                                        + Long.toHexString(n.electionEpoch)
                                        + ", logicalclock=0x" + Long.toHexString(logicalclock.get()));
                            }
                            break;
                            //  n.electionEpoch == logicalclock.get()
                        } else if (totalOrderPredicate(n.leader, n.zxid, n.peerEpoch,
                                proposedLeader, proposedZxid, proposedEpoch)) {
                            updateProposal(n.leader, n.zxid, n.peerEpoch);
                            sendNotifications();
                        }

                        if (LOG.isDebugEnabled()) {
                            LOG.debug("Adding vote: from=" + n.sid +
                                    ", proposed leader=" + n.leader +
                                    ", proposed zxid=0x" + Long.toHexString(n.zxid) +
                                    ", proposed election epoch=0x" + Long.toHexString(n.electionEpoch));
                        }

                        // notif 大于或是等于自己的,才会走到这一步,有可能收到好几个 epoch 都是一样的,那么 recvset 里面就会放进多个vote
                        recvset.put(n.sid, new Vote(n.leader, n.zxid, n.electionEpoch, n.peerEpoch));


                        //是否应该停止选举了:停止选举,肯定是收到了大部分的选票
                        if (termPredicate(recvset,
                                new Vote(proposedLeader, proposedZxid,
                                        logicalclock.get(), proposedEpoch))) {

                            // Verify if there is any change in the proposed leader
                            // 接收的信息中刚好有一条是这条vote 的最新消息,更新后再次放在接收的消息里
                            while ((n = recvqueue.poll(finalizeWait,
                                    TimeUnit.MILLISECONDS)) != null) {
                                if (totalOrderPredicate(n.leader, n.zxid, n.peerEpoch,
                                        proposedLeader, proposedZxid, proposedEpoch)) {
                                    recvqueue.put(n);
                                    break;
                                }
                            }

                            /*
                             * This predicate is true once we don't read any new
                             * relevant message from the reception queue
                             */
                            if (n == null) {
                                self.setPeerState((proposedLeader == self.getId()) ?
                                        ServerState.LEADING : learningState());

                                Vote endVote = new Vote(proposedLeader,
                                        proposedZxid,
                                        logicalclock.get(),
                                        proposedEpoch);
                                leaveInstance(endVote);
                                return endVote;
                            }
                        }
                        break;
                    case OBSERVING:
                        LOG.debug("Notification from observer: " + n.sid);
                        break;
                    case FOLLOWING:
                    case LEADING:
                        /*
                         * Consider all notifications from the same epoch
                         * together.
                         *
                         * 假如收到一个 LEADING 的信号,那必须比自身的数据大才可以啊,然后 ack 回 leader
                         *
                         */
                        if (n.electionEpoch == logicalclock.get()) {
                            recvset.put(n.sid, new Vote(n.leader,
                                    n.zxid,
                                    n.electionEpoch,
                                    n.peerEpoch));

                            if (ooePredicate(recvset, outofelection, n)) {
                                self.setPeerState((n.leader == self.getId()) ?
                                        ServerState.LEADING : learningState());

                                Vote endVote = new Vote(n.leader,
                                        n.zxid,
                                        n.electionEpoch,
                                        n.peerEpoch);
                                leaveInstance(endVote);
                                return endVote;
                            }
                        }

                        /*
                         * Before joining an established ensemble, verify
                         * a majority is following the same leader.
                         */
                        outofelection.put(n.sid, new Vote(n.version,
                                n.leader,
                                n.zxid,
                                n.electionEpoch,
                                n.peerEpoch,
                                n.state));

                        if (ooePredicate(outofelection, outofelection, n)) {
                            synchronized (this) {
                                logicalclock.set(n.electionEpoch);
                                self.setPeerState((n.leader == self.getId()) ?
                                        ServerState.LEADING : learningState());
                            }
                            Vote endVote = new Vote(n.leader,
                                    n.zxid,
                                    n.electionEpoch,
                                    n.peerEpoch);
                            leaveInstance(endVote);
                            return endVote;
                        }
                        break;
                    default:
                        LOG.warn("Notification state unrecognized: {} (n.state), {} (n.sid)",
                                n.state, n.sid);
                        break;
                }
            } else {
                if (!validVoter(n.leader)) {
                    LOG.warn("Ignoring notification for non-cluster member sid {} from sid {}", n.leader, n.sid);
                }
                if (!validVoter(n.sid)) {
                    LOG.warn("Ignoring notification for sid {} from non-quorum member sid {}", n.leader, n.sid);
                }
            }
        }
        return null;
    } finally {
        try {
            if (self.jmxLeaderElectionBean != null) {
                MBeanRegistry.getInstance().unregister(
                        self.jmxLeaderElectionBean);
            }
        } catch (Exception e) {
            LOG.warn("Failed to unregister with JMX", e);
        }
        self.jmxLeaderElectionBean = null;
        LOG.debug("Number of connection processing threads: {}",
                manager.getConnectionThreadCount());
    }
}

      可以看到要离开 lookforleader 循环有一个条件就是自身的状态不为 LOOKING ,就是说在 while 循环里面肯定会改变自身的状态,或者说确定自己的身份。
       其中

/**
 * Check if a pair (server id, zxid) succeeds our
 * current vote.
 * 该方法决定是否要更新自身所持有的选票信息
 * @param id    Server identifier
 * @param zxid  Last zxid observed by the issuer of this vote
 */
protected boolean totalOrderPredicate(long newId, long newZxid, long newEpoch, long curId, long curZxid, long curEpoch) {
    LOG.debug("id: " + newId + ", proposed id: " + curId + ", zxid: 0x" +
            Long.toHexString(newZxid) + ", proposed zxid: 0x" + Long.toHexString(curZxid));
    if (self.getQuorumVerifier().getWeight(newId) == 0) {
        return false;
    }

    /*
     * We return true if one of the following three cases hold:
     * 1- New epoch is higher
     * 2- New epoch is the same as current epoch, but new zxid is higher
     * 3- New epoch is the same as current epoch, new zxid is the same
     *  as current zxid, but server id is higher.
     */

    return ((newEpoch > curEpoch) ||
            ((newEpoch == curEpoch) &&
                    ((newZxid > curZxid) || ((newZxid == curZxid) && (newId > curId)))));
}


/**
 * Termination predicate. Given a set of votes, determines if
 * have predicate to declare the end of the election round.
 *
 *  @param votes    Set of votes <服务器id,选票></>
 *  @param l        Identifier of the vote received last
 *  @param zxid     zxid of the the vote received last
 *
 *  该函数用于判断Leader选举是否结束,即是否有一半以上的服务器选出了相同的Leader,
 *  其过程是将收到的选票与当前选票进行对比,选票相同的放入同一个集合,之后判断选票相同的集合是否超过了半数。
 */
protected boolean termPredicate(
        HashMap<Long, Vote> votes,
        Vote vote) {

    //同一个vote对应的服务器
    HashSet<Long> set = new HashSet<Long>();

    /*
     * First make the views consistent. Sometimes peers will have
     * different zxids for a server depending on timing.
     */
    for (Map.Entry<Long, Vote> entry : votes.entrySet()) {
        if (vote.equals(entry.getValue())) {
            set.add(entry.getKey());
        }
    }

    return self.getQuorumVerifier().containsQuorum(set);
}

        上面基本上就可以知道了选举的过程,还有一个地方需要注意的是我们的选票是没有做持久化的,原因也很好理解,要是选举过程中有 peer 挂了,那么重新启动继续参与选举就行了,或是参与成为 follower 就行了。那么假如此时,某个 peer 已经选定了 leader ,那么它的状态就不为 LOOKING , 假如它成为了一个 follower ,那么我们回到QuorumPeer   的run方法,进入 FOLLOWING 的执行逻辑。

//假设经过 lookforleading 后,该服务器变成了 following
case FOLLOWING:
    try {
        LOG.info("FOLLOWING");
        setFollower(makeFollower(logFactory));
        follower.followLeader();
    } catch (Exception e) {
        LOG.warn("Unexpected exception", e);
    } finally {
        follower.shutdown();
        setFollower(null);
        setPeerState(ServerState.LOOKING);
    }
    break;
case LEADING:
    LOG.info("LEADING");
    try {
        setLeader(makeLeader(logFactory));
        leader.lead();
        setLeader(null);
    } catch (Exception e) {
        LOG.warn("Unexpected exception", e);
    } finally {
        if (leader != null) {
            leader.shutdown("Forcing shutdown");
            setLeader(null);
        }
        setPeerState(ServerState.LOOKING);
    }
    break;


成为leader 或是成为 follower

          上一节结束了选举的过程,接下来就是向leader注册 follower ,与 follower同步数据的过程。可以看到 FOLLOWING 和 LEADING 的执行逻辑很像,都是创建一个角色(创建一个leader 或是 一个follower ),我们先来看一下follower 的执行逻辑,执行 followerLeading 方法。

Zookeeper异地双活_System_04

/**
 * the main method called by the follower to follow the leader
 *
 * 注意 : 里面有个 while 循环一直等待leader 的请求
 *
 * 主要做了几件事 :
 * - 查找 leader
 * - 连接 leader
 * - 握手协议(重点),方便后面同步数据
 * - 同步leader数据
 * - while 循环等待处理来自leader 或其他peer的请求
 *
 * @throws InterruptedException
 */
void followLeader() throws InterruptedException {
    self.end_fle = Time.currentElapsedTime();
    long electionTimeTaken = self.end_fle - self.start_fle;
    self.setElectionTimeTaken(electionTimeTaken);
    LOG.info("FOLLOWING - LEADER ELECTION TOOK - {}", electionTimeTaken);
    self.start_fle = 0;
    self.end_fle = 0;
    fzk.registerJMX(new FollowerBean(this, zk), self.jmxLocalPeerBean);
    try {
        QuorumServer leaderServer = findLeader();
        try {
            connectToLeader(leaderServer.addr, leaderServer.hostname);
            //
            long newEpochZxid = registerWithLeader(Leader.FOLLOWERINFO);

            //check to see if the leader zxid is lower than ours
            //this should never happen but is just a safety check
            long newEpoch = ZxidUtils.getEpochFromZxid(newEpochZxid);
            if (newEpoch < self.getAcceptedEpoch()) {
                LOG.error("Proposed leader epoch " + ZxidUtils.zxidToString(newEpochZxid)
                        + " is less than our accepted epoch " + ZxidUtils.zxidToString(self.getAcceptedEpoch()));
                throw new IOException("Error: Epoch of leader is lower");
            }
            syncWithLeader(newEpochZxid);                
            QuorumPacket qp = new QuorumPacket();
            while (this.isRunning()) {
                readPacket(qp);
                processPacket(qp);
            }
        } catch (Exception e) {
            LOG.warn("Exception when following the leader", e);
            try {
                sock.close();
            } catch (IOException e1) {
                e1.printStackTrace();
            }

            // clear pending revalidations
            pendingRevalidations.clear();
        }
    } finally {
        zk.unregisterJMX((Learner)this);
    }
}

           选举完后就是 leader 和 follower 之间的信息交互了,如下图

Zookeeper异地双活_大数据_05

            先看一下 registerWithLeader 方法
 

       读到了这里注册到leader 的逻辑,主要要了解的有两个方面 :
- follower 给 leader 传了什么东西
- 用什么方式传的
        先说第二个问题,发送的消息使用了 jute 进行了(发送方)序列化和(接收方)反序列化。jute 基本的使用如下 :
        以下两张图片来自《从Paxos到Zookeeper 分布式一致性原理与实践》一书

Zookeeper异地双活_大数据_06

Zookeeper异地双活_大数据_07

           第一个问题,follower给 leader 传了已接受的 epoch 和 sid 过去。 现在看一下 leader 如何处理这些信息。 leader 处理的逻辑交给了 LeaderHander 这个类来处理。
             看 LeaderHander  这里类之前我们先来看两个重要的字段 :
- toBeApplied : 是一个已经得到大部分同意,但是没有被每个peer  commit  的请求
- outstandingProposals : 还没有得到大部分同意的请求。当zk服务器接收到客户端的请求的使用首先会放到 outstandingProposals  中,当得到大部分 peer 的 同意的时候,就会从 outstandingProposals   删除,然后放在 toBeApplied   中。

            leader 的 lead 方法 。

/**
 * This method is main function that is called to lead
 * 
 * - 开启 LearnerCnxAcceptor,用于处理来自followers 的连接 
 * - 启动 LeaderZooKeeperServer 
 * - 之后 while 循环 ping followers 
 * 
 * 
 * @throws IOException
 * @throws InterruptedException
 */
void lead() throws IOException, InterruptedException {
    self.end_fle = Time.currentElapsedTime();
    long electionTimeTaken = self.end_fle - self.start_fle;
    self.setElectionTimeTaken(electionTimeTaken);
    LOG.info("LEADING - LEADER ELECTION TOOK - {}", electionTimeTaken);
    self.start_fle = 0;
    self.end_fle = 0;

    zk.registerJMX(new LeaderBean(this, zk), self.jmxLocalPeerBean);

    try {
        self.tick.set(0);
        zk.loadData();
        
        leaderStateSummary = new StateSummary(self.getCurrentEpoch(), zk.getLastProcessedZxid());

        // Start thread that waits for connection requests from 
        // new followers.
        // 开线程等待来自follower的连接
        cnxAcceptor = new LearnerCnxAcceptor();
        cnxAcceptor.start();
        
        readyToStart = true;
        long epoch = getEpochToPropose(self.getId(), self.getAcceptedEpoch());
        
        zk.setZxid(ZxidUtils.makeZxid(epoch, 0));

        //这里加锁
        synchronized(this){
            lastProposed = zk.getZxid();
        }
        // NEWLEADER 消息
        newLeaderProposal.packet = new QuorumPacket(NEWLEADER, zk.getZxid(),
                null, null);


        if ((newLeaderProposal.packet.getZxid() & 0xffffffffL) != 0) {
            LOG.info("NEWLEADER proposal has Zxid of "
                    + Long.toHexString(newLeaderProposal.packet.getZxid()));
        }
        
        waitForEpochAck(self.getId(), leaderStateSummary);
        self.setCurrentEpoch(epoch);

        // We have to get at least a majority of servers in sync with
        // us. We do this by waiting for the NEWLEADER packet to get
        // acknowledged
        try {
            waitForNewLeaderAck(self.getId(), zk.getZxid());
        } catch (InterruptedException e) {
            shutdown("Waiting for a quorum of followers, only synced with sids: [ "
                    + getSidSetString(newLeaderProposal.ackSet) + " ]");
            HashSet<Long> followerSet = new HashSet<Long>();
            for (LearnerHandler f : learners)
                followerSet.add(f.getSid());
                
            if (self.getQuorumVerifier().containsQuorum(followerSet)) {
                LOG.warn("Enough followers present. "
                        + "Perhaps the initTicks need to be increased.");
            }
            Thread.sleep(self.tickTime);
            self.tick.incrementAndGet();
            return;
        }

        //leader中持有一个 LeaderZooKeeperServer ,这里将会启动 LeaderZooKeeperServer
        startZkServer();
        
        /**
         * WARNING: do not use this for anything other than QA testing
         * on a real cluster. Specifically to enable verification that quorum
         * can handle the lower 32bit roll-over issue identified in
         * ZOOKEEPER-1277. Without this option it would take a very long
         * time (on order of a month say) to see the 4 billion writes
         * necessary to cause the roll-over to occur.
         * 
         * This field allows you to override the zxid of the server. Typically
         * you'll want to set it to something like 0xfffffff0 and then
         * start the quorum, run some operations and see the re-election.
         */
        String initialZxid = System.getProperty("zookeeper.testingonly.initialZxid");
        if (initialZxid != null) {
            long zxid = Long.parseLong(initialZxid);
            zk.setZxid((zk.getZxid() & 0xffffffff00000000L) | zxid);
        }
        
        if (!System.getProperty("zookeeper.leaderServes", "yes").equals("no")) {
            self.cnxnFactory.setZooKeeperServer(zk);
        }
        // Everything is a go, simply start counting the ticks
        // WARNING: I couldn't find any wait statement on a synchronized
        // block that would be notified by this notifyAll() call, so
        // I commented it out
        //synchronized (this) {
        //    notifyAll();
        //}
        // We ping twice a tick, so we only update the tick every other
        // iteration
        boolean tickSkip = true;

        while (true) {
            Thread.sleep(self.tickTime / 2);
            if (!tickSkip) {
                self.tick.incrementAndGet();
            }
            HashSet<Long> syncedSet = new HashSet<Long>();

            // lock on the followers when we use it.
            syncedSet.add(self.getId());

            for (LearnerHandler f : getLearners()) {
                // Synced set is used to check we have a supporting quorum, so only
                // PARTICIPANT, not OBSERVER, learners should be used
                if (f.synced() && f.getLearnerType() == LearnerType.PARTICIPANT) {
                    syncedSet.add(f.getSid());
                }
                f.ping();
            }

            // check leader running status
            if (!this.isRunning()) {
                shutdown("Unexpected internal error");
                return;
            }

          if (!tickSkip && !self.getQuorumVerifier().containsQuorum(syncedSet)) {
            //if (!tickSkip && syncedCount < self.quorumPeers.size() / 2) {
                // Lost quorum, shutdown
                shutdown("Not sufficient followers synced, only synced with sids: [ "
                        + getSidSetString(syncedSet) + " ]");
                // make sure the order is the same!
                // the leader goes to looking
                return;
          } 
          tickSkip = !tickSkip;
        }
    } finally {
        zk.unregisterJMX(this);
    }
}

     先来看一下 LearnerCnxAcceptor。

class LearnerCnxAcceptor extends ZooKeeperThread{
    private volatile boolean stop = false;

    public LearnerCnxAcceptor() {
        super("LearnerCnxAcceptor-" + ss.getLocalSocketAddress());
    }

    @Override
    public void run() {
        try {
            while (!stop) {
                try{
                    // accept 方法一直都会阻塞在这里,每连接一个创建一个LearnerHandler(LH是线程的子类,内部处理follower等的消息)
                    Socket s = ss.accept();
                    // start with the initLimit, once the ack is processed
                    // in LearnerHandler switch to the syncLimit
                    s.setSoTimeout(self.tickTime * self.initLimit);
                    s.setTcpNoDelay(nodelay);

                    BufferedInputStream is = new BufferedInputStream(
                            s.getInputStream());
                    LearnerHandler fh = new LearnerHandler(s, is, Leader.this);
                    fh.start();
                } catch (SocketException e) {
                    if (stop) {
                        LOG.info("exception while shutting down acceptor: "
                                + e);

                        // When Leader.shutdown() calls ss.close(),
                        // the call to accept throws an exception.
                        // We catch and set stop to true.
                        stop = true;
                    } else {
                        throw e;
                    }
                } catch (SaslException e){
                    LOG.error("Exception while connecting to quorum learner", e);
                }
            }
        } catch (Exception e) {
            LOG.warn("Exception while accepting follower", e);
        }
    }
    
    public void halt() {
        stop = true;
    }
}


         看一次 LeaderHandler 的处理逻辑 : 

/**
 * This thread will receive packets from the peer and process them and
 * also listen to new connections from new peers.
 */
@Override
public void run() {
    try {
        leader.addLearnerHandler(this);
        tickOfNextAckDeadline = leader.self.tick.get()
                + leader.self.initLimit + leader.self.syncLimit;

        ia = BinaryInputArchive.getArchive(bufferedInput);
        bufferedOutput = new BufferedOutputStream(sock.getOutputStream());
        oa = BinaryOutputArchive.getArchive(bufferedOutput);

        QuorumPacket qp = new QuorumPacket();
        ia.readRecord(qp, "packet");

        //第一个请求不是 FOLLOWERINFO 或是 OBSERVERINFO 直接就返回了
        if(qp.getType() != Leader.FOLLOWERINFO && qp.getType() != Leader.OBSERVERINFO){
           LOG.error("First packet " + qp.toString()
                    + " is not FOLLOWERINFO or OBSERVERINFO!");
            return;
        }
        byte learnerInfoData[] = qp.getData();
        if (learnerInfoData != null) {
           if (learnerInfoData.length == 8) {
              ByteBuffer bbsid = ByteBuffer.wrap(learnerInfoData);
              this.sid = bbsid.getLong();
           } else {
              LearnerInfo li = new LearnerInfo();
              ByteBufferInputStream.byteBuffer2Record(ByteBuffer.wrap(learnerInfoData), li);
              this.sid = li.getServerid();
              this.version = li.getProtocolVersion();
           }
        } else {
           this.sid = leader.followerCounter.getAndDecrement();
        }

        LOG.info("Follower sid: " + sid + " : info : "
                + leader.self.quorumPeers.get(sid));
                    
        if (qp.getType() == Leader.OBSERVERINFO) {
              learnerType = LearnerType.OBSERVER;
        }            

        // following 发来的  zxid
        long lastAcceptedEpoch = ZxidUtils.getEpochFromZxid(qp.getZxid());
        
        long peerLastZxid;
        StateSummary ss = null;
        long zxid = qp.getZxid();
        // 有阻塞操作,直到收到大多数 peer 的 FollowerInfo
        long newEpoch = leader.getEpochToPropose(this.getSid(), lastAcceptedEpoch);
        //到了这里,说明已经有大多数 follower 连接到该leader
        if (this.getVersion() < 0x10000) {
            // we are going to have to extrapolate the epoch information
            long epoch = ZxidUtils.getEpochFromZxid(zxid);
            ss = new StateSummary(epoch, zxid);
            // fake the message
            leader.waitForEpochAck(this.getSid(), ss);
        } else {
            byte ver[] = new byte[4];
            ByteBuffer.wrap(ver).putInt(0x10000);
            //发送一个新的 newEpoch 要求 peer更新, 回应刚才 follower 发来的 FOLLOWERINFO
            QuorumPacket newEpochPacket = new QuorumPacket(Leader.LEADERINFO, ZxidUtils.makeZxid(newEpoch, 0), ver, null);
            oa.writeRecord(newEpochPacket, "packet");
            bufferedOutput.flush();
            QuorumPacket ackEpochPacket = new QuorumPacket();
            ia.readRecord(ackEpochPacket, "packet");
            if (ackEpochPacket.getType() != Leader.ACKEPOCH) {
                LOG.error(ackEpochPacket.toString()
                        + " is not ACKEPOCH");
                return;
}
            ByteBuffer bbepoch = ByteBuffer.wrap(ackEpochPacket.getData());
            //leader 保存 follower 收到的当前的 epoch 和最后一个接收的 zxid
            ss = new StateSummary(bbepoch.getInt(), ackEpochPacket.getZxid());
            // 有阻塞操作,等待大多数的 follower 的响应 ACKEPOTH
            leader.waitForEpochAck(this.getSid(), ss);
        }

        //这里就结束了选举的所有流程,接下来就是同步操作了

        //---------------------------------------------------------------
        //同步操作开始
        peerLastZxid = ss.getLastZxid();
        
        /* the default to send to the follower */
        int packetToSend = Leader.SNAP;
        long zxidToSend = 0;
        long leaderLastZxid = 0;
        /** the packets that the follower needs to get updates from **/
        long updates = peerLastZxid;
        
        /* we are sending the diff check if we have proposals in memory to be able to 
         * send a diff to the 
         */ 
        ReentrantReadWriteLock lock = leader.zk.getZKDatabase().getLogLock(); //同步读写锁
        ReadLock rl = lock.readLock();
        try {
            rl.lock();        
            final long maxCommittedLog = leader.zk.getZKDatabase().getmaxCommittedLog();
            final long minCommittedLog = leader.zk.getZKDatabase().getminCommittedLog();
            LOG.info("Synchronizing with Follower sid: " + sid
                    +" maxCommittedLog=0x"+Long.toHexString(maxCommittedLog)
                    +" minCommittedLog=0x"+Long.toHexString(minCommittedLog)
                    +" peerLastZxid=0x"+Long.toHexString(peerLastZxid));

            LinkedList<Proposal> proposals = leader.zk.getZKDatabase().getCommittedLog();

            if (peerLastZxid == leader.zk.getZKDatabase().getDataTreeLastProcessedZxid()) {
                // Follower is already sync with us, send empty diff
                LOG.info("leader and follower are in sync, zxid=0x{}",
                        Long.toHexString(peerLastZxid));
                packetToSend = Leader.DIFF;
                zxidToSend = peerLastZxid;
            } else if (proposals.size() != 0) {
                LOG.debug("proposal size is {}", proposals.size());
                if ((maxCommittedLog >= peerLastZxid)
                        && (minCommittedLog <= peerLastZxid)) {
                    LOG.debug("Sending proposals to follower");

                    // as we look through proposals, this variable keeps track of previous
                    // proposal Id.
                    long prevProposalZxid = minCommittedLog;

                    // Keep track of whether we are about to send the first packet.
                    // Before sending the first packet, we have to tell the learner
                    // whether to expect a trunc or a diff
                    boolean firstPacket=true;

                    // If we are here, we can use committedLog to sync with
                    // follower. Then we only need to decide whether to
                    // send trunc or not
                    packetToSend = Leader.DIFF;
                    zxidToSend = maxCommittedLog;

                    for (Proposal propose: proposals) {
                        // skip the proposals the peer already has
                        if (propose.packet.getZxid() <= peerLastZxid) {
                            prevProposalZxid = propose.packet.getZxid();
                            continue;
                        } else {
                            // If we are sending the first packet, figure out whether to trunc
                            // in case the follower has some proposals that the leader doesn't
                            if (firstPacket) {
                                firstPacket = false;
                                // Does the peer have some proposals that the leader hasn't seen yet
                                // peer 有些提案是我们没有的,直接替换成 leader的
                                if (prevProposalZxid < peerLastZxid) {
                                    // send a trunc message before sending the diff
                                    packetToSend = Leader.TRUNC;                                        
                                    zxidToSend = prevProposalZxid;
                                    updates = zxidToSend;
                                }
                            }
                            queuePacket(propose.packet);
                            QuorumPacket qcommit = new QuorumPacket(Leader.COMMIT, propose.packet.getZxid(),
                                    null, null);
                            queuePacket(qcommit);
                        }
                    }
                } else if (peerLastZxid > maxCommittedLog) {
                    LOG.debug("Sending TRUNC to follower zxidToSend=0x{} updates=0x{}",
                            Long.toHexString(maxCommittedLog),
                            Long.toHexString(updates));

                    packetToSend = Leader.TRUNC;
                    zxidToSend = maxCommittedLog;
                    updates = zxidToSend;
                } else {
                    LOG.warn("Unhandled proposal scenario");
                }
            } else {
                // just let the state transfer happen
                LOG.debug("proposals is empty");
            }               

            //上面的sync更新的是内存树中的
            LOG.info("Sending " + Leader.getPacketType(packetToSend));
            //最后都会根据到leader.startForwarding()进行最终的更新
            leaderLastZxid = leader.startForwarding(this, updates);

        } finally {
            rl.unlock();
        }

        //同步操作结束
        //-----------------------------------------------------------------

         QuorumPacket newLeaderQP = new QuorumPacket(Leader.NEWLEADER,
                ZxidUtils.makeZxid(newEpoch, 0), null, null);
         if (getVersion() < 0x10000) {
            oa.writeRecord(newLeaderQP, "packet");
        } else {
            queuedPackets.add(newLeaderQP);
        }
        bufferedOutput.flush();
        //Need to set the zxidToSend to the latest zxid
        if (packetToSend == Leader.SNAP) {
            zxidToSend = leader.zk.getZKDatabase().getDataTreeLastProcessedZxid();
        }
        oa.writeRecord(new QuorumPacket(packetToSend, zxidToSend, null, null), "packet");
        bufferedOutput.flush();
        
        /* if we are not truncating or sending a diff just send a snapshot */
        if (packetToSend == Leader.SNAP) {
            LOG.info("Sending snapshot last zxid of peer is 0x"
                    + Long.toHexString(peerLastZxid) + " " 
                    + " zxid of leader is 0x"
                    + Long.toHexString(leaderLastZxid)
                    + "sent zxid of db as 0x" 
                    + Long.toHexString(zxidToSend));
            // Dump data to peer
            leader.zk.getZKDatabase().serializeSnapshot(oa);
            oa.writeString("BenWasHere", "signature");
        }
        bufferedOutput.flush();
        
        // Start sending packets
        new Thread() {
            public void run() {
                Thread.currentThread().setName(
                        "Sender-" + sock.getRemoteSocketAddress());
                try {
                    sendPackets();
                } catch (InterruptedException e) {
                    LOG.warn("Unexpected interruption",e);
                }
            }
        }.start();


        //---------------------------------------------------------------
        //同步操作结束
        /*
         * Have to wait for the first ACK, wait until 
         * the leader is ready, and only then we can
         * start processing messages.
         */
        qp = new QuorumPacket();
        ia.readRecord(qp, "packet");
        if(qp.getType() != Leader.ACK){
            LOG.error("Next packet was supposed to be an ACK");
            return;
        }
        LOG.info("Received NEWLEADER-ACK message from " + getSid());
        //等待接受大部分 peer 的回应
        leader.waitForNewLeaderAck(getSid(), qp.getZxid());

        syncLimitCheck.start();
        
        // now that the ack has been processed expect the syncLimit
        sock.setSoTimeout(leader.self.tickTime * leader.self.syncLimit);

        /*
         * Wait until leader starts up
         */
        synchronized(leader.zk){
            while(!leader.zk.isRunning() && !this.isInterrupted()){
                leader.zk.wait(20);
            }
        }

        // 发送一个 UPDATE ,表明从现在开始接受事务提案
        // Mutation packets will be queued during the serialize,
        // so we need to mark when the peer can actually start
        // using the data
        //
        queuedPackets.add(new QuorumPacket(Leader.UPTODATE, -1, null, null));



        //while true 会一直循环
        while (true) {
            qp = new QuorumPacket();
            ia.readRecord(qp, "packet");

            long traceMask = ZooTrace.SERVER_PACKET_TRACE_MASK;
            if (qp.getType() == Leader.PING) {
                traceMask = ZooTrace.SERVER_PING_TRACE_MASK;
            }
            if (LOG.isTraceEnabled()) {
                ZooTrace.logQuorumPacket(LOG, traceMask, 'i', qp);
            }
            tickOfNextAckDeadline = leader.self.tick.get() + leader.self.syncLimit;


            ByteBuffer bb;
            long sessionId;
            int cxid;
            int type;

            switch (qp.getType()) {
            case Leader.ACK:
                if (this.learnerType == LearnerType.OBSERVER) {
                    if (LOG.isDebugEnabled()) {
                        LOG.debug("Received ACK from Observer  " + this.sid);
                    }
                }
                syncLimitCheck.updateAck(qp.getZxid());
                leader.processAck(this.sid, qp.getZxid(), sock.getLocalSocketAddress());
                break;
            case Leader.PING:
                // Process the touches
                ByteArrayInputStream bis = new ByteArrayInputStream(qp
                        .getData());
                DataInputStream dis = new DataInputStream(bis);
                while (dis.available() > 0) {
                    long sess = dis.readLong();
                    int to = dis.readInt();
                    leader.zk.touch(sess, to);
                }
                break;
            case Leader.REVALIDATE:
                bis = new ByteArrayInputStream(qp.getData());
                dis = new DataInputStream(bis);
                long id = dis.readLong();
                int to = dis.readInt();
                ByteArrayOutputStream bos = new ByteArrayOutputStream();
                DataOutputStream dos = new DataOutputStream(bos);
                dos.writeLong(id);
                boolean valid = leader.zk.touch(id, to);
                if (valid) {
                    try {
                        //set the session owner
                        // as the follower that
                        // owns the session
                        leader.zk.setOwner(id, this);
                    } catch (SessionExpiredException e) {
                        LOG.error("Somehow session " + Long.toHexString(id) + " expired right after being renewed! (impossible)", e);
                    }
                }
                if (LOG.isTraceEnabled()) {
                    ZooTrace.logTraceMessage(LOG,
                                             ZooTrace.SESSION_TRACE_MASK,
                                             "Session 0x" + Long.toHexString(id)
                                             + " is valid: "+ valid);
                }
                dos.writeBoolean(valid);
                qp.setData(bos.toByteArray());
                queuedPackets.add(qp);
                break;
            case Leader.REQUEST:                    
                bb = ByteBuffer.wrap(qp.getData());
                sessionId = bb.getLong();
                cxid = bb.getInt();
                type = bb.getInt();
                bb = bb.slice();
                Request si;
                if(type == OpCode.sync){
                    si = new LearnerSyncRequest(this, sessionId, cxid, type, bb, qp.getAuthinfo());
                } else {
                    si = new Request(null, sessionId, cxid, type, bb, qp.getAuthinfo());
                }
                si.setOwner(this);
                leader.zk.submitRequest(si);
                break;
            default:
                LOG.warn("unexpected quorum packet, type: {}", packetToString(qp));
                break;
            }
        }
    } catch (IOException e) {
        if (sock != null && !sock.isClosed()) {
            LOG.error("Unexpected exception causing shutdown while sock "
                    + "still open", e);
           //close the socket to make sure the 
           //other side can see it being close
           try {
              sock.close();
           } catch(IOException ie) {
              // do nothing
           }
        }
    } catch (InterruptedException e) {
        LOG.error("Unexpected exception causing shutdown", e);
    } finally {
        LOG.warn("******* GOODBYE " 
                + (sock != null ? sock.getRemoteSocketAddress() : "<null>")
                + " ********");
        shutdown();
    }
}

       虽然代码非常长,但是逻辑很清晰先是要求 leader 得到大部分 peer 的回应,之后,开始同步数据,对于不一致的数据分为以下情况处理 :

先回滚再差异化同步 TRUNC + DIFF

       通俗点说就是去掉 peer 与leader 不同的提案,然后补上缺的(follower 相对于 leader 缺少的提案)

仅回滚同步(TRUNC)

       超前了当前 leader 本地中保存的最大的提案记录,所以之前回滚和 leader 一样

全量同步 (SNAP)

       与 leader 存在差距,直接复制leader 的提案。

       从上面的同步策略同步的最终目的是使所有的 peer 的数据一致,但是对于 TRUNC + DIFF这种策略有可能会丢弃掉最新的提案。

总结

       我们从启动的开始,介绍了选举的过程和同步数据的过程,主干思路算是弄清楚,再根据这个线索去了解 zk 其他方面的问题就不难了。

参考资料