Zookeeper分布式共享锁

zookeeper实现分布式共享锁逻辑：

1.程序节点启动时到zookeeper上注册一个“短暂+序号”的znode,并监听父节点（详情：Zookeeper：用客户端对Zookeeper进行操作）

2.获取父节点下的所有程序子节点，比较序号大小

3.序号最小的获取到“锁”，去访问资源，访问完后，删除自己的节点，相当于释放锁，并且重新注册一个新的节点

4.其他程序会受到事件通知，则可以去zookeeper上竞争锁

public class DistributedClient {

    // 超时时间

    private static final int SESSION_TIMEOUT = 5000;

    // zookeeper server列表

    private String hosts = "localhost:4180,localhost:4181,localhost:4182";

    private String groupNode = "locks";

    private String subNode = "sub";

 

    private ZooKeeper zk;

    // 当前client创建的子节点

    private String thisPath;

 // 当前client等待的子节点

    private String waitPath;

 

    private CountDownLatch latch = new CountDownLatch(1);

 

    /**

     * 连接zookeeper

     */

    public void connectZookeeper() throws Exception {

        zk = new ZooKeeper(hosts, SESSION_TIMEOUT, new Watcher() {

            public void process(WatchedEvent event) {

                try {

                    // 连接建立时, 打开latch, 唤醒wait在该latch上的线程

                    if (event.getState() == KeeperState.SyncConnected) {

                        latch.countDown();

                    }

 

                    // 发生了waitPath的删除事件

                    if (event.getType() == EventType.NodeDeleted && event.getPath().equals(waitPath)) {

                        doSomething();

                    }

                } catch (Exception e) {

                    e.printStackTrace();

                }

            }

        });

 

        // 等待连接建立

        latch.await();

 

        // 创建子节点

        thisPath = zk.create("/" + groupNode + "/" + subNode, null, Ids.OPEN_ACL_UNSAFE,

                CreateMode.EPHEMERAL_SEQUENTIAL);

 

        // wait一小会, 让结果更清晰一些

        Thread.sleep(10);

 

        // 注意, 没有必要监听"/locks"的子节点的变化情况

        List<String> childrenNodes = zk.getChildren("/" + groupNode, false);

 

        // 列表中只有一个子节点, 那肯定就是thisPath, 说明client获得锁

        if (childrenNodes.size() == 1) {

            doSomething();

 } else {

            String thisNode = thisPath.substring(("/" + groupNode + "/").length());

            // 排序

            Collections.sort(childrenNodes);

            int index = childrenNodes.indexOf(thisNode);

            if (index == -1) {

                // never happened

            } else if (index == 0) {

                // inddx == 0, 说明thisNode在列表中最小, 当前client获得锁

                doSomething();

            } else {

                // 获得排名比thisPath前1位的节点

                this.waitPath = "/" + groupNode + "/" + childrenNodes.get(index - 1);

                // 在waitPath上注册监听器, 当waitPath被删除时, zookeeper会回调监听器的process方法

                zk.getData(waitPath, true, new Stat());

            }

        }

    }

 

    private void doSomething() throws Exception {

        try {

            System.out.println("gain lock: " + thisPath);

            Thread.sleep(2000);

            // do something

        } finally {

            System.out.println("finished: " + thisPath);

            // 将thisPath删除, 监听thisPath的client将获得通知

            // 相当于释放锁

            zk.delete(this.thisPath, -1);

        }

    }

 

    public static void main(String[] args) throws Exception {

        for (int i = 0; i < 10; i++) {

            new Thread() {

                public void run() {

                    try {

                        DistributedClient dl = new DistributedClient();

                        dl.connectZookeeper();

                    } catch (Exception e) {

                        e.printStackTrace();

                    }

                }

  }.start();

        }

        Thread.sleep(Long.MAX_VALUE);

    }

}

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