当前位置: 首页 > web >正文

Zookeeper实现分布式锁实战应用

web 2025/5/5 12:45:56

Zookeeper实现分布式锁实战应用示例

1. 分布式锁概述

在分布式系统中,当多个进程或服务需要互斥地访问共享资源时,就需要分布式锁来协调。Zookeeper因其强一致性和临时节点特性,非常适合实现分布式锁。

2. Zookeeper实现分布式锁的核心原理

  • 临时顺序节点:创建的节点是临时的,客户端断开连接后自动删除
  • 节点顺序性:Zookeeper会为节点名称添加递增序号
  • 最小节点获取锁:所有客户端监听比自己序号小的节点,序号最小的获取锁
  • 监听机制:通过Watcher机制实现锁释放通知

3. 实战代码示例(Java)

3.1 引入依赖

<dependency><groupId>org.apache.zookeeper</groupId><artifactId>zookeeper</artifactId><version>3.6.3</version>
</dependency>

3.2 分布式锁实现

import org.apache.zookeeper.*;
import org.apache.zookeeper.data.Stat;import java.io.IOException;
import java.util.Collections;
import java.util.List;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.TimeUnit;public class ZkDistributedLock implements Watcher {private ZooKeeper zk;private String lockPath;private String currentLock;private String waitPath;private CountDownLatch latch;private CountDownLatch connectedLatch = new CountDownLatch(1);private static final String LOCK_ROOT = "/locks";private static final int SESSION_TIMEOUT = 30000;public ZkDistributedLock(String zkServers) throws IOException, InterruptedException, KeeperException {zk = new ZooKeeper(zkServers, SESSION_TIMEOUT, this);connectedLatch.await();// 确保根节点存在Stat stat = zk.exists(LOCK_ROOT, false);if (stat == null) {zk.create(LOCK_ROOT, new byte[0], ZooDefs.Ids.OPEN_ACL_UNSAFE, CreateMode.PERSISTENT);}}@Overridepublic void process(WatchedEvent event) {if (event.getState() == Event.KeeperState.SyncConnected) {connectedLatch.countDown();}if (this.latch != null && event.getType() == Event.EventType.NodeDeleted) {this.latch.countDown();}}public boolean tryLock() throws KeeperException, InterruptedException {// 创建临时顺序节点currentLock = zk.create(LOCK_ROOT + "/lock_", new byte[0], ZooDefs.Ids.OPEN_ACL_UNSAFE, CreateMode.EPHEMERAL_SEQUENTIAL);// 获取所有子节点List<String> children = zk.getChildren(LOCK_ROOT, false);Collections.sort(children);// 当前节点是最小节点,则获取锁if (currentLock.equals(LOCK_ROOT + "/" + children.get(0))) {return true;}// 不是最小节点,找到前一个节点int currentIndex = Collections.binarySearch(children, currentLock.substring(LOCK_ROOT.length() + 1));waitPath = LOCK_ROOT + "/" + children.get(currentIndex - 1);// 监听前一个节点Stat stat = zk.exists(waitPath, true);if (stat != null) {this.latch = new CountDownLatch(1);this.latch.await();this.latch = null;}return true;}public boolean tryLock(long timeout, TimeUnit unit) throws Exception {long start = System.currentTimeMillis();long end = start + unit.toMillis(timeout);while (System.currentTimeMillis() < end) {if (tryLock()) {return true;}Thread.sleep(100);}return false;}public void unlock() throws KeeperException, InterruptedException {zk.delete(currentLock, -1);currentLock = null;if (zk != null) {zk.close();}}
}

3.3 使用示例

public class DistributedLockExample {public static void main(String[] args) {String zkServers = "localhost:2181";String resourceKey = "order_123";for (int i = 0; i < 5; i++) {new Thread(() -> {ZkDistributedLock lock = null;try {lock = new ZkDistributedLock(zkServers);System.out.println(Thread.currentThread().getName() + " 尝试获取锁");if (lock.tryLock(5, TimeUnit.SECONDS)) {System.out.println(Thread.currentThread().getName() + " 获取锁成功");// 模拟业务处理Thread.sleep(2000);} else {System.out.println(Thread.currentThread().getName() + " 获取锁超时");}} catch (Exception e) {e.printStackTrace();} finally {if (lock != null) {try {lock.unlock();System.out.println(Thread.currentThread().getName() + " 释放锁");} catch (Exception e) {e.printStackTrace();}}}}, "Thread-" + i).start();}}
}

4. 实际应用场景

4.1 电商秒杀系统

public class SeckillService {private ZkDistributedLock lock;public SeckillService(String zkServers) throws Exception {this.lock = new ZkDistributedLock(zkServers);}public boolean seckill(String productId, String userId) {try {if (lock.tryLock(3, TimeUnit.SECONDS)) {// 1. 查询库存int stock = getStockFromDB(productId);if (stock <= 0) {return false;}// 2. 扣减库存reduceStock(productId);// 3. 创建订单createOrder(productId, userId);return true;}return false;} catch (Exception e) {e.printStackTrace();return false;} finally {try {lock.unlock();} catch (Exception e) {e.printStackTrace();}}}// 其他方法...
}

4.2 分布式定时任务

public class DistributedScheduler {private ZkDistributedLock lock;public DistributedScheduler(String zkServers) throws Exception {this.lock = new ZkDistributedLock(zkServers);}public void scheduleTask() {try {if (lock.tryLock(0, TimeUnit.SECONDS)) {// 只有获取锁的节点执行任务executeTask();}} catch (Exception e) {e.printStackTrace();} finally {try {lock.unlock();} catch (Exception e) {e.printStackTrace();}}}private void executeTask() {// 执行定时任务逻辑System.out.println("执行定时任务: " + new Date());}
}

5. 优化与注意事项

  1. 锁重入问题:如果需要支持同一线程重入,需要额外记录线程信息
  2. 锁等待队列:公平锁实现需要考虑等待队列的顺序
  3. 超时处理:合理设置锁获取超时时间,避免死锁
  4. 连接恢复:处理Zookeeper连接断开后的重连机制
  5. 锁释放:确保锁最终能被释放,避免死锁
  6. 性能考虑:高频锁操作场景下,Zookeeper可能成为性能瓶颈

6. 其他实现方案对比

  1. Curator框架:Apache Curator提供了更高级的分布式锁实现

    InterProcessMutex lock = new InterProcessMutex(client, "/lock_path");
lock.acquire();
try {// 业务逻辑
} finally {lock.release();
}

  2. Redis分布式锁:基于SETNX命令实现,性能更高但一致性较弱

  3. 数据库分布式锁:基于唯一索引或乐观锁实现,简单但性能较差

Zookeeper分布式锁适合对一致性要求高的场景,而Redis分布式锁适合高性能但对一致性要求相对宽松的场景。

http://www.xdnf.cn/news/2554.html

相关文章:

  • 启效云平台审核流应用场景及功能介绍
  • day51—二分法—x 的平方根(LeetCode-69)
  • Gin 框架中集成 runtime/debug 打印日志堆栈信息
  • 2025.4.22 JavaScript 常用事件学习笔记
  • 司法大模型构建指南
  • 问题四、如何解决模型轴配置问题
  • 高功率无人机动力方案首选:CKESC ROCK 220A-H CAN 电调工程性能实测
  • 开发一个LabVIEW软件需要多少钱
  • 2025通信会丨以创新技术赋能新型电力系统 锐捷知识大脑推动效率提升
  • rabbitmq常用命令
  • 代码随想录算法训练营Day37
  • Diamond软件的使用--(6)访问FPGA的专用SPI接口
  • 关于百度模型迭代个人见解:技术竞速下的应用价值守恒定律
  • Vue3项目目录结构规范建议
  • 【测控系统】测控仪器技术概述与专业选择
  • 【项目实训个人博客】multi-agent调研(1)
  • XMOS直播声卡——可支持实时音频DSP处理的低延迟音频方案
  • Web前渗透
  • JavaScript基础(七)之web APIs
  • 开源项目实战学习之YOLO11:ultralytics-cfg-datasets-VOC、xView.yaml文件(八)
  • 设计模式--桥接模式详解
  • 【C++贪心 滑动窗口】P7990 [USACO21DEC] Closest Cow Wins S|省选-
  • UE5 在旋转A的基础上执行旋转B
  • 复杂背景下无人机影像小目标检测:MPE-YOLO抗遮挡与抗背景干扰设计
  • 深度学习算法:开启智能时代的钥匙
  • FastAPI中的依赖注入详解与示例
  • 假设检验学习总结
  • SQL优化,关联查询非常慢,前台页面控件卡顿
  • 使用 Playwright 构建高效爬虫:原理、实战与最佳实践
  • 大模型应用实战:深入理解模型上下文协议 MCP