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這篇文章主要講解了“springcloud怎么用Redlock實現分布式鎖”,文中的講解內容簡單清晰,易于學習與理解,下面請大家跟著小編的思路慢慢深入,一起來研究和學習“springcloud怎么用Redlock實現分布式鎖”吧!
在不同進程需要互斥地訪問共享資源時,分布式鎖是一種非常有用的技術手段。實現高效的分布式鎖有三個屬性需要考慮:
安全屬性:互斥,不管什么時候,只有一個客戶端持有鎖
效率屬性A:不會死鎖
效率屬性B:容錯,只要大多數redis節點能夠正常工作,客戶端端都能獲取和釋放鎖。
Redlock是redis官方提出的實現分布式鎖管理器的算法。這個算法會比一般的普通方法更加安全可靠。關于這個算法的討論可以看下官方文檔。
在pom文件引入redis和redisson依賴:
<!-- redis--> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-data-redis</artifactId> </dependency> <!-- redisson--> <dependency> <groupId>org.redisson</groupId> <artifactId>redisson</artifactId> <version>3.3.2</version> </dependency>
AquiredLockWorker接口類,,主要是用于獲取鎖后需要處理的邏輯:
/** * Created by fangzhipeng on 2017/4/5. * 獲取鎖后需要處理的邏輯 */ public interface AquiredLockWorker<T> { T invokeAfterLockAquire() throws Exception; }
DistributedLocker 獲取鎖管理類:
/** * Created by fangzhipeng on 2017/4/5. * 獲取鎖管理類 */ public interface DistributedLocker { /** * 獲取鎖 * @param resourceName 鎖的名稱 * @param worker 獲取鎖后的處理類 * @param <T> * @return 處理完具體的業務邏輯要返回的數據 * @throws UnableToAquireLockException * @throws Exception */ <T> T lock(String resourceName, AquiredLockWorker<T> worker) throws UnableToAquireLockException, Exception; <T> T lock(String resourceName, AquiredLockWorker<T> worker, int lockTime) throws UnableToAquireLockException, Exception; }
UnableToAquireLockException ,不能獲取鎖的異常類:
/** * Created by fangzhipeng on 2017/4/5. * 異常類 */ public class UnableToAquireLockException extends RuntimeException { public UnableToAquireLockException() { } public UnableToAquireLockException(String message) { super(message); } public UnableToAquireLockException(String message, Throwable cause) { super(message, cause); } }
RedissonConnector 連接類:
/** * Created by fangzhipeng on 2017/4/5. * 獲取RedissonClient連接類 */ @Component public class RedissonConnector { RedissonClient redisson; @PostConstruct public void init(){ redisson = Redisson.create(); } public RedissonClient getClient(){ return redisson; } }
RedisLocker 類,實現了DistributedLocker:
import org.redisson.api.RLock; import org.redisson.api.RedissonClient; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.stereotype.Component; import java.util.concurrent.TimeUnit; /** * Created by fangzhipeng on 2017/4/5. */ @Component public class RedisLocker implements DistributedLocker{ private final static String LOCKER_PREFIX = "lock:"; @Autowired RedissonConnector redissonConnector; @Override public <T> T lock(String resourceName, AquiredLockWorker<T> worker) throws InterruptedException, UnableToAquireLockException, Exception { return lock(resourceName, worker, 100); } @Override public <T> T lock(String resourceName, AquiredLockWorker<T> worker, int lockTime) throws UnableToAquireLockException, Exception { RedissonClient redisson= redissonConnector.getClient(); RLock lock = redisson.getLock(LOCKER_PREFIX + resourceName); // Wait for 100 seconds seconds and automatically unlock it after lockTime seconds boolean success = lock.tryLock(100, lockTime, TimeUnit.SECONDS); if (success) { try { return worker.invokeAfterLockAquire(); } finally { lock.unlock(); } } throw new UnableToAquireLockException(); } }
測試類:
@Autowired RedisLocker distributedLocker; @RequestMapping(value = "/redlock") public String testRedlock() throws Exception{ CountDownLatch startSignal = new CountDownLatch(1); CountDownLatch doneSignal = new CountDownLatch(5); for (int i = 0; i < 5; ++i) { // create and start threads new Thread(new Worker(startSignal, doneSignal)).start(); } startSignal.countDown(); // let all threads proceed doneSignal.await(); System.out.println("All processors done. Shutdown connection"); return "redlock"; } class Worker implements Runnable { private final CountDownLatch startSignal; private final CountDownLatch doneSignal; Worker(CountDownLatch startSignal, CountDownLatch doneSignal) { this.startSignal = startSignal; this.doneSignal = doneSignal; } public void run() { try { startSignal.await(); distributedLocker.lock("test",new AquiredLockWorker<Object>() { @Override public Object invokeAfterLockAquire() { doTask(); return null; } }); }catch (Exception e){ } } void doTask() { System.out.println(Thread.currentThread().getName() + " start"); Random random = new Random(); int _int = random.nextInt(200); System.out.println(Thread.currentThread().getName() + " sleep " + _int + "millis"); try { Thread.sleep(_int); } catch (InterruptedException e) { e.printStackTrace(); } System.out.println(Thread.currentThread().getName() + " end"); doneSignal.countDown(); } }
運行測試類:
Thread-48 start
Thread-48 sleep 99millis
Thread-48 end
Thread-49 start
Thread-49 sleep 118millis
Thread-49 end
Thread-52 start
Thread-52 sleep 141millis
Thread-52 end
Thread-50 start
Thread-50 sleep 28millis
Thread-50 end
Thread-51 start
Thread-51 sleep 145millis
Thread-51 end
從運行結果上看,在異步任務的情況下,確實是獲取鎖之后才能運行線程。不管怎么樣,這是redis官方推薦的一種方案,可靠性比較高。
感謝各位的閱讀,以上就是“springcloud怎么用Redlock實現分布式鎖”的內容了,經過本文的學習后,相信大家對springcloud怎么用Redlock實現分布式鎖這一問題有了更深刻的體會,具體使用情況還需要大家實踐驗證。這里是億速云,小編將為大家推送更多相關知識點的文章,歡迎關注!
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