目录一、分布式锁是什么1、获取锁2、释放锁二、代码实例上面代码存在锁误删问题:三、基于SETNX实现的分布式锁存在下面几个问题1、不可重入2、不可重试3、超时释放4、主从一致性四、Redisson实现分布式锁1、pom2
分布式锁是 满足分布式系统或集群模式下多进程可见并且互斥的锁。
基于Redis实现分布式锁:
添加锁过期时间,避免服务宕机引起死锁。
SET lock thread1 NX EX 10
DEL key1package com.guor.utils;
import org.springframework.data.redis.core.StringRedisTemplate;
import Java.util.concurrent.TimeUnit;
public class RedisLock implements ILock{
private String name;
private StringRedisTemplate stringRedisTemplate;
public RedisLock(String name, StringRedisTemplate stringRedisTemplate) {
this.name = name;
this.stringRedisTemplate = stringRedisTemplate;
}
private static final String KEY_PREFIX = "lock:";
@Override
public boolean tryLock(long timeout) {
// 获取线程唯一标识
long threadId = Thread.currentThread().getId();
// 获取锁
Boolean success = stringRedisTemplate.opsForValue()
.setIfAbsent(KEY_PREFIX + name, threadId+"", timeout, TimeUnit.SECONDS);
// 防止拆箱的空指针异常
return Boolean.TRUE.equals(success);
}
@Override
public void unlock() {
stringRedisTemplate.delete(KEY_PREFIX + name);
}
}
分布式锁误删问题;在释放锁时,释放线程自己的分布式锁,就可以解决这个问题。
package com.guor.utils;
import cn.hutool.core.lang.UUID;
import org.springframework.data.redis.core.StringRedisTemplate;
import java.util.concurrent.TimeUnit;
public class RedisLock implements ILock{
private String name;
private StringRedisTemplate stringRedisTemplate;
public RedisLock(String name, StringRedisTemplate stringRedisTemplate) {
this.name = name;
this.stringRedisTemplate = stringRedisTemplate;
}
private static final String KEY_PREFIX = "lock:";
private static final String UUID_PREFIX = UUID.randomUUID().toString(true) + "-";
@Override
public boolean tryLock(long timeout) {
// 获取线程唯一标识
String threadId = UUID_PREFIX + Thread.currentThread().getId();
// 获取锁
Boolean success = stringRedisTemplate.opsForValue()
.setIfAbsent(KEY_PREFIX + name, threadId, timeout, TimeUnit.SECONDS);
// 防止拆箱的空指针异常
return Boolean.TRUE.equals(success);
}
@Override
public void unlock() {
// 获取线程唯一标识
String threadId = UUID_PREFIX + Thread.currentThread().getId();
// 获取锁中的标识
String id = stringRedisTemplate.opsForValue().get(KEY_PREFIX + name);
// 判断标示是否一致
if(threadId.equals(id)) {
// 释放锁
stringRedisTemplate.delete(KEY_PREFIX + name);
}
}
}
SETNX实现的分布式锁存在下面几个问题同一个线程无法多次获取同一把锁。
获取锁只尝试一次就返回false,没有重试机制。
锁的超时释放虽然可以避免死锁,但如果业务执行耗时较长,也会导致锁释放,存在安全隐患。
如果Redis是集群部署的,主从同步存在延迟,当主机宕机时,此时会选一个从作为主机,但是此时的从没有锁标识,此时,其它线程可能会获取到锁,导致安全问题。
Redisson是一个在Redis的基础上实现的Java驻内存数据网格。它不仅提供了一系列的分布式的Java常用对象,还提供了许多分布式服务,其中包含各种分布式锁的实现。
<!--redisson-->
<dependency>
<groupId>org.redisson</groupId>
<artifactId>redisson</artifactId>
<version>3.13.6</version>
</dependency>
package com.guor.config;
import org.redisson.Redisson;
import org.redisson.api.RedissonClient;
import org.redisson.config.Config;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
@Configuration
public class RedissonConfig {
@Bean
public RedissonClient redissonClient(){
// 配置
Config config = new Config();
config.useSingleServer().setAddress("redis://127.0.0.1:6379").setPassword("123456");
// 创建RedissonClient对象
return Redisson.create(config);
}
}
package com.guor;
import lombok.extern.slf4j.Slf4j;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
import org.redisson.api.RLock;
import org.redisson.api.RedissonClient;
import org.springframework.boot.test.context.SpringBootTest;
import javax.annotation.Resource;
import java.util.concurrent.TimeUnit;
@Slf4j
@SpringBootTest
class RedissonTest {
@Resource
private RedissonClient redissonClient;
private RLock lock;
@BeforeEach
void setUp() {
// 获取指定名称的锁
lock = redissonClient.getLock("nezha");
}
@Test
void test() throws InterruptedException {
// 尝试获取锁
boolean isLock = lock.tryLock(1L, TimeUnit.SECONDS);
if (!isLock) {
log.error("获取锁失败");
return;
}
try {
log.info("哪吒最帅,哈哈哈");
} finally {
// 释放锁
lock.unlock();
}
}
}
public boolean tryLock(long waitTime, long leaseTime, TimeUnit unit) throws InterruptedException {
// 最大等待时间
long time = unit.toMillis(waitTime);
long current = System.currentTimeMillis();
long threadId = Thread.currentThread().getId();
Long ttl = this.tryAcquire(waitTime, leaseTime, unit, threadId);
if (ttl == null) {
return true;
} else {
// 剩余等待时间 = 最大等待时间 - 获取锁失败消耗的时间
time -= System.currentTimeMillis() - current;
if (time <= 0L) {// 获取锁失败
this.acquireFailed(waitTime, unit, threadId);
return false;
} else {
// 再次尝试获取锁
current = System.currentTimeMillis();
// subscribe订阅其它释放锁的信号
RFuture<RedissonLockEntry> subscribeFuture = this.subscribe(threadId);
// 当Future在等待指定时间time内完成时,返回true
if (!subscribeFuture.await(time, TimeUnit.MILLISECONDS)) {
if (!subscribeFuture.cancel(false)) {
subscribeFuture.onComplete((res, e) -> {
if (e == null) {
// 取消订阅
this.unsubscribe(subscribeFuture, threadId);
}
});
}
this.acquireFailed(waitTime, unit, threadId);
return false;// 获取锁失败
} else {
try {
// 剩余等待时间 = 剩余等待时间 - 获取锁失败消耗的时间
time -= System.currentTimeMillis() - current;
if (time <= 0L) {
this.acquireFailed(waitTime, unit, threadId);
boolean var20 = false;
return var20;
} else {
boolean var16;
do {
long currentTime = System.currentTimeMillis();
// 重试获取锁
ttl = this.tryAcquire(waitTime, leaseTime, unit, threadId);
if (ttl == null) {
var16 = true;
return var16;
}
// 再次失败了,再看一下剩余时间
time -= System.currentTimeMillis() - currentTime;
if (time <= 0L) {
this.acquireFailed(waitTime, unit, threadId);
var16 = false;
return var16;
}
// 再重试获取锁
currentTime = System.currentTimeMillis();
if (ttl >= 0L && ttl < time) {
// 通过信号量的方式尝试获取信号,如果等待时间内,依然没有结果,会返回false
((RedissonLockEntry)subscribeFuture.getNow()).getLatch().tryAcquire(ttl, TimeUnit.MILLISECONDS);
} else {
((RedissonLockEntry)subscribeFuture.getNow()).getLatch().tryAcquire(time, TimeUnit.MILLISECONDS);
}
time -= System.currentTimeMillis() - currentTime;
} while(time > 0L);
this.acquireFailed(waitTime, unit, threadId);
var16 = false;
return var16;
}
} finally {
this.unsubscribe(subscribeFuture, threadId);
}
}
}
}
}
private void scheduleExpirationRenewal(long threadId) {
RedissonLock.ExpirationEntry entry = new RedissonLock.ExpirationEntry();
// this.getEntryName():锁的名字,一个锁对应一个entry
// putIfAbsent:如果不存在,将锁和entry放到map里
RedissonLock.ExpirationEntry oldEntry = (RedissonLock.ExpirationEntry)EXPIRATION_RENEWAL_MAP.putIfAbsent(this.getEntryName(), entry);
if (oldEntry != null) {
// 同一个线程多次获取锁,相当于重入
oldEntry.addThreadId(threadId);
} else {
// 如果是第一次
entry.addThreadId(threadId);
// 更新有效期
this.renewExpiration();
}
}
更新有效期,递归调用更新有效期,永不过期
private void renewExpiration() {
// 从map中得到当前锁的entry
RedissonLock.ExpirationEntry ee = (RedissonLock.ExpirationEntry)EXPIRATION_RENEWAL_MAP.get(this.getEntryName());
if (ee != null) {
// 开启延时任务
Timeout task = this.commandExecutor.getConnectionManager().newTimeout(new TimerTask() {
public void run(Timeout timeout) throws Exception {
RedissonLock.ExpirationEntry ent = (RedissonLock.ExpirationEntry)RedissonLock.EXPIRATION_RENEWAL_MAP.get(RedissonLock.this.getEntryName());
if (ent != null) {
// 取出线程id
Long threadId = ent.getFirstThreadId();
if (threadId != null) {
// 刷新有效期
RFuture<Boolean> future = RedissonLock.this.renewExpirationAsync(threadId);
future.onComplete((res, e) -> {
if (e != null) {
RedissonLock.log.error("Can't update lock " + RedissonLock.this.getName() + " expiration", e);
} else {
if (res) {
// 递归调用更新有效期,永不过期
RedissonLock.this.renewExpiration();
}
}
});
}
}
}
}, this.internalLockLeaseTime / 3L, TimeUnit.MILLISECONDS);// 10S
ee.setTimeout(task);
}
}
protected RFuture<Boolean> renewExpirationAsync(long threadId) {
return this.evalWriteAsync(this.getName(), LonGCodec.INSTANCE, RedisCommands.EVAL_BOOLEAN,
// 判断当前线程的锁是否是当前线程
"if (redis.call('hexists', KEYS[1], ARGV[2]) == 1) then
// 更新有效期
redis.call('pexpire', KEYS[1], ARGV[1]);
return 1;
end;
return 0;",
Collections.singletonList(this.getName()), this.internalLockLeaseTime, this.getLockName(threadId));
}
<T> RFuture<T> tryLockInnerAsync(long waitTime, long leaseTime, TimeUnit unit, long threadId, RedisStrictCommand<T> command) {
// 锁释放时间
this.internalLockLeaseTime = unit.toMillis(leaseTime);
return this.evalWriteAsync(this.getName(), LongCodec.INSTANCE, command,
// 判断锁成功
"if (redis.call('exists', KEYS[1]) == 0) then
redis.call('hincrby', KEYS[1], ARGV[2], 1); // 如果不存在,记录锁标识,次数+1
redis.call('pexpire', KEYS[1], ARGV[1]); // 设置锁有效期
return nil; // 相当于Java的null
end;
if (redis.call('hexists', KEYS[1], ARGV[2]) == 1) then
redis.call('hincrby', KEYS[1], ARGV[2], 1); // 如果存在,判断锁标识是否是自己的,次数+1
redis.call('pexpire', KEYS[1], ARGV[1]); // 设置锁有效期
return nil;
end;
// 判断锁失败,pttl:指定锁剩余有效期,单位毫秒,KEYS[1]:锁的名称
return redis.call('pttl', KEYS[1]);",
Collections.singletonList(this.getName()), this.internalLockLeaseTime, this.getLockName(threadId));
}
public RFuture<Void> unlockAsync(long threadId) {
RPromise<Void> result = new RedissonPromise();
RFuture<Boolean> future = this.unlockInnerAsync(threadId);
future.onComplete((opStatus, e) -> {
// 取消更新任务
this.cancelExpirationRenewal(threadId);
if (e != null) {
result.tryFailure(e);
} else if (opStatus == null) {
IllegalMonitorStateException cause = new IllegalMonitorStateException("attempt to unlock lock, not locked by current thread by node id: " + this.id + " thread-id: " + threadId);
result.tryFailure(cause);
} else {
result.trySuccess((Object)null);
}
});
return result;
}
void cancelExpirationRenewal(Long threadId) {
// 从map中取出当前锁的定时任务entry
RedissonLock.ExpirationEntry task = (RedissonLock.ExpirationEntry)EXPIRATION_RENEWAL_MAP.get(this.getEntryName());
if (task != null) {
if (threadId != null) {
task.removeThreadId(threadId);
}
// 删除定时任务
if (threadId == null || task.hasNoThreads()) {
Timeout timeout = task.getTimeout();
if (timeout != null) {
timeout.cancel();
}
EXPIRATION_RENEWAL_MAP.remove(this.getEntryName());
}
}
}
以上就是Redis分布式锁的实现方式的详细内容,更多关于Redis实现分布式锁的资料请关注我们其它相关文章!
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