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最近在使用分布式锁redisson时遇到一个线上问题:发现是subscriptionsPerConnection or subscriptionConnectionPoolSize
的大小不够,需要提高配置才能解决。
下面对其源码进行分析,才能找到到底是什么逻辑导致问题所在:
private void lock(long leaseTime, TimeUnit unit, boolean interruptibly) throws InterruptedException { long threadId = Thread.currentThread().getId(); // 尝试获取,如果ttl == null,则表示获取锁成功 Long ttl = tryAcquire(leaseTime, unit, threadId); // lock acquired if (ttl == null) { return; } // 订阅锁释放事件,并通过await方法阻塞等待锁释放,有效的解决了无效的锁申请浪费资源的问题 RFuture<RedissonLockEntry> future = subscribe(threadId); if (interruptibly) { commandExecutor.syncSubscriptionInterrupted(future); } else { commandExecutor.syncSubscription(future); } // 后面代码忽略 try { // 无限循环获取锁,直到获取锁成功 // ... } finally { // 取消订阅锁释放事件 unsubscribe(future, threadId); } }
总结下主要逻辑:
获取当前线程的线程id;
tryAquire尝试获取锁,并返回ttl
如果ttl为空,则结束流程;否则进入后续逻辑;
this.subscribe(threadId)订阅当前线程,返回一个RFuture;
如果在指定时间没有监听到,则会产生如上异常。
订阅成功后, 通过while(true)循环,一直尝试获取锁
fially代码块,会解除订阅
所以上述这情况问题应该出现在subscribe()方法中
protected RFuture<RedissonLockEntry> subscribe(long threadId) { // entryName 格式:“id:name”; // channelName 格式:“redisson_lock__channel:name”; return pubSub.subscribe(getEntryName(), getChannelName()); }
RedissonLock#pubSub 是在RedissonLock构造函数中初始化的:
public RedissonLock(CommandAsyncExecutor commandExecutor, String name) { // .... this.pubSub = commandExecutor.getConnectionManager().getSubscribeService().getLockPubSub(); }
而subscribeService在MasterSlaveConnectionManager的实现中又是通过如下方式构造的
public MasterSlaveConnectionManager(MasterSlaveServersConfig cfg, Config config, UUID id) { this(config, id); this.config = cfg; // 初始化 initTimer(cfg); initSingleEntry(); } protected void initTimer(MasterSlaveServersConfig config) { int[] timeouts = new int[]{config.getRetryInterval(), config.getTimeout()}; Arrays.sort(timeouts); int minTimeout = timeouts[0]; if (minTimeout % 100 != 0) { minTimeout = (minTimeout % 100) / 2; } else if (minTimeout == 100) { minTimeout = 50; } else { minTimeout = 100; } timer = new HashedWheelTimer(new DefaultThreadFactory("redisson-timer"), minTimeout, TimeUnit.MILLISECONDS, 1024, false); connectionWatcher = new IdleConnectionWatcher(this, config); // 初始化:其中this就是MasterSlaveConnectionManager实例,config则为MasterSlaveServersConfig实例: subscribeService = new PublishSubscribeService(this, config); }
PublishSubscribeService构造函数
private final SemaphorePubSub semaphorePubSub = new SemaphorePubSub(this); public PublishSubscribeService(ConnectionManager connectionManager, MasterSlaveServersConfig config) { super(); this.connectionManager = connectionManager; this.config = config; for (int i = 0; i < locks.length; i++) { // 这里初始化了一组信号量,每个信号量的初始值为1 locks[i] = new AsyncSemaphore(1); } }
private final ConcurrentMap<String, E> entries = new ConcurrentHashMap<>(); public RFuture<E> subscribe(String entryName, String channelName) { // 从PublishSubscribeService获取对应的信号量。 相同的channelName获取的是同一个信号量 // public AsyncSemaphore getSemaphore(ChannelName channelName) { // return locks[Math.abs(channelName.hashCode() % locks.length)]; // } AsyncSemaphore semaphore = service.getSemaphore(new ChannelName(channelName)); AtomicReference<Runnable> listenerHolder = new AtomicReference<Runnable>(); RPromise<E> newPromise = new RedissonPromise<E>() { @Override public boolean cancel(boolean mayInterruptIfRunning) { return semaphore.remove(listenerHolder.get()); } }; Runnable listener = new Runnable() { @Override public void run() { // 如果存在RedissonLockEntry, 则直接利用已有的监听 E entry = entries.get(entryName); if (entry != null) { entry.acquire(); semaphore.release(); entry.getPromise().onComplete(new TransferListener<E>(newPromise)); return; } E value = createEntry(newPromise); value.acquire(); E oldValue = entries.putIfAbsent(entryName, value); if (oldValue != null) { oldValue.acquire(); semaphore.release(); oldValue.getPromise().onComplete(new TransferListener<E>(newPromise)); return; } // 创建监听, RedisPubSubListener<Object> listener = createListener(channelName, value); // 订阅监听 service.subscribe(LongCodec.INSTANCE, channelName, semaphore, listener); } }; // 最终会执行listener.run方法 semaphore.acquire(listener); listenerHolder.set(listener); return newPromise; }
AsyncSemaphore#acquire()方法
public void acquire(Runnable listener) { acquire(listener, 1); } public void acquire(Runnable listener, int permits) { boolean run = false; synchronized (this) { // counter初始化值为1 if (counter < permits) { // 如果不是第一次执行,则将listener加入到listeners集合中 listeners.add(new Entry(listener, permits)); return; } else { counter -= permits; run = true; } } // 第一次执行acquire, 才会执行listener.run()方法 if (run) { listener.run(); } }
梳理上述逻辑:
1、从PublishSubscribeService获取对应的信号量, 相同的channelName获取的是同一个信号量
2、如果是第一次请求,则会立马执行listener.run()方法, 否则需要等上个线程获取到该信号量执行完方能执行;
3、如果已经存在RedissonLockEntry, 则利用已经订阅就行
4、如果不存在RedissonLockEntry, 则会创建新的RedissonLockEntry,然后进行。
从上面代码看,主要逻辑是交给了PublishSubscribeService#subscribe方法
private final ConcurrentMap<ChannelName, PubSubConnectionEntry> name2PubSubConnection = new ConcurrentHashMap<>(); private final Queue<PubSubConnectionEntry> freePubSubConnections = new ConcurrentLinkedQueue<>(); public RFuture<PubSubConnectionEntry> subscribe(Codec codec, String channelName, AsyncSemaphore semaphore, RedisPubSubListener<?>... listeners) { RPromise<PubSubConnectionEntry> promise = new RedissonPromise<PubSubConnectionEntry>(); // 主要逻辑入口, 这里要主要channelName每次都是新对象, 但内部覆写hashCode+equals。 subscribe(codec, new ChannelName(channelName), promise, PubSubType.SUBSCRIBE, semaphore, listeners); return promise; } private void subscribe(Codec codec, ChannelName channelName, RPromise<PubSubConnectionEntry> promise, PubSubType type, AsyncSemaphore lock, RedisPubSubListener<?>... listeners) { PubSubConnectionEntry connEntry = name2PubSubConnection.get(channelName); if (connEntry != null) { // 从已有Connection中取,如果存在直接把listeners加入到PubSubConnectionEntry中 addListeners(channelName, promise, type, lock, connEntry, listeners); return; } // 没有时,才是最重要的逻辑 freePubSubLock.acquire(new Runnable() { @Override public void run() { if (promise.isDone()) { lock.release(); freePubSubLock.release(); return; } // 从队列中取头部元素 PubSubConnectionEntry freeEntry = freePubSubConnections.peek(); if (freeEntry == null) { // 第一次肯定是没有的需要建立 connect(codec, channelName, promise, type, lock, listeners); return; } // 如果存在则尝试获取,如果remainFreeAmount小于0则抛出异常终止了。 int remainFreeAmount = freeEntry.tryAcquire(); if (remainFreeAmount == -1) { throw new IllegalStateException(); } PubSubConnectionEntry oldEntry = name2PubSubConnection.putIfAbsent(channelName, freeEntry); if (oldEntry != null) { freeEntry.release(); freePubSubLock.release(); addListeners(channelName, promise, type, lock, oldEntry, listeners); return; } // 如果remainFreeAmount=0, 则从队列中移除 if (remainFreeAmount == 0) { freePubSubConnections.poll(); } freePubSubLock.release(); // 增加监听 RFuture<Void> subscribeFuture = addListeners(channelName, promise, type, lock, freeEntry, listeners); ChannelFuture future; if (PubSubType.PSUBSCRIBE == type) { future = freeEntry.psubscribe(codec, channelName); } else { future = freeEntry.subscribe(codec, channelName); } future.addListener(new ChannelFutureListener() { @Override public void operationComplete(ChannelFuture future) throws Exception { if (!future.isSuccess()) { if (!promise.isDone()) { subscribeFuture.cancel(false); } return; } connectionManager.newTimeout(new TimerTask() { @Override public void run(Timeout timeout) throws Exception { subscribeFuture.cancel(false); } }, config.getTimeout(), TimeUnit.MILLISECONDS); } }); } }); } private void connect(Codec codec, ChannelName channelName, RPromise<PubSubConnectionEntry> promise, PubSubType type, AsyncSemaphore lock, RedisPubSubListener<?>... listeners) { // 根据channelName计算出slot获取PubSubConnection int slot = connectionManager.calcSlot(channelName.getName()); RFuture<RedisPubSubConnection> connFuture = nextPubSubConnection(slot); promise.onComplete((res, e) -> { if (e != null) { ((RPromise<RedisPubSubConnection>) connFuture).tryFailure(e); } }); connFuture.onComplete((conn, e) -> { if (e != null) { freePubSubLock.release(); lock.release(); promise.tryFailure(e); return; } // 这里会从配置中读取subscriptionsPerConnection PubSubConnectionEntry entry = new PubSubConnectionEntry(conn, config.getSubscriptionsPerConnection()); // 每获取一次,subscriptionsPerConnection就会减直到为0 int remainFreeAmount = entry.tryAcquire(); // 如果旧的存在,则将现有的entry释放,然后将listeners加入到oldEntry中 PubSubConnectionEntry oldEntry = name2PubSubConnection.putIfAbsent(channelName, entry); if (oldEntry != null) { releaseSubscribeConnection(slot, entry); freePubSubLock.release(); addListeners(channelName, promise, type, lock, oldEntry, listeners); return; } if (remainFreeAmount > 0) { // 加入到队列中 freePubSubConnections.add(entry); } freePubSubLock.release(); RFuture<Void> subscribeFuture = addListeners(channelName, promise, type, lock, entry, listeners); // 这里真正的进行订阅(底层与redis交互) ChannelFuture future; if (PubSubType.PSUBSCRIBE == type) { future = entry.psubscribe(codec, channelName); } else { future = entry.subscribe(codec, channelName); } future.addListener(new ChannelFutureListener() { @Override public void operationComplete(ChannelFuture future) throws Exception { if (!future.isSuccess()) { if (!promise.isDone()) { subscribeFuture.cancel(false); } return; } connectionManager.newTimeout(new TimerTask() { @Override public void run(Timeout timeout) throws Exception { subscribeFuture.cancel(false); } }, config.getTimeout(), TimeUnit.MILLISECONDS); } }); }); }
PubSubConnectionEntry#tryAcquire方法, subscriptionsPerConnection代表了每个连接的最大订阅数。当tryAcqcurie的时候会减少这个数量:
public int tryAcquire() { while (true) { int value = subscribedChannelsAmount.get(); if (value == 0) { return -1; } if (subscribedChannelsAmount.compareAndSet(value, value - 1)) { return value - 1; } } }
梳理上述逻辑:
1、还是进行重复判断, 根据channelName从name2PubSubConnection中获取,看是否存在已经订阅:PubSubConnectionEntry; 如果存在直接把新的listener加入到PubSubConnectionEntry。
2、从队列freePubSubConnections中取公用的PubSubConnectionEntry, 如果没有就进入connect()方法
2.1 会根据subscriptionsPerConnection创建PubSubConnectionEntry, 然后调用其tryAcquire()方法 - 每调用一次就会减1
2.2 将新的PubSubConnectionEntry放入全局的name2PubSubConnection, 方便后续重复使用;
2.3 同时也将PubSubConnectionEntry放入队列freePubSubConnections中。- remainFreeAmount > 0
2.4 后面就是进行底层的subscribe和addListener
3、如果已经存在PubSubConnectionEntry,则利用已有的PubSubConnectionEntry进行tryAcquire;
4、如果remainFreeAmount < 0 会抛出IllegalStateException异常;如果remainFreeAmount=0,则会将其从队列中移除, 那么后续请求会重新获取一个可用的连接
5、最后也是进行底层的subscribe和addListener;
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