聊聊reactor-netty的PoolResources的两种模式

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本文主要研究下reactor-netty的PoolResources的两种模式elastic及fixed。

LoopResources与PoolResources

TcpResources是个工具类,可以用来创建loopResources和poolResources。

loopResources

主要是创建NioEventLoopGroup,以及该group下面的workerCount个NioEventLoop(这里涉及两个参数,一个是worker thread count,一个是selector thread count)

  • DEFAULT_IO_WORKER_COUNT:如果环境变量有设置reactor.ipc.netty.workerCount,则用该值;没有设置则取Math.max(Runtime.getRuntime().availableProcessors(),4)))
  • DEFAULT_IO_SELECT_COUNT:如果环境变量有设置reactor.ipc.netty.selectCount,则用该值;没有设置则取-1,表示没有selector thread
  • DEFAULT_MAX_PENDING_TASKS: 指定NioEventLoop的taskQueue的大小,Math.max(16,SystemPropertyUtil.getInt("io.netty.eventLoop.maxPendingTasks",Integer.MAX_VALUE))
  • NioEventLoop继承了SingleThreadEventLoop,而SingleThreadEventLoop则继承SingleThreadEventExecutor,而其代理的executor是ThreadPerTaskExecutor,rejectHandler是RejectedExecutionHandlers.reject(),默认的taskQueue是LinkedBlockingQueue,其大小为Integer.MAX_VALUE

poolResources

主要是创建channelPools,类型是ConcurrentMap<SocketAddress,Pool>,这里主要研究下它的两种模式elastic及fixed

DefaultPoolResources

reactor-netty-0.7.5.RELEASE-sources.jar!/reactor/ipc/netty/resources/DefaultPoolResources.java

它实现了netty-transport-4.1.22.Final-sources.jar!/io/netty/channel/pool/ChannelPool.java的接口,重点看如下的几个方法
@Override
        public Future<Channel> acquire() {
            return acquire(defaultGroup.next().newPromise());
        }

        @Override
        public Future<Channel> acquire(Promise<Channel> promise) {
            return pool.acquire(promise).addListener(this);
        }

        @Override
        public Future<Void> release(Channel channel) {
            return pool.release(channel);
        }

        @Override
        public Future<Void> release(Channel channel,Promise<Void> promise) {
            return pool.release(channel,promise);
        }

        @Override
        public void close() {
            if(compareAndSet(false,true)) {
                pool.close();
            }
        }
这里的几个接口基本是委托为具体的pool来进行操作,其实现主要有SimpleChannelPool及FixedChannelPool。

PoolResources.elastic(SimpleChannelPool)

reactor-netty-0.7.5.RELEASE-sources.jar!/reactor/ipc/netty/resources/PoolResources.java

/**
     * Create an uncapped {@link PoolResources} to provide automatically for {@link
     * ChannelPool}.
     * <p>An elastic {@link PoolResources} will never wait before opening a new
     * connection. The reuse window is limited but it cannot starve an undetermined volume
     * of clients using it.
     *
     * @param name the channel pool map name
     *
     * @return a new {@link PoolResources} to provide automatically for {@link
     * ChannelPool}
     */
    static PoolResources elastic(String name) {
        return new DefaultPoolResources(name,SimpleChannelPool::new);
    }
这个是TcpClient.create过程中,默认使用的方法,默认使用的是SimpleChannelPool,创建的是DefaultPoolResources

reactor-netty-0.7.5.RELEASE-sources.jar!/reactor/ipc/netty/tcp/TcpResources.java

static <T extends TcpResources> T create(T prevIoUs,LoopResources loops,PoolResources pools,String name,BiFunction<LoopResources,PoolResources,T> onNew) {
        if (prevIoUs == null) {
            loops = loops == null ? LoopResources.create("reactor-" + name) : loops;
            pools = pools == null ? PoolResources.elastic(name) : pools;
        }
        else {
            loops = loops == null ? prevIoUs.defaultLoops : loops;
            pools = pools == null ? prevIoUs.defaultPools : pools;
        }
        return onNew.apply(loops,pools);
    }

SimpleChannelPool

netty-transport-4.1.22.Final-sources.jar!/io/netty/channel/pool/SimpleChannelPool.java

/**
 * Simple {@link ChannelPool} implementation which will create new {@link Channel}s if someone tries to acquire
 * a {@link Channel} but none is in the pool atm. No limit on the maximal concurrent {@link Channel}s is enforced.
 *
 * This implementation uses LIFO order for {@link Channel}s in the {@link ChannelPool}.
 *
 */
public class SimpleChannelPool implements ChannelPool {

    @Override
    public final Future<Channel> acquire() {
        return acquire(bootstrap.config().group().next().<Channel>newPromise());
    }

    @Override
    public Future<Channel> acquire(final Promise<Channel> promise) {
        checkNotNull(promise,"promise");
        return acquireHealthyFromPoolOrNew(promise);
    }

    /**
     * Tries to retrieve healthy channel from the pool if any or creates a new channel otherwise.
     * @param promise the promise to provide acquire result.
     * @return future for acquiring a channel.
     */
    private Future<Channel> acquireHealthyFromPoolOrNew(final Promise<Channel> promise) {
        try {
            final Channel ch = pollChannel();
            if (ch == null) {
                // No Channel left in the pool bootstrap a new Channel
                Bootstrap bs = bootstrap.clone();
                bs.attr(POOL_KEY,this);
                ChannelFuture f = connectChannel(bs);
                if (f.isDone()) {
                    notifyConnect(f,promise);
                } else {
                    f.addListener(new ChannelFutureListener() {
                        @Override
                        public void operationComplete(ChannelFuture future) throws Exception {
                            notifyConnect(future,promise);
                        }
                    });
                }
                return promise;
            }
            EventLoop loop = ch.eventLoop();
            if (loop.inEventLoop()) {
                doHealthCheck(ch,promise);
            } else {
                loop.execute(new Runnable() {
                    @Override
                    public void run() {
                        doHealthCheck(ch,promise);
                    }
                });
            }
        } catch (Throwable cause) {
            promise.tryFailure(cause);
        }
        return promise;
    }

    @Override
    public final Future<Void> release(Channel channel) {
        return release(channel,channel.eventLoop().<Void>newPromise());
    }

    @Override
    public Future<Void> release(final Channel channel,final Promise<Void> promise) {
        checkNotNull(channel,"channel");
        checkNotNull(promise,"promise");
        try {
            EventLoop loop = channel.eventLoop();
            if (loop.inEventLoop()) {
                doReleaseChannel(channel,promise);
            } else {
                loop.execute(new Runnable() {
                    @Override
                    public void run() {
                        doReleaseChannel(channel,promise);
                    }
                });
            }
        } catch (Throwable cause) {
            closeAndFail(channel,cause,promise);
        }
        return promise;
    }

    @Override
    public void close() {
        for (;;) {
            Channel channel = pollChannel();
            if (channel == null) {
                break;
            }
            channel.close();
        }
    }

    //......
}
这个连接池的实现如果没有连接则会创建一个( 没有限制),取出连接( 连接池使用一个LIFO的Deque来维护Channel)的时候会检测连接的有效性。

PoolResources.fixed(FixedChannelPool)

reactor-netty-0.7.5.RELEASE-sources.jar!/reactor/ipc/netty/resources/PoolResources.java

/**
     * Default max connection,if -1 will never wait to acquire before opening new
     * connection in an unbounded fashion. Fallback to
     * available number of processors.
     */
    int DEFAULT_POOL_MAX_CONNECTION =
            Integer.parseInt(System.getProperty("reactor.ipc.netty.pool.maxConnections","" + Math.max(Runtime.getRuntime()
                        .availableProcessors(),8) * 2));

    /**
     * Default acquisition timeout before error. If -1 will never wait to
     * acquire before opening new
     * connection in an unbounded fashion. Fallback to
     * available number of processors.
     */
    long DEFAULT_POOL_ACQUIRE_TIMEOUT = Long.parseLong(System.getProperty(
            "reactor.ipc.netty.pool.acquireTimeout","" + 45000));

    /**
     * Create a capped {@link PoolResources} to provide automatically for {@link
     * ChannelPool}.
     * <p>A Fixed {@link PoolResources} will open up to the given max number of
     * processors observed by this jvm (minimum 4).
     * Further connections will be pending acquisition indefinitely.
     *
     * @param name the channel pool map name
     *
     * @return a new {@link PoolResources} to provide automatically for {@link
     * ChannelPool}
     */
    static PoolResources fixed(String name) {
        return fixed(name,DEFAULT_POOL_MAX_CONNECTION);
    }

    /**
     * Create a capped {@link PoolResources} to provide automatically for {@link
     * ChannelPool}.
     * <p>A Fixed {@link PoolResources} will open up to the given max connection value.
     * Further connections will be pending acquisition indefinitely.
     *
     * @param name the channel pool map name
     * @param maxConnections the maximum number of connections before starting pending
     * acquisition on existing ones
     *
     * @return a new {@link PoolResources} to provide automatically for {@link
     * ChannelPool}
     */
    static PoolResources fixed(String name,int maxConnections) {
        return fixed(name,maxConnections,DEFAULT_POOL_ACQUIRE_TIMEOUT);
    }

    /**
     * Create a capped {@link PoolResources} to provide automatically for {@link
     * ChannelPool}.
     * <p>A Fixed {@link PoolResources} will open up to the given max connection value.
     * Further connections will be pending acquisition indefinitely.
     *
     * @param name the channel pool map name
     * @param maxConnections the maximum number of connections before starting pending
     * @param acquireTimeout the maximum time in millis to wait for aquiring
     *
     * @return a new {@link PoolResources} to provide automatically for {@link
     * ChannelPool}
     */
    static PoolResources fixed(String name,int maxConnections,long acquireTimeout) {
        if (maxConnections == -1) {
            return elastic(name);
        }
        if (maxConnections <= 0) {
            throw new IllegalArgumentException("Max Connections value must be strictly " + "positive");
        }
        if (acquireTimeout != -1L && acquireTimeout < 0) {
            throw new IllegalArgumentException("Acquire Timeout value must " + "be " + "positive");
        }
        return new DefaultPoolResources(name,(bootstrap,handler,checker) -> new FixedChannelPool(bootstrap,checker,FixedChannelPool.AcquireTimeoutAction.FAIL,acquireTimeout,Integer.MAX_VALUE
                        ));
    }
最后调用的fixed方法有三个参数,一个是name,一个是maxConnections,一个是acquireTimeout。可以看到这里创建的是FixedChannelPool。

FixedChannelPool

netty-transport-4.1.22.Final-sources.jar!/io/netty/channel/pool/FixedChannelPool.java

/**
 * {@link ChannelPool} implementation that takes another {@link ChannelPool} implementation and enforce a maximum
 * number of concurrent connections.
 */
public class FixedChannelPool extends SimpleChannelPool {

    @Override
    public Future<Channel> acquire(final Promise<Channel> promise) {
        try {
            if (executor.inEventLoop()) {
                acquire0(promise);
            } else {
                executor.execute(new Runnable() {
                    @Override
                    public void run() {
                        acquire0(promise);
                    }
                });
            }
        } catch (Throwable cause) {
            promise.setFailure(cause);
        }
        return promise;
    }

    private void acquire0(final Promise<Channel> promise) {
        assert executor.inEventLoop();

        if (closed) {
            promise.setFailure(POOL_CLOSED_ON_ACQUIRE_EXCEPTION);
            return;
        }
        if (acquiredChannelCount < maxConnections) {
            assert acquiredChannelCount >= 0;

            // We need to create a new promise as we need to ensure the AcquireListener runs in the correct
            // EventLoop
            Promise<Channel> p = executor.newPromise();
            AcquireListener l = new AcquireListener(promise);
            l.acquired();
            p.addListener(l);
            super.acquire(p);
        } else {
            if (pendingAcquireCount >= maxPendingAcquires) {
                promise.setFailure(FULL_EXCEPTION);
            } else {
                AcquireTask task = new AcquireTask(promise);
                if (pendingAcquireQueue.offer(task)) {
                    ++pendingAcquireCount;

                    if (timeoutTask != null) {
                        task.timeoutFuture = executor.schedule(timeoutTask,acquireTimeoutNanos,TimeUnit.NANOSECONDS);
                    }
                } else {
                    promise.setFailure(FULL_EXCEPTION);
                }
            }

            assert pendingAcquireCount > 0;
        }
    }

    @Override
    public Future<Void> release(final Channel channel,final Promise<Void> promise) {
        ObjectUtil.checkNotNull(promise,"promise");
        final Promise<Void> p = executor.newPromise();
        super.release(channel,p.addListener(new FutureListener<Void>() {

            @Override
            public void operationComplete(Future<Void> future) throws Exception {
                assert executor.inEventLoop();

                if (closed) {
                    // Since the pool is closed,we have no choice but to close the channel
                    channel.close();
                    promise.setFailure(POOL_CLOSED_ON_RELEASE_EXCEPTION);
                    return;
                }

                if (future.isSuccess()) {
                    decrementAndRunTaskQueue();
                    promise.setSuccess(null);
                } else {
                    Throwable cause = future.cause();
                    // Check if the exception was not because of we passed the Channel to the wrong pool.
                    if (!(cause instanceof IllegalArgumentException)) {
                        decrementAndRunTaskQueue();
                    }
                    promise.setFailure(future.cause());
                }
            }
        }));
        return promise;
    }

    @Override
    public void close() {
        executor.execute(new Runnable() {
            @Override
            public void run() {
                if (!closed) {
                    closed = true;
                    for (;;) {
                        AcquireTask task = pendingAcquireQueue.poll();
                        if (task == null) {
                            break;
                        }
                        ScheduledFuture<?> f = task.timeoutFuture;
                        if (f != null) {
                            f.cancel(false);
                        }
                        task.promise.setFailure(new ClosedChannelException());
                    }
                    acquiredChannelCount = 0;
                    pendingAcquireCount = 0;
                    FixedChannelPool.super.close();
                }
            }
        });
    }
    //......
}

这里的acquire,如果当前线程不是在eventLoop中,则放入队列中等待执行acquire0,这里可能撑爆eventLoop的taskQueue,不过其队列大小的值取Math.max(16,Integer.MAX_VALUE)),默认是Integer.MAX_VALUE。

FixedChannelPool继承了SimpleChannelPool,并重写了acquire、release、close方法。它对获取连接进行了限制,主要有如下几个参数:
  • maxConnections

该值先从系统变量reactor.ipc.netty.pool.maxConnections取(如果设置为-1,表示无限制,回到elastic模式),如果没有设置,则取Math.max(Runtime.getRuntime().availableProcessors(),8) * 2,即核数与8的最大值的2倍。

  • acquireTimeout

该值先从系统变量reactor.ipc.netty.pool.acquireTimeout取(如果设置为-1,表示立即执行不等待),如果没有设置,则为45000毫秒

  • maxPendingAcquires

这里设置的是Integer.MAX_VALUE

  • AcquireTimeoutAction

这里设置为FixedChannelPool.AcquireTimeoutAction.FAIL,即timeoutTask为

timeoutTask = new TimeoutTask() {
                    @Override
                    public void onTimeout(AcquireTask task) {
                        // Fail the promise as we timed out.
                        task.promise.setFailure(TIMEOUT_EXCEPTION);
                    }
                };
如果当前连接超过maxConnections,则进入pendingAcquireQueue等待获取连接,而在进入pendingAcquireQueue之前,如果当前等待数量超过了maxPendingAcquires,则返回FULL_EXCEPTION( Too many outstanding acquire operations),这里设置的是Integer.MAX_VALUE,所以不会有这个异常。进入pendingAcquireQueue之后,还有一个acquireTimeout参数,即进入pendingAcquireQueue等待acquireTimeout时间,如果还没有获取到连接则返回TIMEOUT_EXCEPTION( Acquire operation took longer then configured maximum time)。

小结

默认TcpClient创建的PoolResources使用的是elastic模式,即连接池的实现是SimpleChannelPool,默认使用一个LIFO的Deque来维护Channel,如果从连接池取不到连接则会创建新的连接,上限应该是系统设置的能够打开的文件资源数量,超过则报SocketException: Too many open files。PoolResources还提供了FixedChannelPool实现,使用的是fixed模式,即限定了连接池最大连接数及最大等待超时,避免连接创建数量过多撑爆内存或者报SocketException: Too many open files异常。

注意,对于fixed模式,如果reactor.ipc.netty.pool.maxConnections设置为-1,则回退到elastic模式。

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