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This artifact provides a single jar that contains all classes required to use remote EJB and JMS, including all dependencies. It is intended for use by those not using maven, maven users should just import the EJB and JMS BOM's instead (shaded JAR's cause lots of problems with maven, as it is very easy to inadvertently end up with different versions on classes on the class path).

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/*
 * Copyright 2016 The Netty Project
 *
 * The Netty Project licenses this file to you under the Apache License,
 * version 2.0 (the "License"); you may not use this file except in compliance
 * with the License. You may obtain a copy of the License at:
 *
 *   https://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 * License for the specific language governing permissions and limitations
 * under the License.
 */
package io.netty.util.concurrent;

import io.netty.util.internal.ObjectUtil;
import io.netty.util.internal.PlatformDependent;
import io.netty.util.internal.UnstableApi;

import java.util.Collection;
import java.util.Iterator;
import java.util.List;
import java.util.Queue;
import java.util.concurrent.Callable;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.RejectedExecutionException;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicReference;

/**
 * {@link EventExecutorGroup} which will preserve {@link Runnable} execution order but makes no guarantees about what
 * {@link EventExecutor} (and therefore {@link Thread}) will be used to execute the {@link Runnable}s.
 *
 * 

The {@link EventExecutorGroup#next()} for the wrapped {@link EventExecutorGroup} must NOT return * executors of type {@link OrderedEventExecutor}. */ @UnstableApi public final class NonStickyEventExecutorGroup implements EventExecutorGroup { private final EventExecutorGroup group; private final int maxTaskExecutePerRun; /** * Creates a new instance. Be aware that the given {@link EventExecutorGroup} MUST NOT contain * any {@link OrderedEventExecutor}s. */ public NonStickyEventExecutorGroup(EventExecutorGroup group) { this(group, 1024); } /** * Creates a new instance. Be aware that the given {@link EventExecutorGroup} MUST NOT contain * any {@link OrderedEventExecutor}s. */ public NonStickyEventExecutorGroup(EventExecutorGroup group, int maxTaskExecutePerRun) { this.group = verify(group); this.maxTaskExecutePerRun = ObjectUtil.checkPositive(maxTaskExecutePerRun, "maxTaskExecutePerRun"); } private static EventExecutorGroup verify(EventExecutorGroup group) { Iterator executors = ObjectUtil.checkNotNull(group, "group").iterator(); while (executors.hasNext()) { EventExecutor executor = executors.next(); if (executor instanceof OrderedEventExecutor) { throw new IllegalArgumentException("EventExecutorGroup " + group + " contains OrderedEventExecutors: " + executor); } } return group; } private NonStickyOrderedEventExecutor newExecutor(EventExecutor executor) { return new NonStickyOrderedEventExecutor(executor, maxTaskExecutePerRun); } @Override public boolean isShuttingDown() { return group.isShuttingDown(); } @Override public Future shutdownGracefully() { return group.shutdownGracefully(); } @Override public Future shutdownGracefully(long quietPeriod, long timeout, TimeUnit unit) { return group.shutdownGracefully(quietPeriod, timeout, unit); } @Override public Future terminationFuture() { return group.terminationFuture(); } @SuppressWarnings("deprecation") @Override public void shutdown() { group.shutdown(); } @SuppressWarnings("deprecation") @Override public List shutdownNow() { return group.shutdownNow(); } @Override public EventExecutor next() { return newExecutor(group.next()); } @Override public Iterator iterator() { final Iterator itr = group.iterator(); return new Iterator() { @Override public boolean hasNext() { return itr.hasNext(); } @Override public EventExecutor next() { return newExecutor(itr.next()); } @Override public void remove() { itr.remove(); } }; } @Override public Future submit(Runnable task) { return group.submit(task); } @Override public Future submit(Runnable task, T result) { return group.submit(task, result); } @Override public Future submit(Callable task) { return group.submit(task); } @Override public ScheduledFuture schedule(Runnable command, long delay, TimeUnit unit) { return group.schedule(command, delay, unit); } @Override public ScheduledFuture schedule(Callable callable, long delay, TimeUnit unit) { return group.schedule(callable, delay, unit); } @Override public ScheduledFuture scheduleAtFixedRate(Runnable command, long initialDelay, long period, TimeUnit unit) { return group.scheduleAtFixedRate(command, initialDelay, period, unit); } @Override public ScheduledFuture scheduleWithFixedDelay(Runnable command, long initialDelay, long delay, TimeUnit unit) { return group.scheduleWithFixedDelay(command, initialDelay, delay, unit); } @Override public boolean isShutdown() { return group.isShutdown(); } @Override public boolean isTerminated() { return group.isTerminated(); } @Override public boolean awaitTermination(long timeout, TimeUnit unit) throws InterruptedException { return group.awaitTermination(timeout, unit); } @Override public List> invokeAll( Collection> tasks) throws InterruptedException { return group.invokeAll(tasks); } @Override public List> invokeAll( Collection> tasks, long timeout, TimeUnit unit) throws InterruptedException { return group.invokeAll(tasks, timeout, unit); } @Override public T invokeAny(Collection> tasks) throws InterruptedException, ExecutionException { return group.invokeAny(tasks); } @Override public T invokeAny(Collection> tasks, long timeout, TimeUnit unit) throws InterruptedException, ExecutionException, TimeoutException { return group.invokeAny(tasks, timeout, unit); } @Override public void execute(Runnable command) { group.execute(command); } private static final class NonStickyOrderedEventExecutor extends AbstractEventExecutor implements Runnable, OrderedEventExecutor { private final EventExecutor executor; private final Queue tasks = PlatformDependent.newMpscQueue(); private static final int NONE = 0; private static final int SUBMITTED = 1; private static final int RUNNING = 2; private final AtomicInteger state = new AtomicInteger(); private final int maxTaskExecutePerRun; private final AtomicReference executingThread = new AtomicReference(); NonStickyOrderedEventExecutor(EventExecutor executor, int maxTaskExecutePerRun) { super(executor); this.executor = executor; this.maxTaskExecutePerRun = maxTaskExecutePerRun; } @Override public void run() { if (!state.compareAndSet(SUBMITTED, RUNNING)) { return; } Thread current = Thread.currentThread(); executingThread.set(current); for (;;) { int i = 0; try { for (; i < maxTaskExecutePerRun; i++) { Runnable task = tasks.poll(); if (task == null) { break; } safeExecute(task); } } finally { if (i == maxTaskExecutePerRun) { try { state.set(SUBMITTED); // Only set executingThread to null if no other thread did update it yet. executingThread.compareAndSet(current, null); executor.execute(this); return; // done } catch (Throwable ignore) { // Reset the state back to running as we will keep on executing tasks. state.set(RUNNING); // if an error happened we should just ignore it and let the loop run again as there is not // much else we can do. Most likely this was triggered by a full task queue. In this case // we just will run more tasks and try again later. } } else { state.set(NONE); // After setting the state to NONE, look at the tasks queue one more time. // If it is empty, then we can return from this method. // Otherwise, it means the producer thread has called execute(Runnable) // and enqueued a task in between the tasks.poll() above and the state.set(NONE) here. // There are two possible scenarios when this happens // // 1. The producer thread sees state == NONE, hence the compareAndSet(NONE, SUBMITTED) // is successfully setting the state to SUBMITTED. This mean the producer // will call / has called executor.execute(this). In this case, we can just return. // 2. The producer thread don't see the state change, hence the compareAndSet(NONE, SUBMITTED) // returns false. In this case, the producer thread won't call executor.execute. // In this case, we need to change the state to RUNNING and keeps running. // // The above cases can be distinguished by performing a // compareAndSet(NONE, RUNNING). If it returns "false", it is case 1; otherwise it is case 2. if (tasks.isEmpty() || !state.compareAndSet(NONE, RUNNING)) { // Only set executingThread to null if no other thread did update it yet. executingThread.compareAndSet(current, null); return; // done } } } } } @Override public boolean inEventLoop(Thread thread) { return executingThread.get() == thread; } @Override public boolean isShuttingDown() { return executor.isShutdown(); } @Override public Future shutdownGracefully(long quietPeriod, long timeout, TimeUnit unit) { return executor.shutdownGracefully(quietPeriod, timeout, unit); } @Override public Future terminationFuture() { return executor.terminationFuture(); } @Override public void shutdown() { executor.shutdown(); } @Override public boolean isShutdown() { return executor.isShutdown(); } @Override public boolean isTerminated() { return executor.isTerminated(); } @Override public boolean awaitTermination(long timeout, TimeUnit unit) throws InterruptedException { return executor.awaitTermination(timeout, unit); } @Override public void execute(Runnable command) { if (!tasks.offer(command)) { throw new RejectedExecutionException(); } if (state.compareAndSet(NONE, SUBMITTED)) { // Actually it could happen that the runnable was picked up in between but we not care to much and just // execute ourself. At worst this will be a NOOP when run() is called. executor.execute(this); } } } }





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