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AbstractManagedExecutorService.java
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AbstractManagedExecutorService.java
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/*
* Copyright (c) 2022, 2024 Contributors to the Eclipse Foundation.
* Copyright (c) 2022 - 2024 Payara Foundation and/or its affiliates.
* Copyright (c) 2010, 2018 Oracle and/or its affiliates. All rights reserved.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License v. 2.0, which is available at
* http://www.eclipse.org/legal/epl-2.0.
*
* This Source Code may also be made available under the following Secondary
* Licenses when the conditions for such availability set forth in the
* Eclipse Public License v. 2.0 are satisfied: GNU General Public License,
* version 2 with the GNU Classpath Exception, which is available at
* https://www.gnu.org/software/classpath/license.html.
*
* SPDX-License-Identifier: EPL-2.0 OR GPL-2.0 WITH Classpath-exception-2.0
*/
package org.glassfish.concurro;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.AbstractExecutorService;
import java.util.concurrent.Callable;
import java.util.concurrent.CancellationException;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionStage;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Future;
import java.util.concurrent.RejectedExecutionException;
import java.util.concurrent.RunnableFuture;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.function.Supplier;
import org.glassfish.concurro.internal.ManagedCompletableFuture;
import org.glassfish.concurro.internal.ManagedFutureTask;
import org.glassfish.concurro.spi.ContextSetupProvider;
import jakarta.enterprise.concurrent.ContextService;
import jakarta.enterprise.concurrent.ManagedExecutorService;
/**
* Abstract base class for {@code ManagedExecutorService},
* {@code ManagedScheduledExecutorService} and
* {@code VirtualThreadsManagedExecutorService} implementation classes.
* Lifecycle operations are available for use by the application server.
* Application components should be handed instances that extends from
* AbstractManagedExecutorServiceAdapter instead, which have their lifecycle
* operations disabled. Instances of subclasses of this class could be used by
* the Java EE product provider to control the life cycle.
*/
public abstract class AbstractManagedExecutorService
extends AbstractExecutorService implements ManagedExecutorService {
public enum RejectPolicy {
ABORT, RETRY_ABORT
};
protected final String name;
protected final ContextSetupProvider contextSetupProvider;
protected final ContextServiceImpl contextService;
protected RejectPolicy rejectPolicy; // currently unused
protected final boolean contextualCallback;
protected boolean longRunningTasks;
public AbstractManagedExecutorService(String name,
boolean longRunningTasks,
ContextServiceImpl contextService,
ContextSetupProvider contextCallback,
RejectPolicy rejectPolicy) {
this.name = name;
this.contextSetupProvider = contextCallback;
this.contextService = contextService;
this.rejectPolicy = rejectPolicy;
this.contextualCallback = false;
this.longRunningTasks = longRunningTasks;
}
@Override
public abstract void execute(Runnable command);
public abstract ManagedThreadFactoryImpl getManagedThreadFactory();
public abstract ManagedExecutorService getAdapter();
protected abstract ExecutorService getThreadPoolExecutor();
protected <T> T doInvokeAny(Collection<? extends Callable<T>> tasks, boolean timed, long nanos) throws InterruptedException, ExecutionException, TimeoutException {
// adopted from java.util.concurrent.AbstractExecutorService.doInvokeAny()
if (tasks == null) {
throw new NullPointerException();
}
int ntasks = tasks.size();
if (ntasks == 0) {
throw new IllegalArgumentException();
}
List<Future<T>> futures = new ArrayList<>(ntasks);
ManagedExecutorCompletionService<T> ecs = new ManagedExecutorCompletionService<>(this);
// For efficiency, especially in executors with limited
// parallelism, check to see if previously submitted tasks are
// done before submitting more of them. This interleaving
// plus the exception mechanics account for messiness of main
// loop.
try {
// Record exceptions so that if we fail to obtain any
// result, we can throw the last exception we got.
ExecutionException ee = null;
long lastTime = timed ? System.nanoTime() : 0;
Iterator<? extends Callable<T>> it = tasks.iterator();
// Start one task for sure; the rest incrementally
futures.add(ecs.submit(it.next()));
--ntasks;
int active = 1;
for (;;) {
Future<T> f = ecs.poll();
if (f == null) {
if (ntasks > 0) {
--ntasks;
futures.add(ecs.submit(it.next()));
++active;
} else if (active == 0) {
break;
} else if (timed) {
f = ecs.poll(nanos, TimeUnit.NANOSECONDS);
if (f == null) {
throw new TimeoutException();
}
long now = System.nanoTime();
nanos -= now - lastTime;
lastTime = now;
} else {
f = ecs.take();
}
}
if (f != null) {
--active;
try {
return f.get();
} catch (ExecutionException eex) {
ee = eex;
} catch (RuntimeException rex) {
ee = new ExecutionException(rex);
}
}
}
if (ee == null) {
ee = new ExecutionException(null);
}
throw ee;
} finally {
for (Future<T> f : futures) {
f.cancel(true);
}
}
}
public ContextSetupProvider getContextSetupProvider() {
return contextSetupProvider;
}
@Override
public ContextService getContextService() {
return contextService;
}
public boolean isContextualCallback() {
return contextualCallback;
}
public Collection<Thread> getHungThreads() {
if (longRunningTasks) {
return null;
}
Collection<Thread> hungThreads = null;
Collection<Thread> allThreads = getThreads();
if (allThreads != null) {
long now = System.currentTimeMillis();
for (Thread thread : allThreads) {
if (isTaskHung(thread, now)) {
if (hungThreads == null) {
hungThreads = new ArrayList<>();
}
hungThreads.add(thread);
}
}
}
return hungThreads;
}
public String getName() {
return name;
}
public boolean isLongRunningTasks() {
return longRunningTasks;
}
public RejectPolicy getRejectPolicy() {
return rejectPolicy;
}
// managed objects methods
public String getObjectName() {
return null;
}
/**
* Return an array of threads in this Managed[Scheduled]ExecutorService
* @return an array of threads in this Managed[Scheduled]ExecutorService.
* It returns null if there is no thread.
*/
public Collection<Thread> getThreads() {
return getManagedThreadFactory().getThreads();
}
@Override
public <T> List<Future<T>> invokeAll(Collection<? extends Callable<T>> tasks) throws InterruptedException {
// code adopted from java.util.concurrent.AbstractExecutorService
if (tasks == null) {
throw new NullPointerException();
}
List<Future<T>> futures = new ArrayList<Future<T>>(tasks.size());
boolean done = false;
try {
for (Callable<T> t : tasks) {
ManagedFutureTask<T> f = getNewTaskFor(t);
futures.add(f);
executeManagedFutureTask(f);
}
for (Future<T> f : futures) {
if (!f.isDone()) {
try {
f.get();
} catch (CancellationException ignore) {
} catch (ExecutionException ignore) {
}
}
}
done = true;
return futures;
} finally {
if (!done) {
for (Future<T> f : futures) {
f.cancel(true);
}
}
}
}
@Override
public <T> List<Future<T>> invokeAll(Collection<? extends Callable<T>> tasks, long timeout, TimeUnit unit) throws InterruptedException {
// code adopted from java.util.concurrent.AbstractExecutorService
if (tasks == null || unit == null) {
throw new NullPointerException();
}
long nanos = unit.toNanos(timeout);
List<Future<T>> futures = new ArrayList<Future<T>>(tasks.size());
boolean done = false;
try {
for (Callable<T> t : tasks) {
futures.add(getNewTaskFor(t));
}
long lastTime = System.nanoTime();
// Interleave time checks and calls to execute in case
// executor doesn't have any/much parallelism.
Iterator<Future<T>> it = futures.iterator();
while (it.hasNext()) {
executeManagedFutureTask((ManagedFutureTask) (it.next()));
long now = System.nanoTime();
nanos -= now - lastTime;
lastTime = now;
if (nanos <= 0) {
return futures;
}
}
for (Future<T> f : futures) {
if (!f.isDone()) {
if (nanos <= 0) {
return futures;
}
try {
f.get(nanos, TimeUnit.NANOSECONDS);
} catch (CancellationException ignore) {
} catch (ExecutionException ignore) {
} catch (TimeoutException toe) {
return futures;
}
long now = System.nanoTime();
nanos -= now - lastTime;
lastTime = now;
}
}
done = true;
return futures;
} finally {
if (!done) {
for (Future<T> f : futures) {
f.cancel(true);
}
}
}
}
@Override
public <T> T invokeAny(Collection<? extends Callable<T>> tasks) throws InterruptedException, ExecutionException {
try {
return doInvokeAny(tasks, false, 0);
} catch (TimeoutException cannotHappen) {
assert false;
return null;
}
}
@Override
public <T> T invokeAny(Collection<? extends Callable<T>> tasks, long timeout, TimeUnit unit) throws InterruptedException, ExecutionException, TimeoutException {
return doInvokeAny(tasks, true, unit.toNanos(timeout));
}
public boolean isEventProvider() {
return true;
}
public boolean isStateManageable() {
return true;
}
public boolean isStatisticsProvider() {
return true;
}
/**
* @throws RejectedExecutionException {@inheritDoc}
* @throws NullPointerException {@inheritDoc}
*/
@Override
public Future<?> submit(Runnable task) {
if (task == null) {
throw new NullPointerException();
}
ManagedFutureTask<Void> ftask = getNewTaskFor(task, null);
executeManagedFutureTask(ftask);
return ftask;
}
/**
* @throws RejectedExecutionException {@inheritDoc}
* @throws NullPointerException {@inheritDoc}
*/
@Override
public <T> Future<T> submit(Runnable task, T result) {
if (task == null) {
throw new NullPointerException();
}
ManagedFutureTask<T> ftask = getNewTaskFor(task, result);
executeManagedFutureTask(ftask);
return ftask;
}
/**
* @throws RejectedExecutionException {@inheritDoc}
* @throws NullPointerException {@inheritDoc}
*/
@Override
public <T> Future<T> submit(Callable<T> task) {
if (task == null) {
throw new NullPointerException();
}
ManagedFutureTask<T> ftask = getNewTaskFor(task);
executeManagedFutureTask(ftask);
return ftask;
}
/**
* Determine, if the provided thread is hung. Hung thread runs longer than
* managedThreadFactory.hungTaskThreshold.
*
* @param thread thread to investigate
* @param now current time in milliseconds
* @return true if the thread runs longer than hungTaskThreshold
*/
protected abstract boolean isTaskHung(Thread thread, long now);
/**
* Executes a ManagedFutureTask created by getNewTaskFor().
*
* @param task The ManagedFutureTask to be run
*/
protected void executeManagedFutureTask(ManagedFutureTask<?> task) {
task.submitted();
getThreadPoolExecutor().execute(task);
}
@Override
public boolean awaitTermination(long timeout, TimeUnit unit) throws InterruptedException {
return getThreadPoolExecutor().awaitTermination(timeout, unit);
}
@Override
public boolean isShutdown() {
return getThreadPoolExecutor().isShutdown();
}
@Override
public boolean isTerminated() {
return getThreadPoolExecutor().isTerminated();
}
@Override
public void shutdown() {
getThreadPoolExecutor().shutdown();
}
@Override
public List<Runnable> shutdownNow() {
List<Runnable> pendingTasks = getThreadPoolExecutor().shutdownNow();
for (Runnable r: pendingTasks) {
if (r instanceof ManagedFutureTask) {
((ManagedFutureTask) r).cancel(true);
}
}
return pendingTasks;
}
/**
* newTaskFor from super class java.util.concurrent.AbstractExecutorService
* is protected access. This method allows newTaskFor to be called by
* other methods in this package that is not a subclass of AbstractExecutorService,
* and to return Object of type ManagedFutureTask, which extends from
* the return type of newTaskFor of FutureRunnable.
*
* @param <V> the type of the result
* @param r the runnable task to execute
* @param result the result
*
* @return the future result
*/
protected abstract <V> ManagedFutureTask<V> getNewTaskFor(Runnable r, V result);
/**
* newTaskFor from super class java.util.concurrent.AbstractExecutorService
* is protected access. This method allows newTaskFor to be called by
* other methods in this package that is not a subclass of AbstractExecutorService,
* and to return Object of type ManagedFutureTask, which extends from
* the return type of newTaskFor of FutureRunnable.
*
* @param <V> the type of the result
* @param callable the callable task to execute
*
* @return the future result
*/
protected abstract <V> ManagedFutureTask<V> getNewTaskFor(Callable<V> callable);
@Override
protected <T> RunnableFuture<T> newTaskFor(Runnable r, T result) {
return getNewTaskFor(r, result);
}
@Override
protected <T> RunnableFuture<T> newTaskFor(Callable<T> callable) {
return getNewTaskFor(callable);
}
@Override
public <U> CompletableFuture<U> completedFuture(U value) {
return ManagedCompletableFuture.completedFuture(value, this);
}
@Override
public <U> CompletionStage<U> completedStage(U value) {
return ManagedCompletableFuture.completedStage(value, this);
}
@Override
public <T> CompletableFuture<T> copy(CompletableFuture<T> future) {
return copyInternal(future);
}
@Override
public <T> CompletionStage<T> copy(CompletionStage<T> stage) {
return copyInternal(stage);
}
private <T> CompletableFuture<T> copyInternal(CompletionStage<T> future) {
ManagedCompletableFuture managedFuture = new ManagedCompletableFuture(this);
future.whenComplete((result, exception) -> {
if (exception == null) {
managedFuture.complete(result);
} else {
managedFuture.completeExceptionally(exception);
}
});
return managedFuture;
}
@Override
public <U> CompletableFuture<U> failedFuture(Throwable ex) {
return ManagedCompletableFuture.failedFuture(ex, this);
}
@Override
public <U> CompletionStage<U> failedStage(Throwable ex) {
return ManagedCompletableFuture.failedStage(ex, this);
}
@Override
public <U> CompletableFuture<U> newIncompleteFuture() {
return new ManagedCompletableFuture<>(this);
}
@Override
public CompletableFuture<Void> runAsync(Runnable runnable) {
return ManagedCompletableFuture.runAsync(runnable, this);
}
@Override
public <U> CompletableFuture<U> supplyAsync(Supplier<U> supplier) {
return ManagedCompletableFuture.supplyAsync(supplier, this);
}
/**
* Returns the ManagedExecutorService instance that is used for passing
* as the executor argument of ManagedTaskListener calls
*
* @return the ManagedExecutorService instance that is used for passing
* as the executor argument of ManagedTaskListener calls
*
*/
public abstract ManagedExecutorService getExecutorForTaskListener();
/**
* Returns the approximate total number of tasks that have ever been
* scheduled for execution. Because the states of tasks and
* threads may change dynamically during computation, the returned
* value is only an approximation.
*
* @return the number of tasks
*/
public abstract long getTaskCount();
/**
* Returns the approximate total number of tasks that have
* completed execution. Because the states of tasks and threads
* may change dynamically during computation, the returned value
* is only an approximation, but one that does not ever decrease
* across successive calls.
*
* @return the number of tasks
*/
public abstract long getCompletedTaskCount();
}