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/*
 * Copyright (C) 2011 The Guava Authors
 *
 * Licensed 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
 *
 * http://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 com.google.common.util.concurrent;

import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.util.concurrent.Futures.immediateCancelledFuture;
import static com.google.common.util.concurrent.Internal.toNanosSaturated;
import static com.google.common.util.concurrent.MoreExecutors.directExecutor;
import static com.google.common.util.concurrent.Platform.restoreInterruptIfIsInterruptedException;
import static java.util.Objects.requireNonNull;
import static java.util.concurrent.TimeUnit.NANOSECONDS;

import com.google.common.annotations.GwtIncompatible;
import com.google.common.annotations.J2ktIncompatible;
import com.google.errorprone.annotations.CanIgnoreReturnValue;
import com.google.errorprone.annotations.concurrent.GuardedBy;
import com.google.j2objc.annotations.WeakOuter;
import java.time.Duration;
import java.util.concurrent.Callable;
import java.util.concurrent.Executor;
import java.util.concurrent.Executors;
import java.util.concurrent.Future;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.ThreadFactory;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.locks.ReentrantLock;
import java.util.logging.Level;
import javax.annotation.CheckForNull;
import org.checkerframework.checker.nullness.qual.Nullable;

/**
 * Base class for services that can implement {@link #startUp} and {@link #shutDown} but while in
 * the "running" state need to perform a periodic task. Subclasses can implement {@link #startUp},
 * {@link #shutDown} and also a {@link #runOneIteration} method that will be executed periodically.
 *
 * 

This class uses the {@link ScheduledExecutorService} returned from {@link #executor} to run * the {@link #startUp} and {@link #shutDown} methods and also uses that service to schedule the * {@link #runOneIteration} that will be executed periodically as specified by its {@link * Scheduler}. When this service is asked to stop via {@link #stopAsync} it will cancel the periodic * task (but not interrupt it) and wait for it to stop before running the {@link #shutDown} method. * *

Subclasses are guaranteed that the life cycle methods ({@link #runOneIteration}, {@link * #startUp} and {@link #shutDown}) will never run concurrently. Notably, if any execution of {@link * #runOneIteration} takes longer than its schedule defines, then subsequent executions may start * late. Also, all life cycle methods are executed with a lock held, so subclasses can safely modify * shared state without additional synchronization necessary for visibility to later executions of * the life cycle methods. * *

Usage Example

* *

Here is a sketch of a service which crawls a website and uses the scheduling capabilities to * rate limit itself. * *

{@code
 * class CrawlingService extends AbstractScheduledService {
 *   private Set visited;
 *   private Queue toCrawl;
 *   protected void startUp() throws Exception {
 *     toCrawl = readStartingUris();
 *   }
 *
 *   protected void runOneIteration() throws Exception {
 *     Uri uri = toCrawl.remove();
 *     Collection newUris = crawl(uri);
 *     visited.add(uri);
 *     for (Uri newUri : newUris) {
 *       if (!visited.contains(newUri)) { toCrawl.add(newUri); }
 *     }
 *   }
 *
 *   protected void shutDown() throws Exception {
 *     saveUris(toCrawl);
 *   }
 *
 *   protected Scheduler scheduler() {
 *     return Scheduler.newFixedRateSchedule(0, 1, TimeUnit.SECONDS);
 *   }
 * }
 * }
* *

This class uses the life cycle methods to read in a list of starting URIs and save the set of * outstanding URIs when shutting down. Also, it takes advantage of the scheduling functionality to * rate limit the number of queries we perform. * * @author Luke Sandberg * @since 11.0 */ @GwtIncompatible @J2ktIncompatible @ElementTypesAreNonnullByDefault public abstract class AbstractScheduledService implements Service { private static final LazyLogger logger = new LazyLogger(AbstractScheduledService.class); /** * A scheduler defines the policy for how the {@link AbstractScheduledService} should run its * task. * *

Consider using the {@link #newFixedDelaySchedule} and {@link #newFixedRateSchedule} factory * methods, these provide {@link Scheduler} instances for the common use case of running the * service with a fixed schedule. If more flexibility is needed then consider subclassing {@link * CustomScheduler}. * * @author Luke Sandberg * @since 11.0 */ public abstract static class Scheduler { /** * Returns a {@link Scheduler} that schedules the task using the {@link * ScheduledExecutorService#scheduleWithFixedDelay} method. * * @param initialDelay the time to delay first execution * @param delay the delay between the termination of one execution and the commencement of the * next * @since 28.0 */ public static Scheduler newFixedDelaySchedule(Duration initialDelay, Duration delay) { return newFixedDelaySchedule( toNanosSaturated(initialDelay), toNanosSaturated(delay), NANOSECONDS); } /** * Returns a {@link Scheduler} that schedules the task using the {@link * ScheduledExecutorService#scheduleWithFixedDelay} method. * * @param initialDelay the time to delay first execution * @param delay the delay between the termination of one execution and the commencement of the * next * @param unit the time unit of the initialDelay and delay parameters */ @SuppressWarnings("GoodTime") // should accept a java.time.Duration public static Scheduler newFixedDelaySchedule( final long initialDelay, final long delay, final TimeUnit unit) { checkNotNull(unit); checkArgument(delay > 0, "delay must be > 0, found %s", delay); return new Scheduler() { @Override public Cancellable schedule( AbstractService service, ScheduledExecutorService executor, Runnable task) { return new FutureAsCancellable( executor.scheduleWithFixedDelay(task, initialDelay, delay, unit)); } }; } /** * Returns a {@link Scheduler} that schedules the task using the {@link * ScheduledExecutorService#scheduleAtFixedRate} method. * * @param initialDelay the time to delay first execution * @param period the period between successive executions of the task * @since 28.0 */ public static Scheduler newFixedRateSchedule(Duration initialDelay, Duration period) { return newFixedRateSchedule( toNanosSaturated(initialDelay), toNanosSaturated(period), NANOSECONDS); } /** * Returns a {@link Scheduler} that schedules the task using the {@link * ScheduledExecutorService#scheduleAtFixedRate} method. * * @param initialDelay the time to delay first execution * @param period the period between successive executions of the task * @param unit the time unit of the initialDelay and period parameters */ @SuppressWarnings("GoodTime") // should accept a java.time.Duration public static Scheduler newFixedRateSchedule( final long initialDelay, final long period, final TimeUnit unit) { checkNotNull(unit); checkArgument(period > 0, "period must be > 0, found %s", period); return new Scheduler() { @Override public Cancellable schedule( AbstractService service, ScheduledExecutorService executor, Runnable task) { return new FutureAsCancellable( executor.scheduleAtFixedRate(task, initialDelay, period, unit)); } }; } /** Schedules the task to run on the provided executor on behalf of the service. */ abstract Cancellable schedule( AbstractService service, ScheduledExecutorService executor, Runnable runnable); private Scheduler() {} } /* use AbstractService for state management */ private final AbstractService delegate = new ServiceDelegate(); @WeakOuter private final class ServiceDelegate extends AbstractService { // A handle to the running task so that we can stop it when a shutdown has been requested. // These two fields are volatile because their values will be accessed from multiple threads. @CheckForNull private volatile Cancellable runningTask; @CheckForNull private volatile ScheduledExecutorService executorService; // This lock protects the task so we can ensure that none of the template methods (startUp, // shutDown or runOneIteration) run concurrently with one another. // TODO(lukes): why don't we use ListenableFuture to sequence things? Then we could drop the // lock. private final ReentrantLock lock = new ReentrantLock(); @WeakOuter class Task implements Runnable { @Override public void run() { lock.lock(); try { /* * requireNonNull is safe because Task isn't run (or at least it doesn't succeed in taking * the lock) until after it's scheduled and the runningTask field is set. */ if (requireNonNull(runningTask).isCancelled()) { // task may have been cancelled while blocked on the lock. return; } AbstractScheduledService.this.runOneIteration(); } catch (Throwable t) { restoreInterruptIfIsInterruptedException(t); try { shutDown(); } catch (Exception ignored) { restoreInterruptIfIsInterruptedException(ignored); logger .get() .log( Level.WARNING, "Error while attempting to shut down the service after failure.", ignored); } notifyFailed(t); // requireNonNull is safe now, just as it was above. requireNonNull(runningTask).cancel(false); // prevent future invocations. } finally { lock.unlock(); } } } private final Runnable task = new Task(); @Override protected final void doStart() { executorService = MoreExecutors.renamingDecorator(executor(), () -> serviceName() + " " + state()); executorService.execute( () -> { lock.lock(); try { startUp(); /* * requireNonNull is safe because executorService is never cleared after the * assignment above. */ requireNonNull(executorService); runningTask = scheduler().schedule(delegate, executorService, task); notifyStarted(); } catch (Throwable t) { restoreInterruptIfIsInterruptedException(t); notifyFailed(t); if (runningTask != null) { // prevent the task from running if possible runningTask.cancel(false); } } finally { lock.unlock(); } }); } @Override protected final void doStop() { // Both requireNonNull calls are safe because doStop can run only after a successful doStart. requireNonNull(runningTask); requireNonNull(executorService); runningTask.cancel(false); executorService.execute( () -> { try { lock.lock(); try { if (state() != State.STOPPING) { // This means that the state has changed since we were scheduled. This implies // that an execution of runOneIteration has thrown an exception and we have // transitioned to a failed state, also this means that shutDown has already // been called, so we do not want to call it again. return; } shutDown(); } finally { lock.unlock(); } notifyStopped(); } catch (Throwable t) { restoreInterruptIfIsInterruptedException(t); notifyFailed(t); } }); } @Override public String toString() { return AbstractScheduledService.this.toString(); } } /** Constructor for use by subclasses. */ protected AbstractScheduledService() {} /** * Run one iteration of the scheduled task. If any invocation of this method throws an exception, * the service will transition to the {@link Service.State#FAILED} state and this method will no * longer be called. */ protected abstract void runOneIteration() throws Exception; /** * Start the service. * *

By default this method does nothing. */ protected void startUp() throws Exception {} /** * Stop the service. This is guaranteed not to run concurrently with {@link #runOneIteration}. * *

By default this method does nothing. */ protected void shutDown() throws Exception {} /** * Returns the {@link Scheduler} object used to configure this service. This method will only be * called once. */ // TODO(cpovirk): @ForOverride protected abstract Scheduler scheduler(); /** * Returns the {@link ScheduledExecutorService} that will be used to execute the {@link #startUp}, * {@link #runOneIteration} and {@link #shutDown} methods. If this method is overridden the * executor will not be {@linkplain ScheduledExecutorService#shutdown shutdown} when this service * {@linkplain Service.State#TERMINATED terminates} or {@linkplain Service.State#TERMINATED * fails}. Subclasses may override this method to supply a custom {@link ScheduledExecutorService} * instance. This method is guaranteed to only be called once. * *

By default this returns a new {@link ScheduledExecutorService} with a single thread pool * that sets the name of the thread to the {@linkplain #serviceName() service name}. Also, the * pool will be {@linkplain ScheduledExecutorService#shutdown() shut down} when the service * {@linkplain Service.State#TERMINATED terminates} or {@linkplain Service.State#TERMINATED * fails}. */ protected ScheduledExecutorService executor() { @WeakOuter class ThreadFactoryImpl implements ThreadFactory { @Override public Thread newThread(Runnable runnable) { return MoreExecutors.newThread(serviceName(), runnable); } } final ScheduledExecutorService executor = Executors.newSingleThreadScheduledExecutor(new ThreadFactoryImpl()); // Add a listener to shut down the executor after the service is stopped. This ensures that the // JVM shutdown will not be prevented from exiting after this service has stopped or failed. // Technically this listener is added after start() was called so it is a little gross, but it // is called within doStart() so we know that the service cannot terminate or fail concurrently // with adding this listener so it is impossible to miss an event that we are interested in. addListener( new Listener() { @Override public void terminated(State from) { executor.shutdown(); } @Override public void failed(State from, Throwable failure) { executor.shutdown(); } }, directExecutor()); return executor; } /** * Returns the name of this service. {@link AbstractScheduledService} may include the name in * debugging output. * * @since 14.0 */ protected String serviceName() { return getClass().getSimpleName(); } @Override public String toString() { return serviceName() + " [" + state() + "]"; } @Override public final boolean isRunning() { return delegate.isRunning(); } @Override public final State state() { return delegate.state(); } /** @since 13.0 */ @Override public final void addListener(Listener listener, Executor executor) { delegate.addListener(listener, executor); } /** @since 14.0 */ @Override public final Throwable failureCause() { return delegate.failureCause(); } /** @since 15.0 */ @CanIgnoreReturnValue @Override public final Service startAsync() { delegate.startAsync(); return this; } /** @since 15.0 */ @CanIgnoreReturnValue @Override public final Service stopAsync() { delegate.stopAsync(); return this; } /** @since 15.0 */ @Override public final void awaitRunning() { delegate.awaitRunning(); } /** @since 28.0 */ @Override public final void awaitRunning(Duration timeout) throws TimeoutException { Service.super.awaitRunning(timeout); } /** @since 15.0 */ @Override public final void awaitRunning(long timeout, TimeUnit unit) throws TimeoutException { delegate.awaitRunning(timeout, unit); } /** @since 15.0 */ @Override public final void awaitTerminated() { delegate.awaitTerminated(); } /** @since 28.0 */ @Override public final void awaitTerminated(Duration timeout) throws TimeoutException { Service.super.awaitTerminated(timeout); } /** @since 15.0 */ @Override public final void awaitTerminated(long timeout, TimeUnit unit) throws TimeoutException { delegate.awaitTerminated(timeout, unit); } interface Cancellable { void cancel(boolean mayInterruptIfRunning); boolean isCancelled(); } private static final class FutureAsCancellable implements Cancellable { private final Future delegate; FutureAsCancellable(Future delegate) { this.delegate = delegate; } @Override public void cancel(boolean mayInterruptIfRunning) { delegate.cancel(mayInterruptIfRunning); } @Override public boolean isCancelled() { return delegate.isCancelled(); } } /** * A {@link Scheduler} that provides a convenient way for the {@link AbstractScheduledService} to * use a dynamically changing schedule. After every execution of the task, assuming it hasn't been * cancelled, the {@link #getNextSchedule} method will be called. * * @author Luke Sandberg * @since 11.0 */ public abstract static class CustomScheduler extends Scheduler { /** A callable class that can reschedule itself using a {@link CustomScheduler}. */ private final class ReschedulableCallable implements Callable<@Nullable Void> { /** The underlying task. */ private final Runnable wrappedRunnable; /** The executor on which this Callable will be scheduled. */ private final ScheduledExecutorService executor; /** * The service that is managing this callable. This is used so that failure can be reported * properly. */ /* * This reference is part of a reference cycle, which is typically something we want to avoid * under j2objc -- but it is not detected by our j2objc cycle test. The cycle: * * - CustomScheduler.service contains an instance of ServiceDelegate. (It needs it so that it * can call notifyFailed.) * * - ServiceDelegate.runningTask contains an instance of ReschedulableCallable (at least in * the case that the service is using CustomScheduler). (It needs it so that it can cancel * the task and detect whether it has been cancelled.) * * - ReschedulableCallable has a reference back to its enclosing CustomScheduler. (It needs it * so that it can call getNextSchedule). * * Maybe there is a way to avoid this cycle. But we think the cycle is safe enough to ignore: * Each task is retained for only as long as it is running -- so it's retained only as long as * it would already be retained by the underlying executor. * * If the cycle test starts reporting this cycle in the future, we should add an entry to * cycle_suppress_list.txt. */ private final AbstractService service; /** * This lock is used to ensure safe and correct cancellation, it ensures that a new task is * not scheduled while a cancel is ongoing. Also it protects the currentFuture variable to * ensure that it is assigned atomically with being scheduled. */ private final ReentrantLock lock = new ReentrantLock(); /** The future that represents the next execution of this task. */ @GuardedBy("lock") @CheckForNull private SupplantableFuture cancellationDelegate; ReschedulableCallable( AbstractService service, ScheduledExecutorService executor, Runnable runnable) { this.wrappedRunnable = runnable; this.executor = executor; this.service = service; } @Override @CheckForNull public Void call() throws Exception { wrappedRunnable.run(); reschedule(); return null; } /** * Atomically reschedules this task and assigns the new future to {@link * #cancellationDelegate}. */ @CanIgnoreReturnValue public Cancellable reschedule() { // invoke the callback outside the lock, prevents some shenanigans. Schedule schedule; try { schedule = CustomScheduler.this.getNextSchedule(); } catch (Throwable t) { restoreInterruptIfIsInterruptedException(t); service.notifyFailed(t); return new FutureAsCancellable(immediateCancelledFuture()); } // We reschedule ourselves with a lock held for two reasons. 1. we want to make sure that // cancel calls cancel on the correct future. 2. we want to make sure that the assignment // to currentFuture doesn't race with itself so that currentFuture is assigned in the // correct order. Throwable scheduleFailure = null; Cancellable toReturn; lock.lock(); try { toReturn = initializeOrUpdateCancellationDelegate(schedule); } catch (Throwable e) { // Any Exception is either a RuntimeException or sneaky checked exception. // // If an exception is thrown by the subclass then we need to make sure that the service // notices and transitions to the FAILED state. We do it by calling notifyFailed directly // because the service does not monitor the state of the future so if the exception is not // caught and forwarded to the service the task would stop executing but the service would // have no idea. // TODO(lukes): consider building everything in terms of ListenableScheduledFuture then // the AbstractService could monitor the future directly. Rescheduling is still hard... // but it would help with some of these lock ordering issues. scheduleFailure = e; toReturn = new FutureAsCancellable(immediateCancelledFuture()); } finally { lock.unlock(); } // Call notifyFailed outside the lock to avoid lock ordering issues. if (scheduleFailure != null) { service.notifyFailed(scheduleFailure); } return toReturn; } @GuardedBy("lock") /* * The GuardedBy checker warns us that we're not holding cancellationDelegate.lock. But in * fact we are holding it because it is the same as this.lock, which we know we are holding, * thanks to @GuardedBy above. (cancellationDelegate.lock is initialized to this.lock in the * call to `new SupplantableFuture` below.) */ @SuppressWarnings("GuardedBy") private Cancellable initializeOrUpdateCancellationDelegate(Schedule schedule) { if (cancellationDelegate == null) { return cancellationDelegate = new SupplantableFuture(lock, submitToExecutor(schedule)); } if (!cancellationDelegate.currentFuture.isCancelled()) { cancellationDelegate.currentFuture = submitToExecutor(schedule); } return cancellationDelegate; } private ScheduledFuture<@Nullable Void> submitToExecutor(Schedule schedule) { return executor.schedule(this, schedule.delay, schedule.unit); } } /** * Contains the most recently submitted {@code Future}, which may be cancelled or updated, * always under a lock. */ private static final class SupplantableFuture implements Cancellable { private final ReentrantLock lock; @GuardedBy("lock") private Future<@Nullable Void> currentFuture; SupplantableFuture(ReentrantLock lock, Future<@Nullable Void> currentFuture) { this.lock = lock; this.currentFuture = currentFuture; } @Override public void cancel(boolean mayInterruptIfRunning) { /* * Lock to ensure that a task cannot be rescheduled while a cancel is ongoing. * * In theory, cancel() could execute arbitrary listeners -- bad to do while holding a lock. * However, we don't expose currentFuture to users, so they can't attach listeners. And the * Future might not even be a ListenableFuture, just a plain Future. That said, similar * problems can exist with methods like FutureTask.done(), not to mention slow calls to * Thread.interrupt() (as discussed in InterruptibleTask). At the end of the day, it's * unlikely that cancel() will be slow, so we can probably get away with calling it while * holding a lock. Still, it would be nice to avoid somehow. */ lock.lock(); try { currentFuture.cancel(mayInterruptIfRunning); } finally { lock.unlock(); } } @Override public boolean isCancelled() { lock.lock(); try { return currentFuture.isCancelled(); } finally { lock.unlock(); } } } @Override final Cancellable schedule( AbstractService service, ScheduledExecutorService executor, Runnable runnable) { return new ReschedulableCallable(service, executor, runnable).reschedule(); } /** * A value object that represents an absolute delay until a task should be invoked. * * @author Luke Sandberg * @since 11.0 */ protected static final class Schedule { private final long delay; private final TimeUnit unit; /** * @param delay the time from now to delay execution * @param unit the time unit of the delay parameter */ public Schedule(long delay, TimeUnit unit) { this.delay = delay; this.unit = checkNotNull(unit); } /** * @param delay the time from now to delay execution * @since 31.1 */ public Schedule(Duration delay) { this(toNanosSaturated(delay), NANOSECONDS); } } /** * Calculates the time at which to next invoke the task. * *

This is guaranteed to be called immediately after the task has completed an iteration and * on the same thread as the previous execution of {@link * AbstractScheduledService#runOneIteration}. * * @return a schedule that defines the delay before the next execution. */ // TODO(cpovirk): @ForOverride protected abstract Schedule getNextSchedule() throws Exception; } }





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