001 /* 002 * Copyright (C) 2011 The Guava Authors 003 * 004 * Licensed under the Apache License, Version 2.0 (the "License"); 005 * you may not use this file except in compliance with the License. 006 * You may obtain a copy of the License at 007 * 008 * http://www.apache.org/licenses/LICENSE-2.0 009 * 010 * Unless required by applicable law or agreed to in writing, software 011 * distributed under the License is distributed on an "AS IS" BASIS, 012 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 013 * See the License for the specific language governing permissions and 014 * limitations under the License. 015 */ 016 017 package com.google.common.util.concurrent; 018 019 import com.google.common.annotations.Beta; 020 import com.google.common.base.Preconditions; 021 import com.google.common.base.Throwables; 022 023 import java.util.concurrent.Callable; 024 import java.util.concurrent.Executors; 025 import java.util.concurrent.Future; 026 import java.util.concurrent.ScheduledExecutorService; 027 import java.util.concurrent.TimeUnit; 028 import java.util.concurrent.locks.ReentrantLock; 029 import java.util.logging.Level; 030 import java.util.logging.Logger; 031 032 import javax.annotation.concurrent.GuardedBy; 033 034 /** 035 * Base class for services that can implement {@link #startUp} and {@link #shutDown} but while in 036 * the "running" state need to perform a periodic task. Subclasses can implement {@link #startUp}, 037 * {@link #shutDown} and also a {@link #runOneIteration} method that will be executed periodically. 038 * 039 * <p>This class uses the {@link ScheduledExecutorService} returned from {@link #executor} to run 040 * the {@link #startUp} and {@link #shutDown} methods and also uses that service to schedule the 041 * {@link #runOneIteration} that will be executed periodically as specified by its 042 * {@link Scheduler}. When this service is asked to stop via {@link #stop} or {@link #stopAndWait}, 043 * it will cancel the periodic task (but not interrupt it) and wait for it to stop before running 044 * the {@link #shutDown} method. 045 * 046 * <p>Subclasses are guaranteed that the life cycle methods ({@link #runOneIteration}, {@link 047 * #startUp} and {@link #shutDown}) will never run concurrently. Notably, if any execution of {@link 048 * #runOneIteration} takes longer than its schedule defines, then subsequent executions may start 049 * late. Also, all life cycle methods are executed with a lock held, so subclasses can safely 050 * modify shared state without additional synchronization necessary for visibility to later 051 * executions of the life cycle methods. 052 * 053 * <h3>Usage Example</h3> 054 * 055 * Here is a sketch of a service which crawls a website and uses the scheduling capabilities to 056 * rate limit itself. <pre> {@code 057 * class CrawlingService extends AbstractScheduledService { 058 * private Set<Uri> visited; 059 * private Queue<Uri> toCrawl; 060 * protected void startUp() throws Exception { 061 * toCrawl = readStartingUris(); 062 * } 063 * 064 * protected void runOneIteration() throws Exception { 065 * Uri uri = toCrawl.remove(); 066 * Collection<Uri> newUris = crawl(uri); 067 * visited.add(uri); 068 * for (Uri newUri : newUris) { 069 * if (!visited.contains(newUri)) { toCrawl.add(newUri); } 070 * } 071 * } 072 * 073 * protected void shutDown() throws Exception { 074 * saveUris(toCrawl); 075 * } 076 * 077 * protected Scheduler scheduler() { 078 * return Scheduler.newFixedRateSchedule(0, 1, TimeUnit.SECONDS); 079 * } 080 * }}</pre> 081 * 082 * This class uses the life cycle methods to read in a list of starting URIs and save the set of 083 * outstanding URIs when shutting down. Also, it takes advantage of the scheduling functionality to 084 * rate limit the number of queries we perform. 085 * 086 * @author Luke Sandberg 087 * @since 11.0 088 */ 089 @Beta 090 public abstract class AbstractScheduledService implements Service { 091 private static final Logger logger = Logger.getLogger(AbstractScheduledService.class.getName()); 092 093 /** 094 * A scheduler defines the policy for how the {@link AbstractScheduledService} should run its 095 * task. 096 * 097 * <p>Consider using the {@link #newFixedDelaySchedule} and {@link #newFixedRateSchedule} factory 098 * methods, these provide {@link Scheduler} instances for the common use case of running the 099 * service with a fixed schedule. If more flexibility is needed then consider subclassing the 100 * {@link CustomScheduler} abstract class in preference to creating your own {@link Scheduler} 101 * implementation. 102 * 103 * @author Luke Sandberg 104 * @since 11.0 105 */ 106 public abstract static class Scheduler { 107 /** 108 * Returns a {@link Scheduler} that schedules the task using the 109 * {@link ScheduledExecutorService#scheduleWithFixedDelay} method. 110 * 111 * @param initialDelay the time to delay first execution 112 * @param delay the delay between the termination of one execution and the commencement of the 113 * next 114 * @param unit the time unit of the initialDelay and delay parameters 115 */ 116 public static Scheduler newFixedDelaySchedule(final long initialDelay, final long delay, 117 final TimeUnit unit) { 118 return new Scheduler() { 119 @Override 120 public Future<?> schedule(AbstractService service, ScheduledExecutorService executor, 121 Runnable task) { 122 return executor.scheduleWithFixedDelay(task, initialDelay, delay, unit); 123 } 124 }; 125 } 126 127 /** 128 * Returns a {@link Scheduler} that schedules the task using the 129 * {@link ScheduledExecutorService#scheduleAtFixedRate} method. 130 * 131 * @param initialDelay the time to delay first execution 132 * @param period the period between successive executions of the task 133 * @param unit the time unit of the initialDelay and period parameters 134 */ 135 public static Scheduler newFixedRateSchedule(final long initialDelay, final long period, 136 final TimeUnit unit) { 137 return new Scheduler() { 138 @Override 139 public Future<?> schedule(AbstractService service, ScheduledExecutorService executor, 140 Runnable task) { 141 return executor.scheduleAtFixedRate(task, initialDelay, period, unit); 142 } 143 }; 144 } 145 146 /** Schedules the task to run on the provided executor on behalf of the service. */ 147 abstract Future<?> schedule(AbstractService service, ScheduledExecutorService executor, 148 Runnable runnable); 149 150 private Scheduler() {} 151 } 152 153 /* use AbstractService for state management */ 154 private final AbstractService delegate = new AbstractService() { 155 156 // A handle to the running task so that we can stop it when a shutdown has been requested. 157 // These two fields are volatile because their values will be accessed from multiple threads. 158 private volatile Future<?> runningTask; 159 private volatile ScheduledExecutorService executorService; 160 161 // This lock protects the task so we can ensure that none of the template methods (startUp, 162 // shutDown or runOneIteration) run concurrently with one another. 163 private final ReentrantLock lock = new ReentrantLock(); 164 165 private final Runnable task = new Runnable() { 166 @Override public void run() { 167 lock.lock(); 168 try { 169 AbstractScheduledService.this.runOneIteration(); 170 } catch (Throwable t) { 171 try { 172 shutDown(); 173 } catch (Exception ignored) { 174 logger.log(Level.WARNING, 175 "Error while attempting to shut down the service after failure.", ignored); 176 } 177 notifyFailed(t); 178 throw Throwables.propagate(t); 179 } finally { 180 lock.unlock(); 181 } 182 } 183 }; 184 185 @Override protected final void doStart() { 186 executorService = executor(); 187 executorService.execute(new Runnable() { 188 @Override public void run() { 189 lock.lock(); 190 try { 191 startUp(); 192 runningTask = scheduler().schedule(delegate, executorService, task); 193 notifyStarted(); 194 } catch (Throwable t) { 195 notifyFailed(t); 196 throw Throwables.propagate(t); 197 } finally { 198 lock.unlock(); 199 } 200 } 201 }); 202 } 203 204 @Override protected final void doStop() { 205 runningTask.cancel(false); 206 executorService.execute(new Runnable() { 207 @Override public void run() { 208 try { 209 lock.lock(); 210 try { 211 if (state() != State.STOPPING) { 212 // This means that the state has changed since we were scheduled. This implies that 213 // an execution of runOneIteration has thrown an exception and we have transitioned 214 // to a failed state, also this means that shutDown has already been called, so we 215 // do not want to call it again. 216 return; 217 } 218 shutDown(); 219 } finally { 220 lock.unlock(); 221 } 222 notifyStopped(); 223 } catch (Throwable t) { 224 notifyFailed(t); 225 throw Throwables.propagate(t); 226 } 227 } 228 }); 229 } 230 }; 231 232 /** 233 * Run one iteration of the scheduled task. If any invocation of this method throws an exception, 234 * the service will transition to the {@link Service.State#FAILED} state and this method will no 235 * longer be called. 236 */ 237 protected abstract void runOneIteration() throws Exception; 238 239 /** Start the service. */ 240 protected abstract void startUp() throws Exception; 241 242 /** Stop the service. This is guaranteed not to run concurrently with {@link #runOneIteration}. */ 243 protected abstract void shutDown() throws Exception; 244 245 /** 246 * Returns the {@link Scheduler} object used to configure this service. This method will only be 247 * called once. 248 */ 249 protected abstract Scheduler scheduler(); 250 251 /** 252 * Returns the {@link ScheduledExecutorService} that will be used to execute the {@link #startUp}, 253 * {@link #runOneIteration} and {@link #shutDown} methods. The executor will not be 254 * {@link ScheduledExecutorService#shutdown} when this service stops. Subclasses may override this 255 * method to use a custom {@link ScheduledExecutorService} instance. 256 * 257 * <p>By default this returns a new {@link ScheduledExecutorService} with a single thread thread 258 * pool. This method will only be called once. 259 */ 260 protected ScheduledExecutorService executor() { 261 return Executors.newSingleThreadScheduledExecutor(); 262 } 263 264 @Override public String toString() { 265 return getClass().getSimpleName() + " [" + state() + "]"; 266 } 267 268 // We override instead of using ForwardingService so that these can be final. 269 270 @Override public final ListenableFuture<State> start() { 271 return delegate.start(); 272 } 273 274 @Override public final State startAndWait() { 275 return delegate.startAndWait(); 276 } 277 278 @Override public final boolean isRunning() { 279 return delegate.isRunning(); 280 } 281 282 @Override public final State state() { 283 return delegate.state(); 284 } 285 286 @Override public final ListenableFuture<State> stop() { 287 return delegate.stop(); 288 } 289 290 @Override public final State stopAndWait() { 291 return delegate.stopAndWait(); 292 } 293 294 /** 295 * A {@link Scheduler} that provides a convenient way for the {@link AbstractScheduledService} to 296 * use a dynamically changing schedule. After every execution of the task, assuming it hasn't 297 * been cancelled, the {@link #getNextSchedule} method will be called. 298 * 299 * @author Luke Sandberg 300 * @since 11.0 301 */ 302 @Beta 303 public abstract static class CustomScheduler extends Scheduler { 304 305 /** 306 * A callable class that can reschedule itself using a {@link CustomScheduler}. 307 */ 308 private class ReschedulableCallable extends ForwardingFuture<Void> implements Callable<Void> { 309 310 /** The underlying task. */ 311 private final Runnable wrappedRunnable; 312 313 /** The executor on which this Callable will be scheduled. */ 314 private final ScheduledExecutorService executor; 315 316 /** 317 * The service that is managing this callable. This is used so that failure can be 318 * reported properly. 319 */ 320 private final AbstractService service; 321 322 /** 323 * This lock is used to ensure safe and correct cancellation, it ensures that a new task is 324 * not scheduled while a cancel is ongoing. Also it protects the currentFuture variable to 325 * ensure that it is assigned atomically with being scheduled. 326 */ 327 private final ReentrantLock lock = new ReentrantLock(); 328 329 /** The future that represents the next execution of this task.*/ 330 @GuardedBy("lock") 331 private Future<Void> currentFuture; 332 333 ReschedulableCallable(AbstractService service, ScheduledExecutorService executor, 334 Runnable runnable) { 335 this.wrappedRunnable = runnable; 336 this.executor = executor; 337 this.service = service; 338 } 339 340 @Override 341 public Void call() throws Exception { 342 wrappedRunnable.run(); 343 reschedule(); 344 return null; 345 } 346 347 /** 348 * Atomically reschedules this task and assigns the new future to {@link #currentFuture}. 349 */ 350 public void reschedule() { 351 // We reschedule ourselves with a lock held for two reasons. 1. we want to make sure that 352 // cancel calls cancel on the correct future. 2. we want to make sure that the assignment 353 // to currentFuture doesn't race with itself so that currentFuture is assigned in the 354 // correct order. 355 lock.lock(); 356 try { 357 if (currentFuture == null || !currentFuture.isCancelled()) { 358 final Schedule schedule = CustomScheduler.this.getNextSchedule(); 359 currentFuture = executor.schedule(this, schedule.delay, schedule.unit); 360 } 361 } catch (Throwable e) { 362 // If an exception is thrown by the subclass then we need to make sure that the service 363 // notices and transitions to the FAILED state. We do it by calling notifyFailed directly 364 // because the service does not monitor the state of the future so if the exception is not 365 // caught and forwarded to the service the task would stop executing but the service would 366 // have no idea. 367 service.notifyFailed(e); 368 } finally { 369 lock.unlock(); 370 } 371 } 372 373 // N.B. Only protect cancel and isCancelled because those are the only methods that are 374 // invoked by the AbstractScheduledService. 375 @Override 376 public boolean cancel(boolean mayInterruptIfRunning) { 377 // Ensure that a task cannot be rescheduled while a cancel is ongoing. 378 lock.lock(); 379 try { 380 return currentFuture.cancel(mayInterruptIfRunning); 381 } finally { 382 lock.unlock(); 383 } 384 } 385 386 @Override 387 protected Future<Void> delegate() { 388 throw new UnsupportedOperationException("Only cancel is supported by this future"); 389 } 390 } 391 392 @Override 393 final Future<?> schedule(AbstractService service, ScheduledExecutorService executor, 394 Runnable runnable) { 395 ReschedulableCallable task = new ReschedulableCallable(service, executor, runnable); 396 task.reschedule(); 397 return task; 398 } 399 400 /** 401 * A value object that represents an absolute delay until a task should be invoked. 402 * 403 * @author Luke Sandberg 404 * @since 11.0 405 */ 406 @Beta 407 protected static final class Schedule { 408 409 private final long delay; 410 private final TimeUnit unit; 411 412 /** 413 * @param delay the time from now to delay execution 414 * @param unit the time unit of the delay parameter 415 */ 416 public Schedule(long delay, TimeUnit unit) { 417 this.delay = delay; 418 this.unit = Preconditions.checkNotNull(unit); 419 } 420 } 421 422 /** 423 * Calculates the time at which to next invoke the task. 424 * 425 * <p>This is guaranteed to be called immediately after the task has completed an iteration and 426 * on the same thread as the previous execution of {@link 427 * AbstractScheduledService#runOneIteration}. 428 * 429 * @return a schedule that defines the delay before the next execution. 430 */ 431 protected abstract Schedule getNextSchedule() throws Exception; 432 } 433 }