1 /* 2 * Copyright (C) 2006 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 package android.app; 18 19 import android.content.ComponentCallbacks2; 20 import android.content.ComponentName; 21 import android.content.Intent; 22 import android.content.ContextWrapper; 23 import android.content.Context; 24 import android.content.res.Configuration; 25 import android.os.Build; 26 import android.os.RemoteException; 27 import android.os.IBinder; 28 import android.util.Log; 29 30 import java.io.FileDescriptor; 31 import java.io.PrintWriter; 32 33 /** 34 * A Service is an application component representing either an application's desire 35 * to perform a longer-running operation while not interacting with the user 36 * or to supply functionality for other applications to use. Each service 37 * class must have a corresponding 38 * {@link android.R.styleable#AndroidManifestService <service>} 39 * declaration in its package's <code>AndroidManifest.xml</code>. Services 40 * can be started with 41 * {@link android.content.Context#startService Context.startService()} and 42 * {@link android.content.Context#bindService Context.bindService()}. 43 * 44 * <p>Note that services, like other application objects, run in the main 45 * thread of their hosting process. This means that, if your service is going 46 * to do any CPU intensive (such as MP3 playback) or blocking (such as 47 * networking) operations, it should spawn its own thread in which to do that 48 * work. More information on this can be found in 49 * <a href="{@docRoot}guide/topics/fundamentals/processes-and-threads.html">Processes and 50 * Threads</a>. The {@link IntentService} class is available 51 * as a standard implementation of Service that has its own thread where it 52 * schedules its work to be done.</p> 53 * 54 * <p>Topics covered here: 55 * <ol> 56 * <li><a href="#WhatIsAService">What is a Service?</a> 57 * <li><a href="#ServiceLifecycle">Service Lifecycle</a> 58 * <li><a href="#Permissions">Permissions</a> 59 * <li><a href="#ProcessLifecycle">Process Lifecycle</a> 60 * <li><a href="#LocalServiceSample">Local Service Sample</a> 61 * <li><a href="#RemoteMessengerServiceSample">Remote Messenger Service Sample</a> 62 * </ol> 63 * 64 * <div class="special reference"> 65 * <h3>Developer Guides</h3> 66 * <p>For a detailed discussion about how to create services, read the 67 * <a href="{@docRoot}guide/topics/fundamentals/services.html">Services</a> developer guide.</p> 68 * </div> 69 * 70 * <a name="WhatIsAService"></a> 71 * <h3>What is a Service?</h3> 72 * 73 * <p>Most confusion about the Service class actually revolves around what 74 * it is <em>not</em>:</p> 75 * 76 * <ul> 77 * <li> A Service is <b>not</b> a separate process. The Service object itself 78 * does not imply it is running in its own process; unless otherwise specified, 79 * it runs in the same process as the application it is part of. 80 * <li> A Service is <b>not</b> a thread. It is not a means itself to do work off 81 * of the main thread (to avoid Application Not Responding errors). 82 * </ul> 83 * 84 * <p>Thus a Service itself is actually very simple, providing two main features:</p> 85 * 86 * <ul> 87 * <li>A facility for the application to tell the system <em>about</em> 88 * something it wants to be doing in the background (even when the user is not 89 * directly interacting with the application). This corresponds to calls to 90 * {@link android.content.Context#startService Context.startService()}, which 91 * ask the system to schedule work for the service, to be run until the service 92 * or someone else explicitly stop it. 93 * <li>A facility for an application to expose some of its functionality to 94 * other applications. This corresponds to calls to 95 * {@link android.content.Context#bindService Context.bindService()}, which 96 * allows a long-standing connection to be made to the service in order to 97 * interact with it. 98 * </ul> 99 * 100 * <p>When a Service component is actually created, for either of these reasons, 101 * all that the system actually does is instantiate the component 102 * and call its {@link #onCreate} and any other appropriate callbacks on the 103 * main thread. It is up to the Service to implement these with the appropriate 104 * behavior, such as creating a secondary thread in which it does its work.</p> 105 * 106 * <p>Note that because Service itself is so simple, you can make your 107 * interaction with it as simple or complicated as you want: from treating it 108 * as a local Java object that you make direct method calls on (as illustrated 109 * by <a href="#LocalServiceSample">Local Service Sample</a>), to providing 110 * a full remoteable interface using AIDL.</p> 111 * 112 * <a name="ServiceLifecycle"></a> 113 * <h3>Service Lifecycle</h3> 114 * 115 * <p>There are two reasons that a service can be run by the system. If someone 116 * calls {@link android.content.Context#startService Context.startService()} then the system will 117 * retrieve the service (creating it and calling its {@link #onCreate} method 118 * if needed) and then call its {@link #onStartCommand} method with the 119 * arguments supplied by the client. The service will at this point continue 120 * running until {@link android.content.Context#stopService Context.stopService()} or 121 * {@link #stopSelf()} is called. Note that multiple calls to 122 * Context.startService() do not nest (though they do result in multiple corresponding 123 * calls to onStartCommand()), so no matter how many times it is started a service 124 * will be stopped once Context.stopService() or stopSelf() is called; however, 125 * services can use their {@link #stopSelf(int)} method to ensure the service is 126 * not stopped until started intents have been processed. 127 * 128 * <p>For started services, there are two additional major modes of operation 129 * they can decide to run in, depending on the value they return from 130 * onStartCommand(): {@link #START_STICKY} is used for services that are 131 * explicitly started and stopped as needed, while {@link #START_NOT_STICKY} 132 * or {@link #START_REDELIVER_INTENT} are used for services that should only 133 * remain running while processing any commands sent to them. See the linked 134 * documentation for more detail on the semantics. 135 * 136 * <p>Clients can also use {@link android.content.Context#bindService Context.bindService()} to 137 * obtain a persistent connection to a service. This likewise creates the 138 * service if it is not already running (calling {@link #onCreate} while 139 * doing so), but does not call onStartCommand(). The client will receive the 140 * {@link android.os.IBinder} object that the service returns from its 141 * {@link #onBind} method, allowing the client to then make calls back 142 * to the service. The service will remain running as long as the connection 143 * is established (whether or not the client retains a reference on the 144 * service's IBinder). Usually the IBinder returned is for a complex 145 * interface that has been <a href="{@docRoot}guide/components/aidl.html">written 146 * in aidl</a>. 147 * 148 * <p>A service can be both started and have connections bound to it. In such 149 * a case, the system will keep the service running as long as either it is 150 * started <em>or</em> there are one or more connections to it with the 151 * {@link android.content.Context#BIND_AUTO_CREATE Context.BIND_AUTO_CREATE} 152 * flag. Once neither 153 * of these situations hold, the service's {@link #onDestroy} method is called 154 * and the service is effectively terminated. All cleanup (stopping threads, 155 * unregistering receivers) should be complete upon returning from onDestroy(). 156 * 157 * <a name="Permissions"></a> 158 * <h3>Permissions</h3> 159 * 160 * <p>Global access to a service can be enforced when it is declared in its 161 * manifest's {@link android.R.styleable#AndroidManifestService <service>} 162 * tag. By doing so, other applications will need to declare a corresponding 163 * {@link android.R.styleable#AndroidManifestUsesPermission <uses-permission>} 164 * element in their own manifest to be able to start, stop, or bind to 165 * the service. 166 * 167 * <p>As of {@link android.os.Build.VERSION_CODES#GINGERBREAD}, when using 168 * {@link Context#startService(Intent) Context.startService(Intent)}, you can 169 * also set {@link Intent#FLAG_GRANT_READ_URI_PERMISSION 170 * Intent.FLAG_GRANT_READ_URI_PERMISSION} and/or {@link Intent#FLAG_GRANT_WRITE_URI_PERMISSION 171 * Intent.FLAG_GRANT_WRITE_URI_PERMISSION} on the Intent. This will grant the 172 * Service temporary access to the specific URIs in the Intent. Access will 173 * remain until the Service has called {@link #stopSelf(int)} for that start 174 * command or a later one, or until the Service has been completely stopped. 175 * This works for granting access to the other apps that have not requested 176 * the permission protecting the Service, or even when the Service is not 177 * exported at all. 178 * 179 * <p>In addition, a service can protect individual IPC calls into it with 180 * permissions, by calling the 181 * {@link #checkCallingPermission} 182 * method before executing the implementation of that call. 183 * 184 * <p>See the <a href="{@docRoot}guide/topics/security/security.html">Security and Permissions</a> 185 * document for more information on permissions and security in general. 186 * 187 * <a name="ProcessLifecycle"></a> 188 * <h3>Process Lifecycle</h3> 189 * 190 * <p>The Android system will attempt to keep the process hosting a service 191 * around as long as the service has been started or has clients bound to it. 192 * When running low on memory and needing to kill existing processes, the 193 * priority of a process hosting the service will be the higher of the 194 * following possibilities: 195 * 196 * <ul> 197 * <li><p>If the service is currently executing code in its 198 * {@link #onCreate onCreate()}, {@link #onStartCommand onStartCommand()}, 199 * or {@link #onDestroy onDestroy()} methods, then the hosting process will 200 * be a foreground process to ensure this code can execute without 201 * being killed. 202 * <li><p>If the service has been started, then its hosting process is considered 203 * to be less important than any processes that are currently visible to the 204 * user on-screen, but more important than any process not visible. Because 205 * only a few processes are generally visible to the user, this means that 206 * the service should not be killed except in extreme low memory conditions. 207 * <li><p>If there are clients bound to the service, then the service's hosting 208 * process is never less important than the most important client. That is, 209 * if one of its clients is visible to the user, then the service itself is 210 * considered to be visible. 211 * <li><p>A started service can use the {@link #startForeground(int, Notification)} 212 * API to put the service in a foreground state, where the system considers 213 * it to be something the user is actively aware of and thus not a candidate 214 * for killing when low on memory. (It is still theoretically possible for 215 * the service to be killed under extreme memory pressure from the current 216 * foreground application, but in practice this should not be a concern.) 217 * </ul> 218 * 219 * <p>Note this means that most of the time your service is running, it may 220 * be killed by the system if it is under heavy memory pressure. If this 221 * happens, the system will later try to restart the service. An important 222 * consequence of this is that if you implement {@link #onStartCommand onStartCommand()} 223 * to schedule work to be done asynchronously or in another thread, then you 224 * may want to use {@link #START_FLAG_REDELIVERY} to have the system 225 * re-deliver an Intent for you so that it does not get lost if your service 226 * is killed while processing it. 227 * 228 * <p>Other application components running in the same process as the service 229 * (such as an {@link android.app.Activity}) can, of course, increase the 230 * importance of the overall 231 * process beyond just the importance of the service itself. 232 * 233 * <a name="LocalServiceSample"></a> 234 * <h3>Local Service Sample</h3> 235 * 236 * <p>One of the most common uses of a Service is as a secondary component 237 * running alongside other parts of an application, in the same process as 238 * the rest of the components. All components of an .apk run in the same 239 * process unless explicitly stated otherwise, so this is a typical situation. 240 * 241 * <p>When used in this way, by assuming the 242 * components are in the same process, you can greatly simplify the interaction 243 * between them: clients of the service can simply cast the IBinder they 244 * receive from it to a concrete class published by the service. 245 * 246 * <p>An example of this use of a Service is shown here. First is the Service 247 * itself, publishing a custom class when bound: 248 * 249 * {@sample development/samples/ApiDemos/src/com/example/android/apis/app/LocalService.java 250 * service} 251 * 252 * <p>With that done, one can now write client code that directly accesses the 253 * running service, such as: 254 * 255 * {@sample development/samples/ApiDemos/src/com/example/android/apis/app/LocalServiceActivities.java 256 * bind} 257 * 258 * <a name="RemoteMessengerServiceSample"></a> 259 * <h3>Remote Messenger Service Sample</h3> 260 * 261 * <p>If you need to be able to write a Service that can perform complicated 262 * communication with clients in remote processes (beyond simply the use of 263 * {@link Context#startService(Intent) Context.startService} to send 264 * commands to it), then you can use the {@link android.os.Messenger} class 265 * instead of writing full AIDL files. 266 * 267 * <p>An example of a Service that uses Messenger as its client interface 268 * is shown here. First is the Service itself, publishing a Messenger to 269 * an internal Handler when bound: 270 * 271 * {@sample development/samples/ApiDemos/src/com/example/android/apis/app/MessengerService.java 272 * service} 273 * 274 * <p>If we want to make this service run in a remote process (instead of the 275 * standard one for its .apk), we can use <code>android:process</code> in its 276 * manifest tag to specify one: 277 * 278 * {@sample development/samples/ApiDemos/AndroidManifest.xml remote_service_declaration} 279 * 280 * <p>Note that the name "remote" chosen here is arbitrary, and you can use 281 * other names if you want additional processes. The ':' prefix appends the 282 * name to your package's standard process name. 283 * 284 * <p>With that done, clients can now bind to the service and send messages 285 * to it. Note that this allows clients to register with it to receive 286 * messages back as well: 287 * 288 * {@sample development/samples/ApiDemos/src/com/example/android/apis/app/MessengerServiceActivities.java 289 * bind} 290 */ 291 public abstract class Service extends ContextWrapper implements ComponentCallbacks2 { 292 private static final String TAG = "Service"; 293 294 public Service() { 295 super(null); 296 } 297 298 /** Return the application that owns this service. */ 299 public final Application getApplication() { 300 return mApplication; 301 } 302 303 /** 304 * Called by the system when the service is first created. Do not call this method directly. 305 */ 306 public void onCreate() { 307 } 308 309 /** 310 * @deprecated Implement {@link #onStartCommand(Intent, int, int)} instead. 311 */ 312 @Deprecated 313 public void onStart(Intent intent, int startId) { 314 } 315 316 /** 317 * Bits returned by {@link #onStartCommand} describing how to continue 318 * the service if it is killed. May be {@link #START_STICKY}, 319 * {@link #START_NOT_STICKY}, {@link #START_REDELIVER_INTENT}, 320 * or {@link #START_STICKY_COMPATIBILITY}. 321 */ 322 public static final int START_CONTINUATION_MASK = 0xf; 323 324 /** 325 * Constant to return from {@link #onStartCommand}: compatibility 326 * version of {@link #START_STICKY} that does not guarantee that 327 * {@link #onStartCommand} will be called again after being killed. 328 */ 329 public static final int START_STICKY_COMPATIBILITY = 0; 330 331 /** 332 * Constant to return from {@link #onStartCommand}: if this service's 333 * process is killed while it is started (after returning from 334 * {@link #onStartCommand}), then leave it in the started state but 335 * don't retain this delivered intent. Later the system will try to 336 * re-create the service. Because it is in the started state, it will 337 * guarantee to call {@link #onStartCommand} after creating the new 338 * service instance; if there are not any pending start commands to be 339 * delivered to the service, it will be called with a null intent 340 * object, so you must take care to check for this. 341 * 342 * <p>This mode makes sense for things that will be explicitly started 343 * and stopped to run for arbitrary periods of time, such as a service 344 * performing background music playback. 345 */ 346 public static final int START_STICKY = 1; 347 348 /** 349 * Constant to return from {@link #onStartCommand}: if this service's 350 * process is killed while it is started (after returning from 351 * {@link #onStartCommand}), and there are no new start intents to 352 * deliver to it, then take the service out of the started state and 353 * don't recreate until a future explicit call to 354 * {@link Context#startService Context.startService(Intent)}. The 355 * service will not receive a {@link #onStartCommand(Intent, int, int)} 356 * call with a null Intent because it will not be re-started if there 357 * are no pending Intents to deliver. 358 * 359 * <p>This mode makes sense for things that want to do some work as a 360 * result of being started, but can be stopped when under memory pressure 361 * and will explicit start themselves again later to do more work. An 362 * example of such a service would be one that polls for data from 363 * a server: it could schedule an alarm to poll every N minutes by having 364 * the alarm start its service. When its {@link #onStartCommand} is 365 * called from the alarm, it schedules a new alarm for N minutes later, 366 * and spawns a thread to do its networking. If its process is killed 367 * while doing that check, the service will not be restarted until the 368 * alarm goes off. 369 */ 370 public static final int START_NOT_STICKY = 2; 371 372 /** 373 * Constant to return from {@link #onStartCommand}: if this service's 374 * process is killed while it is started (after returning from 375 * {@link #onStartCommand}), then it will be scheduled for a restart 376 * and the last delivered Intent re-delivered to it again via 377 * {@link #onStartCommand}. This Intent will remain scheduled for 378 * redelivery until the service calls {@link #stopSelf(int)} with the 379 * start ID provided to {@link #onStartCommand}. The 380 * service will not receive a {@link #onStartCommand(Intent, int, int)} 381 * call with a null Intent because it will will only be re-started if 382 * it is not finished processing all Intents sent to it (and any such 383 * pending events will be delivered at the point of restart). 384 */ 385 public static final int START_REDELIVER_INTENT = 3; 386 387 /** 388 * Special constant for reporting that we are done processing 389 * {@link #onTaskRemoved(Intent)}. 390 * @hide 391 */ 392 public static final int START_TASK_REMOVED_COMPLETE = 1000; 393 394 /** 395 * This flag is set in {@link #onStartCommand} if the Intent is a 396 * re-delivery of a previously delivered intent, because the service 397 * had previously returned {@link #START_REDELIVER_INTENT} but had been 398 * killed before calling {@link #stopSelf(int)} for that Intent. 399 */ 400 public static final int START_FLAG_REDELIVERY = 0x0001; 401 402 /** 403 * This flag is set in {@link #onStartCommand} if the Intent is a 404 * a retry because the original attempt never got to or returned from 405 * {@link #onStartCommand(Intent, int, int)}. 406 */ 407 public static final int START_FLAG_RETRY = 0x0002; 408 409 /** 410 * Called by the system every time a client explicitly starts the service by calling 411 * {@link android.content.Context#startService}, providing the arguments it supplied and a 412 * unique integer token representing the start request. Do not call this method directly. 413 * 414 * <p>For backwards compatibility, the default implementation calls 415 * {@link #onStart} and returns either {@link #START_STICKY} 416 * or {@link #START_STICKY_COMPATIBILITY}. 417 * 418 * <p>If you need your application to run on platform versions prior to API 419 * level 5, you can use the following model to handle the older {@link #onStart} 420 * callback in that case. The <code>handleCommand</code> method is implemented by 421 * you as appropriate: 422 * 423 * {@sample development/samples/ApiDemos/src/com/example/android/apis/app/ForegroundService.java 424 * start_compatibility} 425 * 426 * <p class="caution">Note that the system calls this on your 427 * service's main thread. A service's main thread is the same 428 * thread where UI operations take place for Activities running in the 429 * same process. You should always avoid stalling the main 430 * thread's event loop. When doing long-running operations, 431 * network calls, or heavy disk I/O, you should kick off a new 432 * thread, or use {@link android.os.AsyncTask}.</p> 433 * 434 * @param intent The Intent supplied to {@link android.content.Context#startService}, 435 * as given. This may be null if the service is being restarted after 436 * its process has gone away, and it had previously returned anything 437 * except {@link #START_STICKY_COMPATIBILITY}. 438 * @param flags Additional data about this start request. Currently either 439 * 0, {@link #START_FLAG_REDELIVERY}, or {@link #START_FLAG_RETRY}. 440 * @param startId A unique integer representing this specific request to 441 * start. Use with {@link #stopSelfResult(int)}. 442 * 443 * @return The return value indicates what semantics the system should 444 * use for the service's current started state. It may be one of the 445 * constants associated with the {@link #START_CONTINUATION_MASK} bits. 446 * 447 * @see #stopSelfResult(int) 448 */ 449 public int onStartCommand(Intent intent, int flags, int startId) { 450 onStart(intent, startId); 451 return mStartCompatibility ? START_STICKY_COMPATIBILITY : START_STICKY; 452 } 453 454 /** 455 * Called by the system to notify a Service that it is no longer used and is being removed. The 456 * service should clean up any resources it holds (threads, registered 457 * receivers, etc) at this point. Upon return, there will be no more calls 458 * in to this Service object and it is effectively dead. Do not call this method directly. 459 */ 460 public void onDestroy() { 461 } 462 463 public void onConfigurationChanged(Configuration newConfig) { 464 } 465 466 public void onLowMemory() { 467 } 468 469 public void onTrimMemory(int level) { 470 } 471 472 /** 473 * Return the communication channel to the service. May return null if 474 * clients can not bind to the service. The returned 475 * {@link android.os.IBinder} is usually for a complex interface 476 * that has been <a href="{@docRoot}guide/components/aidl.html">described using 477 * aidl</a>. 478 * 479 * <p><em>Note that unlike other application components, calls on to the 480 * IBinder interface returned here may not happen on the main thread 481 * of the process</em>. More information about the main thread can be found in 482 * <a href="{@docRoot}guide/topics/fundamentals/processes-and-threads.html">Processes and 483 * Threads</a>.</p> 484 * 485 * @param intent The Intent that was used to bind to this service, 486 * as given to {@link android.content.Context#bindService 487 * Context.bindService}. Note that any extras that were included with 488 * the Intent at that point will <em>not</em> be seen here. 489 * 490 * @return Return an IBinder through which clients can call on to the 491 * service. 492 */ 493 public abstract IBinder onBind(Intent intent); 494 495 /** 496 * Called when all clients have disconnected from a particular interface 497 * published by the service. The default implementation does nothing and 498 * returns false. 499 * 500 * @param intent The Intent that was used to bind to this service, 501 * as given to {@link android.content.Context#bindService 502 * Context.bindService}. Note that any extras that were included with 503 * the Intent at that point will <em>not</em> be seen here. 504 * 505 * @return Return true if you would like to have the service's 506 * {@link #onRebind} method later called when new clients bind to it. 507 */ 508 public boolean onUnbind(Intent intent) { 509 return false; 510 } 511 512 /** 513 * Called when new clients have connected to the service, after it had 514 * previously been notified that all had disconnected in its 515 * {@link #onUnbind}. This will only be called if the implementation 516 * of {@link #onUnbind} was overridden to return true. 517 * 518 * @param intent The Intent that was used to bind to this service, 519 * as given to {@link android.content.Context#bindService 520 * Context.bindService}. Note that any extras that were included with 521 * the Intent at that point will <em>not</em> be seen here. 522 */ 523 public void onRebind(Intent intent) { 524 } 525 526 /** 527 * This is called if the service is currently running and the user has 528 * removed a task that comes from the service's application. If you have 529 * set {@link android.content.pm.ServiceInfo#FLAG_STOP_WITH_TASK ServiceInfo.FLAG_STOP_WITH_TASK} 530 * then you will not receive this callback; instead, the service will simply 531 * be stopped. 532 * 533 * @param rootIntent The original root Intent that was used to launch 534 * the task that is being removed. 535 */ 536 public void onTaskRemoved(Intent rootIntent) { 537 } 538 539 /** 540 * Stop the service, if it was previously started. This is the same as 541 * calling {@link android.content.Context#stopService} for this particular service. 542 * 543 * @see #stopSelfResult(int) 544 */ 545 public final void stopSelf() { 546 stopSelf(-1); 547 } 548 549 /** 550 * Old version of {@link #stopSelfResult} that doesn't return a result. 551 * 552 * @see #stopSelfResult 553 */ 554 public final void stopSelf(int startId) { 555 if (mActivityManager == null) { 556 return; 557 } 558 try { 559 mActivityManager.stopServiceToken( 560 new ComponentName(this, mClassName), mToken, startId); 561 } catch (RemoteException ex) { 562 } 563 } 564 565 /** 566 * Stop the service if the most recent time it was started was 567 * <var>startId</var>. This is the same as calling {@link 568 * android.content.Context#stopService} for this particular service but allows you to 569 * safely avoid stopping if there is a start request from a client that you 570 * haven't yet seen in {@link #onStart}. 571 * 572 * <p><em>Be careful about ordering of your calls to this function.</em>. 573 * If you call this function with the most-recently received ID before 574 * you have called it for previously received IDs, the service will be 575 * immediately stopped anyway. If you may end up processing IDs out 576 * of order (such as by dispatching them on separate threads), then you 577 * are responsible for stopping them in the same order you received them.</p> 578 * 579 * @param startId The most recent start identifier received in {@link 580 * #onStart}. 581 * @return Returns true if the startId matches the last start request 582 * and the service will be stopped, else false. 583 * 584 * @see #stopSelf() 585 */ 586 public final boolean stopSelfResult(int startId) { 587 if (mActivityManager == null) { 588 return false; 589 } 590 try { 591 return mActivityManager.stopServiceToken( 592 new ComponentName(this, mClassName), mToken, startId); 593 } catch (RemoteException ex) { 594 } 595 return false; 596 } 597 598 /** 599 * @deprecated This is a now a no-op, use 600 * {@link #startForeground(int, Notification)} instead. This method 601 * has been turned into a no-op rather than simply being deprecated 602 * because analysis of numerous poorly behaving devices has shown that 603 * increasingly often the trouble is being caused in part by applications 604 * that are abusing it. Thus, given a choice between introducing 605 * problems in existing applications using this API (by allowing them to 606 * be killed when they would like to avoid it), vs allowing the performance 607 * of the entire system to be decreased, this method was deemed less 608 * important. 609 * 610 * @hide 611 */ 612 @Deprecated 613 public final void setForeground(boolean isForeground) { 614 Log.w(TAG, "setForeground: ignoring old API call on " + getClass().getName()); 615 } 616 617 /** 618 * Make this service run in the foreground, supplying the ongoing 619 * notification to be shown to the user while in this state. 620 * By default services are background, meaning that if the system needs to 621 * kill them to reclaim more memory (such as to display a large page in a 622 * web browser), they can be killed without too much harm. You can set this 623 * flag if killing your service would be disruptive to the user, such as 624 * if your service is performing background music playback, so the user 625 * would notice if their music stopped playing. 626 * 627 * <p>If you need your application to run on platform versions prior to API 628 * level 5, you can use the following model to call the the older setForeground() 629 * or this modern method as appropriate: 630 * 631 * {@sample development/samples/ApiDemos/src/com/example/android/apis/app/ForegroundService.java 632 * foreground_compatibility} 633 * 634 * @param id The identifier for this notification as per 635 * {@link NotificationManager#notify(int, Notification) 636 * NotificationManager.notify(int, Notification)}. 637 * @param notification The Notification to be displayed. 638 * 639 * @see #stopForeground(boolean) 640 */ 641 public final void startForeground(int id, Notification notification) { 642 try { 643 mActivityManager.setServiceForeground( 644 new ComponentName(this, mClassName), mToken, id, 645 notification, true); 646 } catch (RemoteException ex) { 647 } 648 } 649 650 /** 651 * Remove this service from foreground state, allowing it to be killed if 652 * more memory is needed. 653 * @param removeNotification If true, the notification previously provided 654 * to {@link #startForeground} will be removed. Otherwise it will remain 655 * until a later call removes it (or the service is destroyed). 656 * @see #startForeground(int, Notification) 657 */ 658 public final void stopForeground(boolean removeNotification) { 659 try { 660 mActivityManager.setServiceForeground( 661 new ComponentName(this, mClassName), mToken, 0, null, 662 removeNotification); 663 } catch (RemoteException ex) { 664 } 665 } 666 667 /** 668 * Print the Service's state into the given stream. This gets invoked if 669 * you run "adb shell dumpsys activity service <yourservicename>". 670 * This is distinct from "dumpsys <servicename>", which only works for 671 * named system services and which invokes the {@link IBinder#dump} method 672 * on the {@link IBinder} interface registered with ServiceManager. 673 * 674 * @param fd The raw file descriptor that the dump is being sent to. 675 * @param writer The PrintWriter to which you should dump your state. This will be 676 * closed for you after you return. 677 * @param args additional arguments to the dump request. 678 */ 679 protected void dump(FileDescriptor fd, PrintWriter writer, String[] args) { 680 writer.println("nothing to dump"); 681 } 682 683 // ------------------ Internal API ------------------ 684 685 /** 686 * @hide 687 */ 688 public final void attach( 689 Context context, 690 ActivityThread thread, String className, IBinder token, 691 Application application, Object activityManager) { 692 attachBaseContext(context); 693 mThread = thread; // NOTE: unused - remove? 694 mClassName = className; 695 mToken = token; 696 mApplication = application; 697 mActivityManager = (IActivityManager)activityManager; 698 mStartCompatibility = getApplicationInfo().targetSdkVersion 699 < Build.VERSION_CODES.ECLAIR; 700 } 701 702 final String getClassName() { 703 return mClassName; 704 } 705 706 // set by the thread after the constructor and before onCreate(Bundle icicle) is called. 707 private ActivityThread mThread = null; 708 private String mClassName = null; 709 private IBinder mToken = null; 710 private Application mApplication = null; 711 private IActivityManager mActivityManager = null; 712 private boolean mStartCompatibility = false; 713 } 714