Android background service example

Android O and background services

Всем привет. Как и большенству разработчиков — мне было лень делать сложные изменения от версии к версии Андроида. Первым таким сложным изменением были -«Runtime permissions», которые пришли к нам с 6-м андроидом. Но это уже в прошлом.

Темой данной публикации будут изменения в Android Oreo. Вы можете почитать подробнее здесь. Все статьи которые я находил, с возможным вариантом решения проблем говорили «Просто наследуй сервис от JobIntentService и используй его в enqueueWork()».

Круто, да. Но не все так просто. Если заглянуть в CommandProcessor, то можно увидеть что сервис останавливается сразу после выполнения onHandleWork(). Это происходит потому, что IntentService не предназначем на выполнения сложных работ, он создан для вещей вроде: доставки ивентов, старта прочих сервисов и так далее.

Эти статьи и их решения ничем мне не помогли, так как они просто копия с developer.android.com. По этому я продолжил тестировать и искать простые варианты использования сервисов пока приложение в фоне ( в совместимости с Android O). И я нашел способ.

Используя JobIntentService можно попробовать запустить ваш сервис по старинке, но контекст предоставляемый JobIntentService не подходит для этих целей, но мы всегда можем запросить контекст приложения. Но даже когда у нас будет контекст приложения, при старте сервиса нас остановят ограничения андроида.

Что же дальше? Эти ограничения на фоновое выполнение работают только тогда, когда вы пытаетесь запустить сервис с помошью startService(), если же вы будете использовать bindService, то никаких ошибок вам андроид не выдаст. Но, в случае байнда сервис будет только создан и прикреплен к приложению и нужно это все делать вместе с созданием и реализацией ServiceConnection, по вызову которого необходимо запустить необходимый метод ( onHandleWork() или onHandleIntent() или необходимый метод вашего сервиса).

Проделывая все это я пришел к заключению что это не самый простой способ. Поэтому я написал маленькую и простую библиотеку которая может делать это все за вас. Она так же позволяет использовать фоновые сервисы без их обьявления в манифесте и создания каких-либо классов. Найти ее можно здесь.

И небольшой пример с гита:

Для того чтобы использовать 2 последних варианта — нужно пронаследовать CompatService
Пример можно найти здесь.

И возвращаясь к теме того с чего я начал «Первым таким сложным изменением были -Runtime permissions», можете так же оценить мой вариант решения этой проблемы.

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How To Create, Start, Stop Android Background Service

Android background service is an android component that runs in the background. There is no GUI for users to interact with the android background service object directly, it is usually started in android activity and runs in the same thread of the activity. When users quit the android-activity, the android background service will also exit automatically. This article introduces how to create, start, stop android background service with examples.

1. How To Create Android Background Service In Android Studio.

  1. Start android studio and right-click the package name in the android studio left project panel.
  2. Click the menu item New —> Service —> Service.
  3. Give the android background service a name by input its name in the next New Android Component window Class Name input box, check both the Exported and Enabled checkbox. If you check the Exported checkbox, then this service component can be invoked by other android apps besides the current android app. If you check the Enabled checkbox then this service component is enabled to be used by other android apps.
  4. When you click the Finish button in the above window, it will create the android background service class that extends android.app.Service. It will also add the service object configuration XML data in AndroidManifest.xml file as below.

2. Android Background Service Methods.

If you want to customize the android background service component, you need to override the below methods.

  1. onCreate : When the service object is created, it will run this method. This method runs only once.
  2. onStartCommand : This method is invoked every time when the background service is started. You can execute tasks or start child threads in this method. Because the android background service is executed in the main activity thread, so if you do not use child threads and if the task is very time-consuming, the android activity main thread will be blocked by the service object.
  3. onDestroy : This method is invoked when the background service is destroyed. You can release related resources in it such as close database connection, write data to file, etc.
  4. stopSelf : If you want to stop and exit the running service in your source code, you can call this method.

3. How To Start Stop Android Background Service In Activity.

  1. If you want to start an android background service in an android activity, you can run the below source code.
  2. Call stopSerivce(intent) method to stop the service.
  3. If you want to make sure the background service is running after you start it, you can go to Settings —> Developer options —> Running services to see it.
  4. If you want to see the running andriod service in a terminal, you can run the below shell command to list all the running android services.
  5. If you want to list the android service by its name, you can run the below shell command.

The result like below:

4. Android Background Service Example.

Below is this example project java files structure.

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Android Service Example for Background Processes

Hey guys, in this post we will see a simple Android Service Example. But first lets understand what is an Android Service?

What is Android Service?

Service is a process, but the special thing is about the service is it doesn’t need user interaction and it runs on background. I hope you can imagine some Android Services Examples now. Like Playing music in background. It is a long running process and it does not need user interaction. In this Android Service Example I will show you playing music in background.

Android Service Example in Video

  • You can watch the following video to get a detailed explanation as well.

Basics of an Android Service

Creating a Service

To create service we will create a normal class extending the class Service. And we should override the following methods.

onStartCommand()

  • This method is invoked when the service is started using the startService() method. We can call the method startService() from any activity and it will request the service to start.

onBind()

  • If it is needed to bind the service with an activity this method is called. The service can result back something to the activity after binding. But if you do not want to bind the service with activity then you should return null on this method.

onCreate()

  • This method is called when the service is created.

onDestroy()

  • When the service is no longer used and destroyed this method is called by the system.

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Работа с фоновыми задачами в Android 12: переезжаем с foreground service на expedited jobs

С релизом Android 12 приложения, где новая версия операционки будет указана в targetSdkVersion, получат запрет на запуск foreground-сервисов в бэкграунде. В качестве альтернативы Google предлагает WorkManager, который с появлением expedited jobs станет предпочтительным вариантом для запуска высокоприоритетных фоновых задач.

О нём и пойдёт речь в статье — под катом обсудим новые возможности инструмента, подключим его к приложению и реализуем миграцию с foreground-сервиса.

WorkManager и foreground service

Foreground service — это какой-либо сервис, о котором знает пользователь через нотификацию в статус-баре. Например, воспроизведение музыки или работа GPS в картах.

WorkManager — это API для планирования задач, которые будут выполняться, даже если выйти из приложения или перезагрузить устройство.

WorkManager уже давно является приоритетным способом выполнения длительных фоновых задач. К таким относятся синхронизация данных с бэкендом, отправка аналитики, периодическая проверка свободного места в системе с помощью PeriodicWork и так далее.

Но в WorkManager присутствовал и недостаток — не было никаких гарантий, что джоба начнётся незамедлительно после создания. В версии 2.3.0 разработчики добавили для воркеров метод setForegroundAsync(), который, по сути, превращал фоновую задачу в foreground-сервис и позволял немедленно приступить к её выполнению.

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Такой подход ничем особо не отличался от разработки foreground-сервиса вручную, когда необходимо создавать объекты Notification и NotificationChannel при таргете выше, чем на Android Nougat.

Сейчас setForegroundAsync() объявлен устаревшим, а при попытке запустить сервис из бэкграунда на выходе будет ForegroundServiceStartNotAllowedException.

Expedited jobs

Этот тип джобов позволяет приложениям выполнять короткие и важные задачи, давая системе больше контроля над доступом к ресурсам. Он находится где-то между foreground-сервисами и привычными джобами WorkManager. От последних их отличает:

минимально отложенное время запуска;

обход ограничений Doze-mode на использование сети;

меньшая вероятность быть «убитыми» системой.

А ещё в них не поддерживаются ограничения по заряду батареи и режиму работы девайса:

У expedited job больший приоритет на ускоренный запуск, поэтому операционная система строже регулирует их количество. Например, если попытаться запланировать джобу при исчерпаном лимите, то сразу вернётся JobScheduler#RESULT_FAILURE.

Если же ограничения по квоте, сети и памяти устройства выполнены, то у джобы будет около минуты на выполнение своих функций. Иногда больше, но это сильно зависит от лимита и общей загруженности системы.

Миграция foreground service на expedited job

Стандартный сервис для выполнения фоновых задач обычно выглядит примерно так:

А запускается так:

Поговорим о том, как перевести этот сервис на expedited job. Происходит это буквально в три простых шага.

1. Подключаем WorkManager к проекту:

2. Создаём класс, наследующийся от Worker (он будет выполнять задачу, которую раньше делал сервис):

3. Создаём WorkRequest и передаём его для запуска в WorkManager:

Здесь есть важный параметр OutOfQuotaPolicy, который отвечает за поведение при невозможности запустить джобу немедленно. Он существует в двух вариантах:

RUN_AS_NON_EXPEDITED_WORK_REQUEST — при заполненной квоте запустится обычная джоба, не expedited.

DROP_WORK_REQUEST — при заполненной квоте запрос на выполнение сразу зафейлится.

На этом, собственно, базовая миграция заканчивается.

Вместо заключения

Переехать на expedited job довольно легко, особенно, если в проекте уже подключен WorkManager.

Сейчас пропала необходимость держать нотификацию в статус-баре, а в условиях выполнения задачи появилась дополнительная гибкость благодаря возможностям WorkManager. Например, теперь можно пережить «смерть» процесса, тонко настраивать ретраи, периодичность выполнения задач и многое другое.

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Services overview

A Service is an application component that can perform long-running operations in the background. It does not provide a user interface. Once started, a service might continue running for some time, even after the user switches to another application. Additionally, a component can bind to a service to interact with it and even perform interprocess communication (IPC). For example, a service can handle network transactions, play music, perform file I/O, or interact with a content provider, all from the background.

Caution: A service runs in the main thread of its hosting process; the service does not create its own thread and does not run in a separate process unless you specify otherwise. You should run any blocking operations on a separate thread within the service to avoid Application Not Responding (ANR) errors.

Types of Services

These are the three different types of services:

A foreground service performs some operation that is noticeable to the user. For example, an audio app would use a foreground service to play an audio track. Foreground services must display a Notification. Foreground services continue running even when the user isn’t interacting with the app.

When you use a foreground service, you must display a notification so that users are actively aware that the service is running. This notification cannot be dismissed unless the service is either stopped or removed from the foreground.

Learn more about how to configure foreground services in your app.

Note: The WorkManager API offers a flexible way of scheduling tasks, and is able to run these jobs as foreground services if needed. In many cases, using WorkManager is preferable to using foreground services directly.

Background A background service performs an operation that isn’t directly noticed by the user. For example, if an app used a service to compact its storage, that would usually be a background service.

Note: If your app targets API level 26 or higher, the system imposes restrictions on running background services when the app itself isn’t in the foreground. In most situations, for example, you shouldn’t access location information from the background. Instead, schedule tasks using WorkManager.

Bound A service is bound when an application component binds to it by calling bindService() . A bound service offers a client-server interface that allows components to interact with the service, send requests, receive results, and even do so across processes with interprocess communication (IPC). A bound service runs only as long as another application component is bound to it. Multiple components can bind to the service at once, but when all of them unbind, the service is destroyed.

Although this documentation generally discusses started and bound services separately, your service can work both ways—it can be started (to run indefinitely) and also allow binding. It’s simply a matter of whether you implement a couple of callback methods: onStartCommand() to allow components to start it and onBind() to allow binding.

Regardless of whether your service is started, bound, or both, any application component can use the service (even from a separate application) in the same way that any component can use an activity—by starting it with an Intent . However, you can declare the service as private in the manifest file and block access from other applications. This is discussed more in the section about Declaring the service in the manifest.

Choosing between a service and a thread

A service is simply a component that can run in the background, even when the user is not interacting with your application, so you should create a service only if that is what you need.

If you must perform work outside of your main thread, but only while the user is interacting with your application, you should instead create a new thread in the context of another application component. For example, if you want to play some music, but only while your activity is running, you might create a thread in onCreate() , start running it in onStart() , and stop it in onStop() . Also consider using thread pools and executors from the java.util.concurrent package or Kotlin coroutines instead of the traditional Thread class. See the Threading on Android document for more information about moving execution to background threads.

Remember that if you do use a service, it still runs in your application’s main thread by default, so you should still create a new thread within the service if it performs intensive or blocking operations.

The basics

To create a service, you must create a subclass of Service or use one of its existing subclasses. In your implementation, you must override some callback methods that handle key aspects of the service lifecycle and provide a mechanism that allows the components to bind to the service, if appropriate. These are the most important callback methods that you should override:

onStartCommand() The system invokes this method by calling startService() when another component (such as an activity) requests that the service be started. When this method executes, the service is started and can run in the background indefinitely. If you implement this, it is your responsibility to stop the service when its work is complete by calling stopSelf() or stopService() . If you only want to provide binding, you don’t need to implement this method. onBind() The system invokes this method by calling bindService() when another component wants to bind with the service (such as to perform RPC). In your implementation of this method, you must provide an interface that clients use to communicate with the service by returning an IBinder . You must always implement this method; however, if you don’t want to allow binding, you should return null. onCreate() The system invokes this method to perform one-time setup procedures when the service is initially created (before it calls either onStartCommand() or onBind() ). If the service is already running, this method is not called. onDestroy() The system invokes this method when the service is no longer used and is being destroyed. Your service should implement this to clean up any resources such as threads, registered listeners, or receivers. This is the last call that the service receives.

If a component starts the service by calling startService() (which results in a call to onStartCommand() ), the service continues to run until it stops itself with stopSelf() or another component stops it by calling stopService() .

If a component calls bindService() to create the service and onStartCommand() is not called, the service runs only as long as the component is bound to it. After the service is unbound from all of its clients, the system destroys it.

The Android system stops a service only when memory is low and it must recover system resources for the activity that has user focus. If the service is bound to an activity that has user focus, it’s less likely to be killed; if the service is declared to run in the foreground, it’s rarely killed. If the service is started and is long-running, the system lowers its position in the list of background tasks over time, and the service becomes highly susceptible to killing—if your service is started, you must design it to gracefully handle restarts by the system. If the system kills your service, it restarts it as soon as resources become available, but this also depends on the value that you return from onStartCommand() . For more information about when the system might destroy a service, see the Processes and Threading document.

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In the following sections, you’ll see how you can create the startService() and bindService() service methods, as well as how to use them from other application components.

Declaring a service in the manifest

You must declare all services in your application’s manifest file, just as you do for activities and other components.

To declare your service, add a element as a child of the element. Here is an example:

See the element reference for more information about declaring your service in the manifest.

There are other attributes that you can include in the element to define properties such as the permissions that are required to start the service and the process in which the service should run. The android:name attribute is the only required attribute—it specifies the class name of the service. After you publish your application, leave this name unchanged to avoid the risk of breaking code due to dependence on explicit intents to start or bind the service (read the blog post, Things That Cannot Change).

Caution: To ensure that your app is secure, always use an explicit intent when starting a Service and don’t declare intent filters for your services. Using an implicit intent to start a service is a security hazard because you cannot be certain of the service that responds to the intent, and the user cannot see which service starts. Beginning with Android 5.0 (API level 21), the system throws an exception if you call bindService() with an implicit intent.

You can ensure that your service is available to only your app by including the android:exported attribute and setting it to false . This effectively stops other apps from starting your service, even when using an explicit intent.

Note: Users can see what services are running on their device. If they see a service that they don’t recognize or trust, they can stop the service. In order to avoid having your service stopped accidentally by users, you need to add the android:description attribute to the element in your app manifest. In the description, provide a short sentence explaining what the service does and what benefits it provides.

Creating a started service

A started service is one that another component starts by calling startService() , which results in a call to the service’s onStartCommand() method.

When a service is started, it has a lifecycle that’s independent of the component that started it. The service can run in the background indefinitely, even if the component that started it is destroyed. As such, the service should stop itself when its job is complete by calling stopSelf() , or another component can stop it by calling stopService() .

An application component such as an activity can start the service by calling startService() and passing an Intent that specifies the service and includes any data for the service to use. The service receives this Intent in the onStartCommand() method.

For instance, suppose an activity needs to save some data to an online database. The activity can start a companion service and deliver it the data to save by passing an intent to startService() . The service receives the intent in onStartCommand() , connects to the Internet, and performs the database transaction. When the transaction is complete, the service stops itself and is destroyed.

Caution: A service runs in the same process as the application in which it is declared and in the main thread of that application by default. If your service performs intensive or blocking operations while the user interacts with an activity from the same application, the service slows down activity performance. To avoid impacting application performance, start a new thread inside the service.

The Service class is the base class for all services. When you extend this class, it’s important to create a new thread in which the service can complete all of its work; the service uses your application’s main thread by default, which can slow the performance of any activity that your application is running.

The Android framework also provides the IntentService subclass of Service that uses a worker thread to handle all of the start requests, one at a time. Using this class is not recommended for new apps as it will not work well starting with Android 8 Oreo, due to the introduction of Background execution limits. Moreover, it’s deprecated starting with Android 11. You can use JobIntentService as a replacement for IntentService that is compatible with newer versions of Android.

The following sections describe how you can implement your own custom service, however you should strongly consider using WorkManager instead for most use cases. Consult the guide to background processing on Android to see if there is a solution that fits your needs.

Extending the Service class

You can extend the Service class to handle each incoming intent. Here’s how a basic implementation might look:

Kotlin

The example code handles all incoming calls in onStartCommand() and posts the work to a Handler running on a background thread. It works just like an IntentService and processes all requests serially, one after another. You could change the code to run the work on a thread pool, for example, if you’d like to run multiple requests simultaneously.

Notice that the onStartCommand() method must return an integer. The integer is a value that describes how the system should continue the service in the event that the system kills it. The return value from onStartCommand() must be one of the following constants:

START_NOT_STICKY If the system kills the service after onStartCommand() returns, do not recreate the service unless there are pending intents to deliver. This is the safest option to avoid running your service when not necessary and when your application can simply restart any unfinished jobs. START_STICKY If the system kills the service after onStartCommand() returns, recreate the service and call onStartCommand() , but do not redeliver the last intent. Instead, the system calls onStartCommand() with a null intent unless there are pending intents to start the service. In that case, those intents are delivered. This is suitable for media players (or similar services) that are not executing commands but are running indefinitely and waiting for a job. START_REDELIVER_INTENT If the system kills the service after onStartCommand() returns, recreate the service and call onStartCommand() with the last intent that was delivered to the service. Any pending intents are delivered in turn. This is suitable for services that are actively performing a job that should be immediately resumed, such as downloading a file.

For more details about these return values, see the linked reference documentation for each constant.

Starting a service

You can start a service from an activity or other application component by passing an Intent to startService() or startForegroundService() . The Android system calls the service’s onStartCommand() method and passes it the Intent , which specifies which service to start.

Note: If your app targets API level 26 or higher, the system imposes restrictions on using or creating background services unless the app itself is in the foreground. If an app needs to create a foreground service, the app should call startForegroundService() . That method creates a background service, but the method signals to the system that the service will promote itself to the foreground. Once the service has been created, the service must call its startForeground() method within five seconds.

For example, an activity can start the example service in the previous section ( HelloService ) using an explicit intent with startService() , as shown here:

Kotlin

The startService() method returns immediately, and the Android system calls the service’s onStartCommand() method. If the service isn’t already running, the system first calls onCreate() , and then it calls onStartCommand() .

If the service doesn’t also provide binding, the intent that is delivered with startService() is the only mode of communication between the application component and the service. However, if you want the service to send a result back, the client that starts the service can create a PendingIntent for a broadcast (with getBroadcast() ) and deliver it to the service in the Intent that starts the service. The service can then use the broadcast to deliver a result.

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Multiple requests to start the service result in multiple corresponding calls to the service’s onStartCommand() . However, only one request to stop the service (with stopSelf() or stopService() ) is required to stop it.

Stopping a service

A started service must manage its own lifecycle. That is, the system doesn’t stop or destroy the service unless it must recover system memory and the service continues to run after onStartCommand() returns. The service must stop itself by calling stopSelf() , or another component can stop it by calling stopService() .

Once requested to stop with stopSelf() or stopService() , the system destroys the service as soon as possible.

If your service handles multiple requests to onStartCommand() concurrently, you shouldn’t stop the service when you’re done processing a start request, as you might have received a new start request (stopping at the end of the first request would terminate the second one). To avoid this problem, you can use stopSelf(int) to ensure that your request to stop the service is always based on the most recent start request. That is, when you call stopSelf(int) , you pass the ID of the start request (the startId delivered to onStartCommand() ) to which your stop request corresponds. Then, if the service receives a new start request before you are able to call stopSelf(int) , the ID doesn’t match and the service doesn’t stop.

Caution: To avoid wasting system resources and consuming battery power, ensure that your application stops its services when it’s done working. If necessary, other components can stop the service by calling stopService() . Even if you enable binding for the service, you must always stop the service yourself if it ever receives a call to onStartCommand() .

For more information about the lifecycle of a service, see the section below about Managing the Lifecycle of a Service.

Creating a bound service

A bound service is one that allows application components to bind to it by calling bindService() to create a long-standing connection. It generally doesn’t allow components to start it by calling startService() .

Create a bound service when you want to interact with the service from activities and other components in your application or to expose some of your application’s functionality to other applications through interprocess communication (IPC).

To create a bound service, implement the onBind() callback method to return an IBinder that defines the interface for communication with the service. Other application components can then call bindService() to retrieve the interface and begin calling methods on the service. The service lives only to serve the application component that is bound to it, so when there are no components bound to the service, the system destroys it. You do not need to stop a bound service in the same way that you must when the service is started through onStartCommand() .

To create a bound service, you must define the interface that specifies how a client can communicate with the service. This interface between the service and a client must be an implementation of IBinder and is what your service must return from the onBind() callback method. After the client receives the IBinder , it can begin interacting with the service through that interface.

Multiple clients can bind to the service simultaneously. When a client is done interacting with the service, it calls unbindService() to unbind. When there are no clients bound to the service, the system destroys the service.

There are multiple ways to implement a bound service, and the implementation is more complicated than a started service. For these reasons, the bound service discussion appears in a separate document about Bound Services.

Sending notifications to the user

When a service is running, it can notify the user of events using Toast Notifications or Status Bar Notifications.

A toast notification is a message that appears on the surface of the current window for only a moment before disappearing. A status bar notification provides an icon in the status bar with a message, which the user can select in order to take an action (such as start an activity).

Usually, a status bar notification is the best technique to use when background work such as a file download has completed, and the user can now act on it. When the user selects the notification from the expanded view, the notification can start an activity (such as to display the downloaded file).

See the Toast Notifications or Status Bar Notifications developer guides for more information.

Managing the lifecycle of a service

The lifecycle of a service is much simpler than that of an activity. However, it’s even more important that you pay close attention to how your service is created and destroyed because a service can run in the background without the user being aware.

The service lifecycle—from when it’s created to when it’s destroyed—can follow either of these two paths:

    A started service

The service is created when another component calls startService() . The service then runs indefinitely and must stop itself by calling stopSelf() . Another component can also stop the service by calling stopService() . When the service is stopped, the system destroys it.

A bound service

The service is created when another component (a client) calls bindService() . The client then communicates with the service through an IBinder interface. The client can close the connection by calling unbindService() . Multiple clients can bind to the same service and when all of them unbind, the system destroys the service. The service does not need to stop itself.

These two paths aren’t entirely separate. You can bind to a service that is already started with startService() . For example, you can start a background music service by calling startService() with an Intent that identifies the music to play. Later, possibly when the user wants to exercise some control over the player or get information about the current song, an activity can bind to the service by calling bindService() . In cases such as this, stopService() or stopSelf() doesn’t actually stop the service until all of the clients unbind.

Implementing the lifecycle callbacks

Like an activity, a service has lifecycle callback methods that you can implement to monitor changes in the service’s state and perform work at the appropriate times. The following skeleton service demonstrates each of the lifecycle methods:

Kotlin

Note: Unlike the activity lifecycle callback methods, you are not required to call the superclass implementation of these callback methods.

Figure 2. The service lifecycle. The diagram on the left shows the lifecycle when the service is created with startService() and the diagram on the right shows the lifecycle when the service is created with bindService() .

Figure 2 illustrates the typical callback methods for a service. Although the figure separates services that are created by startService() from those created by bindService() , keep in mind that any service, no matter how it’s started, can potentially allow clients to bind to it. A service that was initially started with onStartCommand() (by a client calling startService() ) can still receive a call to onBind() (when a client calls bindService() ).

By implementing these methods, you can monitor these two nested loops of the service’s lifecycle:

    The entire lifetime of a service occurs between the time that onCreate() is called and the time that onDestroy() returns. Like an activity, a service does its initial setup in onCreate() and releases all remaining resources in onDestroy() . For example, a music playback service can create the thread where the music is played in onCreate() , and then it can stop the thread in onDestroy() .

Note: The onCreate() and onDestroy() methods are called for all services, whether they’re created by startService() or bindService() .

The active lifetime of a service begins with a call to either onStartCommand() or onBind() . Each method is handed the Intent that was passed to either startService() or bindService() .

If the service is started, the active lifetime ends at the same time that the entire lifetime ends (the service is still active even after onStartCommand() returns). If the service is bound, the active lifetime ends when onUnbind() returns.

Note: Although a started service is stopped by a call to either stopSelf() or stopService() , there isn’t a respective callback for the service (there’s no onStop() callback). Unless the service is bound to a client, the system destroys it when the service is stopped— onDestroy() is the only callback received.

For more information about creating a service that provides binding, see the Bound Services document, which includes more information about the onRebind() callback method in the section about Managing the lifecycle of a bound service.

Content and code samples on this page are subject to the licenses described in the Content License. Java is a registered trademark of Oracle and/or its affiliates.

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