사용자 시작 데이터 전송

If you need to perform a data transfer that may take a long time, you can create a JobScheduler job and identify it as a user-initiated data transfer (UIDT) job. UIDT jobs are intended for longer-duration data transfers that are initiated by the device user, such as downloading a file from a remote server. UIDT jobs were introduced with Android 14 (API level 34).

User-initiated data transfer jobs are started by the user. These jobs require a notification, start immediately, and may be able to run for an extended period of time as system conditions allow. You can run several user-initiated data transfer jobs concurrently.

User initiated jobs must be scheduled while the application is visible to the user (or in one of the allowed conditions). After all constraints are met, user initiated jobs can be executed by the OS, subject to system health restrictions. The system may also use the provided estimated payload size to determine how long the job executes.

사용자가 시작한 데이터 전송 작업 예약

To run a user initiated data-transfer job, do the following:

1. Make sure your app has declared the JobService and associated permissions in its manifest:

   <service android:name="com.example.app.CustomTransferService"
           android:permission="android.permission.BIND_JOB_SERVICE"
           android:exported="false">
           ...
   </service>
   

   Also, define a concrete subclass of JobService for your data transfer:

   Kotlin

   class CustomTransferService : JobService() {
     ...
   }

   Java

   class CustomTransferService extends JobService() {
   
       ....
   
   }

2. Declare the RUN_USER_INITIATED_JOBS permission in the manifest:

   <manifest ...>
       <uses-permission android:name="android.permission.RUN_USER_INITIATED_JOBS" />
       <application ...>
           ...
       </application>
   </manifest>
   

3. Call the setUserInitiated() method when building a JobInfo object. (This method is available beginning with Android 14.) We also recommend that you offer a payload size estimate by calling setEstimatedNetworkBytes() while creating your job.

   Kotlin

   val networkRequestBuilder = NetworkRequest.Builder()
           // Add or remove capabilities based on your requirements.
           // For example, this code specifies that the job won't run
           // unless there's a connection to the internet (not just a local
           // network), and the connection doesn't charge per-byte.
           .addCapability(NET_CAPABILITY_INTERNET)
           .addCapability(NET_CAPABILITY_NOT_METERED)
           .build()
   
   val jobInfo = JobInfo.Builder(jobId,
                 ComponentName(mContext, CustomTransferService::class.java))
           // ...
           .setUserInitiated(true)
           .setRequiredNetwork(networkRequestBuilder)
           // Provide your estimate of the network traffic here
           .setEstimatedNetworkBytes(1024 * 1024 * 1024)
           // ...
           .build()

   Java

   NetworkRequest networkRequest = new NetworkRequest.Builder()
       // Add or remove capabilities based on your requirements.
       // For example, this code specifies that the job won't run
       // unless there's a connection to the internet (not just a local
       // network), and the connection doesn't charge per-byte.
       .addCapability(NET_CAPABILITY_INTERNET)
       .addCapability(NET_CAPABILITY_NOT_METERED)
       .build();
   
   JobInfo jobInfo = JobInfo.Builder(jobId,
           new ComponentName(mContext, CustomTransferService.class))
       // ...
       .setUserInitiated(true)
       .setRequiredNetwork(networkRequest)
       // Provide your estimate of the network traffic here
       .setEstimatedNetworkBytes(1024 * 1024 * 1024)
       // ...
       .build();

4. While the job is being executed, call setNotification() on the JobService object. Calling setNotification() makes the user aware that the job is running, both in the Task Manager and in the status bar notification area.

   When execution is complete, call jobFinished() to signal to the system that the job is complete, or that the job should be rescheduled.

   Kotlin

   class CustomTransferService: JobService() {
       private val scope = CoroutineScope(Dispatchers.IO)
   
       @RequiresApi(Build.VERSION_CODES.UPSIDE_DOWN_CAKE)
       override fun onStartJob(params: JobParameters): Boolean {
           val notification = Notification.Builder(applicationContext,
                                 NOTIFICATION_CHANNEL_ID)
               .setContentTitle("My user-initiated data transfer job")
               .setSmallIcon(android.R.mipmap.myicon)
               .setContentText("Job is running")
               .build()
   
           setNotification(params, notification.id, notification,
                   JobService.JOB_END_NOTIFICATION_POLICY_DETACH)
           // Execute the work associated with this job asynchronously.
           scope.launch {
               doDownload(params)
           }
           return true
       }
   
       private suspend fun doDownload(params: JobParameters) {
           // Run the relevant async download task, then call
           // jobFinished once the task is completed.
           jobFinished(params, false)
       }
   
       // Called when the system stops the job.
       override fun onStopJob(params: JobParameters?): Boolean {
           // Asynchronously record job-related data, such as the
           // stop reason.
           return true // or return false if job should end entirely
       }
   }

   Java

   class CustomTransferService extends JobService{
       @RequiresApi(Build.VERSION_CODES.UPSIDE_DOWN_CAKE)
       @Override
       public boolean onStartJob(JobParameters params) {
           Notification notification = Notification.Builder(getBaseContext(),
                                           NOTIFICATION_CHANNEL_ID)
                   .setContentTitle("My user-initiated data transfer job")
                   .setSmallIcon(android.R.mipmap.myicon)
                   .setContentText("Job is running")
                   .build();
   
           setNotification(params, notification.id, notification,
                             JobService.JOB_END_NOTIFICATION_POLICY_DETACH)
           // Execute the work associated with this job asynchronously.
           new Thread(() -> doDownload(params)).start();
           return true;
       }
   
       private void doDownload(JobParameters params) {
           // Run the relevant async download task, then call
           // jobFinished once the task is completed.
           jobFinished(params, false);
       }
   
       // Called when the system stops the job.
       @Override
       public boolean onStopJob(JobParameters params) {
           // Asynchronously record job-related data, such as the
           // stop reason.
           return true; // or return false if job should end entirely
       }
   }

5. Periodically update the notification to keep the user informed of the job's status and progress. If you cannot determine the transfer size ahead of scheduling the job, or need to update the estimated transfer size, use the new API, updateEstimatedNetworkBytes() to update the transfer size after it becomes known.

Recommendations

To run UIDT jobs effectively, do the following:

1. Clearly define network constraints and job execution constraints to specify when the job should be executed.

2. Execute the task asynchronously in onStartJob(); for example, you can do this by using a coroutine. If you don't run the task asynchronously, the work runs on the main thread and might block it, which can cause an ANR.

3. To avoid running the job longer than necessary, call jobFinished() when the transfer finishes, whether it succeeds or fails. That way, the job doesn't run longer than necessary. To discover why a job was stopped, implement the onStopJob() callback method and call JobParameters.getStopReason().

이전 버전과의 호환성

目前还没有支持 UIDT 作业的 Jetpack 库。因此，我们建议您使用代码来限制更改，以验证您是否在 Android 14 或更高版本上运行。在较低的 Android 版本中，您可以将 WorkManager 的前台服务实现用作回退方法。

以下是检查相应系统版本的代码示例：

fun beginTask() {
    if (Build.VERSION.SDK_INT < Build.VERSION_CODES.UPSIDE_DOWN_CAKE) {
        scheduleDownloadFGSWorker(context)
    } else {
        scheduleDownloadUIDTJob(context)
    }
}

private fun scheduleDownloadUIDTJob(context: Context) {
    // build jobInfo
    val jobScheduler: JobScheduler =
        context.getSystemService(Context.JOB_SCHEDULER_SERVICE) as JobScheduler
    jobScheduler.schedule(jobInfo)
}

private fun scheduleDownloadFGSWorker(context: Context) {
    val myWorkRequest = OneTimeWorkRequest.from(DownloadWorker::class.java)
    WorkManager.getInstance(context).enqueue(myWorkRequest)
}

public void beginTask() {
    if (Build.VERSION.SDK_INT < Build.VERSION_CODES.UPSIDE_DOWN_CAKE) {
        scheduleDownloadFGSWorker(context);
    } else {
        scheduleDownloadUIDTJob(context);
    }
}

private void scheduleDownloadUIDTJob(Context context) {
    // build jobInfo
    JobScheduler jobScheduler =
            (JobScheduler) context.getSystemService(Context.JOB_SCHEDULER_SERVICE);
    jobScheduler.schedule(jobInfo);
}

private void scheduleDownloadFGSWorker(Context context) {
    OneTimeWorkRequest myWorkRequest = OneTimeWorkRequest.from(DownloadWorker.class);
    WorkManager.getInstance(context).enqueue(myWorkRequest)
}

UIDT 작업 중지

用户和系统都可以停止用户发起的传输作业。

작업 관리자에서 사용자에 의해

用户可以停止显示在任务管理器中的用户发起的传输作业。

在用户按 Stop 时，系统会执行以下操作：

• 立即终止应用的进程，包括正在运行的所有其他作业或前台服务。
• 不针对任何正在运行的作业调用 onStopJob()。
• 阻止重新调度用户可见的作业。

因此，建议在发布的作业通知中提供控件，以便顺利停止和重新调度作业。

请注意，在特殊情况下，Stop 按钮不会显示在任务管理器中的作业旁边，或者该作业根本不会显示在任务管理器中。

시스템에 의해

Unlike regular jobs, user-initiated data transfer jobs are unaffected by App Standby Buckets quotas. However, the system still stops the job if any of the following conditions occur:

• A developer-defined constraint is no longer met.
• The system determines that the job has run for longer than necessary to complete the data transfer task.
• The system needs to prioritize system health and stop jobs due to increased thermal state.
• The app process is killed due to low device memory.

When the job is stopped by the system for reasons other than low device memory, the system calls onStopJob(), and the system retries the job at a time that the system deems to be optimal. Make sure that your app can persist the data transfer state even if onStopJob() isn't called, and that your app can restore this state when onStartJob() is called again.

사용자가 시작한 데이터 전송 작업을 예약할 수 있는 조건

앱은 표시되는 창에 있거나 특정 조건이 충족되는 경우에만 사용자가 시작한 데이터 전송 작업을 시작할 수 있습니다.

• 앱이 백그라운드에서 활동을 실행할 수 있는 경우 사용자가 시작한 데이터 전송 작업도 백그라운드에서 실행할 수 있습니다.
• 앱의 최근 화면에 있는 기존 작업의 백 스택에 활동이 있어도 이것만으로는 사용자가 시작한 데이터 전송 작업을 실행할 수 없습니다.

필요한 조건이 충족되지 않는 시간에 작업이 실행되도록 예약되면 작업이 실패하고 RESULT_FAILURE 오류 코드가 반환됩니다.

사용자가 시작한 데이터 전송 작업에 허용되는 제약 조건

为了支持在最佳时间点运行的作业，Android 提供了为每种作业类型分配约束条件的功能。这些约束条件从 Android 13 开始就已经可用。

注意：下表仅比较了因作业类型而异的约束条件。如需了解所有约束条件，请参阅 JobScheduler 开发者页面或工作约束条件。

下表显示了支持给定作业约束条件的不同作业类型，以及 WorkManager 支持的作业约束条件集。您可以使用表格前的搜索栏按作业约束方法的名称过滤表格。

以下是用户发起的数据传输作业允许使用的约束条件：

• setBackoffCriteria(JobInfo.BACKOFF_POLICY_EXPONENTIAL)
• setClipData()
• setEstimatedNetworkBytes()
• setMinimumNetworkChunkBytes()
• setPersisted()
• setNamespace()
• setRequiredNetwork()
• setRequiredNetworkType()
• setRequiresBatteryNotLow()
• setRequiresCharging()
• setRequiresStorageNotLow()

테스트

下面列出了有关如何手动测试应用作业的一些步骤：

• 如需获取作业 ID，请获取在构建作业时定义的值。

• 如需立即运行作业或重试已停止的作业，请在终端窗口中运行以下命令：

  adb shell cmd jobscheduler run -f APP_PACKAGE_NAME JOB_ID

• 如需模拟系统强行停止作业（由于系统运行状况或超出配额条件），请在终端窗口中运行以下命令：

  adb shell cmd jobscheduler timeout TEST_APP_PACKAGE TEST_JOB_ID

참고 항목

• 백그라운드 작업 개요
• 데이터 전송 백그라운드 작업 옵션

추가 리소스

사용자 시작 데이터 전송에 관한 자세한 내용은 다음 추가 리소스를 참고하세요.

• UIDT 통합 사례 연구: Google 지도에서 사용자 시작 데이터 전송 API를 사용하여 다운로드 안정성 10% 개선