用户发起的数据传输

如果您需要执行可能需要很长时间的数据传输，可以创建一个 JobScheduler 作业，并将其标识为由用户发起的数据传输 (UIDT) 作业。UIDT 作业适用于由设备用户发起的持续时间较长的数据传输，例如从远程服务器下载文件。UIDT 作业是在 Android 14（API 级别 34）中引入的。

由用户发起的数据传输作业由用户启动。这些作业需要一个通知，会立即启动，并且可能在系统条件允许的情况下长时间运行。您可以同时运行多个由用户发起的数据传输作业。

必须在应用对用户可见的情况下（或在某个允许的条件下）安排由用户发起的作业。满足所有限制条件后，操作系统可以执行由用户发起的作业，具体取决于系统运行状况限制。系统还可以根据提供的估算载荷大小来确定作业的执行时长。

安排用户发起的数据传输作业

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().

向后兼容性

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)
}

停止 UIDT 作业

用户和系统都可以停止用户发起的传输作业。

由用户从任务管理器提供

The user can stop a user-initiated data transfer job that appears in the Task Manager.

At the moment that the user presses Stop, the system does the following:

• Terminates your app's process immediately, including all other jobs or foreground services running.
• Doesn't call onStopJob() for any running jobs.
• Prevents user-visible jobs from being rescheduled.

For these reasons, it's recommended to provide controls in the notification posted for the job to allow gracefully stopping and rescheduling the job.

Note that, under special circumstances, the Stop button doesn't appear next to the job in the Task Manager, or the job isn't shown in the Task Manager at all.

由系统提供

与常规作业不同，用户发起的数据传输作业不受应用待机模式存储分区配额的影响。但是，如果出现以下任一情况，系统仍会停止作业：

• 不再满足开发者定义的约束条件。
• 系统确定该作业的运行时间超出了完成数据传输任务所需的时间。
• 系统需要优先考虑系统运行状况，并因发热程度上升而停止作业。
• 应用进程因设备内存不足而被终止。

如果系统因设备内存不足以外的原因停止作业，系统会调用 onStopJob()，并在系统认为最佳的时间重试作业。确保您的应用可以保留数据传输状态（即使未调用 onStopJob()），并且您的应用可以在再次调用 onStartJob() 时恢复此状态。

允许安排用户发起的数据传输作业的条件

只有当应用处于可见窗口中或满足特定条件时，应用才能启动用户发起的数据传输作业：

• 如果应用可以从后台启动 activity，则也可以从后台启动用户发起的数据传输作业。
• 如果应用在最近用过屏幕上现有任务的返回堆栈中有 activity，单靠这一点并不允许运行用户发起的数据传输作业。

如果作业安排在未满足必要条件的时间运行，则作业将失败并返回 RESULT_FAILURE 错误代码。

适用于用户发起的数据传输作业的约束条件

To support jobs running at optimal points, Android offers the ability to assign constraints to each job type. These constraints are available as of Android 13.

Note: The following table only compares the constraints that vary between each job type. See JobScheduler developer page or work constraints for all constraints.

The following table shows the different job types that support a given job constraint, as well as the set of job constraints that WorkManager supports. Use the search bar before the table to filter the table by the name of a job constraint method.

These are the constraints allowed with user-initiated data transfer jobs:

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

测试

The following list shows some steps on how to test your app's jobs manually:

• To get the job ID, get the value that is defined upon the job being built.

• To run a job immediately, or to retry a stopped job, run the following command in a terminal window:

  adb shell cmd jobscheduler run -f APP_PACKAGE_NAME JOB_ID

• To simulate the system force-stopping a job (due to system health or out-of-quota conditions), run the following command in a terminal window:

  adb shell cmd jobscheduler timeout TEST_APP_PACKAGE TEST_JOB_ID

另请参阅

• 后台任务概览
• 数据转移后台任务选项

其他资源

如需详细了解用户发起的数据转移，请参阅以下其他资源：

• UIDT 集成案例研究：Google 地图使用用户发起的数据传输 API 将下载可靠性提高了 10%