Mudanças de comportamento: todos os apps

A plataforma Android 16 inclui mudanças de comportamento que podem afetar seu app. As mudanças a seguir se aplicam a todos os apps quando executados no Android 16, independente da targetSdkVersion. Teste seu app e modifique-o conforme necessário para que ele ofereça suporte a essas mudanças.

Consulte também a lista de mudanças de comportamento que afetam apenas os apps destinados ao Android 16.

Principal recurso

O Android 16 (API de nível 36) inclui as seguintes mudanças que modificam ou expandem vários recursos principais do sistema Android.

Otimizações de cota do JobScheduler

Starting in Android 16, we're adjusting regular and expedited job execution runtime quota based on the following factors:

• Which app standby bucket the application is in: in Android 16, active standby buckets will start being enforced by a generous runtime quota.
• If the job starts execution while the app is in a top state: in Android 16, Jobs started while the app is visible to the user and continues after the app becomes invisible, will adhere to the job runtime quota.
• If the job is executing while running a Foreground Service: in Android 16, jobs that are executing concurrently with a foreground service will adhere to the job runtime quota. If you're leveraging jobs for user initiated data transfer, consider using user initiated data transfer jobs instead.

This change impacts tasks scheduled using WorkManager, JobScheduler, and DownloadManager. To debug why a job was stopped, we recommend logging why your job was stopped by calling WorkInfo.getStopReason() (for JobScheduler jobs, call JobParameters.getStopReason()).

For information about how your app's state affects the resources it can use, see Power management resource limits. For more information on battery-optimal best practices, refer to guidance on optimize battery use for task scheduling APIs.

We also recommend leveraging the new JobScheduler#getPendingJobReasonsHistory API introduced in Android 16 to understand why a job has not executed.

Testing

To test your app's behavior, you can enable override of certain job quota optimizations as long as the app is running on an Android 16 device.

To disable enforcement of "top state will adhere to job runtime quota", run the following adb command:

adb shell am compat enable OVERRIDE_QUOTA_ENFORCEMENT_TO_TOP_STARTED_JOBS APP_PACKAGE_NAME

To disable enforcement of "jobs that are executing while concurrently with a foreground service will adhere to the job runtime quota", run the following adb command:

adb shell am compat enable OVERRIDE_QUOTA_ENFORCEMENT_TO_FGS_JOBS APP_PACKAGE_NAME

To test certain app standby bucket behavior, you can set the app standby bucket of your app using the following adb command:

adb shell am set-standby-bucket APP_PACKAGE_NAME active|working_set|frequent|rare|restricted

To understand the app standby bucket your app is in, you can get the app standby bucket of your app using the following adb command:

adb shell am get-standby-bucket APP_PACKAGE_NAME

Motivo da interrupção de jobs vazios abandonados

Um job abandonado ocorre quando o objeto JobParameters associado ao job é coletado, mas JobService#jobFinished(JobParameters, boolean) não é chamado para sinalizar a conclusão do job. Isso indica que o job pode estar sendo executado e reprogramado sem que o app saiba.

Os apps que dependem do JobScheduler não mantêm uma referência forte ao objeto JobParameters, e o tempo limite agora será concedido ao novo motivo de interrupção de job STOP_REASON_TIMEOUT_ABANDONED, em vez de STOP_REASON_TIMEOUT.

Se houver ocorrências frequentes do novo motivo de interrupção, o sistema vai tomar medidas de mitigação para reduzir a frequência do job.

Os apps precisam usar o novo motivo de interrupção para detectar e reduzir jobs abandonados.

Se você estiver usando o WorkManager, o AsyncTask ou o DownloadManager, não será afetado porque essas APIs gerenciam o ciclo de vida do job em nome do app.

Suspensão total de JobInfo#setImportantWhileForeground

JobInfo.Builder#setImportantWhileForeground(boolean) 方法用于在调度应用位于前台或暂时豁免于后台限制时指示作业的优先级。

自 Android 12（API 级别 31）起，此方法已废弃。从 Android 16 开始，它不再有效，系统会忽略调用此方法。

此功能移除也适用于 JobInfo#isImportantWhileForeground()。从 Android 16 开始，如果调用该方法，该方法会返回 false。

O escopo de prioridade de transmissão ordenada não é mais global

Android apps are allowed to define priorities on broadcast receivers to control the order in which the receivers receive and process the broadcast. For manifest-declared receivers, apps can use the android:priority attribute to define the priority and for context-registered receivers, apps can use the IntentFilter#setPriority() API to define the priority. When a broadcast is sent, the system delivers it to receivers in order of their priority, from highest to lowest.

In Android 16, broadcast delivery order using the android:priority attribute or IntentFilter#setPriority() across different processes will not be guaranteed. Broadcast priorities will only be respected within the same application process rather than across all processes.

Also, broadcast priorities will be automatically confined to the range (SYSTEM_LOW_PRIORITY + 1, SYSTEM_HIGH_PRIORITY - 1). Only system components will be allowed to set SYSTEM_LOW_PRIORITY, SYSTEM_HIGH_PRIORITY as broadcast priority.

Your app might be impacted if it does either of the following:

1. Your application has declared multiple processes with the same broadcast intent, and has expectations around receiving those intents in a certain order based on the priority.
2. Your application process interacts with other processes and has expectations around receiving a broadcast intent in a certain order.

If the processes need to coordinate with each other, they should communicate using other coordination channels.

Mudanças internas no ART

Android 16 includes the latest updates to the Android Runtime (ART) that improve the Android Runtime's (ART's) performance and provide support for additional Java features. Through Google Play System updates, these improvements are also available to over a billion devices running Android 12 (API level 31) and higher.

As these changes are released, libraries and app code that rely on internal structures of ART might not work correctly on devices running Android 16, along with earlier Android versions that update the ART module through Google Play system updates.

Relying on internal structures (such as non-SDK interfaces) can always lead to compatibility problems, but it's particularly important to avoid relying on code (or libraries containing code) that leverages internal ART structures, since ART changes aren't tied to the platform version the device is running on and they go out to over a billion devices through Google Play system updates.

All developers should check whether their app is impacted by testing their apps thoroughly on Android 16. In addition, check the known issues to see if your app depends on any libraries that we've identified that rely on internal ART structures. If you do have app code or library dependencies that are affected, seek public API alternatives whenever possible and request public APIs for new use cases by creating a feature request in our issue tracker.

Modo de compatibilidade de tamanho de página de 16 KB

Android 15 introduced support for 16 KB memory pages to optimize performance of the platform. Android 16 adds a compatibility mode, allowing some apps built for 4 KB memory pages to run on a device configured for 16 KB memory pages.

When your app is running on a device with Android 16 or higher, if Android detects that your app has 4 KB aligned memory pages, it automatically uses compatibility mode and display a notification dialog to the user. Setting the android:pageSizeCompat property in the AndroidManifest.xml to enable the backwards compatibility mode will prevent the display of the dialog when your app launches. To use the android:pageSizeCompat property, compile your app using the Android 16 SDK.

For best performance, reliability, and stability, your app should still be 16 KB aligned. Check out our recent blog post on updating your apps to support 16 KB memory pages for more details.

Experiência do usuário e interface do sistema

O Android 16 (nível 36 da API) inclui as seguintes mudanças que visam criar uma experiência do usuário mais consistente e intuitiva.

Descontinuação de avisos de acessibilidade que causam interrupção

Android 16 deprecates accessibility announcements, characterized by the use of announceForAccessibility or the dispatch of TYPE_ANNOUNCEMENT accessibility events. These can create inconsistent user experiences for users of TalkBack and Android's screen reader, and alternatives better serve a broader range of user needs across a variety of Android's assistive technologies.

Examples of alternatives:

• For significant UI changes like window changes, use Activity.setTitle(CharSequence) and setAccessibilityPaneTitle(java.lang.CharSequence). In Compose, use Modifier.semantics { paneTitle = "paneTitle" }
• To inform the user of changes to critical UI, use setAccessibilityLiveRegion(int). In Compose, use Modifier.semantics { liveRegion = LiveRegionMode.[Polite|Assertive]} . These should be used sparingly as they may generate announcements every time a View is updated.
• To notify users about errors, send an AccessibilityEvent of type AccessibilityEvent#CONTENT_CHANGE_TYPE_ERROR and set AccessibilityNodeInfo#setError(CharSequence), or use TextView#setError(CharSequence).

The reference documentation for the deprecated announceForAccessibility API includes more details about suggested alternatives.

Compatibilidade com a navegação com três botões

Android 16 为已正确迁移到预测性返回的应用的三按钮导航栏引入了预测性返回支持。长按返回按钮会启动预测性返回动画，让您预览返回滑动手势会打开的界面。

此行为适用于系统中支持预测性返回动画的所有区域，包括系统动画（返回主屏幕、跨任务和跨 activity）。

Ícones temáticos automáticos de apps

从 Android 16 QPR 2 开始，Android 会自动将主题应用于应用图标，以打造一致的主屏幕体验。如果应用未提供自己的带主题的应用图标，就会发生这种情况。应用可以通过在自适应图标中添加单色图层来控制主题化应用图标的设计，并在 Android Studio 中预览应用图标的外观。

Formatos de dispositivos

O Android 16 (nível 36 da API) inclui as seguintes mudanças para apps quando projetados em telas por proprietários de dispositivos virtuais.

Substituições do proprietário do dispositivo virtual

虚拟设备所有者是创建和管理虚拟设备的受信任应用或特权应用。虚拟设备所有者在虚拟设备上运行应用，然后将应用投影到远程设备的显示屏上，例如个人电脑、虚拟现实设备或车载信息娱乐系统。虚拟设备所有者位于本地设备上，例如手机。

按应用替换项

在搭载 Android 16（API 级别 36）的设备上，虚拟设备所有者可以替换其管理的特定虚拟设备上的应用设置。例如，为了改进应用布局，虚拟设备所有者在将应用投影到外部显示屏上时，可以忽略屏幕方向、宽高比和可调整大小性限制。

常见的重大更改

Android 16 的行为可能会影响应用在汽车显示屏或 Chromebook 等大屏幕设备上的界面，尤其是那些专为竖屏小显示屏设计的布局。如需了解如何让应用适应所有设备类型，请参阅自适应布局简介。

参考文档

配套应用串流

Segurança

O Android 16 (nível da API 36) inclui mudanças que promovem a segurança do sistema para ajudar a proteger apps e usuários contra apps maliciosos.

Segurança aprimorada contra ataques de redirecionamento de intent

Android 16 提供了针对一般 Intent 重定向攻击的默认安全性，并且只需进行最低限度的兼容性更改和开发者更改。

我们正在引入默认安全强化解决方案，以应对Intent重定向漏洞。在大多数情况下，使用 intent 的应用通常不会遇到任何兼容性问题；我们在整个开发过程中收集了指标，以监控哪些应用可能会出现中断。

当攻击者可以部分或完全控制用于在存在漏洞的应用上下文中启动新组件的 intent 内容时，就会出现 Android 中的 intent 重定向问题，而受害应用会在（“顶级”）intent 的 extras 字段中启动不可信的子级 intent。这可能会导致攻击者应用在受害者应用的上下文中启动私有组件、触发特权操作或获得对敏感数据的 URI 访问权限，从而可能导致数据窃取和任意代码执行。

选择停用 intent 重定向处理

Android 16 引入了一项新 API，允许应用选择停用启动安全保护功能。在默认安全行为会干扰正当应用用例的特定情况下，这可能是必要的。

对于针对 Android 16（API 级别 36）SDK 或更高版本进行编译的应用

您可以直接对 Intent 对象使用 removeLaunchSecurityProtection() 方法。

val i = intent
val iSublevel: Intent? = i.getParcelableExtra("sub_intent")
iSublevel?.removeLaunchSecurityProtection() // Opt out from hardening
iSublevel?.let { startActivity(it) }

对于针对 Android 15（API 级别 35）或更低版本进行编译的应用

虽然不建议这样做，但您可以使用反射来访问 removeLaunchSecurityProtection() 方法。

val i = intent
val iSublevel: Intent? = i.getParcelableExtra("sub_intent", Intent::class.java)
try {
    val removeLaunchSecurityProtection = Intent::class.java.getDeclaredMethod("removeLaunchSecurityProtection")
    removeLaunchSecurityProtection.invoke(iSublevel)
} catch (e: Exception) {
    // Handle the exception, e.g., log it
} // Opt-out from the security hardening using reflection
iSublevel?.let { startActivity(it) }

Os apps complementares não recebem mais notificações de tempo limite de descoberta

O Android 16 apresenta um novo comportamento durante o fluxo de pareamento de dispositivos complementares para proteger a privacidade de localização do usuário contra apps maliciosos. Todos os apps complementares em execução no Android 16 não são mais notificados diretamente do tempo limite de descoberta usando RESULT_DISCOVERY_TIMEOUT. Em vez disso, o usuário é notificado sobre eventos de tempo limite com uma caixa de diálogo visual. Quando o usuário dispensa a caixa de diálogo, o app é alertado sobre a falha de associação com RESULT_USER_REJECTED.

A duração da pesquisa também foi estendida em relação aos 20 segundos originais, e a descoberta de dispositivos pode ser interrompida pelo usuário a qualquer momento durante a pesquisa. Se pelo menos um dispositivo for descoberto nos primeiros 20 segundos após o início da pesquisa, o CDM vai parar de procurar outros dispositivos.

Conectividade

O Android 16 (nível 36 da API) inclui as seguintes mudanças na pilha Bluetooth para melhorar a conectividade com dispositivos periféricos.

Melhoria no tratamento de perdas de títulos

从 Android 16 开始，蓝牙堆栈已更新，以便在检测到远程配对丢失时提高安全性和用户体验。以前，系统会自动解除配对并启动新的配对流程，这可能会导致意外重新配对。在许多情况下，我们发现应用未以一致的方式处理债券损失事件。

为了统一体验，Android 16 改进了系统的绑定丢失处理。如果之前配对的蓝牙设备在重新连接时无法进行身份验证，系统会断开关联，保留本地配对信息，并显示系统对话框，告知用户配对已断开并指示他们重新配对。