Verhaltensänderungen: Apps, die auf Android 14 oder höher ausgerichtet sind

Wie bei früheren Releases enthält Android 14 Verhaltensänderungen, die sich auf Ihre App auswirken können. Die folgenden Verhaltensänderungen gelten ausschließlich für Apps, die auf Android 14 (API-Level 34) oder höher ausgerichtet sind. Wenn Ihre App auf Android 14 oder höher ausgerichtet ist, sollten Sie sie gegebenenfalls so ändern, dass sie diese Verhaltensweisen korrekt unterstützt.

Sehen Sie sich auch die Liste der Verhaltensänderungen an, die sich auf alle Apps auswirken, die auf Android 14 ausgeführt werden, unabhängig von der targetSdkVersion der App.

Hauptfunktion

Arten von Diensten im Vordergrund sind erforderlich

If your app targets Android 14 (API level 34) or higher, it must specify at least one foreground service type for each foreground service within your app. You should choose a foreground service type that represents your app's use case. The system expects foreground services that have a particular type to satisfy a particular use case.

If a use case in your app isn't associated with any of these types, it's strongly recommended that you migrate your logic to use WorkManager or user-initiated data transfer jobs.

Erzwingung der Berechtigung BLUETOOTH_CONNECT in BluetoothAdapter

Android 14 enforces the BLUETOOTH_CONNECT permission when calling the BluetoothAdapter getProfileConnectionState() method for apps targeting Android 14 (API level 34) or higher.

This method already required the BLUETOOTH_CONNECT permission, but it was not enforced. Make sure your app declares BLUETOOTH_CONNECT in your app's AndroidManifest.xml file as shown in the following snippet and check that a user has granted the permission before calling getProfileConnectionState.

<uses-permission android:name="android.permission.BLUETOOTH_CONNECT" />

OpenJDK 17-Updates

Android 14 continues the work of refreshing Android's core libraries to align with the features in the latest OpenJDK LTS releases, including both library updates and Java 17 language support for app and platform developers.

A few of these changes can affect app compatibility:

• Changes to regular expressions: Invalid group references are now disallowed to more closely follow the semantics of OpenJDK. You might see new cases where an IllegalArgumentException is thrown by the java.util.regex.Matcher class, so make sure to test your app for areas that use regular expressions. To enable or disable this change while testing, toggle the DISALLOW_INVALID_GROUP_REFERENCE flag using the compatibility framework tools.
• UUID handling: The java.util.UUID.fromString() method now does more strict checks when validating the input argument, so you might see an IllegalArgumentException during deserialization. To enable or disable this change while testing, toggle the ENABLE_STRICT_VALIDATION flag using the compatibility framework tools.
• ProGuard issues: In some cases, the addition of the java.lang.ClassValue class causes an issue if you try to shrink, obfuscate, and optimize your app using ProGuard. The problem originates with a Kotlin library that changes runtime behaviour based on whether Class.forName("java.lang.ClassValue") returns a class or not. If your app was developed against an older version of the runtime without the java.lang.ClassValue class available, then these optimizations might remove the computeValue method from classes derived from java.lang.ClassValue.

JobScheduler verstärkt Callback- und Netzwerkverhalten

Since its introduction, JobScheduler expects your app to return from onStartJob or onStopJob within a few seconds. Prior to Android 14, if a job runs too long, the job is stopped and fails silently. If your app targets Android 14 (API level 34) or higher and exceeds the granted time on the main thread, the app triggers an ANR with the error message "No response to onStartJob" or "No response to onStopJob".

This ANR may be a result of 2 scenarios: 1. There is work blocking the main thread, preventing the callbacks onStartJob or onStopJob from executing and completing within the expected time limit. 2. The developer is running blocking work within the JobScheduler callback onStartJob or onStopJob, preventing the callback from completing within the expected time limit.

To address #1, you will need to further debug what is blocking the main thread when the ANR occurs, you can do this using ApplicationExitInfo#getTraceInputStream() to get the tombstone trace when the ANR occurs. If you're able to manually reproduce the ANR, you can record a system trace and inspect the trace using either Android Studio or Perfetto to better understand what is running on the main thread when the ANR occurs. Note that this can happen when using JobScheduler API directly or using the androidx library WorkManager.

To address #2, consider migrating to WorkManager, which provides support for wrapping any processing in onStartJob or onStopJob in an asynchronous thread.

JobScheduler also introduces a requirement to declare the ACCESS_NETWORK_STATE permission if using setRequiredNetworkType or setRequiredNetwork constraint. If your app does not declare the ACCESS_NETWORK_STATE permission when scheduling the job and is targeting Android 14 or higher, it will result in a SecurityException.

Tiles Launch API

For apps targeting 14 and higher, TileService#startActivityAndCollapse(Intent) is deprecated and now throws an exception when called. If your app launches activities from tiles, use TileService#startActivityAndCollapse(PendingIntent) instead.

Datenschutz

Teilweiser Zugriff auf Fotos und Videos

Android 14 引入了“已选照片访问权限”，让用户可以向应用授予对其媒体库中特定图片和视频的访问权限，而不是授予对给定类型的所有媒体的访问权限。

只有当您的应用以 Android 14（API 级别 34）或更高版本为目标平台时，此更改才会启用。如果您尚未使用照片选择器，我们建议您在应用中实现照片选择器，以提供一致的图片和视频选择体验，同时增强用户隐私保护，而无需请求任何存储权限。

如果您使用存储权限维护自己的图库选择器，并且需要对实现保持完全控制，请调整实现以使用新的 READ_MEDIA_VISUAL_USER_SELECTED 权限。如果您的应用不使用新权限，系统会以兼容模式运行您的应用。

Nutzererfahrung

Sichere Vollbild-Intent-Benachrichtigungen

With Android 11 (API level 30), it was possible for any app to use Notification.Builder.setFullScreenIntent to send full-screen intents while the phone is locked. You could auto-grant this on app install by declaring USE_FULL_SCREEN_INTENT permission in the AndroidManifest.

Full-screen intent notifications are designed for extremely high-priority notifications demanding the user's immediate attention, such as an incoming phone call or alarm clock settings configured by the user. For apps targeting Android 14 (API level 34) or higher, apps that are allowed to use this permission are limited to those that provide calling and alarms only. The Google Play Store revokes default USE_FULL_SCREEN_INTENT permissions for any apps that don't fit this profile. The deadline for these policy changes is May 31, 2024.

This permission remains enabled for apps installed on the phone before the user updates to Android 14. Users can turn this permission on and off.

You can use the new API NotificationManager.canUseFullScreenIntent to check if your app has the permission; if not, your app can use the new intent ACTION_MANAGE_APP_USE_FULL_SCREEN_INTENT to launch the settings page where users can grant the permission.

Sicherheit

Einschränkungen für implizite und ausstehende Intents

For apps targeting Android 14 (API level 34) or higher, Android restricts apps from sending implicit intents to internal app components in the following ways:

• Implicit intents are only delivered to exported components. Apps must either use an explicit intent to deliver to unexported components, or mark the component as exported.
• If an app creates a mutable pending intent with an intent that doesn't specify a component or package, the system throws an exception.

These changes prevent malicious apps from intercepting implicit intents that are intended for use by an app's internal components.

For example, here is an intent filter that could be declared in your app's manifest file:

<activity
    android:name=".AppActivity"
    android:exported="false">
    <intent-filter>
        <action android:name="com.example.action.APP_ACTION" />
        <category android:name="android.intent.category.DEFAULT" />
    </intent-filter>
</activity>

If your app tried to launch this activity using an implicit intent, an ActivityNotFoundException exception would be thrown:

// Throws an ActivityNotFoundException exception when targeting Android 14.
context.startActivity(Intent("com.example.action.APP_ACTION"))

// Throws an ActivityNotFoundException exception when targeting Android 14.
context.startActivity(new Intent("com.example.action.APP_ACTION"));

To launch the non-exported activity, your app should use an explicit intent instead:

// This makes the intent explicit.
val explicitIntent =
        Intent("com.example.action.APP_ACTION")
explicitIntent.apply {
    package = context.packageName
}
context.startActivity(explicitIntent)

// This makes the intent explicit.
Intent explicitIntent =
        new Intent("com.example.action.APP_ACTION")
explicitIntent.setPackage(context.getPackageName());
context.startActivity(explicitIntent);

Für Laufzeit registrierte Übertragungsempfänger muss das Exportverhalten angegeben werden

Apps and services that target Android 14 (API level 34) or higher and use context-registered receivers are required to specify a flag to indicate whether or not the receiver should be exported to all other apps on the device: either RECEIVER_EXPORTED or RECEIVER_NOT_EXPORTED, respectively. This requirement helps protect apps from security vulnerabilities by leveraging the features for these receivers introduced in Android 13.

Exception for receivers that receive only system broadcasts

If your app is registering a receiver only for system broadcasts through Context#registerReceiver methods, such as Context#registerReceiver(), then it shouldn't specify a flag when registering the receiver.

Sichereres Laden dynamischen Codes

Wenn Ihre App auf Android 14 (API-Level 34) oder höher ausgerichtet ist und dynamisches Code-Laden (DCL) verwendet, müssen alle dynamisch geladenen Dateien als schreibgeschützt gekennzeichnet sein. Andernfalls wirft das System eine Ausnahme aus. Wir empfehlen, in Apps nach Möglichkeit keinen Code dynamisch zu laden, da dadurch das Risiko erheblich steigt, dass eine App durch Code-Injection oder Code-Manipulation manipuliert wird.

Wenn Sie Code dynamisch laden müssen, können Sie die dynamisch geladene Datei (z. B. eine DEX-, JAR- oder APK-Datei) so einstellen, dass sie nur lesbar ist, sobald sie geöffnet wird und bevor Inhalte geschrieben werden. Gehen Sie dazu so vor:

val jar = File("DYNAMICALLY_LOADED_FILE.jar")
val os = FileOutputStream(jar)
os.use {
    // Set the file to read-only first to prevent race conditions
    jar.setReadOnly()
    // Then write the actual file content
}
val cl = PathClassLoader(jar, parentClassLoader)

File jar = new File("DYNAMICALLY_LOADED_FILE.jar");
try (FileOutputStream os = new FileOutputStream(jar)) {
    // Set the file to read-only first to prevent race conditions
    jar.setReadOnly();
    // Then write the actual file content
} catch (IOException e) { ... }
PathClassLoader cl = new PathClassLoader(jar, parentClassLoader);

Dynamisch geladene Dateien verarbeiten, die bereits vorhanden sind

Um zu verhindern, dass für vorhandene dynamisch geladene Dateien Ausnahmen ausgelöst werden, empfehlen wir, die Dateien zu löschen und neu zu erstellen, bevor Sie versuchen, sie wieder dynamisch in Ihre App zu laden. Beachten Sie beim Erstellen der Dateien die vorherigen Hinweise zum Markieren der Dateien beim Schreiben als schreibgeschützt. Alternativ können Sie die vorhandenen Dateien wieder als schreibgeschützt kennzeichnen. In diesem Fall empfehlen wir Ihnen jedoch dringend, zuerst die Integrität der Dateien zu prüfen (z. B. indem Sie die Signatur der Datei mit einem vertrauenswürdigen Wert vergleichen), um Ihre App vor schädlichen Aktionen zu schützen.

Zusätzliche Einschränkungen beim Starten von Aktivitäten im Hintergrund

For apps targeting Android 14 (API level 34) or higher, the system further restricts when apps are allowed to start activities from the background:

• When an app sends a PendingIntent using PendingIntent#send() or similar methods, the app must opt in if it wants to grant its own background activity launch privileges to start the pending intent. To opt in, the app should pass an ActivityOptions bundle with setPendingIntentBackgroundActivityStartMode(MODE_BACKGROUND_ACTIVITY_START_ALLOWED).
• When a visible app binds a service of another app that's in the background using the bindService() method, the visible app must now opt in if it wants to grant its own background activity launch privileges to the bound service. To opt in, the app should include the BIND_ALLOW_ACTIVITY_STARTS flag when calling the bindService() method.

These changes expand the existing set of restrictions to protect users by preventing malicious apps from abusing APIs to start disruptive activities from the background.

Zip Path Traversal

对于以 Android 14（API 级别 34）或更高版本为目标平台的应用，Android 会通过以下方式防止 Zip 路径遍历漏洞：如果 Zip 文件条目名称包含“..”或以“/”开头，ZipFile(String) 和 ZipInputStream.getNextEntry() 会抛出 ZipException。

应用可以通过调用 dalvik.system.ZipPathValidator.clearCallback() 选择停用此验证。

Nutzereinwilligung ist für jede Aufnahmesitzung von MediaProjection erforderlich

For apps targeting Android 14 (API level 34) or higher, a SecurityException is thrown by MediaProjection#createVirtualDisplay in either of the following scenarios:

• Your app caches the Intent that is returned from MediaProjectionManager#createScreenCaptureIntent, and passes it multiple times to MediaProjectionManager#getMediaProjection.
• Your app invokes MediaProjection#createVirtualDisplay multiple times on the same MediaProjection instance.

Your app must ask the user to give consent before each capture session. A single capture session is a single invocation on MediaProjection#createVirtualDisplay, and each MediaProjection instance must be used only once.

Handle configuration changes

If your app needs to invoke MediaProjection#createVirtualDisplay to handle configuration changes (such as the screen orientation or screen size changing), you can follow these steps to update the VirtualDisplay for the existing MediaProjection instance:

1. Invoke VirtualDisplay#resize with the new width and height.
2. Provide a new Surface with the new width and height to VirtualDisplay#setSurface.

Register a callback

Your app should register a callback to handle cases where the user doesn't grant consent to continue a capture session. To do this, implement Callback#onStop and have your app release any related resources (such as the VirtualDisplay and Surface).

If your app doesn't register this callback, MediaProjection#createVirtualDisplay throws an IllegalStateException when your app invokes it.

Aktualisierte Einschränkungen für Nicht-SDKs

Android 14 includes updated lists of restricted non-SDK interfaces based on collaboration with Android developers and the latest internal testing. Whenever possible, we make sure that public alternatives are available before we restrict non-SDK interfaces.

If your app does not target Android 14, some of these changes might not immediately affect you. However, while you can currently use some non-SDK interfaces (depending on your app's target API level), using any non-SDK method or field always carries a high risk of breaking your app.

If you are unsure if your app uses non-SDK interfaces, you can test your app to find out. If your app relies on non-SDK interfaces, you should begin planning a migration to SDK alternatives. Nevertheless, we understand that some apps have valid use cases for using non-SDK interfaces. If you cannot find an alternative to using a non-SDK interface for a feature in your app, you should request a new public API.

To learn more about the changes in this release of Android, see Updates to non-SDK interface restrictions in Android 14. To learn more about non-SDK interfaces generally, see Restrictions on non-SDK interfaces.