동작 변경사항: Android 15 이상을 타겟팅하는 앱

이전 버전과 마찬가지로 Android 15에는 앱에 영향을 미칠 수 있는 동작 변경사항이 포함되어 있습니다. 다음 동작 변경사항은 Android 15 이상을 타겟팅하는 앱에만 적용됩니다. 앱이 Android 15 이상을 타겟팅한다면 이러한 동작을 올바르게 지원하도록 앱을 수정해야 합니다(적용되는 경우).

앱의 targetSdkVersion과 관계없이 Android 15에서 실행되는 모든 앱에 영향을 미치는 동작 변경사항 목록도 검토해야 합니다.

핵심 기능

Android 15는 Android 시스템의 다양한 핵심 기능을 수정하거나 확장합니다.

포그라운드 서비스 변경사항

We are making the following changes to foreground services with Android 15.

• Data sync foreground service timeout behavior
• New media processing foreground service type
• Restrictions on BOOT_COMPLETED broadcast receivers launching foreground services
• Restrictions on starting foreground services while an app holds the SYSTEM_ALERT_WINDOW permission

Data sync foreground service timeout behavior

Android 15에서는 Android 15 (API 수준 35) 이상을 타겟팅하는 앱의 dataSync에 새로운 시간 제한 동작이 도입되었습니다. 이 동작은 새 mediaProcessing 포그라운드 서비스 유형에도 적용됩니다.

시스템은 앱의 dataSync 서비스가 24시간 동안 총 6시간 동안 실행되도록 허용합니다. 24시간이 지나면 시스템은 실행 중인 서비스의 Service.onTimeout(int, int) 메서드 (Android 15에서 도입됨)를 호출합니다. 이때 서비스는 Service.stopSelf()를 호출할 수 있는 몇 초의 시간을 갖습니다. Service.onTimeout()가 호출되면 서비스는 더 이상 포그라운드 서비스로 간주되지 않습니다. 서비스가 Service.stopSelf()를 호출하지 않으면 시스템에서 내부 예외가 발생합니다. 예외는 다음 메시지와 함께 Logcat에 로깅됩니다.

Fatal Exception: android.app.RemoteServiceException: "A foreground service of
type dataSync did not stop within its timeout: [component name]"

이 동작 변경으로 인한 문제를 방지하려면 다음 중 하나 이상을 수행하세요.

1. 서비스가 새 Service.onTimeout(int, int) 메서드를 구현하도록 합니다. 앱이 콜백을 수신하면 몇 초 이내에 stopSelf()를 호출해야 합니다. 앱을 즉시 중지하지 않으면 시스템에서 실패를 생성합니다.
2. 앱의 dataSync 서비스가 24시간 동안 총 6시간 넘게 실행되지 않도록 합니다 (사용자가 앱과 상호작용하여 타이머를 재설정하는 경우 제외).
3. 직접적인 사용자 상호작용의 결과로만 dataSync 포그라운드 서비스를 시작합니다. 서비스가 시작될 때 앱이 포그라운드에 있으므로 앱이 백그라운드로 전환된 후 6시간 동안 서비스가 계속 실행됩니다.
4. dataSync 포그라운드 서비스를 사용하는 대신 대체 API를 사용하세요.

앱의 dataSync 포그라운드 서비스가 지난 24시간 동안 6시간 동안 실행된 경우 사용자가 앱을 포그라운드로 가져와 (타이머 재설정) 않는 한 다른 dataSync 포그라운드 서비스를 시작할 수 없습니다. 다른 dataSync 포그라운드 서비스를 시작하려고 하면 시스템에서 '포그라운드 서비스 유형 dataSync의 시간 제한이 이미 소진됨'과 같은 오류 메시지와 함께 ForegroundServiceStartNotAllowedException를 발생시킵니다.

테스트

앱 동작을 테스트하려면 앱이 Android 15를 타겟팅하지 않더라도 (앱이 Android 15 기기에서 실행되는 경우) 데이터 동기화 시간 제한을 사용 설정할 수 있습니다. 제한 시간을 사용 설정하려면 다음 adb 명령어를 실행합니다.

adb shell am compat enable FGS_INTRODUCE_TIME_LIMITS your-package-name

제한에 도달할 때 앱이 어떻게 동작하는지 더 쉽게 테스트할 수 있도록 제한 시간도 조정할 수 있습니다. 새 제한 시간을 설정하려면 다음 adb 명령어를 실행합니다.

adb shell device_config put activity_manager data_sync_fgs_timeout_duration duration-in-milliseconds

New media processing foreground service type

Android 15에서는 새로운 포그라운드 서비스 유형인 mediaProcessing가 도입되었습니다. 이 서비스 유형은 미디어 파일 트랜스코딩과 같은 작업에 적합합니다. 예를 들어 미디어 앱에서 오디오 파일을 다운로드한 후 재생하기 전에 다른 형식으로 변환해야 할 수 있습니다. mediaProcessing 포그라운드 서비스를 사용하여 앱이 백그라운드에 있는 동안에도 전환이 계속되도록 할 수 있습니다.

시스템은 앱의 mediaProcessing 서비스가 24시간 동안 총 6시간 동안 실행되도록 허용합니다. 그 후에는 실행 중인 서비스의 Service.onTimeout(int, int) 메서드 (Android 15에서 도입됨)를 호출합니다. 현재 서비스는 몇 초 동안 Service.stopSelf()를 호출할 수 있습니다. 서비스가 Service.stopSelf()를 호출하지 않으면 시스템에서 내부 예외가 발생합니다. 예외는 다음 메시지와 함께 Logcat에 로깅됩니다.

Fatal Exception: android.app.RemoteServiceException: "A foreground service of
type mediaProcessing did not stop within its timeout: [component name]"

예외가 적용되지 않도록 하려면 다음 중 하나를 수행하세요.

1. 서비스가 새 Service.onTimeout(int, int) 메서드를 구현하도록 합니다. 앱이 콜백을 수신하면 몇 초 내에 stopSelf()를 호출해야 합니다. 앱을 즉시 중지하지 않으면 시스템에서 실패를 생성합니다.
2. 사용자가 앱과 상호작용하여 타이머를 재설정하지 않는 한 앱의 mediaProcessing 서비스가 24시간 동안 총 6시간을 초과하여 실행되지 않아야 합니다.
3. 직접적인 사용자 상호작용의 결과로만 mediaProcessing 포그라운드 서비스를 시작합니다. 서비스가 시작될 때 앱이 포그라운드에 있으므로 앱이 백그라운드로 전환된 후 6시간 동안 서비스가 계속 실행됩니다.
4. mediaProcessing 포그라운드 서비스를 사용하는 대신 WorkManager와 같은 대체 API를 사용하세요.

앱의 mediaProcessing 포그라운드 서비스가 지난 24시간 동안 6시간 동안 실행된 경우 사용자가 앱을 포그라운드로 가져와 (타이머 재설정) 않는 한 다른 mediaProcessing 포그라운드 서비스를 시작할 수 없습니다. 다른 mediaProcessing 포그라운드 서비스를 시작하려고 하면 시스템에서 '포그라운드 서비스 유형 mediaProcessing의 시간 제한이 이미 소진되었습니다'와 같은 오류 메시지와 함께 ForegroundServiceStartNotAllowedException을 발생시킵니다.

mediaProcessing 서비스 유형에 관한 자세한 내용은 Android 15의 포그라운드 서비스 유형 변경사항: 미디어 처리를 참고하세요.

테스트

앱의 동작을 테스트하려면 앱이 Android 15를 타겟팅하지 않더라도 (앱이 Android 15 기기에서 실행되는 경우) 미디어 처리 시간 제한을 사용 설정할 수 있습니다. 제한 시간을 사용 설정하려면 다음 adb 명령어를 실행합니다.

adb shell am compat enable FGS_INTRODUCE_TIME_LIMITS your-package-name

제한에 도달할 때 앱이 어떻게 동작하는지 더 쉽게 테스트할 수 있도록 제한 시간도 조정할 수 있습니다. 새 제한 시간을 설정하려면 다음 adb 명령어를 실행합니다.

adb shell device_config put activity_manager media_processing_fgs_timeout_duration duration-in-milliseconds

Restrictions on BOOT_COMPLETED broadcast receivers launching foreground services

There are new restrictions on BOOT_COMPLETED broadcast receivers launching foreground services. BOOT_COMPLETED receivers are not allowed to launch the following types of foreground services:

• dataSync
• camera
• mediaPlayback
• phoneCall
• mediaProjection
• microphone (this restriction has been in place for microphone since Android 14)

If a BOOT_COMPLETED receiver tries to launch any of those types of foreground services, the system throws ForegroundServiceStartNotAllowedException.

Testing

To test your app's behavior, you can enable these new restrictions even if your app is not targeting Android 15 (as long as the app is running on an Android 15 device). Run the following adb command:

adb shell am compat enable FGS_BOOT_COMPLETED_RESTRICTIONS your-package-name

To send a BOOT_COMPLETED broadcast without restarting the device, run the following adb command:

adb shell am broadcast -a android.intent.action.BOOT_COMPLETED your-package-name

Restrictions on starting foreground services while an app holds the SYSTEM_ALERT_WINDOW permission

Previously, if an app held the SYSTEM_ALERT_WINDOW permission, it could launch a foreground service even if the app was currently in the background (as discussed in exemptions from background start restrictions).

If an app targets Android 15, this exemption is now narrower. The app now needs to have the SYSTEM_ALERT_WINDOW permission and also have a visible overlay window. That is, the app needs to first launch a TYPE_APPLICATION_OVERLAY window and the window needs to be visible before you start a foreground service.

If your app attempts to start a foreground service from the background without meeting these new requirements (and it does not have some other exemption), the system throws ForegroundServiceStartNotAllowedException.

If your app declares the SYSTEM_ALERT_WINDOW permission and launches foreground services from the background, it may be affected by this change. If your app gets a ForegroundServiceStartNotAllowedException, check your app's order of operations and make sure your app already has an active overlay window before it attempts to start a foreground service from the background. You can check if your overlay window is currently visible by calling View.getWindowVisibility(), or you can override View.onWindowVisibilityChanged() to get notified whenever the visibility changes.

Testing

To test your app's behavior, you can enable these new restrictions even if your app is not targeting Android 15 (as long as the app is running on an Android 15 device). To enable these new restrictions on starting foreground services from the background, run the following adb command:

adb shell am compat enable FGS_SAW_RESTRICTIONS your-package-name

앱이 방해 금지 모드의 전역 상태를 수정할 수 있는 시점 변경

Android 15(API 수준 35) 이상을 타겟팅하는 앱은 더 이상 사용자 설정을 수정하거나 DND 모드를 사용 중지하여 기기의 전역 상태 또는 방해 금지(DND) 정책을 변경할 수 없습니다. 대신 앱은 AutomaticZenRule를 제공해야 하며, 시스템은 이를 기존의 가장 제한적인 정책 우선 적용 스킴과 함께 글로벌 정책으로 결합합니다. 이전에 전역 상태에 영향을 미쳤던 기존 API (setInterruptionFilter, setNotificationPolicy)를 호출하면 암시적 AutomaticZenRule가 생성되거나 업데이트되며, 이는 이러한 API 호출의 호출 주기에 따라 켜지거나 꺼집니다.

이 변경사항은 앱이 setInterruptionFilter(INTERRUPTION_FILTER_ALL)를 호출하고 이 호출이 이전에 소유자가 활성화한 AutomaticZenRule를 비활성화할 것으로 예상하는 경우에만 관찰 가능한 동작에 영향을 줍니다.

OpenJDK API 변경사항

Android 15 continues the work of refreshing Android's core libraries to align with the features in the latest OpenJDK LTS releases.

Some of these changes can affect app compatibility for apps targeting Android 15 (API level 35):

• Changes to string formatting APIs: Validation of argument index, flags, width, and precision are now more strict when using the following String.format() and Formatter.format() APIs:

  • String.format(String, Object[])
  • String.format(Locale, String, Object[])
  • Formatter.format(String, Object[])
  • Formatter.format(Locale, String, Object[])

  For example, the following exception is thrown when an argument index of 0 is used (%0 in the format string):

  IllegalFormatArgumentIndexException: Illegal format argument index = 0
  

  In this case, the issue can be fixed by using an argument index of 1 (%1 in the format string).

• Changes to component type of Arrays.asList(...).toArray(): When using Arrays.asList(...).toArray(), the component type of the resulting array is now an Object—not the type of the underlying array's elements. So the following code throws a ClassCastException:

  String[] elements = (String[]) Arrays.asList("one", "two").toArray();
  

  For this case, to preserve String as the component type in the resulting array, you could use Collection.toArray(Object[]) instead:

  String[] elements = Arrays.asList("two", "one").toArray(new String[0]);
  

• Changes to language code handling: When using the Locale API, language codes for Hebrew, Yiddish, and Indonesian are no longer converted to their obsolete forms (Hebrew: iw, Yiddish: ji, and Indonesian: in). When specifying the language code for one of these locales, use the codes from ISO 639-1 instead (Hebrew: he, Yiddish: yi, and Indonesian: id).

• Changes to random int sequences: Following the changes made in https://bugs.openjdk.org/browse/JDK-8301574, the following Random.ints() methods now return a different sequence of numbers than the Random.nextInt() methods do:

  • Random.ints(long)
  • Random.ints(long, int, int)
  • Random.ints(int, int)
  • Random.ints()

  Generally, this change shouldn't result in app-breaking behavior, but your code shouldn't expect the sequence generated from Random.ints() methods to match Random.nextInt().

The new SequencedCollection API can affect your app's compatibility after you update compileSdk in your app's build configuration to use Android 15 (API level 35):

• Collision with MutableList.removeFirst() and MutableList.removeLast() extension functions in kotlin-stdlib

  The List type in Java is mapped to the MutableList type in Kotlin. Because the List.removeFirst() and List.removeLast() APIs have been introduced in Android 15 (API level 35), the Kotlin compiler resolves function calls, for example list.removeFirst(), statically to the new List APIs instead of to the extension functions in kotlin-stdlib.

  If an app is re-compiled with compileSdk set to 35 and minSdk set to 34 or lower, and then the app is run on Android 14 and lower, a runtime error is thrown:

  java.lang.NoSuchMethodError: No virtual method
  removeFirst()Ljava/lang/Object; in class Ljava/util/ArrayList;
  

  The existing NewApi lint option in Android Gradle Plugin can catch these new API usages.

  ./gradlew lint
  
  MainActivity.kt:41: Error: Call requires API level 35 (current min is 34): java.util.List#removeFirst [NewApi]
        list.removeFirst()
  

  To fix the runtime exception and lint errors, the removeFirst() and removeLast() function calls can be replaced with removeAt(0) and removeAt(list.lastIndex) respectively in Kotlin. If you're using Android Studio Ladybug | 2024.1.3 or higher, it also provides a quick fix option for these errors.

  Consider removing @SuppressLint("NewApi") and lintOptions { disable 'NewApi' } if the lint option has been disabled.

• Collision with other methods in Java

  New methods have been added into the existing types, for example, List and Deque. These new methods might not be compatible with the methods with the same name and argument types in other interfaces and classes. In the case of a method signature collision with incompatibility, the javac compiler outputs a build-time error. For example:

  Example error 1:

  javac MyList.java
  
  MyList.java:135: error: removeLast() in MyList cannot implement removeLast() in List
    public void removeLast() {
                ^
    return type void is not compatible with Object
    where E is a type-variable:
      E extends Object declared in interface List
  

  Example error 2:

  javac MyList.java
  
  MyList.java:7: error: types Deque<Object> and List<Object> are incompatible;
  public class MyList implements  List<Object>, Deque<Object> {
    both define reversed(), but with unrelated return types
  1 error
  

  Example error 3:

  javac MyList.java
  
  MyList.java:43: error: types List<E#1> and MyInterface<E#2> are incompatible;
  public static class MyList implements List<Object>, MyInterface<Object> {
    class MyList inherits unrelated defaults for getFirst() from types List and MyInterface
    where E#1,E#2 are type-variables:
      E#1 extends Object declared in interface List
      E#2 extends Object declared in interface MyInterface
  1 error
  

  To fix these build errors, the class implementing these interfaces should override the method with a compatible return type. For example:

  @Override
  public Object getFirst() {
      return List.super.getFirst();
  }
  

보안

Android 15에는 악성 앱으로부터 앱과 사용자를 보호하는 데 도움이 되는 시스템 보안을 개선하는 변경사항이 포함되어 있습니다.

제한된 TLS 버전

Android 15 restricts the usage of TLS versions 1.0 and 1.1. These versions had previously been deprecated in Android, but are now disallowed for apps targeting Android 15.

보안 처리된 백그라운드 활동 실행

Android 15 protects users from malicious apps and gives them more control over their devices by adding changes that prevent malicious background apps from bringing other apps to the foreground, elevating their privileges, and abusing user interaction. Background activity launches have been restricted since Android 10 (API level 29).

Other changes

In addition to the restriction for UID matching, these other changes are also included:

• Change PendingIntent creators to block background activity launches by default. This helps prevent apps from accidentally creating a PendingIntent that could be abused by malicious actors.
• Don't bring an app to the foreground unless the PendingIntent sender allows it. This change aims to prevent malicious apps from abusing the ability to start activities in the background. By default, apps are not allowed to bring the task stack to the foreground unless the creator allows background activity launch privileges or the sender has background activity launch privileges.
• Control how the top activity of a task stack can finish its task. If the top activity finishes a task, Android will go back to whichever task was last active. Moreover, if a non-top activity finishes its task, Android will go back to the home screen; it won't block the finish of this non-top activity.
• Prevent launching arbitrary activities from other apps into your own task. This change prevents malicious apps from phishing users by creating activities that appear to be from other apps.
• Block non-visible windows from being considered for background activity launches. This helps prevent malicious apps from abusing background activity launches to display unwanted or malicious content to users.

더 안전한 인텐트

Android 15 introduces new optional security measures to make intents safer and more robust. These changes are aimed at preventing potential vulnerabilities and misuse of intents that can be exploited by malicious apps. There are two main improvements to the security of intents in Android 15:

• Match target intent-filters: Intents that target specific components must accurately match the target's intent-filter specifications. If you send an intent to launch another app's activity, the target intent component needs to align with the receiving activity's declared intent-filters.
• Intents must have actions: Intents without an action will no longer match any intent-filters. This means that intents used to start activities or services must have a clearly defined action.

In order to check how your app responds to these changes, use StrictMode in your app. To see detailed logs about Intent usage violations, add the following method:

fun onCreate() {
    StrictMode.setVmPolicy(VmPolicy.Builder()
        .detectUnsafeIntentLaunch()
        .build()
    )
}

public void onCreate() {
    StrictMode.setVmPolicy(new VmPolicy.Builder()
            .detectUnsafeIntentLaunch()
            .build());
}

사용자 환경 및 시스템 UI

Android 15에는 더 일관되고 직관적인 사용자 환경을 제공하기 위한 몇 가지 변경사항이 포함되어 있습니다.

창 인셋 변경사항

There are two changes related to window insets in Android 15: edge-to-edge is enforced by default, and there are also configuration changes, such as the default configuration of system bars.

더 넓은 화면 적용

Apps are edge-to-edge by default on devices running Android 15 if the app is targeting Android 15 (API level 35).

This is a breaking change that might negatively impact your app's UI. The changes affect the following UI areas:

• Gesture handle navigation bar
  • Transparent by default.
  • Bottom offset is disabled so content draws behind the system navigation bar unless insets are applied.
  • setNavigationBarColor and R.attr#navigationBarColor are deprecated and don't affect gesture navigation.
  • setNavigationBarContrastEnforced and R.attr#navigationBarContrastEnforced continue to have no effect on gesture navigation.
• 3-button navigation
  • Opacity set to 80% by default, with color possibly matching the window background.
  • Bottom offset disabled so content draws behind the system navigation bar unless insets are applied.
  • setNavigationBarColor and R.attr#navigationBarColor are set to match the window background by default. The window background must be a color drawable for this default to apply. This API is deprecated but continues to affect 3-button navigation.
  • setNavigationBarContrastEnforced and R.attr#navigationBarContrastEnforced is true by default, which adds an 80% opaque background across 3-button navigation.
• Status bar
  • Transparent by default.
  • The top offset is disabled so content draws behind the status bar unless insets are applied.
  • setStatusBarColor and R.attr#statusBarColor are deprecated and have no effect on Android 15.
  • setStatusBarContrastEnforced and R.attr#statusBarContrastEnforced are deprecated but still have an effect on Android 15.
• Display cutout
  • layoutInDisplayCutoutMode of non-floating windows must be LAYOUT_IN_DISPLAY_CUTOUT_MODE_ALWAYS. SHORT_EDGES, NEVER, and DEFAULT are interpreted as ALWAYS so that users don't see a black bar caused by the display cutout and appear edge-to-edge.

The following example shows an app before and after targeting Android 15 (API level 35), and before and after applying insets.

What to check if your app is already edge-to-edge

If your app is already edge-to-edge and applies insets, you are mostly unimpacted, except in the following scenarios. However, even if you think you aren't impacted, we recommend you test your app.

• You have a non-floating window, such as an Activity that uses SHORT_EDGES, NEVER or DEFAULT instead of LAYOUT_IN_DISPLAY_CUTOUT_MODE_ALWAYS. If your app crashes on launch, this might be due to your splashscreen. You can either upgrade the core splashscreen dependency to 1.2.0-alpha01 or later or set window.attributes.layoutInDisplayCutoutMode = WindowManager.LayoutInDisplayCutoutMode.always.
• There might be lower-traffic screens with occluded UI. Verify these less-visited screens don't have occluded UI. Lower-traffic screens include:
  • Onboarding or sign-in screens
  • Settings pages

What to check if your app is not already edge-to-edge

If your app is not already edge-to-edge, you are most likely impacted. In addition to the scenarios for apps that are already edge-to-edge, you should consider the following:

• If your app uses Material 3 Components ( androidx.compose.material3) in compose, such as TopAppBar, BottomAppBar, and NavigationBar, these components are likely not impacted because they automatically handle insets.
• If your app is using Material 2 Components ( androidx.compose.material) in Compose, these components don't automatically handle insets. However, you can get access to the insets and apply them manually. In androidx.compose.material 1.6.0 and later, use the windowInsets parameter to apply the insets manually for BottomAppBar, TopAppBar, BottomNavigation, and NavigationRail. Likewise, use the contentWindowInsets parameter for Scaffold.
• If your app uses views and Material Components (com.google.android.material), most views-based Material Components such as BottomNavigationView, BottomAppBar, NavigationRailView, or NavigationView, handle insets and require no additional work. However, you need to add android:fitsSystemWindows="true" if using AppBarLayout.
• For custom composables, apply the insets manually as padding. If your content is within a Scaffold, you can consume insets using the Scaffold padding values. Otherwise, apply padding using one of the WindowInsets.
• If your app is using views and BottomSheet, SideSheet or custom containers, apply padding using ViewCompat.setOnApplyWindowInsetsListener. For RecyclerView, apply padding using this listener and also add clipToPadding="false".

What to check if your app must offer custom background protection

If your app must offer custom background protection to 3-button navigation or the status bar, your app should place a composable or view behind the system bar using WindowInsets.Type#tappableElement() to get the 3-button navigation bar height or WindowInsets.Type#statusBars.

Additional edge-to-edge resources

See the Edge to Edge Views and Edge to Edge Compose guides for additional considerations on applying insets.

Deprecated APIs

The following APIs are deprecated but not disabled:

• R.attr#enforceStatusBarContrast
• R.attr#navigationBarColor (for 3 button navigation, with 80% alpha)
• Window#isStatusBarContrastEnforced
• Window#setNavigationBarColor (for 3 button navigation, with 80% alpha)
• Window#setStatusBarContrastEnforced

The following APIs are deprecated and disabled:

• R.attr#navigationBarColor (for gesture navigation)
• R.attr#navigationBarDividerColor
• R.attr#statusBarColor
• Window#setDecorFitsSystemWindows
• Window#getNavigationBarColor
• Window#getNavigationBarDividerColor
• Window#getStatusBarColor
• Window#setNavigationBarColor (for gesture navigation)
• Window#setNavigationBarDividerColor
• Window#setStatusBarColor

안정적인 구성

If your app targets Android 15 (API level 35) or higher, Configuration no longer excludes the system bars. If you use the screen size in the Configuration class for layout calculation, you should replace it with better alternatives like an appropriate ViewGroup, WindowInsets, or WindowMetricsCalculator depending on your need.

Configuration has been available since API 1. It is typically obtained from Activity.onConfigurationChanged. It provides information like window density, orientation, and sizes. One important characteristic about the window sizes returned from Configuration is that it previously excluded the system bars.

The configuration size is typically used for resource selection, such as /res/layout-h500dp, and this is still a valid use case. However, using it for layout calculation has always been discouraged. If you do so, you should move away from it now. You should replace the use of Configuration with something more suitable depending on your use case.

If you use it to calculate the layout, use an appropriate ViewGroup, such as CoordinatorLayout or ConstraintLayout. If you use it to determine the height of the system navbar, use WindowInsets. If you want to know the current size of your app window, use computeCurrentWindowMetrics.

The following list describes the fields affected by this change:

• Configuration.screenWidthDp and screenHeightDp sizes no longer exclude the system bars.
• Configuration.smallestScreenWidthDp is indirectly affected by changes to screenWidthDp and screenHeightDp.
• Configuration.orientation is indirectly affected by changes to screenWidthDp and screenHeightDp on close-to-square devices.
• Display.getSize(Point) is indirectly affected by the changes in Configuration. This was deprecated beginning in API level 30.
• Display.getMetrics() has already worked like this since API level 33.

elegantTextHeight 속성의 기본값은 true입니다.

For apps targeting Android 15 (API level 35), the elegantTextHeight TextView attribute becomes true by default, replacing the compact font used by default with some scripts that have large vertical metrics with one that is much more readable. The compact font was introduced to prevent breaking layouts; Android 13 (API level 33) prevents many of these breakages by allowing the text layout to stretch the vertical height utilizing the fallbackLineSpacing attribute.

In Android 15, the compact font still remains in the system, so your app can set elegantTextHeight to false to get the same behavior as before, but it is unlikely to be supported in upcoming releases. So, if your app supports the following scripts: Arabic, Lao, Myanmar, Tamil, Gujarati, Kannada, Malayalam, Odia, Telugu or Thai, test your app by setting elegantTextHeight to true.

복잡한 문자 도형의 TextView 너비 변경

In previous versions of Android, some cursive fonts or languages that have complex shaping might draw the letters in the previous or next character's area. In some cases, such letters were clipped at the beginning or ending position. Starting in Android 15, a TextView allocates width for drawing enough space for such letters and allows apps to request extra paddings to the left to prevent clipping.

Because this change affects how a TextView decides the width, TextView allocates more width by default if the app targets Android 15 (API level 35) or higher. You can enable or disable this behavior by calling the setUseBoundsForWidth API on TextView.

Because adding left padding might cause a misalignment for existing layouts, the padding is not added by default even for apps that target Android 15 or higher. However, you can add extra padding to preventing clipping by calling setShiftDrawingOffsetForStartOverhang.

The following examples show how these changes can improve text layout for some fonts and languages.

Standard layout for English text in a cursive font. Some of the letters are clipped. Here is the corresponding XML:

<TextView
    android:fontFamily="cursive"
    android:text="java" />

Layout for the same English text with additional width and padding. Here is the corresponding XML:

<TextView
    android:fontFamily="cursive"
    android:text="java"
    android:useBoundsForWidth="true"
    android:shiftDrawingOffsetForStartOverhang="true" />

Standard layout for Thai text. Some of the letters are clipped. Here is the corresponding XML:

<TextView
    android:text="คอมพิวเตอร์" />

Layout for the same Thai text with additional width and padding. Here is the corresponding XML:

<TextView
    android:text="คอมพิวเตอร์"
    android:useBoundsForWidth="true"
    android:shiftDrawingOffsetForStartOverhang="true" />

EditText의 언어 인식 기본 행 높이

이전 버전의 Android에서는 텍스트 레이아웃이 현재 언어와 일치하는 글꼴의 행 간격을 충족하도록 텍스트 높이를 늘렸습니다. 예를 들어 콘텐츠가 일본어인 경우 일본어 글꼴의 줄 높이가 라틴어 글꼴의 줄 높이보다 약간 더 커서 텍스트의 높이가 약간 더 커졌습니다. 그러나 이러한 줄 높이의 차이에도 불구하고 다음 이미지와 같이 사용되는 언어와 관계없이 EditText 요소의 크기는 균일하게 조정되었습니다.

Android 15(API 수준 35)를 타겟팅하는 앱의 경우 이제 EditText가 지정된 언어의 참조 글꼴과 일치하도록 최소 줄 높이가 예약됩니다(다음 이미지 참고).

필요한 경우 앱은 useLocalePreferredLineHeightForMinimum 속성을 false로 지정하여 이전 동작을 복원할 수 있으며 Kotlin 및 Java에서 setMinimumFontMetrics API를 사용하여 맞춤 최소 카테고리 측정항목을 설정할 수 있습니다.

카메라 및 미디어

Android 15에서는 Android 15 이상을 타겟팅하는 앱의 카메라 및 미디어 동작을 다음과 같이 변경합니다.

오디오 포커스 요청 제한사항

Apps that target Android 15 (API level 35) must be the top app or running a foreground service in order to request audio focus. If an app attempts to request focus when it does not meet one of these requirements, the call returns AUDIOFOCUS_REQUEST_FAILED.

You can learn more about audio focus at Manage audio focus.

업데이트된 비 SDK 제한사항

Android 15 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 15, some of these changes might not immediately affect you. However, while it's possible for your app to access 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 can't 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 15. To learn more about non-SDK interfaces generally, see Restrictions on non-SDK interfaces.