行为变更：所有应用

Android 17 平台包含一些可能会影响您的应用的行为变更。以下行为变更将影响在 Android 17 上运行的所有应用，无论采用哪种 targetSdkVersion 都不例外。您应该测试您的应用，然后根据需要酌情修改，以便支持这些变更。

此外，请务必查看仅影响以 Android 17 为目标平台的应用的行为变更列表。

核心功能

Android 17（API 级别 37）包含以下变更，这些变更会修改或扩展 Android 系统的各种核心功能。

应用内存限制

Android 17 introduces app memory limits based on the device's total RAM to create a more stable and deterministic environment for your applications and Android users. In Android 17, limits are set conservatively to establish system baselines, targeting extreme memory leaks and other outliers before they trigger system-wide instability resulting in UI stuttering, higher battery drain, and apps being killed. While we anticipate minimal impact on the vast majority of app sessions, we recommend the following memory best practices, including establishing a baseline for memory.

You can determine if your app session was impacted by calling getDescription in ApplicationExitInfo; if your app was affected, the exit reason will be REASON_OTHER and the description will contain the string "MemoryLimiter:AnonSwap" along with other information. You can also use trigger-based profiling with TRIGGER_TYPE_ANOMALY to get heap dumps that are collected when the memory limit is hit.

The Manage your app's memory documentation gives information to help you diagnose your app's memory issues and optimize its resource consumption.

Test your app's behavior under the memory constraints

You can use Android Debug Bridge (adb) to adjust or disable the memory limits on any device that imposes them. The shell command am provides three subcommands to adjust the memory limits. (These commands have no effect on a device which does not impose memory limits.)

• am memory-limiter ignore <uid>|none|all
• am memory-limiter manual <pid> <limit>|max|none
• am memory-limiter status

ignore

Instructs the memory limiter to ignore some or all processes. Passing a UID instructs the memory limiter to ignore all processes associated with that UID. You can also pass all (ignore all processes) or none (do not ignore any processes). Passing none overrides any previous calls to am memory-limiter ignore.

If you instruct the memory limiter to ignore a process, you can still apply a manual memory limit to the process by calling am memory-limiter manual.

manual

Instructs the system to impose a memory constraint on the process with the specified PID. The memory constraint is specified as an integer number of MB; for example, passing 30 specifies that the process is limited to 30 MB of memory. Passing max removes all memory limits on that process. Passing none removes any manual limits set on the process, restoring the system's default limit (if any).

status

Reports the current status of the memory limiter. The status includes the memory limits imposed on visible and non-visible processes.

隐私权

Android 17 包含以下变更，旨在提升用户隐私保护。

动态短信密码保护

Beginning with Android 17, Android is expanding its protection for SMS messages containing one-time passwords (OTP).

In previous versions of Android, this protection was primarily focused on the SMS Retriever format. Delivery of messages containing an SMS retriever hash was delayed for most apps for three hours. However, certain certain apps (like the default SMS handler) were exempt from the delay, and the app that owned the hash was also exempted.

Beginning with Android 17, the protection is also applied to WebOTP format messages. If an app has permission to read SMS messages but is not the intended recipient of a WebOTP message (as determined by domain verification), the message is not accessible to the app until three hours after the message's receipt. This change is intended to improve user security by ensuring that only apps associated with the domain mentioned in the message can programmatically read the verification code.

During this three hour delay, the SMS_RECEIVED_ACTION broadcast is withheld and SMS provider database queries are filtered. The SMS message is available to these apps after the delay. This change applies to all apps, regardless of their target API level.

Certain apps such as the default SMS assistant app, connected device companion apps, etc., are exempted from this delay. All apps that rely on reading SMS messages for OTP extraction should transition to using SMS Retriever or SMS User Consent APIs to ensure continued functionality.

安全

Android 17 包含以下设备和应用安全方面的改进。

usesClearTraffic 弃用计划

In a future release, we plan to deprecate the usesCleartextTraffic element. Apps that need to make unencrypted (HTTP) connections should migrate to using a network security configuration file, which lets you specify which domains your app needs to make cleartext connections to.

Be aware that network security configuration files are only supported on API levels 24 and higher. If your app has a minimum API level lower than 24, you should do both of the following:

• Set the usesCleartextTraffic attribute to true
• Use a network configuration file

If your app's minimum API level is 24 or higher, you can use a network configuration file and you don't need to set usesCleartextTraffic.

限制隐式 URI 授权

目前，如果应用使用具有操作 ACTION_SEND、 SEND_MULTIPLE、 或 ACTION_IMAGE_CAPTURE的 URI 启动 intent，系统会自动向目标应用授予读取和 写入 URI 权限。我们计划在 Android 18 中更改此行为。因此，我们建议应用显式授予相关 URI 权限，而不是依赖系统来授予这些权限。

每个应用的密钥库限制

应用应避免在 Android 密钥库中创建过多的密钥，因为它是设备上所有应用的共享资源。从 Android 17 开始，系统会强制限制应用可拥有的密钥数量。对于以 Android 17（API 级别 37）或更高版本为目标平台的非系统应用，密钥数量上限为 50,000 个；对于所有其他应用，密钥数量上限为 200,000 个。无论系统应用以哪个 API 级别为目标，其密钥数量上限均为 20 万。

如果应用尝试创建超出限制的密钥，则创建会失败并显示 KeyStoreException。异常的消息字符串包含有关密钥限制的信息。如果应用针对异常调用 getNumericErrorCode()，则返回值取决于应用的目标 API 级别：

• 如果应用以 Android 17（API 级别 37）或更高版本为目标平台，getNumericErrorCode() 会返回新的 ERROR_TOO_MANY_KEYS 值。
• 所有其他应用：getNumericErrorCode() 返回 ERROR_INCORRECT_USAGE。

阻止跨资料环回流量

从 Android 17 开始，默认情况下不再允许跨个人资料环回流量。同一个人资料内的环回流量不受影响。 此项变更适用于在 Android 17 或更高版本上运行的所有应用，无论应用以哪个 API 级别为目标平台。

用户体验和系统界面

Android 17 包含以下变更，旨在打造更一致、更直观的用户体验。

在旋转后恢复默认 IME 可见性

从 Android 17 开始，当设备的配置发生变化（例如，通过旋转）且应用本身未处理此变化时，系统不会恢复之前的 IME 可见性。

如果应用经历了它无法处理的配置更改，并且应用需要在更改后显示键盘，您必须明确请求此行为。您可以通过以下方式之一提出此要求：

• 将 android:windowSoftInputMode 属性设置为 stateAlwaysVisible。
• 在 activity 的 onCreate() 方法中以编程方式请求显示软键盘，或添加 onConfigurationChanged() 方法。

人工输入

Android 17 包含以下变更，这些变更会影响应用与键盘和触控板等人工输入设备的互动方式。

在指针捕获期间，触控板默认传递相对事件

Beginning with Android 17, if an app requests pointer capture using View.requestPointerCapture() and the user uses a touchpad, the system recognizes pointer movement and scrolling gestures from the user's touches and reports them to the app in the same way as pointer and scroll wheel movements from a captured mouse. In most cases, this removes the need for apps that support captured mice to add special handling logic for touchpads. For more details, see the documentation for View.POINTER_CAPTURE_MODE_RELATIVE.

Previously, the system did not attempt to recognize gestures from the touchpad, and instead delivered the raw, absolute finger locations to the app in a similar format to touchscreen touches. If an app still requires this absolute data, it should call the new View.requestPointerCapture(int) method with View.POINTER_CAPTURE_MODE_ABSOLUTE instead.

媒体

Android 17 针对媒体行为做了以下更改。

后台音频安全加固

从 Android 17 开始，音频框架会对后台音频互动（包括音频播放、音频焦点请求和音量更改 API）强制执行限制，以确保这些更改是由用户有意发起的。

如果应用尝试在应用未处于有效生命周期时调用音频 API，则音频播放和音量更改 API 会以静默方式失败，而不会抛出异常或提供失败消息。音频焦点 API 会失败，并返回结果代码 AUDIOFOCUS_REQUEST_FAILED。

如需了解详情（包括缓解措施），请参阅后台音频安全加固。

连接

Android 17 包含以下变更，以增强设备连接性。

针对蓝牙绑定丢失的自主重新配对

Android 17 introduces autonomous re-pairing, a system-level enhancement designed to automatically resolve Bluetooth bond loss.

Previously, if a bond was lost, users had to manually navigate to Settings to unpair and then re-pair the peripheral. This feature builds upon the security improvement of Android 16 by allowing the system to re-establish bonds in the background without requiring users to manually navigate to Settings to unpair and re-pair peripherals.

While most apps will not require code changes, developers should be aware of the following behavior changes in Bluetooth stack:

• New pairing context: The ACTION_PAIRING_REQUEST now includes the EXTRA_PAIRING_CONTEXT extra which allows apps to distinguish between a standard pairing request and an autonomous system-initiated re-pairing attempt.
• Conditional key updates: Existing security keys will only be replaced if the re-pairing is successful and new connection meets or exceeds the security level of the previous bond.
• Modified intent timing: The ACTION_KEY_MISSING intent is now broadcast only if the autonomous re-pairing attempt fails. This reduces unnecessary error handling in the app if the system successfully recovers the bond in the background.
• User notification: The system manages re-pairing via new UI notifications and dialogs. Users will be prompted to confirm the re-pairing attempt to ensure they are aware of the reconnection.

Peripheral device manufacturers and companion app developers should verify that hardware and app gracefully handle bond transitions. To test this behavior, simulate a remote bond loss using either of the following methods:

• Manually remove the bond information from the peripheral device
• Manually unpair the device in: Settings > Connected devices