Android 12 introduces great new features and APIs for developers. The sections below help you learn about features for your apps and get started with the related APIs.
For a detailed list of new, modified, and removed APIs, read the API diff report. For details on new APIs visit the Android API reference — new APIs are highlighted for visibility. Also, to learn about areas where platform changes may affect your apps, be sure to check out Android 12 behavior changes for apps that target Android 12 and for all apps.
Android 12 introduces a new design language called Material You, helping you to build more personalized, beautiful apps. To bring all of the latest Material Design 3 updates into your apps, try an alpha version of Material Design Components.
Android 12 revamps the existing Widgets API to improve the user and developer experience in the platform and launchers. We've created a guide to help you ensure your widget is compatible with Android 12 and to refresh it with new features.
See Android 12 widgets improvements for more information.
Rich content insertion
Android 12 introduces a new unified API that lets your app receive rich content from any available source: clipboard, keyboard, or drag and drop.
For more information, see Receive rich content.
App splash screens API
Android 12 introduces a new app launch animation for all apps that includes an into-app motion from the point of launch, a splash screen showing the app icon, and a transition to the app itself. See the splash screens developer guide for more details.
Rounded corner APIs
For more information, see Rounded corners.
Rich haptic experiences
Android 12 expands the tools for creating informative haptic feedback for UI events, immersive and delightful effects for gaming, and attentional haptics for productivity.
Android 12 adds expressive effects like low tick that take advantage of the broader frequency bandwidth of the latest actuators. Game developers can now access multiple, different actuators independently in game controllers to deliver the same effect synchronously or different haptic effects on multiple actuators. For developers, we recommend using the constants and primitives as building blocks for rich haptic effects - constants to enhance UI events and haptic composer to sequence primitives for more complex effects. These APIs are available to try on Pixel 4 devices, and we're continuing to work with our device-maker partners to bring the latest in haptics support to users across the ecosystem.
Audio-coupled haptic effects
Android 12 apps can generate haptic feedback derived from an audio session using the phone's vibrator. This provides an opportunity for more immersive game and audio experiences. For example, haptic-enhanced ringtones can help identify callers, or a driving game could simulate the feeling of rough terrain.
reference documentation for more information.
Android 12 introduces AppSearch, a high-performance on-device search engine, as a system service. AppSearch allows applications to index structured data and search over it with built-in full-text search capabilities. Furthermore, AppSearch supports native search features, like highly-efficient indexing and retrieval, multi-language support, and relevancy ranking.
AppSearch comes in two flavors: a local index for your application to use that’s compatible with older versions of Android, or a central index maintained for the entire system in Android 12. Using the central index, your application can allow its data to be displayed on system UI surfaces by the system’s pre-installed intelligence component. Exactly which data gets displayed on system UI surfaces is dependent on the OEM. Additionally, your application can securely share data with other applications, to allow them to search over that data as well.
The Game Mode API and Game Mode interventions allow you to optimize gameplay by prioritizing characteristics, such as performance or battery life based on users settings or game specific configurations.
For more information, see Game Mode.
Picture-in-picture (PiP) recommendations and improvements
Android 12 introduces the following improvements for PiP mode:
Support for new PiP gestures
Android 12 now supports stashing and pinch-to-zoom gestures for the PiP window:
To stash the window, the user can drag the window to the left or right edge. To unstash the window, the user can either tap the visible part of the stashed window or drag it out.
The user can now resize the PiP window using pinch-to-zoom.
Recommended new features that support a polished PiP transition experience
Android 12 added significant cosmetic improvements to the animated transitions between fullscreen and PiP windows. We strongly recommend implementing all applicable changes; once you've done so, these changes automatically scale to large screens such as foldables and tablets without any further required work.
These features are the following:
setAutoEnterEnabledflag to provide smoother transitions to PiP mode when swiping up to home in gesture navigation mode. Previously, Android waited for the swipe-up-to-home animation to finish before fading in the PiP window.
SourceRectHintflag is now reused to implement smoother animation when entering and exiting PiP mode.
SeamlessResizeEnabledflag provides a much smoother cross-fading animation when resizing non-video content in the PiP window. Previously, resizing non-video content in a PiP window could create jarring visual artifacts.
New phone call notifications allowing for ranking importance of incoming calls
Android 12 adds the new notification style
for phone calls. Using this template lets your app indicate the importance of
active calls by displaying a prominent chip that shows the time of the call in
the status bar; the user can tap this chip to return to their call.
Because incoming and ongoing calls are the most critical to users, these notifications are given top ranking in the shade. This ranking also allows the system to potentially forward these prioritized calls to other devices.
Implement the following code for all types of calls.
// Create a new call with the user as caller. val incoming_caller = Person.Builder() .setName("Jane Doe") .setImportant(true) .build()
// Create a new call with the user as caller. Person incoming_caller = new Person.Builder() .setName("Jane Doe") .setImportant(true) .build();
to create a call style notification for an incoming call.
// Create a call style notification for an incoming call. val builder = Notification.Builder(context, CHANNEL_ID) .setContentIntent(contentIntent) .setSmallIcon(smallIcon) .setStyle( Notification.CallStyle.forIncomingCall(caller, declineIntent, answerIntent)) .addPerson(incoming_caller)
// Create a call style notification for an incoming call. Notification.Builder builder = Notification.Builder(context, CHANNEL_ID) .setContentIntent(contentIntent) .setSmallIcon(smallIcon) .setStyle( Notification.CallStyle.forIncomingCall(caller, declineIntent, answerIntent)) .addPerson(incoming_caller);
to create a call style notification for an ongoing call.
// Create a call style notification for an ongoing call. val builder = Notification.Builder(context, CHANNEL_ID) .setContentIntent(contentIntent) .setSmallIcon(smallIcon) .setStyle( Notification.CallStyle.forOnGoingCall(caller, hangupIntent)) .addPerson(second_caller)
// Create a call style notification for an ongoing call. Notification.Builder builder = Notification.Builder(context, CHANNEL_ID) .setContentIntent(contentIntent) .setSmallIcon(smallIcon) .setStyle( Notification.CallStyle.forOnGoingCall(caller, hangupIntent)) .addPerson(second_caller);
to create a call style notification for screening a call.
// Create a call style notification for screening a call. val builder = Notification.Builder(context, CHANNEL_ID) .setContentIntent(contentIntent) .setSmallIcon(smallIcon) .setStyle( Notification.CallStyle.forScreeningCall(caller, hangupIntent, answerIntent)) .addPerson(second_caller)
Notification.Builder builder = Notification.Builder(context, CHANNEL_ID) .setContentIntent(contentIntent) .setSmallIcon(smallIcon) .setStyle( Notification.CallStyle.forScreeningCall(caller, hangupIntent, answerIntent)) .addPerson(second_caller);
Enriched image support for notifications
In Android 12, you can now enrich your app’s notification experience by
providing animated images in
notifications. Also, your app can now enable users to send image messages when
they reply to messages from the notification shade.
Immersive mode improvements for gesture navigation
Android 12 consolidates existing behavior to make it easier for users to perform gesture navigation commands while in immersive mode. In addition, Android 12 provides backward compatibility behavior for sticky immersive mode.
Recents URL sharing (Pixel only)
On Pixel devices, users can now share links to recently viewed web content directly from the Recents screen. After visiting the content in an app, the user can swipe to the Recents screen and find the app where they viewed the content, then tap on the link button to copy or share the URL.
For more information, see Enable recents URL sharing.
Security and privacy
On supported devices that run Android 12 or higher, a Privacy Dashboard screen appears in system settings. On this screen, users can access separate screens that show when apps access location, camera, and microphone information. Each screen shows a timeline of when different apps have accessed a particular type of data. Figure 1 shows the data access timeline for location information.
Your app can provide a rationale for users to help them understand why your app accesses location, camera, or microphone information. This rationale can appear on the new Privacy Dashboard screen, your app's permissions screen, or both.
Android 12 introduces the
permissions. These permissions make it easier for apps that target
Android 12 to interact with Bluetooth
devices, especially for apps that don't
require access to device location.
Update your app's Bluetooth permission declarations
Permission group lookup
On Android 12 or higher, you can query how the system organizes platform-provided permissions into permission groups:
- To determine the permission group into which the system has placed a
platform-defined permission, call
- To determine the platform-defined permissions that the system has placed into
a particular permission group, call
Hide application overlay windows
To give developers more control over what users see when they interact with the
developer's app, Android 12 introduces the ability to hide
overlay windows that are drawn by apps that have the
After declaring the
permission, an app can call
to indicate that all windows of type
should be hidden when the app's own window is visible. Apps might choose to do
this when displaying sensitive screens, such as transaction confirmation flows.
Known signers permission protection flag
Your app can declare this attribute and use the
knownSigner flag to allow
devices and apps to grant signature permissions to other
having to sign the apps at the time of device manufacturing and shipment.
Device properties attestation
Android 12 expands the set of apps that can verify the device properties that are in an attestation certificate when these apps generate a new key.
As of Android 9 (API level 28), device policy
owners (DPOs) that use
Keymaster 4.0 or higher can
verify the device properties in these attestation certificates. Starting in
Android 12, any app that targets Android 12 (API level 31) or higher can perform
this verification using the
The generated device properties include the following
Secure lockscreen notification actions
Starting in Android 12, the
method, which allows your app to require that a device is
before your app invokes a given notification action. This method helps add an
extra layer of security to notifications on locked devices.
Localizable strings for BiometricPrompt
Android 12 introduces new APIs to help you improve your app's biometric
authentication user experience. The new
nested class includes the
methods, which let your app retrieve a user-readable and localized button label,
prompt message, or app setting name. Use these labels to create more precise
user-facing instructions that are specific to the biometric authentication
methods used, such as “Use face unlock” or “Use your fingerprint to continue”.
Phishing detection in messaging apps (Pixel only)
On supported Pixel devices, Android 12 runs phishing detection on messages received in popular messaging apps. The system uses on-device machine learning to detect suspicious activities. When detected, the system displays a safety overlay on top of the messaging app’s UI to warn users. For example, phishing detection can warn users of the following potential risks:
- Suspicious requests, such as to send a code, money, or similar
- Untrusted URLs
- Malicious attachments
- Links to malicious apps
In addition to warning the user, the overlay also lets the user report a suspicious message and provide feedback on warnings issued by the system.
Developers can opt-out of this feature by adding a new metadata tag including
com.google.android.ALLOW_PHISHING_DETECTION in their app manifest
files. For example:
<manifest> <application android:name="com.messagingapp"> <meta-data android:name="com.google.android.ALLOW_PHISHING_DETECTION" android:value="false" /> </application> </manifest>
Compatible media transcoding
Starting in Android 12 (API level 31), the system can automatically transcode HEVC(H.265) and HDR (HDR10 and HDR10+) videos recorded on the device to AVC (H.264), a format which is widely compatible with standard players. This takes advantage of modern codecs when they are available without sacrificing compatibility with older applications.
See compatible media transcoding for more details.
Android 12 introduces a standard called performance class. A performance class specifies hardware capabilities beyond Android's baseline requirements. Each Android device declares the performance class that it supports. Developers can check the device's performance class at runtime and provide upgraded experiences that take full advantage of the device’s capabilities.
See Performance class for more details.
Video encoding improvements
Android 12 defines a standard set of keys for controlling the quantization parameter (QP) value for video encoding, allowing developers to avoid vendor-specific code.
Starting with Android 12 video encoders enforce a minimum quality threshold. This guarantees that users don't experience extremely low quality when encoding videos with high scene complexity.
Starting with Android 12 (API level 31), when an app requests audio focus while another app has the focus and is playing, the system fades out the playing app.
See Audio focus in Android 12 and higher for more details.
In order to determine whether a secure decoder component is required with the
MediaDrm APIs, you must follow these steps:
- Create a
- Open a session to obtain a session id.
- Create a
MediaCryptousing the session id.
With the new methods
requiresSecureDecoder(@NonNull String mime) and
requiresSecureDecoder(@NonNull String mime, @SecurityLevel int level)
you can determine this as soon as you create a
Camera2 vendor extensions
Many of our device manufacturer partners have built custom camera extensions—such as Bokeh, HDR, Night mode, and others—that they want apps to use to create differentiated experiences on their devices. The CameraX library already supports these custom vendor extensions. In Android 12, these vendor extensions are now exposed directly in the platform.
This addition helps apps that have complex
implementations take advantage of vendor extensions without having to make
significant changes to legacy code. The Camera2 Extension APIs expose exactly
the same set of
in CameraX, and those are already supported on many different
devices, so you can use them without any
For more information, see
Quad bayer camera sensor support
Many Android devices today ship with ultra high-resolution camera sensors, typically with Quad or Nona Bayer patterns, and these offer great flexibility in terms of image quality and low-light performance. Android 12 introduces new platform APIs that let third-party apps take full advantage of these versatile sensors. The new APIs support the unique behavior of these sensors and take into account that they might support different stream configurations and combinations when operating in full resolution or ‘maximum resolution’ mode vs ‘default’ mode.
Graphics and images
Provide apps direct access to tombstone traces
Starting in Android 12, you can access your app's native crash tombstone as a
protocol buffer through the
method. The protocol buffer is serialized using this schema.
Previously, the only way to get access to this information was through the
Android Debug Bridge (adb).
For more information, see Provide apps direct access to tombstone traces
AVIF image support
Android 12 introduces support for images that use the AV1 Image File Format (AVIF). AVIF is a container format for images and sequences of images encoded using AV1. AVIF takes advantage of the intra-frame encoded content from video compression. This dramatically improves image quality for the same file size when compared to older image formats, such as JPEG. For an in-depth look at the advantages of this format, see Jake Archibald's blog post.
Easier blurs, color filters, and other effects
Android 12 adds the new
that applies common graphics effects such as blurs, color filters, Android shader
effects, and more to
and rendering hierarchies. Effects can be combined as either chain effects
(which compose an inner and outer effect) or blended effects. Different Android
devices may or may not support the feature due to limited processing power.
To implement a
view.setRenderEffect(RenderEffect.createBlurEffect(radiusX, radiusY, SHADER_TILE_MODE))
Native animated image decoding
In Android 12, the NDK
ImageDecoder API has been expanded
to decode all frames and timing data from images
that use the animated GIF and
animated WebP file formats. When it
was introduced in Android 11, this API decoded only the first image from
animations in these formats.
ImageDecoder instead of third-party libraries to further decrease APK
and benefit from future updates related to security and performance.
Keeping companion apps awake
To support the need of companion apps to stay running to manage the device, Android 12 introduces APIs that do the following:
- Enable you to wake an app when a companion device is within range.
- Guarantee that the process will continue running while the device stays within range.
To use the APIs, your devices must be connected using Companion Device
Manager. For more
Companion Device Manager profiles
Partner apps on Android 12 (API level 31) and higher can use companion device profiles when connecting to a watch. Using a profile simplifies the enrollment process by bundling the granting of a device-type-specific set of permissions into one step.
The bundled permissions are granted to the companion app once the device connects, and last only while the device is associated. Deleting the app or removing the association removes the permissions.
For more information, see
Bandwidth estimation improvements
In Android 12, the bandwidth estimation capabilities provided by
are improved for both Wi-Fi and cellular connectivity. The values returned now
represent the user’s all-time weighted average throughput per carrier or WiFi
SSID, network type, and signal level, across all applications on the device.
This can return a more-accurate and realistic estimate of expected throughput,
provide estimates on a cold start of your application, and requires fewer cycles
when compared to using other throughput estimation methods.
Wi-Fi Aware (NAN) enhancements
Android 12 adds some enhancements to Wi-Fi Aware:
- On devices running Android 12 (API level 31) and higher, you can use the
onServiceLost()callback to be alerted when your app has lost a discovered service due to the service stopping or moving out of range.
- The way that multiple data-paths (NAN Data Paths) are set up is changing to be more efficient. Earlier versions used L2 messaging to exchange peer information of the initiators, which introduced latency. On devices running Android 12 and higher, the responder (server) can be configured to accept any peer—that is, it doesn’t need to know the initiator information upfront. This speeds up datapath bringup and enables multiple point-to-point links with only one network request.
- To prevent the framework from rejecting discovery or connection requests due
to running out of resources, on devices running Android 12 and
higher, you can call
WifiAwareManager.getAvailableAwareResources(). This method's return value lets you get the number of available data paths, the number of available publish sessions, and the number of available subscribe sessions.
Concurrent Peer-to-Peer + Internet Connection
When devices targeting Android 12 (API level 31) and higher run on devices with
hardware support, using Peer-to-peer
connections will not disconnect your
existing Wi-Fi connection when creating the connection to the peer device. To
check for support for this feature, use
Enable screen off for NFC payments
In apps that target Android 12 and higher, you can enable NFC
payments without the device's screen on by setting
false. For more information about NFC payments with screen off or locked, see
Screen off and lock-screen
Android 12 introduces the following storage management capabilities:
- Media store support for
MediaDocumentsProviderwhen your app retrieves a media URI that is equivalent to a given documents provider URI.
- A directory for voice recordings.
MANAGE_MEDIApermission, which allows an app to perform media management operations without showing a confirmation dialog to the user for each operation.
- Apps that have both the
MANAGE_EXTERNAL_STORAGEpermission and the
QUERY_ALL_PACKAGESpermission—such as file management apps—can invoke a custom activity for managing another app's storage space, provided that the other app creates the custom activity.
Automatic app updates
Android 12 introduces the
method for apps that use the
This method allows installer apps to perform app updates without requiring the
user to confirm the action.
Device chipset information
Android 12 adds two constants to
android.os.Build that expose
the SoC chipset vendor and model information via the SDK. You can retrieve this
information by calling
Updates to core Java APIs
Based on requests and collaboration with developers, we've added the following core libraries in Android 12: