/*
** Copyright 2006, The Android Open Source Project
**
** Licensed under the Apache License, Version 2.0 (the "License");
** you may not use this file except in compliance with the License.
** You may obtain a copy of the License at
**
** http://www.apache.org/licenses/LICENSE-2.0
**
** Unless required by applicable law or agreed to in writing, software
** distributed under the License is distributed on an "AS IS" BASIS,
** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
** See the License for the specific language governing permissions and
** limitations under the License.
*/
package android.view;
import com.android.internal.os.IResultReceiver;
import com.android.internal.policy.IKeyguardDismissCallback;
import com.android.internal.policy.IShortcutService;
import android.app.IAssistDataReceiver;
import android.content.res.CompatibilityInfo;
import android.content.res.Configuration;
import android.graphics.Bitmap;
import android.graphics.GraphicBuffer;
import android.graphics.Insets;
import android.graphics.Point;
import android.graphics.Rect;
import android.graphics.Region;
import android.os.Bundle;
import android.os.IRemoteCallback;
import android.os.ParcelFileDescriptor;
import android.view.DisplayCutout;
import android.view.IApplicationToken;
import android.view.IAppTransitionAnimationSpecsFuture;
import android.view.ICrossWindowBlurEnabledListener;
import android.view.IDisplayWindowInsetsController;
import android.view.IDisplayWindowListener;
import android.view.IDisplayFoldListener;
import android.view.IDisplayWindowRotationController;
import android.view.IOnKeyguardExitResult;
import android.view.IPinnedTaskListener;
import android.view.IScrollCaptureResponseListener;
import android.view.RemoteAnimationAdapter;
import android.view.IRotationWatcher;
import android.view.ISystemGestureExclusionListener;
import android.view.IWallpaperVisibilityListener;
import android.view.IWindow;
import android.view.IWindowSession;
import android.view.IWindowSessionCallback;
import android.view.KeyEvent;
import android.view.InputEvent;
import android.view.InsetsState;
import android.view.MagnificationSpec;
import android.view.MotionEvent;
import android.view.InputChannel;
import android.view.InputDevice;
import android.view.IInputFilter;
import android.view.AppTransitionAnimationSpec;
import android.view.WindowContentFrameStats;
import android.view.WindowManager;
import android.view.SurfaceControl;
import android.view.displayhash.DisplayHash;
import android.view.displayhash.VerifiedDisplayHash;
/**
* System private interface to the window manager.
*
* {@hide}
*/
interface IWindowManager
{
/**
* No overridden behavior is provided in terms of fixing rotation to user rotation. Use
* other flags to derive the default behavior, such as {@link WindowManagerService#mIsPc}
* and {@link WindowManagerService#mForceDesktopModeOnExternalDisplays}.
*/
const int FIXED_TO_USER_ROTATION_DEFAULT = 0;
/**
* Don't fix display rotation to {@link DisplayRotation#mUserRotation} only. Always allow
* other factors to play a role in deciding display rotation.
*/
const int FIXED_TO_USER_ROTATION_DISABLED = 1;
/**
* Only use {@link DisplayRotation#mUserRotation} as the display rotation.
*/
const int FIXED_TO_USER_ROTATION_ENABLED = 2;
/**
* ===== NOTICE =====
* The first three methods must remain the first three methods. Scripts
* and tools rely on their transaction number to work properly.
*/
// This is used for debugging
boolean startViewServer(int port); // Transaction #1
boolean stopViewServer(); // Transaction #2
boolean isViewServerRunning(); // Transaction #3
IWindowSession openSession(in IWindowSessionCallback callback);
boolean useBLAST();
@UnsupportedAppUsage
void getInitialDisplaySize(int displayId, out Point size);
@UnsupportedAppUsage
void getBaseDisplaySize(int displayId, out Point size);
void setForcedDisplaySize(int displayId, int width, int height);
void clearForcedDisplaySize(int displayId);
@UnsupportedAppUsage
int getInitialDisplayDensity(int displayId);
int getBaseDisplayDensity(int displayId);
void setForcedDisplayDensityForUser(int displayId, int density, int userId);
void clearForcedDisplayDensityForUser(int displayId, int userId);
void setForcedDisplayScalingMode(int displayId, int mode); // 0 = auto, 1 = disable
// These can only be called when holding the MANAGE_APP_TOKENS permission.
void setEventDispatching(boolean enabled);
/** Returns {@code true} if this binder is a registered window token. */
boolean isWindowToken(in IBinder binder);
/**
* Adds window token for a given type.
*
* @param token Token to be registered.
* @param type Window type to be used with this token.
* @param displayId The ID of the display where this token should be added.
* @param options A bundle used to pass window-related options.
*/
void addWindowToken(IBinder token, int type, int displayId, in Bundle options);
/**
* Remove window token on a specific display.
*
* @param token Token to be removed
* @displayId The ID of the display where this token should be removed.
*/
void removeWindowToken(IBinder token, int displayId);
/**
* Sets a singular remote controller of display rotations. There can only be one. The
* controller is called after the display has "frozen" for a rotation and display rotation will
* only continue once the controller has finished calculating associated configurations.
*/
void setDisplayWindowRotationController(IDisplayWindowRotationController controller);
/**
* Adds a root container that a client shell can populate with its own windows (usually via
* WindowlessWindowManager).
*
* @param client an IWindow used for window-level communication (ime, finish draw, etc.).
* @param shellRootLayer The container's layer. See WindowManager#ShellRootLayer.
* @return a SurfaceControl to add things to.
*/
SurfaceControl addShellRoot(int displayId, IWindow client, int shellRootLayer);
/**
* Sets the window token sent to accessibility for a particular shell root. The
* displayId and windowType identify which shell-root to update.
*
* @param target The IWindow that accessibility service interfaces with.
*/
void setShellRootAccessibilityWindow(int displayId, int shellRootLayer, IWindow target);
/**
* Like overridePendingAppTransitionMultiThumb, but uses a future to supply the specs. This is
* used for recents, where generating the thumbnails of the specs takes a non-trivial amount of
* time, so we want to move that off the critical path for starting the new activity.
*/
@UnsupportedAppUsage
void overridePendingAppTransitionMultiThumbFuture(
IAppTransitionAnimationSpecsFuture specsFuture, IRemoteCallback startedCallback,
boolean scaleUp, int displayId);
@UnsupportedAppUsage
void overridePendingAppTransitionRemote(in RemoteAnimationAdapter remoteAnimationAdapter,
int displayId);
/**
* Used by system ui to report that recents has shown itself.
* @deprecated to be removed once prebuilts are updated
*/
@UnsupportedAppUsage(maxTargetSdk = 30, trackingBug = 170729553)
void endProlongedAnimations();
void startFreezingScreen(int exitAnim, int enterAnim);
void stopFreezingScreen();
// these require DISABLE_KEYGUARD permission
/** @deprecated use Activity.setShowWhenLocked instead. */
void disableKeyguard(IBinder token, String tag, int userId);
/** @deprecated use Activity.setShowWhenLocked instead. */
void reenableKeyguard(IBinder token, int userId);
void exitKeyguardSecurely(IOnKeyguardExitResult callback);
@UnsupportedAppUsage
boolean isKeyguardLocked();
@UnsupportedAppUsage(maxTargetSdk = 30, trackingBug = 170729553)
boolean isKeyguardSecure(int userId);
void dismissKeyguard(IKeyguardDismissCallback callback, CharSequence message);
// Requires INTERACT_ACROSS_USERS_FULL permission
void setSwitchingUser(boolean switching);
void closeSystemDialogs(String reason);
// These can only be called with the SET_ANIMATON_SCALE permission.
@UnsupportedAppUsage
float getAnimationScale(int which);
@UnsupportedAppUsage(maxTargetSdk = 30, trackingBug = 170729553)
float[] getAnimationScales();
@UnsupportedAppUsage
void setAnimationScale(int which, float scale);
@UnsupportedAppUsage(maxTargetSdk = 30, trackingBug = 170729553)
void setAnimationScales(in float[] scales);
float getCurrentAnimatorScale();
// For testing
@UnsupportedAppUsage(maxTargetSdk = 28)
void setInTouchMode(boolean showFocus);
// For StrictMode flashing a red border on violations from the UI
// thread. The uid/pid is implicit from the Binder call, and the Window
// Manager uses that to determine whether or not the red border should
// actually be shown. (it will be ignored that pid doesn't have windows
// on screen)
@UnsupportedAppUsage(maxTargetSdk = 28)
void showStrictModeViolation(boolean on);
// Proxy to set the system property for whether the flashing
// should be enabled. The 'enabled' value is null or blank for
// the system default (differs per build variant) or any valid
// boolean string as parsed by SystemProperties.getBoolean().
@UnsupportedAppUsage(maxTargetSdk = 30, trackingBug = 170729553)
void setStrictModeVisualIndicatorPreference(String enabled);
/**
* Set whether screen capture is disabled for all windows of a specific user from
* the device policy cache.
*/
void refreshScreenCaptureDisabled(int userId);
// These can only be called with the SET_ORIENTATION permission.
/**
* Update the current screen rotation based on the current state of
* the world.
* @param alwaysSendConfiguration Flag to force a new configuration to
* be evaluated. This can be used when there are other parameters in
* configuration that are changing.
* @param forceRelayout If true, the window manager will always do a relayout
* of its windows even if the rotation hasn't changed.
*/
void updateRotation(boolean alwaysSendConfiguration, boolean forceRelayout);
/**
* Retrieve the current orientation of the primary screen.
* @return Constant as per {@link android.view.Surface.Rotation}.
*
* @see android.view.Display#DEFAULT_DISPLAY
*/
int getDefaultDisplayRotation();
/**
* Watch the rotation of the specified screen. Returns the current rotation,
* calls back when it changes.
*/
int watchRotation(IRotationWatcher watcher, int displayId);
/**
* Remove a rotation watcher set using watchRotation.
* @hide
*/
@UnsupportedAppUsage
void removeRotationWatcher(IRotationWatcher watcher);
/**
* Determine the preferred edge of the screen to pin the compact options menu against.
*
* @param displayId Id of the display where the menu window currently resides.
* @return a Gravity value for the options menu panel.
* @hide
*/
int getPreferredOptionsPanelGravity(int displayId);
/**
* Equivalent to calling {@link #freezeDisplayRotation(int, int)} with {@link
* android.view.Display#DEFAULT_DISPLAY} and given rotation.
*/
@UnsupportedAppUsage
void freezeRotation(int rotation);
/**
* Equivalent to calling {@link #thawDisplayRotation(int)} with {@link
* android.view.Display#DEFAULT_DISPLAY}.
*/
@UnsupportedAppUsage
void thawRotation();
/**
* Equivelant to call {@link #isDisplayRotationFrozen(int)} with {@link
* android.view.Display#DEFAULT_DISPLAY}.
*/
boolean isRotationFrozen();
/**
* Lock the display orientation to the specified rotation, or to the current
* rotation if -1. Sensor input will be ignored until thawRotation() is called.
*
* @param displayId the ID of display which rotation should be frozen.
* @param rotation one of {@link android.view.Surface#ROTATION_0},
* {@link android.view.Surface#ROTATION_90}, {@link android.view.Surface#ROTATION_180},
* {@link android.view.Surface#ROTATION_270} or -1 to freeze it to current rotation.
* @hide
*/
void freezeDisplayRotation(int displayId, int rotation);
/**
* Release the orientation lock imposed by freezeRotation() on the display.
*
* @param displayId the ID of display which rotation should be thawed.
* @hide
*/
void thawDisplayRotation(int displayId);
/**
* Gets whether the rotation is frozen on the display.
*
* @param displayId the ID of display which frozen is needed.
* @return Whether the rotation is frozen.
*/
boolean isDisplayRotationFrozen(int displayId);
/**
* Sets if display rotation is fixed to user specified value for given displayId.
*/
void setFixedToUserRotation(int displayId, int fixedToUserRotation);
/**
* Sets if all requested fixed orientation should be ignored for given displayId.
*/
void setIgnoreOrientationRequest(int displayId, boolean ignoreOrientationRequest);
/**
* Screenshot the current wallpaper layer, including the whole screen.
*/
Bitmap screenshotWallpaper();
/**
* Registers a wallpaper visibility listener.
* @return Current visibility.
*/
boolean registerWallpaperVisibilityListener(IWallpaperVisibilityListener listener,
int displayId);
/**
* Remove a visibility watcher that was added using registerWallpaperVisibilityListener.
*/
void unregisterWallpaperVisibilityListener(IWallpaperVisibilityListener listener,
int displayId);
/**
* Registers a system gesture exclusion listener for a given display.
*/
void registerSystemGestureExclusionListener(ISystemGestureExclusionListener listener,
int displayId);
/**
* Unregisters a system gesture exclusion listener for a given display.
*/
void unregisterSystemGestureExclusionListener(ISystemGestureExclusionListener listener,
int displayId);
/**
* Used only for assist -- request a screenshot of the current application.
*/
boolean requestAssistScreenshot(IAssistDataReceiver receiver);
/**
* Called by System UI to notify Window Manager to hide transient bars.
*/
oneway void hideTransientBars(int displayId);
/**
* Called by System UI to notify of changes to the visibility of Recents.
*/
oneway void setRecentsVisibility(boolean visible);
/**
* Called by System UI to indicate the maximum bounds of the system Privacy Indicator, for the
* current orientation, whether the indicator is showing or not. Should be an array of length
* 4, with the bounds for ROTATION_0, 90, 180, and 270, in that order.
*/
oneway void updateStaticPrivacyIndicatorBounds(int displayId, in Rect[] staticBounds);
/**
* Called by System UI to enable or disable haptic feedback on the navigation bar buttons.
*/
@UnsupportedAppUsage
void setNavBarVirtualKeyHapticFeedbackEnabled(boolean enabled);
/**
* Device has a software navigation bar (separate from the status bar) on specific display.
*
* @param displayId the id of display to check if there is a software navigation bar.
*/
@UnsupportedAppUsage
boolean hasNavigationBar(int displayId);
/**
* Get the position of the nav bar
*/
int getNavBarPosition(int displayId);
/**
* Lock the device immediately with the specified options (can be null).
*/
@UnsupportedAppUsage(maxTargetSdk = 30, trackingBug = 170729553)
void lockNow(in Bundle options);
/**
* Device is in safe mode.
*/
@UnsupportedAppUsage
boolean isSafeModeEnabled();
/**
* Enables the screen if all conditions are met.
*/
void enableScreenIfNeeded();
/**
* Clears the frame statistics for a given window.
*
* @param token The window token.
* @return Whether the frame statistics were cleared.
*/
boolean clearWindowContentFrameStats(IBinder token);
/**
* Gets the content frame statistics for a given window.
*
* @param token The window token.
* @return The frame statistics or null if the window does not exist.
*/
WindowContentFrameStats getWindowContentFrameStats(IBinder token);
/**
* This is a no-op.
*/
@UnsupportedAppUsage
int getDockedStackSide();
/**
* Sets the region the user can touch the divider. This region will be excluded from the region
* which is used to cause a focus switch when dispatching touch.
*/
void setDockedTaskDividerTouchRegion(in Rect touchableRegion);
/**
* Registers a listener that will be called when the pinned task state changes.
*/
void registerPinnedTaskListener(int displayId, IPinnedTaskListener listener);
/**
* Requests Keyboard Shortcuts from the displayed window.
*
* @param receiver The receiver to deliver the results to.
*/
void requestAppKeyboardShortcuts(IResultReceiver receiver, int deviceId);
/**
* Retrieves the current stable insets from the primary display.
*/
@UnsupportedAppUsage
void getStableInsets(int displayId, out Rect outInsets);
/**
* Set the forwarded insets on the display.
*
* This is only used in case a virtual display is displayed on another display that has insets,
* and the bounds of the virtual display is overlapping with the insets from the host display.
* In that case, the contents on the virtual display won't be placed over the forwarded insets.
* Only the owner of the display is permitted to set the forwarded insets on it.
*/
void setForwardedInsets(int displayId, in Insets insets);
/**
* Register shortcut key. Shortcut code is packed as:
* (MetaState << Integer.SIZE) | KeyCode
* @hide
*/
void registerShortcutKey(in long shortcutCode, IShortcutService keySubscriber);
/**
* Create an input consumer by name and display id.
*/
@UnsupportedAppUsage
void createInputConsumer(IBinder token, String name, int displayId,
out InputChannel inputChannel);
/**
* Destroy an input consumer by name and display id.
* This method will also dispose the input channels associated with that InputConsumer.
*/
@UnsupportedAppUsage
boolean destroyInputConsumer(String name, int displayId);
/**
* Return the touch region for the current IME window, or an empty region if there is none.
*/
Region getCurrentImeTouchRegion();
/**
* Registers an IDisplayFoldListener.
*/
void registerDisplayFoldListener(IDisplayFoldListener listener);
/**
* Unregisters an IDisplayFoldListener.
*/
void unregisterDisplayFoldListener(IDisplayFoldListener listener);
/**
* Registers an IDisplayContainerListener
*/
void registerDisplayWindowListener(IDisplayWindowListener listener);
/**
* Unregisters an IDisplayContainerListener.
*/
void unregisterDisplayWindowListener(IDisplayWindowListener listener);
/**
* Starts a window trace.
*/
void startWindowTrace();
/**
* Stops a window trace.
*/
void stopWindowTrace();
/**
* Returns true if window trace is enabled.
*/
boolean isWindowTraceEnabled();
/**
* Notify WindowManager that it should not override the info in DisplayManager for the specified
* display. This can disable letter- or pillar-boxing applied in DisplayManager when the metrics
* of the logical display reported from WindowManager do not correspond to the metrics of the
* physical display it is based on.
*
* @param displayId The id of the display.
*/
void dontOverrideDisplayInfo(int displayId);
/**
* Gets the windowing mode of the display.
*
* @param displayId The id of the display.
* @return {@link WindowConfiguration.WindowingMode}
*/
int getWindowingMode(int displayId);
/**
* Sets the windowing mode of the display.
*
* @param displayId The id of the display.
* @param mode {@link WindowConfiguration.WindowingMode}
*/
void setWindowingMode(int displayId, int mode);
/**
* Gets current remove content mode of the display.
*
* What actions should be performed with the display's content when it is removed. Default
* behavior for public displays in this case is to move all activities to the primary display
* and make it focused. For private display is to destroy all activities.
*
*
* @param displayId The id of the display.
* @return The remove content mode of the display.
* @see WindowManager#REMOVE_CONTENT_MODE_MOVE_TO_PRIMARY
* @see WindowManager#REMOVE_CONTENT_MODE_DESTROY
*/
int getRemoveContentMode(int displayId);
/**
* Sets the remove content mode of the display.
*
* This mode indicates what actions should be performed with the display's content when it is
* removed.
*
*
* @param displayId The id of the display.
* @param mode Remove content mode.
* @see WindowManager#REMOVE_CONTENT_MODE_MOVE_TO_PRIMARY
* @see WindowManager#REMOVE_CONTENT_MODE_DESTROY
*/
void setRemoveContentMode(int displayId, int mode);
/**
* Indicates that the display should show its content when non-secure keyguard is shown.
*
* This flag identifies secondary displays that will continue showing content if keyguard can be
* dismissed without entering credentials.
*
* An example of usage is a virtual display which content is displayed on external hardware
* display that is not visible to the system directly.
*
*
* @param displayId The id of the display.
* @return {@code true} if the display should show its content when non-secure keyguard is
* shown.
* @see KeyguardManager#isDeviceSecure()
* @see KeyguardManager#isDeviceLocked()
*/
boolean shouldShowWithInsecureKeyguard(int displayId);
/**
* Sets that the display should show its content when non-secure keyguard is shown.
*
* @param displayId The id of the display.
* @param shouldShow Indicates that the display should show its content when non-secure keyguard
* is shown.
* @see KeyguardManager#isDeviceSecure()
* @see KeyguardManager#isDeviceLocked()
*/
void setShouldShowWithInsecureKeyguard(int displayId, boolean shouldShow);
/**
* Indicates the display should show system decors.
*
* System decors include status bar, navigation bar, launcher.
*
*
* @param displayId The id of the display.
* @return {@code true} if the display should show system decors.
*/
boolean shouldShowSystemDecors(int displayId);
/**
* Sets that the display should show system decors.
*
* System decors include status bar, navigation bar, launcher.
*
*
* @param displayId The id of the display.
* @param shouldShow Indicates that the display should show system decors.
*/
void setShouldShowSystemDecors(int displayId, boolean shouldShow);
/**
* Indicates the policy for how the display should show IME.
*
* @param displayId The id of the display.
* @return The policy for how the display should show IME.
* @see KeyguardManager#isDeviceSecure()
* @see KeyguardManager#isDeviceLocked()
*/
int getDisplayImePolicy(int displayId);
/**
* Sets the policy for how the display should show IME.
*
* @param displayId The id of the display.
* @param imePolicy Indicates the policy for how the display should show IME.
* @see KeyguardManager#isDeviceSecure()
* @see KeyguardManager#isDeviceLocked()
*/
void setDisplayImePolicy(int displayId, int imePolicy);
/**
* Waits for transactions to get applied before injecting input, optionally waiting for
* animations to complete. This includes waiting for the input windows to get sent to
* InputManager.
*
* This is needed for testing since the system add windows and injects input
* quick enough that the windows don't have time to get sent to InputManager.
*/
boolean injectInputAfterTransactionsApplied(in InputEvent ev, int mode,
boolean waitForAnimations);
/**
* Waits until input information has been sent from WindowManager to native InputManager,
* optionally waiting for animations to complete.
*
* This is needed for testing since we need to ensure input information has been propagated to
* native InputManager before proceeding with tests.
*/
void syncInputTransactions(boolean waitForAnimations);
/**
* Returns whether SurfaceFlinger layer tracing is enabled.
*/
boolean isLayerTracing();
/**
* Enables/disables SurfaceFlinger layer tracing.
*/
void setLayerTracing(boolean enabled);
/**
* Mirrors a specified display. The root of the mirrored hierarchy will be stored in
* outSurfaceControl.
* Requires the ACCESS_SURFACE_FLINGER permission.
*
* @param displayId The id of the display to mirror
* @param outSurfaceControl The SurfaceControl for the root of the mirrored hierarchy.
*
* @return true if the display was successfully mirrored.
*/
boolean mirrorDisplay(int displayId, out SurfaceControl outSurfaceControl);
/**
* When in multi-window mode, the provided displayWindowInsetsController will control insets
* animations.
*/
void setDisplayWindowInsetsController(
int displayId, in IDisplayWindowInsetsController displayWindowInsetsController);
/**
* Called when a remote process modifies insets on a display window container.
*/
void modifyDisplayWindowInsets(int displayId, in InsetsState state);
/**
* Called to get the expected window insets.
*
* @return {@code true} if system bars are always comsumed.
*/
boolean getWindowInsets(in WindowManager.LayoutParams attrs, int displayId,
out InsetsState outInsetsState);
/**
* Called to show global actions.
*/
void showGlobalActions();
/**
* Sets layer tracing flags for SurfaceFlingerTrace.
*
* @param flags see definition in SurfaceTracing.cpp
*/
void setLayerTracingFlags(int flags);
/**
* Forwards a scroll capture request to the appropriate window, if available.
*
* @param displayId the id of the display to target
* @param behindClient token for a window, used to filter the search to windows behind it, or
* {@code null} to accept a window at any zOrder
* @param taskId specifies the id of a task the result must belong to, or -1 to ignore task ids
* @param listener the object to receive the response
*/
void requestScrollCapture(int displayId, IBinder behindClient, int taskId,
IScrollCaptureResponseListener listener);
/**
* Holds the WM lock for the specified amount of milliseconds.
* Intended for use by the tests that need to imitate lock contention.
* The token should be obtained by
* {@link android.content.pm.PackageManager#getHoldLockToken()}.
*/
void holdLock(in IBinder token, in int durationMs);
/**
* Gets an array of support hash algorithms that can be used to generate a DisplayHash. The
* String value of one algorithm should be used when requesting to generate
* the DisplayHash.
*
* @return a String array of supported hash algorithms.
*/
String[] getSupportedDisplayHashAlgorithms();
/**
* Validate the DisplayHash was generated by the system. The DisplayHash passed in should be
* the object generated when calling {@link IWindowSession#generateDisplayHash}
*
* @param DisplayHash The hash to verify that it was generated by the system.
* @return a {@link VerifiedDisplayHash} if the hash was generated by the system or null
* if the token cannot be verified.
*/
VerifiedDisplayHash verifyDisplayHash(in DisplayHash displayHash);
/**
* Call to enable or disable the throttling when generating a display hash. This should only be
* used for testing. Throttling is enabled by default.
*
* Must be called from a process that has {@link android.Manifest.permission#READ_FRAME_BUFFER}
* permission.
*/
void setDisplayHashThrottlingEnabled(boolean enable);
/**
* Attaches a {@link android.window.WindowContext} to the DisplayArea specified by {@code type},
* {@code displayId} and {@code options}.
*
* Note that this API should be invoked after calling
* {@link android.window.WindowTokenClient#attachContext(Context)}
*
* Generally, this API is used for initializing a {@link android.window.WindowContext}
* before obtaining a valid {@link com.android.server.wm.WindowToken}. A WindowToken is usually
* generated when calling {@link android.view.WindowManager#addView(View, LayoutParams)}, or
* obtained from {@link android.view.WindowManager.LayoutParams#token}.
*
* In some cases, the WindowToken is passed from the server side because it is managed by the
* system server. {@link #attachWindowContextToWindowToken(IBinder, IBinder)} could be used in
* this case to attach the WindowContext to the WindowToken.
*
* @param clientToken {@link android.window.WindowContext#getWindowContextToken()
* the WindowContext's token}
* @param type Window type of the window context
* @param displayId The display associated with the window context
* @param options A bundle used to pass window-related options and choose the right DisplayArea
*
* @return {@code true} if the WindowContext is attached to the DisplayArea successfully.
*/
boolean attachWindowContextToDisplayArea(IBinder clientToken, int type, int displayId,
in Bundle options);
/**
* Attaches a {@link android.window.WindowContext} to a {@code WindowToken}.
*
* This API is used when we hold a valid WindowToken and want to associate with the token and
* receive its configuration updates.
*
* Note that this API should be invoked after calling
* {@link android.window.WindowTokenClient#attachContext(Context)}
*
*
* @param clientToken {@link android.window.WindowContext#getWindowContextToken()
* the WindowContext's token}
* @param token the WindowToken to attach
*
* @throws IllegalArgumentException if the {@code clientToken} have not been attached to
* the server or the WindowContext's type doesn't match WindowToken {@code token}'s type.
*
* @see #attachWindowContextToDisplayArea(IBinder, int, int, Bundle)
*/
void attachWindowContextToWindowToken(IBinder clientToken, IBinder token);
/**
* Detaches {@link android.window.WindowContext} from the window manager node it's currently
* attached to. It is no-op if the WindowContext is not attached to a window manager node.
*
* @param clientToken the window context's token
*/
void detachWindowContextFromWindowContainer(IBinder clientToken);
/**
* Registers a listener, which is to be called whenever cross-window blur is enabled/disabled.
*
* @param listener the listener to be registered
* @return true if cross-window blur is currently enabled; false otherwise
*/
boolean registerCrossWindowBlurEnabledListener(ICrossWindowBlurEnabledListener listener);
/**
* Unregisters a listener which was registered with
* {@link #registerCrossWindowBlurEnabledListener()}.
*
* @param listener the listener to be unregistered
*/
void unregisterCrossWindowBlurEnabledListener(ICrossWindowBlurEnabledListener listener);
boolean isTaskSnapshotSupported();
}