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android / platform / frameworks / base / 639fe4c90e93 / . / services / core / java / com / android / server / wm / Task.java
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/*
* Copyright (C) 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 com.android.server.wm;
import static android.app.ActivityTaskManager.INVALID_TASK_ID;
import static android.app.ActivityTaskManager.RESIZE_MODE_FORCED;
import static android.app.ActivityTaskManager.RESIZE_MODE_SYSTEM_SCREEN_ROTATION;
import static android.app.WindowConfiguration.ACTIVITY_TYPE_ASSISTANT;
import static android.app.WindowConfiguration.ACTIVITY_TYPE_HOME;
import static android.app.WindowConfiguration.ACTIVITY_TYPE_RECENTS;
import static android.app.WindowConfiguration.ACTIVITY_TYPE_STANDARD;
import static android.app.WindowConfiguration.ACTIVITY_TYPE_UNDEFINED;
import static android.app.WindowConfiguration.PINNED_WINDOWING_MODE_ELEVATION_IN_DIP;
import static android.app.WindowConfiguration.ROTATION_UNDEFINED;
import static android.app.WindowConfiguration.WINDOWING_MODE_FREEFORM;
import static android.app.WindowConfiguration.WINDOWING_MODE_FULLSCREEN;
import static android.app.WindowConfiguration.WINDOWING_MODE_SPLIT_SCREEN_PRIMARY;
import static android.app.WindowConfiguration.WINDOWING_MODE_SPLIT_SCREEN_SECONDARY;
import static android.app.WindowConfiguration.WINDOWING_MODE_UNDEFINED;
import static android.app.WindowConfiguration.activityTypeToString;
import static android.app.WindowConfiguration.windowingModeToString;
import static android.content.Intent.FLAG_ACTIVITY_NEW_DOCUMENT;
import static android.content.Intent.FLAG_ACTIVITY_NEW_TASK;
import static android.content.Intent.FLAG_ACTIVITY_RETAIN_IN_RECENTS;
import static android.content.Intent.FLAG_ACTIVITY_TASK_ON_HOME;
import static android.content.pm.ActivityInfo.FLAG_RELINQUISH_TASK_IDENTITY;
import static android.content.pm.ActivityInfo.LOCK_TASK_LAUNCH_MODE_ALWAYS;
import static android.content.pm.ActivityInfo.LOCK_TASK_LAUNCH_MODE_DEFAULT;
import static android.content.pm.ActivityInfo.LOCK_TASK_LAUNCH_MODE_IF_WHITELISTED;
import static android.content.pm.ActivityInfo.LOCK_TASK_LAUNCH_MODE_NEVER;
import static android.content.pm.ActivityInfo.RESIZE_MODE_FORCE_RESIZABLE_LANDSCAPE_ONLY;
import static android.content.pm.ActivityInfo.RESIZE_MODE_FORCE_RESIZABLE_PORTRAIT_ONLY;
import static android.content.pm.ActivityInfo.RESIZE_MODE_FORCE_RESIZABLE_PRESERVE_ORIENTATION;
import static android.content.pm.ActivityInfo.RESIZE_MODE_FORCE_RESIZEABLE;
import static android.content.pm.ActivityInfo.RESIZE_MODE_RESIZEABLE;
import static android.content.pm.ActivityInfo.RESIZE_MODE_RESIZEABLE_AND_PIPABLE_DEPRECATED;
import static android.content.pm.ActivityInfo.RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION;
import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_UNSET;
import static android.content.res.Configuration.ORIENTATION_LANDSCAPE;
import static android.content.res.Configuration.ORIENTATION_PORTRAIT;
import static android.content.res.Configuration.ORIENTATION_UNDEFINED;
import static android.os.Trace.TRACE_TAG_WINDOW_MANAGER;
import static android.provider.Settings.Secure.USER_SETUP_COMPLETE;
import static android.view.Display.INVALID_DISPLAY;
import static android.view.SurfaceControl.METADATA_TASK_ID;
import static android.view.WindowManager.TRANSIT_TASK_CHANGE_WINDOWING_MODE;
import static com.android.internal.policy.DecorView.DECOR_SHADOW_FOCUSED_HEIGHT_IN_DIP;
import static com.android.internal.policy.DecorView.DECOR_SHADOW_UNFOCUSED_HEIGHT_IN_DIP;
import static com.android.server.wm.ActivityRecord.STARTING_WINDOW_SHOWN;
import static com.android.server.wm.ActivityStack.ActivityState.RESUMED;
import static com.android.server.wm.ActivityStack.STACK_VISIBILITY_INVISIBLE;
import static com.android.server.wm.ActivityStack.STACK_VISIBILITY_VISIBLE;
import static com.android.server.wm.ActivityStack.STACK_VISIBILITY_VISIBLE_BEHIND_TRANSLUCENT;
import static com.android.server.wm.ActivityStackSupervisor.ON_TOP;
import static com.android.server.wm.ActivityStackSupervisor.PRESERVE_WINDOWS;
import static com.android.server.wm.ActivityStackSupervisor.REMOVE_FROM_RECENTS;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.DEBUG_ADD_REMOVE;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.DEBUG_LOCKTASK;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.DEBUG_RECENTS;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.DEBUG_TASKS;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.POSTFIX_ADD_REMOVE;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.POSTFIX_LOCKTASK;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.POSTFIX_RECENTS;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.POSTFIX_TASKS;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.TAG_ATM;
import static com.android.server.wm.ActivityTaskManagerDebugConfig.TAG_WITH_CLASS_NAME;
import static com.android.server.wm.ActivityTaskManagerService.TAG_STACK;
import static com.android.server.wm.IdentifierProto.HASH_CODE;
import static com.android.server.wm.IdentifierProto.TITLE;
import static com.android.server.wm.IdentifierProto.USER_ID;
import static com.android.server.wm.ProtoLogGroup.WM_DEBUG_ADD_REMOVE;
import static com.android.server.wm.ProtoLogGroup.WM_DEBUG_RECENTS_ANIMATIONS;
import static com.android.server.wm.WindowContainer.AnimationFlags.CHILDREN;
import static com.android.server.wm.WindowContainer.AnimationFlags.TRANSITION;
import static com.android.server.wm.WindowContainerChildProto.TASK;
import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_STACK;
import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_TASK_MOVEMENT;
import static com.android.server.wm.WindowManagerDebugConfig.TAG_WM;
import static com.android.server.wm.WindowManagerService.dipToPixel;
import static com.android.server.wm.WindowStateAnimator.STACK_CLIP_BEFORE_ANIM;
import static java.lang.Integer.MAX_VALUE;
import android.annotation.IntDef;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.app.Activity;
import android.app.ActivityManager;
import android.app.ActivityManager.TaskDescription;
import android.app.ActivityManager.TaskSnapshot;
import android.app.ActivityOptions;
import android.app.ActivityTaskManager;
import android.app.AppGlobals;
import android.app.TaskInfo;
import android.app.WindowConfiguration;
import android.content.ComponentName;
import android.content.Intent;
import android.content.pm.ActivityInfo;
import android.content.pm.ApplicationInfo;
import android.content.pm.IPackageManager;
import android.content.pm.PackageManager;
import android.content.res.Configuration;
import android.graphics.Point;
import android.graphics.Rect;
import android.os.Debug;
import android.os.IBinder;
import android.os.RemoteException;
import android.os.SystemClock;
import android.os.Trace;
import android.os.UserHandle;
import android.provider.Settings;
import android.service.voice.IVoiceInteractionSession;
import android.util.ArraySet;
import android.util.DisplayMetrics;
import android.util.Slog;
import android.util.proto.ProtoOutputStream;
import android.view.DisplayInfo;
import android.view.RemoteAnimationAdapter;
import android.view.RemoteAnimationTarget;
import android.view.Surface;
import android.view.SurfaceControl;
import android.view.WindowManager;
import android.window.ITaskOrganizer;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.app.IVoiceInteractor;
import com.android.internal.util.XmlUtils;
import com.android.internal.util.function.pooled.PooledConsumer;
import com.android.internal.util.function.pooled.PooledFunction;
import com.android.internal.util.function.pooled.PooledLambda;
import com.android.internal.util.function.pooled.PooledPredicate;
import com.android.server.protolog.common.ProtoLog;
import com.android.server.wm.ActivityStack.ActivityState;
import org.xmlpull.v1.XmlPullParser;
import org.xmlpull.v1.XmlPullParserException;
import org.xmlpull.v1.XmlSerializer;
import java.io.IOException;
import java.io.PrintWriter;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.util.ArrayList;
import java.util.Objects;
import java.util.function.Consumer;
import java.util.function.Function;
import java.util.function.Predicate;
class Task extends WindowContainer<WindowContainer> {
private static final String TAG = TAG_WITH_CLASS_NAME ? "Task" : TAG_ATM;
private static final String TAG_ADD_REMOVE = TAG + POSTFIX_ADD_REMOVE;
private static final String TAG_RECENTS = TAG + POSTFIX_RECENTS;
private static final String TAG_LOCKTASK = TAG + POSTFIX_LOCKTASK;
private static final String TAG_TASKS = TAG + POSTFIX_TASKS;
private static final String ATTR_TASKID = "task_id";
private static final String TAG_INTENT = "intent";
private static final String TAG_AFFINITYINTENT = "affinity_intent";
private static final String ATTR_REALACTIVITY = "real_activity";
private static final String ATTR_REALACTIVITY_SUSPENDED = "real_activity_suspended";
private static final String ATTR_ORIGACTIVITY = "orig_activity";
private static final String TAG_ACTIVITY = "activity";
private static final String ATTR_AFFINITY = "affinity";
private static final String ATTR_ROOT_AFFINITY = "root_affinity";
private static final String ATTR_ROOTHASRESET = "root_has_reset";
private static final String ATTR_AUTOREMOVERECENTS = "auto_remove_recents";
private static final String ATTR_ASKEDCOMPATMODE = "asked_compat_mode";
private static final String ATTR_USERID = "user_id";
private static final String ATTR_USER_SETUP_COMPLETE = "user_setup_complete";
private static final String ATTR_EFFECTIVE_UID = "effective_uid";
@Deprecated
private static final String ATTR_TASKTYPE = "task_type";
private static final String ATTR_LASTDESCRIPTION = "last_description";
private static final String ATTR_LASTTIMEMOVED = "last_time_moved";
private static final String ATTR_NEVERRELINQUISH = "never_relinquish_identity";
private static final String ATTR_TASK_AFFILIATION = "task_affiliation";
private static final String ATTR_PREV_AFFILIATION = "prev_affiliation";
private static final String ATTR_NEXT_AFFILIATION = "next_affiliation";
private static final String ATTR_TASK_AFFILIATION_COLOR = "task_affiliation_color";
private static final String ATTR_CALLING_UID = "calling_uid";
private static final String ATTR_CALLING_PACKAGE = "calling_package";
private static final String ATTR_CALLING_FEATURE_ID = "calling_feature_id";
private static final String ATTR_SUPPORTS_PICTURE_IN_PICTURE = "supports_picture_in_picture";
private static final String ATTR_RESIZE_MODE = "resize_mode";
private static final String ATTR_NON_FULLSCREEN_BOUNDS = "non_fullscreen_bounds";
private static final String ATTR_MIN_WIDTH = "min_width";
private static final String ATTR_MIN_HEIGHT = "min_height";
private static final String ATTR_PERSIST_TASK_VERSION = "persist_task_version";
private static final String ATTR_WINDOW_LAYOUT_AFFINITY = "window_layout_affinity";
// Current version of the task record we persist. Used to check if we need to run any upgrade
// code.
static final int PERSIST_TASK_VERSION = 1;
static final int INVALID_MIN_SIZE = -1;
private float mShadowRadius = 0;
/**
* The modes to control how the stack is moved to the front when calling {@link Task#reparent}.
*/
@Retention(RetentionPolicy.SOURCE)
@IntDef({
REPARENT_MOVE_STACK_TO_FRONT,
REPARENT_KEEP_STACK_AT_FRONT,
REPARENT_LEAVE_STACK_IN_PLACE
})
@interface ReparentMoveStackMode {}
// Moves the stack to the front if it was not at the front
static final int REPARENT_MOVE_STACK_TO_FRONT = 0;
// Only moves the stack to the front if it was focused or front most already
static final int REPARENT_KEEP_STACK_AT_FRONT = 1;
// Do not move the stack as a part of reparenting
static final int REPARENT_LEAVE_STACK_IN_PLACE = 2;
String affinity; // The affinity name for this task, or null; may change identity.
String rootAffinity; // Initial base affinity, or null; does not change from initial root.
String mWindowLayoutAffinity; // Launch param affinity of this task or null. Used when saving
// launch params of this task.
IVoiceInteractionSession voiceSession; // Voice interaction session driving task
IVoiceInteractor voiceInteractor; // Associated interactor to provide to app
Intent intent; // The original intent that started the task. Note that this value can
// be null.
Intent affinityIntent; // Intent of affinity-moved activity that started this task.
int effectiveUid; // The current effective uid of the identity of this task.
ComponentName origActivity; // The non-alias activity component of the intent.
ComponentName realActivity; // The actual activity component that started the task.
boolean realActivitySuspended; // True if the actual activity component that started the
// task is suspended.
boolean inRecents; // Actually in the recents list?
long lastActiveTime; // Last time this task was active in the current device session,
// including sleep. This time is initialized to the elapsed time when
// restored from disk.
boolean isAvailable; // Is the activity available to be launched?
boolean rootWasReset; // True if the intent at the root of the task had
// the FLAG_ACTIVITY_RESET_TASK_IF_NEEDED flag.
boolean autoRemoveRecents; // If true, we should automatically remove the task from
// recents when activity finishes
boolean askedCompatMode;// Have asked the user about compat mode for this task.
private boolean mHasBeenVisible; // Set if any activities in the task have been visible
String stringName; // caching of toString() result.
boolean mUserSetupComplete; // The user set-up is complete as of the last time the task activity
// was changed.
/** Can't be put in lockTask mode. */
final static int LOCK_TASK_AUTH_DONT_LOCK = 0;
/** Can enter app pinning with user approval. Can never start over existing lockTask task. */
final static int LOCK_TASK_AUTH_PINNABLE = 1;
/** Starts in LOCK_TASK_MODE_LOCKED automatically. Can start over existing lockTask task. */
final static int LOCK_TASK_AUTH_LAUNCHABLE = 2;
/** Can enter lockTask without user approval. Can start over existing lockTask task. */
final static int LOCK_TASK_AUTH_WHITELISTED = 3;
/** Priv-app that starts in LOCK_TASK_MODE_LOCKED automatically. Can start over existing
* lockTask task. */
final static int LOCK_TASK_AUTH_LAUNCHABLE_PRIV = 4;
int mLockTaskAuth = LOCK_TASK_AUTH_PINNABLE;
int mLockTaskUid = -1; // The uid of the application that called startLockTask().
/** The process that had previously hosted the root activity of this task.
* Used to know that we should try harder to keep this process around, in case the
* user wants to return to it. */
private WindowProcessController mRootProcess;
/** Takes on same value as first root activity */
boolean isPersistable = false;
int maxRecents;
/** Only used for persistable tasks, otherwise 0. The last time this task was moved. Used for
* determining the order when restoring. Sign indicates whether last task movement was to front
* (positive) or back (negative). Absolute value indicates time. */
long mLastTimeMoved;
/** If original intent did not allow relinquishing task identity, save that information */
private boolean mNeverRelinquishIdentity = true;
// Used in the unique case where we are clearing the task in order to reuse it. In that case we
// do not want to delete the stack when the task goes empty.
private boolean mReuseTask = false;
CharSequence lastDescription; // Last description captured for this item.
int mAffiliatedTaskId; // taskId of parent affiliation or self if no parent.
int mAffiliatedTaskColor; // color of the parent task affiliation.
Task mPrevAffiliate; // previous task in affiliated chain.
int mPrevAffiliateTaskId = INVALID_TASK_ID; // previous id for persistence.
Task mNextAffiliate; // next task in affiliated chain.
int mNextAffiliateTaskId = INVALID_TASK_ID; // next id for persistence.
// For relaunching the task from recents as though it was launched by the original launcher.
int mCallingUid;
String mCallingPackage;
String mCallingFeatureId;
private final Rect mTmpStableBounds = new Rect();
private final Rect mTmpNonDecorBounds = new Rect();
private final Rect mTmpBounds = new Rect();
private final Rect mTmpInsets = new Rect();
private final Rect mTmpFullBounds = new Rect();
// Last non-fullscreen bounds the task was launched in or resized to.
// The information is persisted and used to determine the appropriate stack to launch the
// task into on restore.
Rect mLastNonFullscreenBounds = null;
// Minimal width and height of this task when it's resizeable. -1 means it should use the
// default minimal width/height.
int mMinWidth;
int mMinHeight;
// Ranking (from top) of this task among all visible tasks. (-1 means it's not visible)
// This number will be assigned when we evaluate OOM scores for all visible tasks.
int mLayerRank = -1;
/** Helper object used for updating override configuration. */
private Configuration mTmpConfig = new Configuration();
/** Used by fillTaskInfo */
final TaskActivitiesReport mReuseActivitiesReport = new TaskActivitiesReport();
final ActivityTaskManagerService mAtmService;
final ActivityStackSupervisor mStackSupervisor;
final RootWindowContainer mRootWindowContainer;
/* Unique identifier for this task. */
final int mTaskId;
/* User for which this task was created. */
// TODO: Make final
int mUserId;
final Rect mPreparedFrozenBounds = new Rect();
final Configuration mPreparedFrozenMergedConfig = new Configuration();
// Id of the previous display the stack was on.
int mPrevDisplayId = INVALID_DISPLAY;
/** ID of the display which rotation {@link #mRotation} has. */
private int mLastRotationDisplayId = INVALID_DISPLAY;
/**
* Display rotation as of the last time {@link #setBounds(Rect)} was called or this task was
* moved to a new display.
*/
@Surface.Rotation
private int mRotation;
/**
* Last requested orientation reported to DisplayContent. This is different from {@link
* #mOrientation} in the sense that this takes activities' requested orientation into
* account. Start with {@link ActivityInfo#SCREEN_ORIENTATION_UNSPECIFIED} so that we don't need
* to notify for activities that don't specify any orientation.
*/
int mLastReportedRequestedOrientation = ActivityInfo.SCREEN_ORIENTATION_UNSPECIFIED;
// For comparison with DisplayContent bounds.
private Rect mTmpRect = new Rect();
// For handling display rotations.
private Rect mTmpRect2 = new Rect();
// Resize mode of the task. See {@link ActivityInfo#resizeMode}
// Based on the {@link ActivityInfo#resizeMode} of the root activity.
int mResizeMode;
// Whether or not this task and its activities support PiP. Based on the
// {@link ActivityInfo#FLAG_SUPPORTS_PICTURE_IN_PICTURE} flag of the root activity.
boolean mSupportsPictureInPicture;
// Whether the task is currently being drag-resized
private boolean mDragResizing;
private int mDragResizeMode;
// This represents the last resolved activity values for this task
// NOTE: This value needs to be persisted with each task
private TaskDescription mTaskDescription;
// If set to true, the task will report that it is not in the floating
// state regardless of it's stack affiliation. As the floating state drives
// production of content insets this can be used to preserve them across
// stack moves and we in fact do so when moving from full screen to pinned.
private boolean mPreserveNonFloatingState = false;
private Dimmer mDimmer = new Dimmer(this);
private final Rect mTmpDimBoundsRect = new Rect();
private final Point mLastSurfaceSize = new Point();
/** @see #setCanAffectSystemUiFlags */
private boolean mCanAffectSystemUiFlags = true;
private static Exception sTmpException;
/** ActivityRecords that are exiting, but still on screen for animations. */
final ArrayList<ActivityRecord> mExitingActivities = new ArrayList<>();
/**
* When we are in the process of pausing an activity, before starting the
* next one, this variable holds the activity that is currently being paused.
*/
ActivityRecord mPausingActivity = null;
/**
* This is the last activity that we put into the paused state. This is
* used to determine if we need to do an activity transition while sleeping,
* when we normally hold the top activity paused.
*/
ActivityRecord mLastPausedActivity = null;
/**
* Activities that specify No History must be removed once the user navigates away from them.
* If the device goes to sleep with such an activity in the paused state then we save it here
* and finish it later if another activity replaces it on wakeup.
*/
ActivityRecord mLastNoHistoryActivity = null;
/** Current activity that is resumed, or null if there is none. */
ActivityRecord mResumedActivity = null;
private boolean mForceShowForAllUsers;
/** When set, will force the task to report as invisible. */
static final int FLAG_FORCE_HIDDEN_FOR_PINNED_TASK = 1;
static final int FLAG_FORCE_HIDDEN_FOR_TASK_ORG = 1 << 1;
private int mForceHiddenFlags = 0;
// TODO(b/160201781): Revisit double invocation issue in Task#removeChild.
/**
* Skip {@link ActivityStackSupervisor#removeTask(Task, boolean, boolean, String)} execution if
* {@code true} to prevent double traversal of {@link #mChildren} in a loop.
*/
boolean mInRemoveTask;
// When non-null, this is a transaction that will get applied on the next frame returned after
// a relayout is requested from the client. While this is only valid on a leaf task; since the
// transaction can effect an ancestor task, this also needs to keep track of the ancestor task
// that this transaction manipulates because deferUntilFrame acts on individual surfaces.
SurfaceControl.Transaction mMainWindowSizeChangeTransaction;
Task mMainWindowSizeChangeTask;
private final FindRootHelper mFindRootHelper = new FindRootHelper();
private class FindRootHelper {
private ActivityRecord mRoot;
private void clear() {
mRoot = null;
}
ActivityRecord findRoot(boolean ignoreRelinquishIdentity, boolean setToBottomIfNone) {
final PooledFunction f = PooledLambda.obtainFunction(FindRootHelper::processActivity,
this, PooledLambda.__(ActivityRecord.class), ignoreRelinquishIdentity,
setToBottomIfNone);
clear();
forAllActivities(f, false /*traverseTopToBottom*/);
f.recycle();
return mRoot;
}
private boolean processActivity(ActivityRecord r,
boolean ignoreRelinquishIdentity, boolean setToBottomIfNone) {
if (mRoot == null && setToBottomIfNone) {
// This is the first activity we are process. Set it as the candidate root in case
// we don't find a better one.
mRoot = r;
}
if (r.finishing) return false;
// Set this as the candidate root since it isn't finishing.
mRoot = r;
// Only end search if we are ignore relinquishing identity or we are not relinquishing.
return ignoreRelinquishIdentity || (r.info.flags & FLAG_RELINQUISH_TASK_IDENTITY) == 0;
}
}
/**
* The TaskOrganizer which is delegated presentation of this task. If set the Task will
* emit an WindowContainerToken (allowing access to it's SurfaceControl leash) to the organizers
* taskAppeared callback, and emit a taskRemoved callback when the Task is vanished.
*/
ITaskOrganizer mTaskOrganizer;
private int mLastTaskOrganizerWindowingMode = -1;
/**
* Prevent duplicate calls to onTaskAppeared.
*/
boolean mTaskAppearedSent;
/**
* This task was created by the task organizer which has the following implementations.
* <ul>
* <lis>The task won't be removed when it is empty. Removal has to be an explicit request
* from the task organizer.</li>
* <li>Unlike other non-root tasks, it's direct children are visible to the task
* organizer for ordering purposes.</li>
* </ul>
*/
boolean mCreatedByOrganizer;
/**
* Don't use constructor directly. Use {@link #create(ActivityTaskManagerService, int,
* ActivityInfo, Intent, TaskDescription)} instead.
*/
Task(ActivityTaskManagerService atmService, int _taskId, ActivityInfo info, Intent _intent,
IVoiceInteractionSession _voiceSession, IVoiceInteractor _voiceInteractor,
TaskDescription _taskDescription, ActivityStack stack) {
this(atmService, _taskId, _intent, null /*_affinityIntent*/, null /*_affinity*/,
null /*_rootAffinity*/, null /*_realActivity*/, null /*_origActivity*/,
false /*_rootWasReset*/, false /*_autoRemoveRecents*/, false /*_askedCompatMode*/,
UserHandle.getUserId(info.applicationInfo.uid), 0 /*_effectiveUid*/,
null /*_lastDescription*/, System.currentTimeMillis(),
true /*neverRelinquishIdentity*/,
_taskDescription != null ? _taskDescription : new TaskDescription(),
_taskId, INVALID_TASK_ID, INVALID_TASK_ID, 0 /*taskAffiliationColor*/,
info.applicationInfo.uid, info.packageName, null /* default featureId */,
info.resizeMode, info.supportsPictureInPicture(), false /*_realActivitySuspended*/,
false /*userSetupComplete*/, INVALID_MIN_SIZE, INVALID_MIN_SIZE, info,
_voiceSession, _voiceInteractor, stack);
}
/** Don't use constructor directly. This is only used by XML parser. */
Task(ActivityTaskManagerService atmService, int _taskId, Intent _intent, Intent _affinityIntent,
String _affinity, String _rootAffinity, ComponentName _realActivity,
ComponentName _origActivity, boolean _rootWasReset, boolean _autoRemoveRecents,
boolean _askedCompatMode, int _userId, int _effectiveUid, String _lastDescription,
long lastTimeMoved, boolean neverRelinquishIdentity,
TaskDescription _lastTaskDescription, int taskAffiliation, int prevTaskId,
int nextTaskId, int taskAffiliationColor, int callingUid, String callingPackage,
@Nullable String callingFeatureId, int resizeMode, boolean supportsPictureInPicture,
boolean _realActivitySuspended, boolean userSetupComplete, int minWidth, int minHeight,
ActivityInfo info, IVoiceInteractionSession _voiceSession,
IVoiceInteractor _voiceInteractor, ActivityStack stack) {
super(atmService.mWindowManager);
EventLogTags.writeWmTaskCreated(_taskId, stack != null ? getRootTaskId() : INVALID_TASK_ID);
mAtmService = atmService;
mStackSupervisor = atmService.mStackSupervisor;
mRootWindowContainer = mAtmService.mRootWindowContainer;
mTaskId = _taskId;
mUserId = _userId;
mResizeMode = resizeMode;
mSupportsPictureInPicture = supportsPictureInPicture;
mTaskDescription = _lastTaskDescription;
// Tasks have no set orientation value (including SCREEN_ORIENTATION_UNSPECIFIED).
setOrientation(SCREEN_ORIENTATION_UNSET);
mRemoteToken = new RemoteToken(this);
affinityIntent = _affinityIntent;
affinity = _affinity;
rootAffinity = _rootAffinity;
voiceSession = _voiceSession;
voiceInteractor = _voiceInteractor;
realActivity = _realActivity;
realActivitySuspended = _realActivitySuspended;
origActivity = _origActivity;
rootWasReset = _rootWasReset;
isAvailable = true;
autoRemoveRecents = _autoRemoveRecents;
askedCompatMode = _askedCompatMode;
mUserSetupComplete = userSetupComplete;
effectiveUid = _effectiveUid;
touchActiveTime();
lastDescription = _lastDescription;
mLastTimeMoved = lastTimeMoved;
mNeverRelinquishIdentity = neverRelinquishIdentity;
mAffiliatedTaskId = taskAffiliation;
mAffiliatedTaskColor = taskAffiliationColor;
mPrevAffiliateTaskId = prevTaskId;
mNextAffiliateTaskId = nextTaskId;
mCallingUid = callingUid;
mCallingPackage = callingPackage;
mCallingFeatureId = callingFeatureId;
mResizeMode = resizeMode;
if (info != null) {
setIntent(_intent, info);
setMinDimensions(info);
} else {
intent = _intent;
mMinWidth = minWidth;
mMinHeight = minHeight;
}
mAtmService.getTaskChangeNotificationController().notifyTaskCreated(_taskId, realActivity);
}
Task reuseAsLeafTask(IVoiceInteractionSession _voiceSession, IVoiceInteractor _voiceInteractor,
Intent intent, ActivityInfo info, ActivityRecord activity) {
voiceSession = _voiceSession;
voiceInteractor = _voiceInteractor;
setIntent(activity, intent, info);
setMinDimensions(info);
// Before we began to reuse a root task (old ActivityStack) as the leaf task, we used to
// create a leaf task in this case. Therefore now we won't send out the task created
// notification when we decide to reuse it here, so we send out the notification below.
// The reason why the created notification sent out when root task is created doesn't work
// is that realActivity isn't set until setIntent() method above is called for the first
// time. Eventually this notification will be removed when we can populate those information
// when root task is created.
mAtmService.getTaskChangeNotificationController().notifyTaskCreated(mTaskId, realActivity);
return this;
}
private void cleanUpResourcesForDestroy(ConfigurationContainer oldParent) {
if (hasChild()) {
return;
}
if (isLeafTask()) {
// This task is going away, so save the last state if necessary.
saveLaunchingStateIfNeeded(((WindowContainer) oldParent).getDisplayContent());
}
// TODO: VI what about activity?
final boolean isVoiceSession = voiceSession != null;
if (isVoiceSession) {
try {
voiceSession.taskFinished(intent, mTaskId);
} catch (RemoteException e) {
}
}
if (autoRemoveFromRecents() || isVoiceSession) {
// Task creator asked to remove this when done, or this task was a voice
// interaction, so it should not remain on the recent tasks list.
mStackSupervisor.mRecentTasks.remove(this);
}
removeIfPossible();
}
@VisibleForTesting
@Override
void removeIfPossible() {
final boolean isRootTask = isRootTask();
if (!isRootTask) {
mAtmService.getLockTaskController().clearLockedTask(this);
}
if (shouldDeferRemoval()) {
if (DEBUG_STACK) Slog.i(TAG, "removeTask: deferring removing taskId=" + mTaskId);
return;
}
removeImmediately();
if (isLeafTask()) {
mAtmService.getTaskChangeNotificationController().notifyTaskRemoved(mTaskId);
}
}
void setResizeMode(int resizeMode) {
if (mResizeMode == resizeMode) {
return;
}
mResizeMode = resizeMode;
mRootWindowContainer.ensureActivitiesVisible(null, 0, !PRESERVE_WINDOWS);
mRootWindowContainer.resumeFocusedStacksTopActivities();
updateTaskDescription();
}
boolean resize(Rect bounds, int resizeMode, boolean preserveWindow) {
mAtmService.deferWindowLayout();
try {
final boolean forced = (resizeMode & RESIZE_MODE_FORCED) != 0;
if (getParent() == null) {
// Task doesn't exist in window manager yet (e.g. was restored from recents).
// All we can do for now is update the bounds so it can be used when the task is
// added to window manager.
setBounds(bounds);
if (!inFreeformWindowingMode()) {
// re-restore the task so it can have the proper stack association.
mStackSupervisor.restoreRecentTaskLocked(this, null, !ON_TOP);
}
return true;
}
if (!canResizeToBounds(bounds)) {
throw new IllegalArgumentException("resizeTask: Can not resize task=" + this
+ " to bounds=" + bounds + " resizeMode=" + mResizeMode);
}
// Do not move the task to another stack here.
// This method assumes that the task is already placed in the right stack.
// we do not mess with that decision and we only do the resize!
Trace.traceBegin(TRACE_TAG_WINDOW_MANAGER, "resizeTask_" + mTaskId);
boolean updatedConfig = false;
mTmpConfig.setTo(getResolvedOverrideConfiguration());
if (setBounds(bounds) != BOUNDS_CHANGE_NONE) {
updatedConfig = !mTmpConfig.equals(getResolvedOverrideConfiguration());
}
// This variable holds information whether the configuration didn't change in a
// significant way and the activity was kept the way it was. If it's false, it means
// the activity had to be relaunched due to configuration change.
boolean kept = true;
if (updatedConfig) {
final ActivityRecord r = topRunningActivityLocked();
if (r != null) {
kept = r.ensureActivityConfiguration(0 /* globalChanges */,
preserveWindow);
// Preserve other windows for resizing because if resizing happens when there
// is a dialog activity in the front, the activity that still shows some
// content to the user will become black and cause flickers. Note in most cases
// this won't cause tons of irrelevant windows being preserved because only
// activities in this task may experience a bounds change. Configs for other
// activities stay the same.
mRootWindowContainer.ensureActivitiesVisible(r, 0, preserveWindow);
if (!kept) {
mRootWindowContainer.resumeFocusedStacksTopActivities();
}
}
}
resize(kept, forced);
saveLaunchingStateIfNeeded();
Trace.traceEnd(TRACE_TAG_WINDOW_MANAGER);
return kept;
} finally {
mAtmService.continueWindowLayout();
}
}
/** Convenience method to reparent a task to the top or bottom position of the stack. */
boolean reparent(ActivityStack preferredStack, boolean toTop,
@ReparentMoveStackMode int moveStackMode, boolean animate, boolean deferResume,
String reason) {
return reparent(preferredStack, toTop ? MAX_VALUE : 0, moveStackMode, animate, deferResume,
true /* schedulePictureInPictureModeChange */, reason);
}
/**
* Convenience method to reparent a task to the top or bottom position of the stack, with
* an option to skip scheduling the picture-in-picture mode change.
*/
boolean reparent(ActivityStack preferredStack, boolean toTop,
@ReparentMoveStackMode int moveStackMode, boolean animate, boolean deferResume,
boolean schedulePictureInPictureModeChange, String reason) {
return reparent(preferredStack, toTop ? MAX_VALUE : 0, moveStackMode, animate,
deferResume, schedulePictureInPictureModeChange, reason);
}
/** Convenience method to reparent a task to a specific position of the stack. */
boolean reparent(ActivityStack preferredStack, int position,
@ReparentMoveStackMode int moveStackMode, boolean animate, boolean deferResume,
String reason) {
return reparent(preferredStack, position, moveStackMode, animate, deferResume,
true /* schedulePictureInPictureModeChange */, reason);
}
/**
* Reparents the task into a preferred stack, creating it if necessary.
*
* @param preferredStack the target stack to move this task
* @param position the position to place this task in the new stack
* @param animate whether or not we should wait for the new window created as a part of the
* reparenting to be drawn and animated in
* @param moveStackMode whether or not to move the stack to the front always, only if it was
* previously focused & in front, or never
* @param deferResume whether or not to update the visibility of other tasks and stacks that may
* have changed as a result of this reparenting
* @param schedulePictureInPictureModeChange specifies whether or not to schedule the PiP mode
* change. Callers may set this to false if they are explicitly scheduling PiP mode
* changes themselves, like during the PiP animation
* @param reason the caller of this reparenting
* @return whether the task was reparented
*/
// TODO: Inspect all call sites and change to just changing windowing mode of the stack vs.
// re-parenting the task. Can only be done when we are no longer using static stack Ids.
boolean reparent(ActivityStack preferredStack, int position,
@ReparentMoveStackMode int moveStackMode, boolean animate, boolean deferResume,
boolean schedulePictureInPictureModeChange, String reason) {
final ActivityStackSupervisor supervisor = mStackSupervisor;
final RootWindowContainer root = mRootWindowContainer;
final WindowManagerService windowManager = mAtmService.mWindowManager;
final ActivityStack sourceStack = getStack();
final ActivityStack toStack = supervisor.getReparentTargetStack(this, preferredStack,
position == MAX_VALUE);
if (toStack == sourceStack) {
return false;
}
if (!canBeLaunchedOnDisplay(toStack.getDisplayId())) {
return false;
}
final boolean toTopOfStack = position == MAX_VALUE;
if (toTopOfStack && toStack.getResumedActivity() != null
&& toStack.topRunningActivity() != null) {
// Pause the resumed activity on the target stack while re-parenting task on top of it.
toStack.startPausingLocked(false /* userLeaving */, false /* uiSleeping */,
null /* resuming */);
}
final int toStackWindowingMode = toStack.getWindowingMode();
final ActivityRecord topActivity = getTopNonFinishingActivity();
final boolean mightReplaceWindow = topActivity != null
&& replaceWindowsOnTaskMove(getWindowingMode(), toStackWindowingMode);
if (mightReplaceWindow) {
// We are about to relaunch the activity because its configuration changed due to
// being maximized, i.e. size change. The activity will first remove the old window
// and then add a new one. This call will tell window manager about this, so it can
// preserve the old window until the new one is drawn. This prevents having a gap
// between the removal and addition, in which no window is visible. We also want the
// entrance of the new window to be properly animated.
// Note here we always set the replacing window first, as the flags might be needed
// during the relaunch. If we end up not doing any relaunch, we clear the flags later.
windowManager.setWillReplaceWindow(topActivity.appToken, animate);
}
mAtmService.deferWindowLayout();
boolean kept = true;
try {
final ActivityRecord r = topRunningActivityLocked();
final boolean wasFocused = r != null && root.isTopDisplayFocusedStack(sourceStack)
&& (topRunningActivityLocked() == r);
final boolean wasResumed = r != null && sourceStack.getResumedActivity() == r;
final boolean wasPaused = r != null && sourceStack.mPausingActivity == r;
// In some cases the focused stack isn't the front stack. E.g. pinned stack.
// Whenever we are moving the top activity from the front stack we want to make sure to
// move the stack to the front.
final boolean wasFront = r != null && sourceStack.isTopStackInDisplayArea()
&& (sourceStack.topRunningActivity() == r);
final boolean moveStackToFront = moveStackMode == REPARENT_MOVE_STACK_TO_FRONT
|| (moveStackMode == REPARENT_KEEP_STACK_AT_FRONT && (wasFocused || wasFront));
reparent(toStack, position, moveStackToFront, reason);
if (schedulePictureInPictureModeChange) {
// Notify of picture-in-picture mode changes
supervisor.scheduleUpdatePictureInPictureModeIfNeeded(this, sourceStack);
}
// If the task had focus before (or we're requested to move focus), move focus to the
// new stack by moving the stack to the front.
if (r != null) {
toStack.moveToFrontAndResumeStateIfNeeded(r, moveStackToFront, wasResumed,
wasPaused, reason);
}
if (!animate) {
mStackSupervisor.mNoAnimActivities.add(topActivity);
}
// We might trigger a configuration change. Save the current task bounds for freezing.
// TODO: Should this call be moved inside the resize method in WM?
toStack.prepareFreezingTaskBounds();
if (toStackWindowingMode == WINDOWING_MODE_SPLIT_SCREEN_PRIMARY
&& moveStackMode == REPARENT_KEEP_STACK_AT_FRONT) {
// Move recents to front so it is not behind home stack when going into docked
// mode
mStackSupervisor.moveRecentsStackToFront(reason);
}
} finally {
mAtmService.continueWindowLayout();
}
if (mightReplaceWindow) {
// If we didn't actual do a relaunch (indicated by kept==true meaning we kept the old
// window), we need to clear the replace window settings. Otherwise, we schedule a
// timeout to remove the old window if the replacing window is not coming in time.
windowManager.scheduleClearWillReplaceWindows(topActivity.appToken, !kept);
}
if (!deferResume) {
// The task might have already been running and its visibility needs to be synchronized
// with the visibility of the stack / windows.
root.ensureActivitiesVisible(null, 0, !mightReplaceWindow);
root.resumeFocusedStacksTopActivities();
}
// TODO: Handle incorrect request to move before the actual move, not after.
supervisor.handleNonResizableTaskIfNeeded(this, preferredStack.getWindowingMode(),
mRootWindowContainer.getDefaultTaskDisplayArea(), toStack);
return (preferredStack == toStack);
}
/**
* @return {@code true} if the windows of tasks being moved to the target stack from the
* source stack should be replaced, meaning that window manager will keep the old window
* around until the new is ready.
*/
private static boolean replaceWindowsOnTaskMove(
int sourceWindowingMode, int targetWindowingMode) {
return sourceWindowingMode == WINDOWING_MODE_FREEFORM
|| targetWindowingMode == WINDOWING_MODE_FREEFORM;
}
/**
* DO NOT HOLD THE ACTIVITY MANAGER LOCK WHEN CALLING THIS METHOD!
*/
TaskSnapshot getSnapshot(boolean isLowResolution, boolean restoreFromDisk) {
// TODO: Move this to {@link TaskWindowContainerController} once recent tasks are more
// synchronized between AM and WM.
return mAtmService.mWindowManager.getTaskSnapshot(mTaskId, mUserId, isLowResolution,
restoreFromDisk);
}
void touchActiveTime() {
lastActiveTime = SystemClock.elapsedRealtime();
}
long getInactiveDuration() {
return SystemClock.elapsedRealtime() - lastActiveTime;
}
/** @see #setIntent(ActivityRecord, Intent, ActivityInfo) */
void setIntent(ActivityRecord r) {
setIntent(r, null /* intent */, null /* info */);
}
/**
* Sets the original intent, and the calling uid and package.
*
* @param r The activity that started the task
* @param intent The task info which could be different from {@code r.intent} if set.
* @param info The activity info which could be different from {@code r.info} if set.
*/
void setIntent(ActivityRecord r, @Nullable Intent intent, @Nullable ActivityInfo info) {
mCallingUid = r.launchedFromUid;
mCallingPackage = r.launchedFromPackage;
mCallingFeatureId = r.launchedFromFeatureId;
setIntent(intent != null ? intent : r.intent, info != null ? info : r.info);
setLockTaskAuth(r);
final WindowContainer parent = getParent();
if (parent != null) {
final Task t = parent.asTask();
if (t != null) {
t.setIntent(r);
}
}
}
/** Sets the original intent, _without_ updating the calling uid or package. */
private void setIntent(Intent _intent, ActivityInfo info) {
final boolean isLeaf = isLeafTask();
if (intent == null) {
mNeverRelinquishIdentity =
(info.flags & FLAG_RELINQUISH_TASK_IDENTITY) == 0;
} else if (mNeverRelinquishIdentity && isLeaf) {
return;
}
affinity = isLeaf ? info.taskAffinity : null;
if (intent == null) {
// If this task already has an intent associated with it, don't set the root
// affinity -- we don't want it changing after initially set, but the initially
// set value may be null.
rootAffinity = affinity;
}
effectiveUid = info.applicationInfo.uid;
stringName = null;
if (info.targetActivity == null) {
if (_intent != null) {
// If this Intent has a selector, we want to clear it for the
// recent task since it is not relevant if the user later wants
// to re-launch the app.
if (_intent.getSelector() != null || _intent.getSourceBounds() != null) {
_intent = new Intent(_intent);
_intent.setSelector(null);
_intent.setSourceBounds(null);
}
}
if (DEBUG_TASKS) Slog.v(TAG_TASKS, "Setting Intent of " + this + " to " + _intent);
intent = _intent;
realActivity = _intent != null ? _intent.getComponent() : null;
origActivity = null;
} else {
ComponentName targetComponent = new ComponentName(
info.packageName, info.targetActivity);
if (_intent != null) {
Intent targetIntent = new Intent(_intent);
targetIntent.setSelector(null);
targetIntent.setSourceBounds(null);
if (DEBUG_TASKS) Slog.v(TAG_TASKS,
"Setting Intent of " + this + " to target " + targetIntent);
intent = targetIntent;
realActivity = targetComponent;
origActivity = _intent.getComponent();
} else {
intent = null;
realActivity = targetComponent;
origActivity = new ComponentName(info.packageName, info.name);
}
}
mWindowLayoutAffinity =
info.windowLayout == null ? null : info.windowLayout.windowLayoutAffinity;
final int intentFlags = intent == null ? 0 : intent.getFlags();
if ((intentFlags & Intent.FLAG_ACTIVITY_RESET_TASK_IF_NEEDED) != 0) {
// Once we are set to an Intent with this flag, we count this
// task as having a true root activity.
rootWasReset = true;
}
mUserId = UserHandle.getUserId(info.applicationInfo.uid);
mUserSetupComplete = Settings.Secure.getIntForUser(
mAtmService.mContext.getContentResolver(), USER_SETUP_COMPLETE, 0, mUserId) != 0;
if ((info.flags & ActivityInfo.FLAG_AUTO_REMOVE_FROM_RECENTS) != 0) {
// If the activity itself has requested auto-remove, then just always do it.
autoRemoveRecents = true;
} else if ((intentFlags & (FLAG_ACTIVITY_NEW_DOCUMENT | FLAG_ACTIVITY_RETAIN_IN_RECENTS))
== FLAG_ACTIVITY_NEW_DOCUMENT) {
// If the caller has not asked for the document to be retained, then we may
// want to turn on auto-remove, depending on whether the target has set its
// own document launch mode.
if (info.documentLaunchMode != ActivityInfo.DOCUMENT_LAUNCH_NONE) {
autoRemoveRecents = false;
} else {
autoRemoveRecents = true;
}
} else {
autoRemoveRecents = false;
}
if (mResizeMode != info.resizeMode) {
mResizeMode = info.resizeMode;
updateTaskDescription();
}
mSupportsPictureInPicture = info.supportsPictureInPicture();
}
/** Sets the original minimal width and height. */
void setMinDimensions(ActivityInfo info) {
if (info != null && info.windowLayout != null) {
mMinWidth = info.windowLayout.minWidth;
mMinHeight = info.windowLayout.minHeight;
} else {
mMinWidth = INVALID_MIN_SIZE;
mMinHeight = INVALID_MIN_SIZE;
}
}
/**
* Return true if the input activity has the same intent filter as the intent this task
* record is based on (normally the root activity intent).
*/
boolean isSameIntentFilter(ActivityRecord r) {
final Intent intent = new Intent(r.intent);
// Make sure the component are the same if the input activity has the same real activity
// as the one in the task because either one of them could be the alias activity.
if (Objects.equals(realActivity, r.mActivityComponent) && this.intent != null) {
intent.setComponent(this.intent.getComponent());
}
return intent.filterEquals(this.intent);
}
boolean returnsToHomeStack() {
if (inMultiWindowMode() || !hasChild()) return false;
if (intent != null) {
final int returnHomeFlags = FLAG_ACTIVITY_NEW_TASK | FLAG_ACTIVITY_TASK_ON_HOME;
return intent != null && (intent.getFlags() & returnHomeFlags) == returnHomeFlags;
}
final Task bottomTask = getBottomMostTask();
return bottomTask != this && bottomTask.returnsToHomeStack();
}
void setPrevAffiliate(Task prevAffiliate) {
mPrevAffiliate = prevAffiliate;
mPrevAffiliateTaskId = prevAffiliate == null ? INVALID_TASK_ID : prevAffiliate.mTaskId;
}
void setNextAffiliate(Task nextAffiliate) {
mNextAffiliate = nextAffiliate;
mNextAffiliateTaskId = nextAffiliate == null ? INVALID_TASK_ID : nextAffiliate.mTaskId;
}
@Override
void onParentChanged(ConfigurationContainer newParent, ConfigurationContainer oldParent) {
final DisplayContent display = newParent != null
? ((WindowContainer) newParent).getDisplayContent() : null;
final DisplayContent oldDisplay = oldParent != null
? ((WindowContainer) oldParent).getDisplayContent() : null;
mPrevDisplayId = (oldDisplay != null) ? oldDisplay.mDisplayId : INVALID_DISPLAY;
if (oldParent != null && newParent == null) {
cleanUpResourcesForDestroy(oldParent);
}
if (display != null) {
// TODO(NOW!): Chat with the erosky@ of this code to see if this really makes sense here...
// Rotations are relative to the display. This means if there are 2 displays rotated
// differently (eg. 2 monitors with one landscape and one portrait), moving a stack
// from one to the other could look like a rotation change. To prevent this
// apparent rotation change (and corresponding bounds rotation), pretend like our
// current rotation is already the same as the new display.
// Note, if ActivityStack or related logic ever gets nested, this logic will need
// to move to onConfigurationChanged.
getConfiguration().windowConfiguration.setRotation(
display.getWindowConfiguration().getRotation());
}
super.onParentChanged(newParent, oldParent);
// TODO(NOW): The check for null display content and setting it to null doesn't really
// make sense here...
// TODO(stack-merge): This is mostly taking care of the case where the stask is removing from
// the display, so we should probably consolidate it there instead.
if (getParent() == null && mDisplayContent != null) {
EventLogTags.writeWmStackRemoved(getRootTaskId());
mDisplayContent = null;
mWmService.mWindowPlacerLocked.requestTraversal();
}
if (oldParent != null) {
final Task oldParentTask = ((WindowContainer) oldParent).asTask();
if (oldParentTask != null) {
final PooledConsumer c = PooledLambda.obtainConsumer(
Task::cleanUpActivityReferences, oldParentTask,
PooledLambda.__(ActivityRecord.class));
forAllActivities(c);
c.recycle();
}
if (oldParent.inPinnedWindowingMode()
&& (newParent == null || !newParent.inPinnedWindowingMode())) {
// Notify if a task from the pinned stack is being removed
// (or moved depending on the mode).
mAtmService.getTaskChangeNotificationController().notifyActivityUnpinned();
}
}
if (newParent != null) {
final Task newParentTask = ((WindowContainer) newParent).asTask();
if (newParentTask != null) {
final ActivityRecord top = newParentTask.getTopNonFinishingActivity(
false /* includeOverlays */);
if (top != null && top.isState(RESUMED)) {
newParentTask.setResumedActivity(top, "addedToTask");
}
}
// TODO: Ensure that this is actually necessary here
// Notify the voice session if required
if (voiceSession != null) {
try {
voiceSession.taskStarted(intent, mTaskId);
} catch (RemoteException e) {
}
}
}
// First time we are adding the task to the system.
if (oldParent == null && newParent != null) {
// TODO: Super random place to be doing this, but aligns with what used to be done
// before we unified Task level. Look into if this can be done in a better place.
updateOverrideConfigurationFromLaunchBounds();
}
// Update task bounds if needed.
adjustBoundsForDisplayChangeIfNeeded(getDisplayContent());
if (getWindowConfiguration().windowsAreScaleable()) {
// We force windows out of SCALING_MODE_FREEZE so that we can continue to animate them
// while a resize is pending.
forceWindowsScaleable(true /* force */);
} else {
forceWindowsScaleable(false /* force */);
}
mRootWindowContainer.updateUIDsPresentOnDisplay();
}
void cleanUpActivityReferences(ActivityRecord r) {
final WindowContainer parent = getParent();
if (parent != null && parent.asTask() != null) {
parent.asTask().cleanUpActivityReferences(r);
return;
}
r.removeTimeouts();
mExitingActivities.remove(r);
if (mResumedActivity != null && mResumedActivity == r) {
setResumedActivity(null, "cleanUpActivityReferences");
}
if (mPausingActivity != null && mPausingActivity == r) {
mPausingActivity = null;
}
}
/** @return the currently resumed activity. */
ActivityRecord getResumedActivity() {
return mResumedActivity;
}
void setResumedActivity(ActivityRecord r, String reason) {
if (mResumedActivity == r) {
return;
}
if (ActivityTaskManagerDebugConfig.DEBUG_STACK) Slog.d(TAG_STACK,
"setResumedActivity stack:" + this + " + from: "
+ mResumedActivity + " to:" + r + " reason:" + reason);
mResumedActivity = r;
mStackSupervisor.updateTopResumedActivityIfNeeded();
}
void updateTaskMovement(boolean toFront) {
if (isPersistable) {
mLastTimeMoved = System.currentTimeMillis();
// Sign is used to keep tasks sorted when persisted. Tasks sent to the bottom most
// recently will be most negative, tasks sent to the bottom before that will be less
// negative. Similarly for recent tasks moved to the top which will be most positive.
if (!toFront) {
mLastTimeMoved *= -1;
}
}
mRootWindowContainer.invalidateTaskLayers();
}
// Close up recents linked list.
private void closeRecentsChain() {
if (mPrevAffiliate != null) {
mPrevAffiliate.setNextAffiliate(mNextAffiliate);
}
if (mNextAffiliate != null) {
mNextAffiliate.setPrevAffiliate(mPrevAffiliate);
}
setPrevAffiliate(null);
setNextAffiliate(null);
}
void removedFromRecents() {
closeRecentsChain();
if (inRecents) {
inRecents = false;
mAtmService.notifyTaskPersisterLocked(this, false);
}
clearRootProcess();
mAtmService.mWindowManager.mTaskSnapshotController.notifyTaskRemovedFromRecents(
mTaskId, mUserId);
}
void setTaskToAffiliateWith(Task taskToAffiliateWith) {
closeRecentsChain();
mAffiliatedTaskId = taskToAffiliateWith.mAffiliatedTaskId;
mAffiliatedTaskColor = taskToAffiliateWith.mAffiliatedTaskColor;
// Find the end
while (taskToAffiliateWith.mNextAffiliate != null) {
final Task nextRecents = taskToAffiliateWith.mNextAffiliate;
if (nextRecents.mAffiliatedTaskId != mAffiliatedTaskId) {
Slog.e(TAG, "setTaskToAffiliateWith: nextRecents=" + nextRecents + " affilTaskId="
+ nextRecents.mAffiliatedTaskId + " should be " + mAffiliatedTaskId);
if (nextRecents.mPrevAffiliate == taskToAffiliateWith) {
nextRecents.setPrevAffiliate(null);
}
taskToAffiliateWith.setNextAffiliate(null);
break;
}
taskToAffiliateWith = nextRecents;
}
taskToAffiliateWith.setNextAffiliate(this);
setPrevAffiliate(taskToAffiliateWith);
setNextAffiliate(null);
}
/** Returns the intent for the root activity for this task */
Intent getBaseIntent() {
if (intent != null) return intent;
if (affinityIntent != null) return affinityIntent;
// Probably a task that contains other tasks, so return the intent for the top task?
final Task topTask = getTopMostTask();
return (topTask != this && topTask != null) ? topTask.getBaseIntent() : null;
}
/** Returns the first non-finishing activity from the bottom. */
ActivityRecord getRootActivity() {
// TODO: Figure out why we historical ignore relinquish identity for this case...
return getRootActivity(true /*ignoreRelinquishIdentity*/, false /*setToBottomIfNone*/);
}
ActivityRecord getRootActivity(boolean setToBottomIfNone) {
return getRootActivity(false /*ignoreRelinquishIdentity*/, setToBottomIfNone);
}
ActivityRecord getRootActivity(boolean ignoreRelinquishIdentity, boolean setToBottomIfNone) {
return mFindRootHelper.findRoot(ignoreRelinquishIdentity, setToBottomIfNone);
}
ActivityRecord getTopNonFinishingActivity() {
return getTopNonFinishingActivity(true /* includeOverlays */);
}
ActivityRecord getTopNonFinishingActivity(boolean includeOverlays) {
return getTopActivity(false /*includeFinishing*/, includeOverlays);
}
ActivityRecord topRunningActivityLocked() {
if (getParent() == null) {
return null;
}
return getActivity(ActivityRecord::canBeTopRunning);
}
/**
* Return true if any activities in this task belongs to input uid.
*/
boolean isUidPresent(int uid) {
final PooledPredicate p = PooledLambda.obtainPredicate(
ActivityRecord::isUid, PooledLambda.__(ActivityRecord.class), uid);
final boolean isUidPresent = getActivity(p) != null;
p.recycle();
return isUidPresent;
}
ActivityRecord topActivityWithStartingWindow() {
if (getParent() == null) {
return null;
}
return getActivity((r) -> r.mStartingWindowState == STARTING_WINDOW_SHOWN
&& r.okToShowLocked());
}
/**
* Return the number of running activities, and the number of non-finishing/initializing
* activities in the provided {@param reportOut} respectively.
*/
private void getNumRunningActivities(TaskActivitiesReport reportOut) {
reportOut.reset();
forAllActivities(reportOut);
}
/**
* Reorder the history stack so that the passed activity is brought to the front.
*/
final void moveActivityToFrontLocked(ActivityRecord newTop) {
if (DEBUG_ADD_REMOVE) Slog.i(TAG_ADD_REMOVE, "Removing and adding activity "
+ newTop + " to stack at top callers=" + Debug.getCallers(4));
positionChildAtTop(newTop);
updateEffectiveIntent();
}
@Override
public int getActivityType() {
final int applicationType = super.getActivityType();
if (applicationType != ACTIVITY_TYPE_UNDEFINED || !hasChild()) {
return applicationType;
}
return getTopChild().getActivityType();
}
@Override
void addChild(WindowContainer child, int index) {
// If this task had any child before we added this one.
boolean hadChild = hasChild();
// getActivityType() looks at the top child, so we need to read the type before adding
// a new child in case the new child is on top and UNDEFINED.
final int activityType = getActivityType();
index = getAdjustedChildPosition(child, index);
super.addChild(child, index);
ProtoLog.v(WM_DEBUG_ADD_REMOVE, "addChild: %s at top.", this);
// A rootable task that is now being added to be the child of an organized task. Making
// sure the stack references is keep updated.
if (mTaskOrganizer != null && mCreatedByOrganizer && child.asTask() != null) {
getDisplayArea().addStackReferenceIfNeeded((ActivityStack) child);
}
// Make sure the list of display UID whitelists is updated
// now that this record is in a new task.
mRootWindowContainer.updateUIDsPresentOnDisplay();
final ActivityRecord r = child.asActivityRecord();
if (r == null) return;
r.inHistory = true;
// Only set this based on the first activity
if (!hadChild) {
if (r.getActivityType() == ACTIVITY_TYPE_UNDEFINED) {
// Normally non-standard activity type for the activity record will be set when the
// object is created, however we delay setting the standard application type until
// this point so that the task can set the type for additional activities added in
// the else condition below.
r.setActivityType(ACTIVITY_TYPE_STANDARD);
}
setActivityType(r.getActivityType());
isPersistable = r.isPersistable();
mCallingUid = r.launchedFromUid;
mCallingPackage = r.launchedFromPackage;
mCallingFeatureId = r.launchedFromFeatureId;
// Clamp to [1, max].
maxRecents = Math.min(Math.max(r.info.maxRecents, 1),
ActivityTaskManager.getMaxAppRecentsLimitStatic());
} else {
// Otherwise make all added activities match this one.
r.setActivityType(activityType);
}
updateEffectiveIntent();
}
void addChild(ActivityRecord r) {
addChild(r, Integer.MAX_VALUE /* add on top */);
}
@Override
void removeChild(WindowContainer child) {
removeChild(child, "removeChild");
}
void removeChild(WindowContainer r, String reason) {
// A rootable child task that is now being removed from an organized task. Making sure
// the stack references is keep updated.
if (mCreatedByOrganizer && r.asTask() != null) {
getDisplayArea().removeStackReferenceIfNeeded((ActivityStack) r);
}
if (!mChildren.contains(r)) {
Slog.e(TAG, "removeChild: r=" + r + " not found in t=" + this);
return;
}
if (DEBUG_TASK_MOVEMENT) {
Slog.d(TAG_WM, "removeChild: child=" + r + " reason=" + reason);
}
super.removeChild(r);
if (inPinnedWindowingMode()) {
// We normally notify listeners of task stack changes on pause, however pinned stack
// activities are normally in the paused state so no notification will be sent there
// before the activity is removed. We send it here so instead.
mAtmService.getTaskChangeNotificationController().notifyTaskStackChanged();
}
if (hasChild()) {
updateEffectiveIntent();
// The following block can be executed multiple times if there is more than one overlay.
// {@link ActivityStackSupervisor#removeTaskByIdLocked} handles this by reverse lookup
// of the task by id and exiting early if not found.
if (onlyHasTaskOverlayActivities(true /*includeFinishing*/)) {
// When destroying a task, tell the supervisor to remove it so that any activity it
// has can be cleaned up correctly. This is currently the only place where we remove
// a task with the DESTROYING mode, so instead of passing the onlyHasTaskOverlays
// state into removeChild(), we just clear the task here before the other residual
// work.
// TODO: If the callers to removeChild() changes such that we have multiple places
// where we are destroying the task, move this back into removeChild()
mStackSupervisor.removeTask(this, false /* killProcess */,
!REMOVE_FROM_RECENTS, reason);
}
} else if (!mReuseTask && !mCreatedByOrganizer) {
// Remove entire task if it doesn't have any activity left and it isn't marked for reuse
// or created by task organizer.
if (!isRootTask()) {
getStack().removeChild(this, reason);
}
EventLogTags.writeWmTaskRemoved(mTaskId,
"removeChild: last r=" + r + " in t=" + this);
removeIfPossible();
}
}
/**
* @return whether or not there are ONLY task overlay activities in the task.
* If {@param includeFinishing} is set, then don't ignore finishing activities in the
* check. If there are no task overlay activities, this call returns false.
*/
boolean onlyHasTaskOverlayActivities(boolean includeFinishing) {
int count = 0;
for (int i = getChildCount() - 1; i >= 0; i--) {
final ActivityRecord r = getChildAt(i).asActivityRecord();
if (r == null) {
// Has a child that is other than Activity.
return false;
}
if (!includeFinishing && r.finishing) {
continue;
}
if (!r.isTaskOverlay()) {
return false;
}
count++;
}
return count > 0;
}
private boolean autoRemoveFromRecents() {
// We will automatically remove the task either if it has explicitly asked for
// this, or it is empty and has never contained an activity that got shown to
// the user.
return autoRemoveRecents || (!hasChild() && !getHasBeenVisible());
}
/** Completely remove all activities associated with an existing task. */
void performClearTask(String reason) {
// Broken down into to cases to avoid object create due to capturing mStack.
if (getStack() == null) {
forAllActivities((r) -> {
if (r.finishing) return;
// Task was restored from persistent storage.
r.takeFromHistory();
removeChild(r);
});
} else {
forAllActivities((r) -> {
if (r.finishing) return;
// TODO: figure-out how to avoid object creation due to capture of reason variable.
r.finishIfPossible(Activity.RESULT_CANCELED,
null /* resultData */, null /* resultGrants */, reason, false /* oomAdj */);
});
}
}
/**
* Completely remove all activities associated with an existing task.
*/
void performClearTaskLocked() {
mReuseTask = true;
performClearTask("clear-task-all");
mReuseTask = false;
}
ActivityRecord performClearTaskForReuseLocked(ActivityRecord newR, int launchFlags) {
mReuseTask = true;
final ActivityRecord result = performClearTaskLocked(newR, launchFlags);
mReuseTask = false;
return result;
}
/**
* Perform clear operation as requested by
* {@link Intent#FLAG_ACTIVITY_CLEAR_TOP}: search from the top of the
* stack to the given task, then look for
* an instance of that activity in the stack and, if found, finish all
* activities on top of it and return the instance.
*
* @param newR Description of the new activity being started.
* @return Returns the old activity that should be continued to be used,
* or {@code null} if none was found.
*/
private ActivityRecord performClearTaskLocked(ActivityRecord newR, int launchFlags) {
final ActivityRecord r = findActivityInHistory(newR.mActivityComponent);
if (r == null) return null;
final PooledFunction f = PooledLambda.obtainFunction(Task::finishActivityAbove,
PooledLambda.__(ActivityRecord.class), r);
forAllActivities(f);
f.recycle();
// Finally, if this is a normal launch mode (that is, not expecting onNewIntent()), then we
// will finish the current instance of the activity so a new fresh one can be started.
if (r.launchMode == ActivityInfo.LAUNCH_MULTIPLE
&& (launchFlags & Intent.FLAG_ACTIVITY_SINGLE_TOP) == 0
&& !ActivityStarter.isDocumentLaunchesIntoExisting(launchFlags)) {
if (!r.finishing) {
r.finishIfPossible("clear-task-top", false /* oomAdj */);
return null;
}
}
return r;
}
private static boolean finishActivityAbove(ActivityRecord r, ActivityRecord boundaryActivity) {
// Stop operation once we reach the boundary activity.
if (r == boundaryActivity) return true;
if (!r.finishing) {
final ActivityOptions opts = r.takeOptionsLocked(false /* fromClient */);
if (opts != null) {
// TODO: Why is this updating the boundary activity vs. the current activity???
boundaryActivity.updateOptionsLocked(opts);
}
r.finishIfPossible("clear-task-stack", false /* oomAdj */);
}
return false;
}
String lockTaskAuthToString() {
switch (mLockTaskAuth) {
case LOCK_TASK_AUTH_DONT_LOCK: return "LOCK_TASK_AUTH_DONT_LOCK";
case LOCK_TASK_AUTH_PINNABLE: return "LOCK_TASK_AUTH_PINNABLE";
case LOCK_TASK_AUTH_LAUNCHABLE: return "LOCK_TASK_AUTH_LAUNCHABLE";
case LOCK_TASK_AUTH_WHITELISTED: return "LOCK_TASK_AUTH_WHITELISTED";
case LOCK_TASK_AUTH_LAUNCHABLE_PRIV: return "LOCK_TASK_AUTH_LAUNCHABLE_PRIV";
default: return "unknown=" + mLockTaskAuth;
}
}
void setLockTaskAuth() {
setLockTaskAuth(getRootActivity());
}
private void setLockTaskAuth(@Nullable ActivityRecord r) {
if (r == null) {
mLockTaskAuth = LOCK_TASK_AUTH_PINNABLE;
return;
}
final String pkg = (realActivity != null) ? realActivity.getPackageName() : null;
final LockTaskController lockTaskController = mAtmService.getLockTaskController();
switch (r.lockTaskLaunchMode) {
case LOCK_TASK_LAUNCH_MODE_DEFAULT:
mLockTaskAuth = lockTaskController.isPackageWhitelisted(mUserId, pkg)
? LOCK_TASK_AUTH_WHITELISTED : LOCK_TASK_AUTH_PINNABLE;
break;
case LOCK_TASK_LAUNCH_MODE_NEVER:
mLockTaskAuth = LOCK_TASK_AUTH_DONT_LOCK;
break;
case LOCK_TASK_LAUNCH_MODE_ALWAYS:
mLockTaskAuth = LOCK_TASK_AUTH_LAUNCHABLE_PRIV;
break;
case LOCK_TASK_LAUNCH_MODE_IF_WHITELISTED:
mLockTaskAuth = lockTaskController.isPackageWhitelisted(mUserId, pkg)
? LOCK_TASK_AUTH_LAUNCHABLE : LOCK_TASK_AUTH_PINNABLE;
break;
}
if (DEBUG_LOCKTASK) Slog.d(TAG_LOCKTASK, "setLockTaskAuth: task=" + this
+ " mLockTaskAuth=" + lockTaskAuthToString());
}
@Override
public boolean supportsSplitScreenWindowingMode() {
final Task topTask = getTopMostTask();
return super.supportsSplitScreenWindowingMode()
&& (topTask == null || topTask.supportsSplitScreenWindowingModeInner());
}
private boolean supportsSplitScreenWindowingModeInner() {
// A task can not be docked even if it is considered resizeable because it only supports
// picture-in-picture mode but has a non-resizeable resizeMode
return super.supportsSplitScreenWindowingMode()
&& mAtmService.mSupportsSplitScreenMultiWindow
&& (mAtmService.mForceResizableActivities
|| (isResizeable(false /* checkSupportsPip */)
&& !ActivityInfo.isPreserveOrientationMode(mResizeMode)));
}
/**
* Check whether this task can be launched on the specified display.
*
* @param displayId Target display id.
* @return {@code true} if either it is the default display or this activity can be put on a
* secondary display.
*/
boolean canBeLaunchedOnDisplay(int displayId) {
return mStackSupervisor.canPlaceEntityOnDisplay(displayId,
-1 /* don't check PID */, -1 /* don't check UID */, null /* activityInfo */);
}
/**
* Check that a given bounds matches the application requested orientation.
*
* @param bounds The bounds to be tested.
* @return True if the requested bounds are okay for a resizing request.
*/
private boolean canResizeToBounds(Rect bounds) {
if (bounds == null || !inFreeformWindowingMode()) {
// Note: If not on the freeform workspace, we ignore the bounds.
return true;
}
final boolean landscape = bounds.width() > bounds.height();
final Rect configBounds = getRequestedOverrideBounds();
if (mResizeMode == RESIZE_MODE_FORCE_RESIZABLE_PRESERVE_ORIENTATION) {
return configBounds.isEmpty()
|| landscape == (configBounds.width() > configBounds.height());
}
return (mResizeMode != RESIZE_MODE_FORCE_RESIZABLE_PORTRAIT_ONLY || !landscape)
&& (mResizeMode != RESIZE_MODE_FORCE_RESIZABLE_LANDSCAPE_ONLY || landscape);
}
/**
* @return {@code true} if the task is being cleared for the purposes of being reused.
*/
boolean isClearingToReuseTask() {
return mReuseTask;
}
/**
* Find the activity in the history stack within the given task. Returns
* the index within the history at which it's found, or < 0 if not found.
*/
ActivityRecord findActivityInHistory(ComponentName component) {
final PooledPredicate p = PooledLambda.obtainPredicate(Task::matchesActivityInHistory,
PooledLambda.__(ActivityRecord.class), component);
final ActivityRecord r = getActivity(p);
p.recycle();
return r;
}
private static boolean matchesActivityInHistory(
ActivityRecord r, ComponentName activityComponent) {
return !r.finishing && r.mActivityComponent.equals(activityComponent);
}
/** Updates the last task description values. */
void updateTaskDescription() {
final ActivityRecord root = getRootActivity(true);
if (root == null) return;
final TaskDescription taskDescription = new TaskDescription();
final PooledFunction f = PooledLambda.obtainFunction(
Task::setTaskDescriptionFromActivityAboveRoot,
PooledLambda.__(ActivityRecord.class), root, taskDescription);
forAllActivities(f);
f.recycle();
taskDescription.setResizeMode(mResizeMode);
taskDescription.setMinWidth(mMinWidth);
taskDescription.setMinHeight(mMinHeight);
setTaskDescription(taskDescription);
// Update the task affiliation color if we are the parent of the group
if (mTaskId == mAffiliatedTaskId) {
mAffiliatedTaskColor = taskDescription.getPrimaryColor();
}
mAtmService.getTaskChangeNotificationController().notifyTaskDescriptionChanged(
getTaskInfo());
final WindowContainer parent = getParent();
if (parent != null) {
final Task t = parent.asTask();
if (t != null) {
t.updateTaskDescription();
}
}
if (isOrganized()) {
mAtmService.mTaskOrganizerController.dispatchTaskInfoChanged(this, false /* force */);
}
}
private static boolean setTaskDescriptionFromActivityAboveRoot(
ActivityRecord r, ActivityRecord root, TaskDescription td) {
if (!r.isTaskOverlay() && r.taskDescription != null) {
final TaskDescription atd = r.taskDescription;
if (td.getLabel() == null) {
td.setLabel(atd.getLabel());
}
if (td.getRawIcon() == null) {
td.setIcon(atd.getRawIcon());
}
if (td.getIconFilename() == null) {
td.setIconFilename(atd.getIconFilename());
}
if (td.getPrimaryColor() == 0) {
td.setPrimaryColor(atd.getPrimaryColor());
}
if (td.getBackgroundColor() == 0) {
td.setBackgroundColor(atd.getBackgroundColor());
}
if (td.getStatusBarColor() == 0) {
td.setStatusBarColor(atd.getStatusBarColor());
td.setEnsureStatusBarContrastWhenTransparent(
atd.getEnsureStatusBarContrastWhenTransparent());
}
if (td.getNavigationBarColor() == 0) {
td.setNavigationBarColor(atd.getNavigationBarColor());
td.setEnsureNavigationBarContrastWhenTransparent(
atd.getEnsureNavigationBarContrastWhenTransparent());
}
}
// End search once we get to root.
return r == root;
}
// TODO (AM refactor): Invoke automatically when there is a change in children
@VisibleForTesting
void updateEffectiveIntent() {
final ActivityRecord root = getRootActivity(true /*setToBottomIfNone*/);
if (root != null) {
setIntent(root);
// Update the task description when the activities change
updateTaskDescription();
}
}
void adjustForMinimalTaskDimensions(@NonNull Rect bounds, @NonNull Rect previousBounds,
@NonNull Configuration parentConfig) {
int minWidth = mMinWidth;
int minHeight = mMinHeight;
// If the task has no requested minimal size, we'd like to enforce a minimal size
// so that the user can not render the task too small to manipulate. We don't need
// to do this for the pinned stack as the bounds are controlled by the system.
if (!inPinnedWindowingMode()) {
final int defaultMinSizeDp = mRootWindowContainer.mDefaultMinSizeOfResizeableTaskDp;
final float density = (float) parentConfig.densityDpi / DisplayMetrics.DENSITY_DEFAULT;
final int defaultMinSize = (int) (defaultMinSizeDp * density);
if (minWidth == INVALID_MIN_SIZE) {
minWidth = defaultMinSize;
}
if (minHeight == INVALID_MIN_SIZE) {
minHeight = defaultMinSize;
}
}
if (bounds.isEmpty()) {
// If inheriting parent bounds, check if parent bounds adhere to minimum size. If they
// do, we can just skip.
final Rect parentBounds = parentConfig.windowConfiguration.getBounds();
if (parentBounds.width() >= minWidth && parentBounds.height() >= minHeight) {
return;
}
bounds.set(parentBounds);
}
final boolean adjustWidth = minWidth > bounds.width();
final boolean adjustHeight = minHeight > bounds.height();
if (!(adjustWidth || adjustHeight)) {
return;
}
if (adjustWidth) {
if (!previousBounds.isEmpty() && bounds.right == previousBounds.right) {
bounds.left = bounds.right - minWidth;
} else {
// Either left bounds match, or neither match, or the previous bounds were
// fullscreen and we default to keeping left.
bounds.right = bounds.left + minWidth;
}
}
if (adjustHeight) {
if (!previousBounds.isEmpty() && bounds.bottom == previousBounds.bottom) {
bounds.top = bounds.bottom - minHeight;
} else {
// Either top bounds match, or neither match, or the previous bounds were
// fullscreen and we default to keeping top.
bounds.bottom = bounds.top + minHeight;
}
}
}
void setLastNonFullscreenBounds(Rect bounds) {
if (mLastNonFullscreenBounds == null) {
mLastNonFullscreenBounds = new Rect(bounds);
} else {
mLastNonFullscreenBounds.set(bounds);
}
}
/**
* This should be called when an child activity changes state. This should only
* be called from
* {@link ActivityRecord#setState(ActivityState, String)} .
* @param record The {@link ActivityRecord} whose state has changed.
* @param state The new state.
* @param reason The reason for the change.
*/
void onActivityStateChanged(ActivityRecord record, ActivityState state, String reason) {
final Task parentTask = getParent().asTask();
if (parentTask != null) {
parentTask.onActivityStateChanged(record, state, reason);
// We still want to update the resumed activity if the parent task is created by
// organizer in order to keep the information synced once got reparented out from the
// organized task.
if (!parentTask.mCreatedByOrganizer) {
return;
}
}
if (record == mResumedActivity && state != RESUMED) {
setResumedActivity(null, reason + " - onActivityStateChanged");
}
if (state == RESUMED) {
if (ActivityTaskManagerDebugConfig.DEBUG_STACK) {
Slog.v(TAG_STACK, "set resumed activity to:" + record + " reason:" + reason);
}
setResumedActivity(record, reason + " - onActivityStateChanged");
if (record == mRootWindowContainer.getTopResumedActivity()) {
mAtmService.setResumedActivityUncheckLocked(record, reason);
}
mStackSupervisor.mRecentTasks.add(record.getTask());
}
}
@Override
public void onConfigurationChanged(Configuration newParentConfig) {
// Check if the new configuration supports persistent bounds (eg. is Freeform) and if so
// restore the last recorded non-fullscreen bounds.
final boolean prevPersistTaskBounds = getWindowConfiguration().persistTaskBounds();
boolean nextPersistTaskBounds =
getRequestedOverrideConfiguration().windowConfiguration.persistTaskBounds();
if (getRequestedOverrideWindowingMode() == WINDOWING_MODE_UNDEFINED) {
nextPersistTaskBounds = newParentConfig.windowConfiguration.persistTaskBounds();
}
if (!prevPersistTaskBounds && nextPersistTaskBounds
&& mLastNonFullscreenBounds != null && !mLastNonFullscreenBounds.isEmpty()) {
// Bypass onRequestedOverrideConfigurationChanged here to avoid infinite loop.
getRequestedOverrideConfiguration().windowConfiguration
.setBounds(mLastNonFullscreenBounds);
}
final int prevWinMode = getWindowingMode();
mTmpPrevBounds.set(getBounds());
final boolean wasInMultiWindowMode = inMultiWindowMode();
final boolean wasInPictureInPicture = inPinnedWindowingMode();
super.onConfigurationChanged(newParentConfig);
// Only need to update surface size here since the super method will handle updating
// surface position.
updateSurfaceSize(getSyncTransaction());
if (wasInPictureInPicture != inPinnedWindowingMode()) {
mStackSupervisor.scheduleUpdatePictureInPictureModeIfNeeded(this, getStack());
} else if (wasInMultiWindowMode != inMultiWindowMode()) {
mStackSupervisor.scheduleUpdateMultiWindowMode(this);
}
final int newWinMode = getWindowingMode();
if ((prevWinMode != newWinMode) && (mDisplayContent != null)
&& shouldStartChangeTransition(prevWinMode, newWinMode)) {
initializeChangeTransition(mTmpPrevBounds);
}
// If the configuration supports persistent bounds (eg. Freeform), keep track of the
// current (non-fullscreen) bounds for persistence.
if (getWindowConfiguration().persistTaskBounds()) {
final Rect currentBounds = getRequestedOverrideBounds();
if (!currentBounds.isEmpty()) {
setLastNonFullscreenBounds(currentBounds);
}
}
saveLaunchingStateIfNeeded();
final boolean taskOrgChanged = updateTaskOrganizerState(false /* forceUpdate */);
// If the task organizer has changed, then it will already be receiving taskAppeared with
// the latest task-info thus the task-info won't have changed.
if (!taskOrgChanged && isOrganized()) {
mAtmService.mTaskOrganizerController.dispatchTaskInfoChanged(this, false /* force */);
}
}
/**
* Initializes a change transition. See {@link SurfaceFreezer} for more information.
*/
private void initializeChangeTransition(Rect startBounds) {
mDisplayContent.prepareAppTransition(TRANSIT_TASK_CHANGE_WINDOWING_MODE,
false /* alwaysKeepCurrent */, 0, false /* forceOverride */);
mDisplayContent.mChangingContainers.add(this);
mSurfaceFreezer.freeze(getPendingTransaction(), startBounds);
}
private boolean shouldStartChangeTransition(int prevWinMode, int newWinMode) {
if (mWmService.mDisableTransitionAnimation
|| !isVisible()
|| getDisplayContent().mAppTransition.isTransitionSet()
|| getSurfaceControl() == null
|| !isLeafTask()) {
return false;
}
// Only do an animation into and out-of freeform mode for now. Other mode
// transition animations are currently handled by system-ui.
return (prevWinMode == WINDOWING_MODE_FREEFORM) != (newWinMode == WINDOWING_MODE_FREEFORM);
}
@Override
void migrateToNewSurfaceControl() {
super.migrateToNewSurfaceControl();
mLastSurfaceSize.x = 0;
mLastSurfaceSize.y = 0;
updateSurfaceSize(getPendingTransaction());
}
void updateSurfaceSize(SurfaceControl.Transaction transaction) {
if (mSurfaceControl == null || isOrganized()) {
return;
}
// Apply crop to root tasks only and clear the crops of the descendant tasks.
int width = 0;
int height = 0;
if (isRootTask()) {
final Rect taskBounds = getBounds();
width = taskBounds.width();
height = taskBounds.height();
final int outset = getTaskOutset();
width += 2 * outset;
height += 2 * outset;
}
if (width == mLastSurfaceSize.x && height == mLastSurfaceSize.y) {
return;
}
transaction.setWindowCrop(mSurfaceControl, width, height);
mLastSurfaceSize.set(width, height);
}
/**
* Calculate an amount by which to expand the task bounds in each direction.
* Used to make room for shadows in the pinned windowing mode.
*/
int getTaskOutset() {
// If we are drawing shadows on the task then don't outset the stack.
if (mWmService.mRenderShadowsInCompositor) {
return 0;
}
DisplayContent displayContent = getDisplayContent();
if (inPinnedWindowingMode() && displayContent != null) {
final DisplayMetrics displayMetrics = displayContent.getDisplayMetrics();
// We multiply by two to match the client logic for converting view elevation
// to insets, as in {@link WindowManager.LayoutParams#setSurfaceInsets}
return (int) Math.ceil(
mWmService.dipToPixel(PINNED_WINDOWING_MODE_ELEVATION_IN_DIP, displayMetrics)
* 2);
}
return 0;
}
@VisibleForTesting
Point getLastSurfaceSize() {
return mLastSurfaceSize;
}
@VisibleForTesting
boolean isInChangeTransition() {
return mSurfaceFreezer.hasLeash() || AppTransition.isChangeTransit(mTransit);
}
@Override
public SurfaceControl getFreezeSnapshotTarget() {
final int transit = mDisplayContent.mAppTransition.getAppTransition();
if (!AppTransition.isChangeTransit(transit)) {
return null;
}
// Skip creating snapshot if this transition is controlled by a remote animator which
// doesn't need it.
final ArraySet<Integer> activityTypes = new ArraySet<>();
activityTypes.add(getActivityType());
final RemoteAnimationAdapter adapter =
mDisplayContent.mAppTransitionController.getRemoteAnimationOverride(
this, transit, activityTypes);
if (adapter != null && !adapter.getChangeNeedsSnapshot()) {
return null;
}
return getSurfaceControl();
}
@Override
void writeIdentifierToProto(ProtoOutputStream proto, long fieldId) {
final long token = proto.start(fieldId);
proto.write(HASH_CODE, System.identityHashCode(this));
proto.write(USER_ID, mUserId);
proto.write(TITLE, intent != null && intent.getComponent() != null
? intent.getComponent().flattenToShortString() : "Task");
proto.end(token);
}
/**
* Saves launching state if necessary so that we can launch the activity to its latest state.
* It only saves state if this task has been shown to user and it's in fullscreen or freeform
* mode on freeform displays.
*/
private void saveLaunchingStateIfNeeded() {
saveLaunchingStateIfNeeded(getDisplayContent());
}
private void saveLaunchingStateIfNeeded(DisplayContent display) {
if (!getHasBeenVisible()) {
// Not ever visible to user.
return;
}
final int windowingMode = getWindowingMode();
if (windowingMode != WINDOWING_MODE_FULLSCREEN
&& windowingMode != WINDOWING_MODE_FREEFORM) {
return;
}
// Don't persist state if display isn't in freeform mode. Then the task will be launched
// back to its last state in a freeform display when it's launched in a freeform display
// next time.
if (getWindowConfiguration().getDisplayWindowingMode() != WINDOWING_MODE_FREEFORM) {
return;
}
// Saves the new state so that we can launch the activity at the same location.
mStackSupervisor.mLaunchParamsPersister.saveTask(this, display);
}
/**
* Adjust bounds to stay within stack bounds.
*
* Since bounds might be outside of stack bounds, this method tries to move the bounds in a way
* that keep them unchanged, but be contained within the stack bounds.
*
* @param bounds Bounds to be adjusted.
* @param stackBounds Bounds within which the other bounds should remain.
* @param overlapPxX The amount of px required to be visible in the X dimension.
* @param overlapPxY The amount of px required to be visible in the Y dimension.
*/
private static void fitWithinBounds(Rect bounds, Rect stackBounds, int overlapPxX,
int overlapPxY) {
if (stackBounds == null || stackBounds.isEmpty() || stackBounds.contains(bounds)) {
return;
}
// For each side of the parent (eg. left), check if the opposing side of the window (eg.
// right) is at least overlap pixels away. If less, offset the window by that difference.
int horizontalDiff = 0;
// If window is smaller than overlap, use it's smallest dimension instead
int overlapLR = Math.min(overlapPxX, bounds.width());
if (bounds.right < (stackBounds.left + overlapLR)) {
horizontalDiff = overlapLR - (bounds.right - stackBounds.left);
} else if (bounds.left > (stackBounds.right - overlapLR)) {
horizontalDiff = -(overlapLR - (stackBounds.right - bounds.left));
}
int verticalDiff = 0;
int overlapTB = Math.min(overlapPxY, bounds.width());
if (bounds.bottom < (stackBounds.top + overlapTB)) {
verticalDiff = overlapTB - (bounds.bottom - stackBounds.top);
} else if (bounds.top > (stackBounds.bottom - overlapTB)) {
verticalDiff = -(overlapTB - (stackBounds.bottom - bounds.top));
}
bounds.offset(horizontalDiff, verticalDiff);
}
/**
* Intersects inOutBounds with intersectBounds-intersectInsets. If inOutBounds is larger than
* intersectBounds on a side, then the respective side will not be intersected.
*
* The assumption is that if inOutBounds is initially larger than intersectBounds, then the
* inset on that side is no-longer applicable. This scenario happens when a task's minimal
* bounds are larger than the provided parent/display bounds.
*
* @param inOutBounds the bounds to intersect.
* @param intersectBounds the bounds to intersect with.
* @param intersectInsets insets to apply to intersectBounds before intersecting.
*/
static void intersectWithInsetsIfFits(
Rect inOutBounds, Rect intersectBounds, Rect intersectInsets) {
if (inOutBounds.right <= intersectBounds.right) {
inOutBounds.right =
Math.min(intersectBounds.right - intersectInsets.right, inOutBounds.right);
}
if (inOutBounds.bottom <= intersectBounds.bottom) {
inOutBounds.bottom =
Math.min(intersectBounds.bottom - intersectInsets.bottom, inOutBounds.bottom);
}
if (inOutBounds.left >= intersectBounds.left) {
inOutBounds.left =
Math.max(intersectBounds.left + intersectInsets.left, inOutBounds.left);
}
if (inOutBounds.top >= intersectBounds.top) {
inOutBounds.top =
Math.max(intersectBounds.top + intersectInsets.top, inOutBounds.top);
}
}
/**
* Gets bounds with non-decor and stable insets applied respectively.
*
* If bounds overhangs the display, those edges will not get insets. See
* {@link #intersectWithInsetsIfFits}
*
* @param outNonDecorBounds where to place bounds with non-decor insets applied.
* @param outStableBounds where to place bounds with stable insets applied.
* @param bounds the bounds to inset.
*/
private void calculateInsetFrames(Rect outNonDecorBounds, Rect outStableBounds, Rect bounds,
DisplayInfo displayInfo) {
outNonDecorBounds.set(bounds);
outStableBounds.set(bounds);
if (getStack() == null || getStack().getDisplay() == null) {
return;
}
DisplayPolicy policy = getStack().getDisplay().mDisplayContent.getDisplayPolicy();
if (policy == null) {
return;
}
mTmpBounds.set(0, 0, displayInfo.logicalWidth, displayInfo.logicalHeight);
policy.getNonDecorInsetsLw(displayInfo.rotation, displayInfo.logicalWidth,
displayInfo.logicalHeight, displayInfo.displayCutout, mTmpInsets);
intersectWithInsetsIfFits(outNonDecorBounds, mTmpBounds, mTmpInsets);
policy.convertNonDecorInsetsToStableInsets(mTmpInsets, displayInfo.rotation);
intersectWithInsetsIfFits(outStableBounds, mTmpBounds, mTmpInsets);
}
/**
* Forces the app bounds related configuration can be computed by
* {@link #computeConfigResourceOverrides(Configuration, Configuration, DisplayInfo,
* ActivityRecord.CompatDisplayInsets)}.
*/
private static void invalidateAppBoundsConfig(@NonNull Configuration inOutConfig) {
final Rect appBounds = inOutConfig.windowConfiguration.getAppBounds();
if (appBounds != null) {
appBounds.setEmpty();
}
inOutConfig.screenWidthDp = Configuration.SCREEN_WIDTH_DP_UNDEFINED;
inOutConfig.screenHeightDp = Configuration.SCREEN_HEIGHT_DP_UNDEFINED;
}
void computeConfigResourceOverrides(@NonNull Configuration inOutConfig,
@NonNull Configuration parentConfig, @Nullable DisplayInfo overrideDisplayInfo) {
if (overrideDisplayInfo != null) {
// Make sure the screen related configs can be computed by the provided display info.
inOutConfig.screenLayout = Configuration.SCREENLAYOUT_UNDEFINED;
invalidateAppBoundsConfig(inOutConfig);
}
computeConfigResourceOverrides(inOutConfig, parentConfig, overrideDisplayInfo,
null /* compatInsets */);
}
void computeConfigResourceOverrides(@NonNull Configuration inOutConfig,
@NonNull Configuration parentConfig) {
computeConfigResourceOverrides(inOutConfig, parentConfig, null /* overrideDisplayInfo */,
null /* compatInsets */);
}
void computeConfigResourceOverrides(@NonNull Configuration inOutConfig,
@NonNull Configuration parentConfig,
@Nullable ActivityRecord.CompatDisplayInsets compatInsets) {
if (compatInsets != null) {
// Make sure the app bounds can be computed by the compat insets.
invalidateAppBoundsConfig(inOutConfig);
}
computeConfigResourceOverrides(inOutConfig, parentConfig, null /* overrideDisplayInfo */,
compatInsets);
}
/**
* Calculates configuration values used by the client to get resources. This should be run
* using app-facing bounds (bounds unmodified by animations or transient interactions).
*
* This assumes bounds are non-empty/null. For the null-bounds case, the caller is likely
* configuring an "inherit-bounds" window which means that all configuration settings would
* just be inherited from the parent configuration.
**/
void computeConfigResourceOverrides(@NonNull Configuration inOutConfig,
@NonNull Configuration parentConfig, @Nullable DisplayInfo overrideDisplayInfo,
@Nullable ActivityRecord.CompatDisplayInsets compatInsets) {
int windowingMode = inOutConfig.windowConfiguration.getWindowingMode();
if (windowingMode == WINDOWING_MODE_UNDEFINED) {
windowingMode = parentConfig.windowConfiguration.getWindowingMode();
}
float density = inOutConfig.densityDpi;
if (density == Configuration.DENSITY_DPI_UNDEFINED) {
density = parentConfig.densityDpi;
}
density *= DisplayMetrics.DENSITY_DEFAULT_SCALE;
// The bounds may have been overridden at this level. If the parent cannot cover these
// bounds, the configuration is still computed according to the override bounds.
final boolean insideParentBounds;
final Rect parentBounds = parentConfig.windowConfiguration.getBounds();
final Rect resolvedBounds = inOutConfig.windowConfiguration.getBounds();
if (resolvedBounds == null || resolvedBounds.isEmpty()) {
mTmpFullBounds.set(parentBounds);
insideParentBounds = true;
} else {
mTmpFullBounds.set(resolvedBounds);
insideParentBounds = parentBounds.contains(resolvedBounds);
}
// Non-null compatibility insets means the activity prefers to keep its original size, so
// out bounds doesn't need to be restricted by the parent or current display
final boolean customContainerPolicy = compatInsets != null;
Rect outAppBounds = inOutConfig.windowConfiguration.getAppBounds();
if (outAppBounds == null || outAppBounds.isEmpty()) {
// App-bounds hasn't been overridden, so calculate a value for it.
inOutConfig.windowConfiguration.setAppBounds(mTmpFullBounds);
outAppBounds = inOutConfig.windowConfiguration.getAppBounds();
if (!customContainerPolicy && windowingMode != WINDOWING_MODE_FREEFORM) {
final Rect containingAppBounds;
if (insideParentBounds) {
containingAppBounds = parentConfig.windowConfiguration.getAppBounds();
} else {
// Restrict appBounds to display non-decor rather than parent because the
// override bounds are beyond the parent. Otherwise, it won't match the
// overridden bounds.
final TaskDisplayArea displayArea = getDisplayArea();
containingAppBounds = displayArea != null
? displayArea.getWindowConfiguration().getAppBounds() : null;
}
if (containingAppBounds != null && !containingAppBounds.isEmpty()) {
outAppBounds.intersect(containingAppBounds);
}
}
}
if (inOutConfig.screenWidthDp == Configuration.SCREEN_WIDTH_DP_UNDEFINED
|| inOutConfig.screenHeightDp == Configuration.SCREEN_HEIGHT_DP_UNDEFINED) {
if (!customContainerPolicy && WindowConfiguration.isFloating(windowingMode)) {
mTmpNonDecorBounds.set(mTmpFullBounds);
mTmpStableBounds.set(mTmpFullBounds);
} else if (!customContainerPolicy
&& (overrideDisplayInfo != null || getDisplayContent() != null)) {
final DisplayInfo di = overrideDisplayInfo != null
? overrideDisplayInfo
: getDisplayContent().getDisplayInfo();
// For calculating screenWidthDp, screenWidthDp, we use the stable inset screen
// area, i.e. the screen area without the system bars.
// The non decor inset are areas that could never be removed in Honeycomb. See
// {@link WindowManagerPolicy#getNonDecorInsetsLw}.
calculateInsetFrames(mTmpNonDecorBounds, mTmpStableBounds, mTmpFullBounds, di);
} else {
// Apply the given non-decor and stable insets to calculate the corresponding bounds
// for screen size of configuration.
int rotation = inOutConfig.windowConfiguration.getRotation();
if (rotation == ROTATION_UNDEFINED) {
rotation = parentConfig.windowConfiguration.getRotation();
}
if (rotation != ROTATION_UNDEFINED && customContainerPolicy) {
mTmpNonDecorBounds.set(mTmpFullBounds);
mTmpStableBounds.set(mTmpFullBounds);
compatInsets.getBoundsByRotation(mTmpBounds, rotation);
intersectWithInsetsIfFits(mTmpNonDecorBounds, mTmpBounds,
compatInsets.mNonDecorInsets[rotation]);
intersectWithInsetsIfFits(mTmpStableBounds, mTmpBounds,
compatInsets.mStableInsets[rotation]);
outAppBounds.set(mTmpNonDecorBounds);
} else {
// Set to app bounds because it excludes decor insets.
mTmpNonDecorBounds.set(outAppBounds);
mTmpStableBounds.set(outAppBounds);
}
}
if (inOutConfig.screenWidthDp == Configuration.SCREEN_WIDTH_DP_UNDEFINED) {
final int overrideScreenWidthDp = (int) (mTmpStableBounds.width() / density);
inOutConfig.screenWidthDp = (insideParentBounds && !customContainerPolicy)
? Math.min(overrideScreenWidthDp, parentConfig.screenWidthDp)
: overrideScreenWidthDp;
}
if (inOutConfig.screenHeightDp == Configuration.SCREEN_HEIGHT_DP_UNDEFINED) {
final int overrideScreenHeightDp = (int) (mTmpStableBounds.height() / density);
inOutConfig.screenHeightDp = (insideParentBounds && !customContainerPolicy)
? Math.min(overrideScreenHeightDp, parentConfig.screenHeightDp)
: overrideScreenHeightDp;
}
if (inOutConfig.smallestScreenWidthDp
== Configuration.SMALLEST_SCREEN_WIDTH_DP_UNDEFINED) {
if (WindowConfiguration.isFloating(windowingMode)) {
// For floating tasks, calculate the smallest width from the bounds of the task
inOutConfig.smallestScreenWidthDp = (int) (
Math.min(mTmpFullBounds.width(), mTmpFullBounds.height()) / density);
}
// otherwise, it will just inherit
}
}
if (inOutConfig.orientation == ORIENTATION_UNDEFINED) {
inOutConfig.orientation = (inOutConfig.screenWidthDp <= inOutConfig.screenHeightDp)
? ORIENTATION_PORTRAIT : ORIENTATION_LANDSCAPE;
}
if (inOutConfig.screenLayout == Configuration.SCREENLAYOUT_UNDEFINED) {
// For calculating screen layout, we need to use the non-decor inset screen area for the
// calculation for compatibility reasons, i.e. screen area without system bars that
// could never go away in Honeycomb.
final int compatScreenWidthDp = (int) (mTmpNonDecorBounds.width() / density);
final int compatScreenHeightDp = (int) (mTmpNonDecorBounds.height() / density);
// Reducing the screen layout starting from its parent config.
inOutConfig.screenLayout = computeScreenLayoutOverride(parentConfig.screenLayout,
compatScreenWidthDp, compatScreenHeightDp);
}
}
/** Computes LONG, SIZE and COMPAT parts of {@link Configuration#screenLayout}. */
static int computeScreenLayoutOverride(int sourceScreenLayout, int screenWidthDp,
int screenHeightDp) {
sourceScreenLayout = sourceScreenLayout
& (Configuration.SCREENLAYOUT_LONG_MASK | Configuration.SCREENLAYOUT_SIZE_MASK);
final int longSize = Math.max(screenWidthDp, screenHeightDp);
final int shortSize = Math.min(screenWidthDp, screenHeightDp);
return Configuration.reduceScreenLayout(sourceScreenLayout, longSize, shortSize);
}
@Override
void resolveOverrideConfiguration(Configuration newParentConfig) {
mTmpBounds.set(getResolvedOverrideConfiguration().windowConfiguration.getBounds());
super.resolveOverrideConfiguration(newParentConfig);
int windowingMode =
getResolvedOverrideConfiguration().windowConfiguration.getWindowingMode();
// Resolve override windowing mode to fullscreen for home task (even on freeform
// display), or split-screen if in split-screen mode.
if (getActivityType() == ACTIVITY_TYPE_HOME && windowingMode == WINDOWING_MODE_UNDEFINED) {
final int parentWindowingMode = newParentConfig.windowConfiguration.getWindowingMode();
windowingMode = WindowConfiguration.isSplitScreenWindowingMode(parentWindowingMode)
? parentWindowingMode : WINDOWING_MODE_FULLSCREEN;
getResolvedOverrideConfiguration().windowConfiguration.setWindowingMode(windowingMode);
}
if (isLeafTask()) {
resolveLeafOnlyOverrideConfigs(newParentConfig, mTmpBounds /* previousBounds */);
}
computeConfigResourceOverrides(getResolvedOverrideConfiguration(), newParentConfig);
}
private void resolveLeafOnlyOverrideConfigs(Configuration newParentConfig,
Rect previousBounds) {
int windowingMode =
getResolvedOverrideConfiguration().windowConfiguration.getWindowingMode();
if (windowingMode == WINDOWING_MODE_UNDEFINED) {
windowingMode = newParentConfig.windowConfiguration.getWindowingMode();
}
Rect outOverrideBounds =
getResolvedOverrideConfiguration().windowConfiguration.getBounds();
if (windowingMode == WINDOWING_MODE_FULLSCREEN) {
computeFullscreenBounds(outOverrideBounds, null /* refActivity */,
newParentConfig.windowConfiguration.getBounds(),
newParentConfig.orientation);
// The bounds for fullscreen mode shouldn't be adjusted by minimal size. Otherwise if
// the parent or display is smaller than the size, the content may be cropped.
return;
}
adjustForMinimalTaskDimensions(outOverrideBounds, previousBounds, newParentConfig);
if (windowingMode == WINDOWING_MODE_FREEFORM) {
// by policy, make sure the window remains within parent somewhere
final float density =
((float) newParentConfig.densityDpi) / DisplayMetrics.DENSITY_DEFAULT;
final Rect parentBounds =
new Rect(newParentConfig.windowConfiguration.getBounds());
final DisplayContent display = getDisplayContent();
if (display != null) {
// If a freeform window moves below system bar, there is no way to move it again
// by touch. Because its caption is covered by system bar. So we exclude them
// from stack bounds. and then caption will be shown inside stable area.
final Rect stableBounds = new Rect();
display.getStableRect(stableBounds);
parentBounds.intersect(stableBounds);
}
fitWithinBounds(outOverrideBounds, parentBounds,
(int) (density * WindowState.MINIMUM_VISIBLE_WIDTH_IN_DP),
(int) (density * WindowState.MINIMUM_VISIBLE_HEIGHT_IN_DP));
// Prevent to overlap caption with stable insets.
final int offsetTop = parentBounds.top - outOverrideBounds.top;
if (offsetTop > 0) {
outOverrideBounds.offset(0, offsetTop);
}
}
}
/**
* Compute bounds (letterbox or pillarbox) for
* {@link WindowConfiguration#WINDOWING_MODE_FULLSCREEN} when the parent doesn't handle the
* orientation change and the requested orientation is different from the parent.
*/
void computeFullscreenBounds(@NonNull Rect outBounds, @Nullable ActivityRecord refActivity,
@NonNull Rect parentBounds, int parentOrientation) {
// In FULLSCREEN mode, always start with empty bounds to indicate "fill parent".
outBounds.setEmpty();
if (handlesOrientationChangeFromDescendant()) {
return;
}
if (refActivity == null) {
// Use the top activity as the reference of orientation. Don't include overlays because
// it is usually not the actual content or just temporarily shown.
// E.g. ForcedResizableInfoActivity.
refActivity = getTopNonFinishingActivity(false /* includeOverlays */);
}
// If the task or the reference activity requires a different orientation (either by
// override or activityInfo), make it fit the available bounds by scaling down its bounds.
final int overrideOrientation = getRequestedOverrideConfiguration().orientation;
final int forcedOrientation =
(overrideOrientation != ORIENTATION_UNDEFINED || refActivity == null)
? overrideOrientation : refActivity.getRequestedConfigurationOrientation();
if (forcedOrientation == ORIENTATION_UNDEFINED || forcedOrientation == parentOrientation) {
return;
}
final int parentWidth = parentBounds.width();
final int parentHeight = parentBounds.height();
final float aspect = ((float) parentHeight) / parentWidth;
if (forcedOrientation == ORIENTATION_LANDSCAPE) {
final int height = (int) (parentWidth / aspect);
final int top = parentBounds.centerY() - height / 2;
outBounds.set(parentBounds.left, top, parentBounds.right, top + height);
} else {
final int width = (int) (parentHeight * aspect);
final int left = parentBounds.centerX() - width / 2;
outBounds.set(left, parentBounds.top, left + width, parentBounds.bottom);
}
}
Rect updateOverrideConfigurationFromLaunchBounds() {
// If the task is controlled by another organized task, do not set override
// configurations and let its parent (organized task) to control it;
final Task rootTask = getRootTask();
final Rect bounds = rootTask != this && rootTask.isOrganized() ? null : getLaunchBounds();
setBounds(bounds);
if (bounds != null && !bounds.isEmpty()) {
// TODO: Review if we actually want to do this - we are setting the launch bounds
// directly here.
bounds.set(getRequestedOverrideBounds());
}
return bounds;
}
/** Updates the task's bounds and override configuration to match what is expected for the
* input stack. */
void updateOverrideConfigurationForStack(ActivityStack inStack) {
final ActivityStack stack = getStack();
if (stack != null && stack == inStack) {
return;
}
if (inStack.inFreeformWindowingMode()) {
if (!isResizeable()) {
throw new IllegalArgumentException("Can not position non-resizeable task="
+ this + " in stack=" + inStack);
}
if (!matchParentBounds()) {
return;
}
if (mLastNonFullscreenBounds != null) {
setBounds(mLastNonFullscreenBounds);
} else {
mStackSupervisor.getLaunchParamsController().layoutTask(this, null);
}
} else {
setBounds(inStack.getRequestedOverrideBounds());
}
}
/** Returns the bounds that should be used to launch this task. */
Rect getLaunchBounds() {
final ActivityStack stack = getStack();
if (stack == null) {
return null;
}
final int windowingMode = getWindowingMode();
if (!isActivityTypeStandardOrUndefined()
|| windowingMode == WINDOWING_MODE_FULLSCREEN
|| (windowingMode == WINDOWING_MODE_SPLIT_SCREEN_PRIMARY && !isResizeable())) {
return isResizeable() ? stack.getRequestedOverrideBounds() : null;
} else if (!getWindowConfiguration().persistTaskBounds()) {
return stack.getRequestedOverrideBounds();
}
return mLastNonFullscreenBounds;
}
void setRootProcess(WindowProcessController proc) {
clearRootProcess();
if (intent != null
&& (intent.getFlags() & Intent.FLAG_ACTIVITY_EXCLUDE_FROM_RECENTS) == 0) {
mRootProcess = proc;
mRootProcess.addRecentTask(this);
}
}
void clearRootProcess() {
if (mRootProcess != null) {
mRootProcess.removeRecentTask(this);
mRootProcess = null;
}
}
@Override
DisplayContent getDisplayContent() {
// TODO: Why aren't we just using our own display content vs. parent's???
final ActivityStack stack = getStack();
return stack != null && stack != this
? stack.getDisplayContent() : super.getDisplayContent();
}
int getDisplayId() {
final DisplayContent dc = getDisplayContent();
return dc != null ? dc.mDisplayId : INVALID_DISPLAY;
}
// TODO: Migrate callers to getRootTask()
ActivityStack getStack() {
return (ActivityStack) getRootTask();
}
/** @return Id of root task. */
int getRootTaskId() {
return getRootTask().mTaskId;
}
Task getRootTask() {
final WindowContainer parent = getParent();
if (parent == null) return this;
final Task parentTask = parent.asTask();
return parentTask == null ? this : parentTask.getRootTask();
}
// TODO(task-merge): Figure out what's the right thing to do for places that used it.
boolean isRootTask() {
return getRootTask() == this;
}
boolean isLeafTask() {
for (int i = mChildren.size() - 1; i >= 0; --i) {
if (mChildren.get(i).asTask() != null) {
return false;
}
}
return true;
}
int getDescendantTaskCount() {
final int[] currentCount = {0};
final PooledConsumer c = PooledLambda.obtainConsumer((t, count) -> { count[0]++; },
PooledLambda.__(Task.class), currentCount);
forAllLeafTasks(c, false /* traverseTopToBottom */);
c.recycle();
return currentCount[0];
}
/**
* Find next proper focusable stack and make it focused.
* @return The stack that now got the focus, {@code null} if none found.
*/
ActivityStack adjustFocusToNextFocusableTask(String reason) {
return adjustFocusToNextFocusableTask(reason, false /* allowFocusSelf */,
true /* moveDisplayToTop */);
}
/** Return the next focusable task by looking from the siblings and parent tasks */
private Task getNextFocusableTask(boolean allowFocusSelf) {
final WindowContainer parent = getParent();
if (parent == null) {
return null;
}
final Task focusableTask = parent.getTask((task) -> (allowFocusSelf || task != this)
&& ((ActivityStack) task).isFocusableAndVisible());
if (focusableTask == null && parent.asTask() != null) {
return parent.asTask().getNextFocusableTask(allowFocusSelf);
} else {
return focusableTask;
}
}
/**
* Find next proper focusable task and make it focused.
* @param reason The reason of making the adjustment.
* @param allowFocusSelf Is the focus allowed to remain on the same task.
* @param moveDisplayToTop Whether to move display to top while making the task focused.
* @return The root task that now got the focus, {@code null} if none found.
*/
ActivityStack adjustFocusToNextFocusableTask(String reason, boolean allowFocusSelf,
boolean moveDisplayToTop) {
ActivityStack focusableTask = (ActivityStack) getNextFocusableTask(allowFocusSelf);
if (focusableTask == null) {
focusableTask = mRootWindowContainer.getNextFocusableStack((ActivityStack) this,
!allowFocusSelf);
}
if (focusableTask == null) {
return null;
}
final ActivityStack rootTask = (ActivityStack) focusableTask.getRootTask();
if (!moveDisplayToTop) {
// There may be multiple task layers above this task, so when relocating the task to the
// top, we should move this task and each of its parent task that below display area to
// the top of each layer.
WindowContainer parent = focusableTask.getParent();
WindowContainer next = focusableTask;
do {
parent.positionChildAt(POSITION_TOP, next, false /* includingParents */);
next = parent;
parent = next.getParent();
} while (next.asTask() != null && parent != null);
return rootTask;
}
final String myReason = reason + " adjustFocusToNextFocusableStack";
final ActivityRecord top = focusableTask.topRunningActivity();
if (focusableTask.isActivityTypeHome() && (top == null || !top.mVisibleRequested)) {
// If we will be focusing on the home stack next and its current top activity isn't
// visible, then use the move the home stack task to top to make the activity visible.
focusableTask.getDisplayArea().moveHomeActivityToTop(myReason);
return rootTask;
}
// Move the entire hierarchy to top with updating global top resumed activity
// and focused application if needed.
focusableTask.moveToFront(myReason);
// Top display focused stack is changed, update top resumed activity if needed.
if (rootTask.mResumedActivity != null) {
mStackSupervisor.updateTopResumedActivityIfNeeded();
// Set focused app directly because if the next focused activity is already resumed
// (e.g. the next top activity is on a different display), there won't have activity
// state change to update it.
mAtmService.setResumedActivityUncheckLocked(rootTask.mResumedActivity, reason);
}
return rootTask;
}
/** Calculate the minimum possible position for a task that can be shown to the user.
* The minimum position will be above all other tasks that can't be shown.
* @param minPosition The minimum position the caller is suggesting.
* We will start adjusting up from here.
* @param size The size of the current task list.
*/
// TODO: Move user to their own window container.
private int computeMinUserPosition(int minPosition, int size) {
while (minPosition < size) {
final WindowContainer child = mChildren.get(minPosition);
final boolean canShow = child.showToCurrentUser();
if (canShow) {
break;
}
minPosition++;
}
return minPosition;
}
/** Calculate the maximum possible position for a task that can't be shown to the user.
* The maximum position will be below all other tasks that can be shown.
* @param maxPosition The maximum position the caller is suggesting.
* We will start adjusting down from here.
*/
// TODO: Move user to their own window container.
private int computeMaxUserPosition(int maxPosition) {
while (maxPosition > 0) {
final WindowContainer child = mChildren.get(maxPosition);
final boolean canShow = child.showToCurrentUser();
if (!canShow) {
break;
}
maxPosition--;
}
return maxPosition;
}
private int getAdjustedChildPosition(WindowContainer wc, int suggestedPosition) {
final boolean canShowChild = wc.showToCurrentUser();
final int size = mChildren.size();
// Figure-out min/max possible position depending on if child can show for current user.
int minPosition = (canShowChild) ? computeMinUserPosition(0, size) : 0;
int maxPosition = (canShowChild) ? size : computeMaxUserPosition(size - 1);
// Factor in always-on-top children in max possible position.
if (!wc.isAlwaysOnTop()) {
// We want to place all non-always-on-top containers below always-on-top ones.
while (maxPosition > minPosition) {
if (!mChildren.get(maxPosition - 1).isAlwaysOnTop()) break;
--maxPosition;
}
}
// preserve POSITION_BOTTOM/POSITION_TOP positions if they are still valid.
if (suggestedPosition == POSITION_BOTTOM && minPosition == 0) {
return POSITION_BOTTOM;
} else if (suggestedPosition == POSITION_TOP && maxPosition >= (size - 1)) {
return POSITION_TOP;
}
// Reset position based on minimum/maximum possible positions.
return Math.min(Math.max(suggestedPosition, minPosition), maxPosition);
}
@Override
void positionChildAt(int position, WindowContainer child, boolean includingParents) {
position = getAdjustedChildPosition(child, position);
super.positionChildAt(position, child, includingParents);
// Log positioning.
if (DEBUG_TASK_MOVEMENT) Slog.d(TAG_WM, "positionChildAt: child=" + child
+ " position=" + position + " parent=" + this);
final int toTop = position >= (mChildren.size() - 1) ? 1 : 0;
final Task task = child.asTask();
if (task != null) {
EventLogTags.writeWmTaskMoved(task.mTaskId, toTop, position);
}
}
@VisibleForTesting
boolean hasWindowsAlive() {
return getActivity(ActivityRecord::hasWindowsAlive) != null;
}
@VisibleForTesting
boolean shouldDeferRemoval() {
if (mChildren.isEmpty()) {
// No reason to defer removal of a Task that doesn't have any child.
return false;
}
return hasWindowsAlive() && getStack().isAnimating(TRANSITION | CHILDREN);
}
@Override
void removeImmediately() {
if (DEBUG_STACK) Slog.i(TAG, "removeTask: removing taskId=" + mTaskId);
EventLogTags.writeWmTaskRemoved(mTaskId, "removeTask");
if (mDisplayContent != null && mDisplayContent.isSingleTaskInstance()) {
mAtmService.notifySingleTaskDisplayEmpty(mDisplayContent.mDisplayId);
}
// If applicable let the TaskOrganizer know the Task is vanishing.
setTaskOrganizer(null);
super.removeImmediately();
}
// TODO: Consolidate this with Task.reparent()
void reparent(ActivityStack stack, int position, boolean moveParents, String reason) {
if (DEBUG_STACK) Slog.i(TAG, "reParentTask: removing taskId=" + mTaskId
+ " from stack=" + getStack());
EventLogTags.writeWmTaskRemoved(mTaskId, "reParentTask:" + reason);
reparent(stack, position);
stack.positionChildAt(position, this, moveParents);
// If we are moving from the fullscreen stack to the pinned stack then we want to preserve
// our insets so that there will not be a jump in the area covered by system decorations.
// We rely on the pinned animation to later unset this value.
mPreserveNonFloatingState = stack.inPinnedWindowingMode();
}
public int setBounds(Rect bounds, boolean forceResize) {
final int boundsChanged = setBounds(bounds);
if (forceResize && (boundsChanged & BOUNDS_CHANGE_SIZE) != BOUNDS_CHANGE_SIZE) {
onResize();
return BOUNDS_CHANGE_SIZE | boundsChanged;
}
return boundsChanged;
}
/** Set the task bounds. Passing in null sets the bounds to fullscreen. */
@Override
public int setBounds(Rect bounds) {
int rotation = Surface.ROTATION_0;
final DisplayContent displayContent = getStack() != null
? getStack().getDisplayContent() : null;
if (displayContent != null) {
rotation = displayContent.getDisplayInfo().rotation;
}
final int boundsChange = super.setBounds(bounds);
mRotation = rotation;
updateSurfacePosition();
return boundsChange;
}
@Override
public boolean onDescendantOrientationChanged(IBinder freezeDisplayToken,
ConfigurationContainer requestingContainer) {
if (super.onDescendantOrientationChanged(freezeDisplayToken, requestingContainer)) {
return true;
}
// No one in higher hierarchy handles this request, let's adjust our bounds to fulfill
// it if possible.
if (getParent() != null) {
onConfigurationChanged(getParent().getConfiguration());
return true;
}
return false;
}
void resize(boolean relayout, boolean forced) {
if (setBounds(getRequestedOverrideBounds(), forced) != BOUNDS_CHANGE_NONE && relayout) {
getDisplayContent().layoutAndAssignWindowLayersIfNeeded();
}
}
@Override
void onDisplayChanged(DisplayContent dc) {
final boolean isRootTask = isRootTask();
if (!isRootTask) {
adjustBoundsForDisplayChangeIfNeeded(dc);
}
super.onDisplayChanged(dc);
if (isLeafTask()) {
final int displayId = (dc != null) ? dc.getDisplayId() : INVALID_DISPLAY;
mWmService.mAtmService.getTaskChangeNotificationController().notifyTaskDisplayChanged(
mTaskId, displayId);
}
}
boolean isResizeable(boolean checkSupportsPip) {
return (mAtmService.mForceResizableActivities || ActivityInfo.isResizeableMode(mResizeMode)
|| (checkSupportsPip && mSupportsPictureInPicture));
}
boolean isResizeable() {
return isResizeable(true /* checkSupportsPip */);
}
/**
* Tests if the orientation should be preserved upon user interactive resizig operations.
* @return true if orientation should not get changed upon resizing operation.
*/
boolean preserveOrientationOnResize() {
return mResizeMode == RESIZE_MODE_FORCE_RESIZABLE_PORTRAIT_ONLY
|| mResizeMode == RESIZE_MODE_FORCE_RESIZABLE_LANDSCAPE_ONLY
|| mResizeMode == RESIZE_MODE_FORCE_RESIZABLE_PRESERVE_ORIENTATION;
}
boolean cropWindowsToStackBounds() {
// Don't crop HOME/RECENTS windows to stack bounds. This is because in split-screen
// they extend past their stack and sysui uses the stack surface to control cropping.
// TODO(b/158242495): get rid of this when drag/drop can use surface bounds.
if (isActivityTypeHome() || isActivityTypeRecents()) {
// Make sure this is the top-most non-organizer root task (if not top-most, it means
// another translucent task could be above this, so this needs to stay cropped.
final Task rootTask = getRootTask();
final Task topNonOrgTask =
rootTask.mCreatedByOrganizer ? rootTask.getTopMostTask() : rootTask;
if (this == topNonOrgTask || isDescendantOf(topNonOrgTask)) {
return false;
}
}
return isResizeable();
}
/**
* Prepares the task bounds to be frozen with the current size. See
* {@link ActivityRecord#freezeBounds}.
*/
void prepareFreezingBounds() {
mPreparedFrozenBounds.set(getBounds());
mPreparedFrozenMergedConfig.setTo(getConfiguration());
}
@Override
void getAnimationFrames(Rect outFrame, Rect outInsets, Rect outStableInsets,
Rect outSurfaceInsets) {
final WindowState windowState = getTopVisibleAppMainWindow();
if (windowState != null) {
windowState.getAnimationFrames(outFrame, outInsets, outStableInsets, outSurfaceInsets);
} else {
super.getAnimationFrames(outFrame, outInsets, outStableInsets, outSurfaceInsets);
}
}
/**
* Calculate the maximum visible area of this task. If the task has only one app,
* the result will be visible frame of that app. If the task has more than one apps,
* we search from top down if the next app got different visible area.
*
* This effort is to handle the case where some task (eg. GMail composer) might pop up
* a dialog that's different in size from the activity below, in which case we should
* be dimming the entire task area behind the dialog.
*
* @param out Rect containing the max visible bounds.
* @return true if the task has some visible app windows; false otherwise.
*/
private static void getMaxVisibleBounds(ActivityRecord token, Rect out, boolean[] foundTop) {
// skip hidden (or about to hide) apps
if (token.mIsExiting || !token.isClientVisible() || !token.mVisibleRequested) {
return;
}
final WindowState win = token.findMainWindow();
if (win == null) {
return;
}
if (!foundTop[0]) {
foundTop[0] = true;
out.setEmpty();
}
win.getMaxVisibleBounds(out);
}
/** Bounds of the task to be used for dimming, as well as touch related tests. */
void getDimBounds(Rect out) {
final DisplayContent displayContent = getStack().getDisplayContent();
// It doesn't matter if we in particular are part of the resize, since we couldn't have
// a DimLayer anyway if we weren't visible.
final boolean dockedResizing = displayContent != null
&& displayContent.mDividerControllerLocked.isResizing();
if (inFreeformWindowingMode()) {
boolean[] foundTop = { false };
final PooledConsumer c = PooledLambda.obtainConsumer(Task::getMaxVisibleBounds,
PooledLambda.__(ActivityRecord.class), out, foundTop);
forAllActivities(c);
c.recycle();
if (foundTop[0]) {
return;
}
}
if (!matchParentBounds()) {
// When minimizing the docked stack when going home, we don't adjust the task bounds
// so we need to intersect the task bounds with the stack bounds here.
//
// If we are Docked Resizing with snap points, the task bounds could be smaller than the
// stack bounds and so we don't even want to use them. Even if the app should not be
// resized the Dim should keep up with the divider.
if (dockedResizing) {
getStack().getBounds(out);
} else {
getStack().getBounds(mTmpRect);
mTmpRect.intersect(getBounds());
out.set(mTmpRect);
}
} else {
out.set(getBounds());
}
return;
}
void setDragResizing(boolean dragResizing, int dragResizeMode) {
if (mDragResizing != dragResizing) {
// No need to check if the mode is allowed if it's leaving dragResize
if (dragResizing && !DragResizeMode.isModeAllowedForStack(getStack(), dragResizeMode)) {
throw new IllegalArgumentException("Drag resize mode not allow for stack stackId="
+ getRootTaskId() + " dragResizeMode=" + dragResizeMode);
}
mDragResizing = dragResizing;
mDragResizeMode = dragResizeMode;
resetDragResizingChangeReported();
}
}
boolean isDragResizing() {
return mDragResizing;
}
int getDragResizeMode() {
return mDragResizeMode;
}
void adjustBoundsForDisplayChangeIfNeeded(final DisplayContent displayContent) {
if (displayContent == null) {
return;
}
if (matchParentBounds()) {
// TODO: Yeah...not sure if this works with WindowConfiguration, but shouldn't be a
// problem once we move mBounds into WindowConfiguration.
setBounds(null);
return;
}
final int displayId = displayContent.getDisplayId();
final int newRotation = displayContent.getDisplayInfo().rotation;
if (displayId != mLastRotationDisplayId) {
// This task is on a display that it wasn't on. There is no point to keep the relative
// position if display rotations for old and new displays are different. Just keep these
// values.
mLastRotationDisplayId = displayId;
mRotation = newRotation;
return;
}
if (mRotation == newRotation) {
// Rotation didn't change. We don't need to adjust the bounds to keep the relative
// position.
return;
}
// Device rotation changed.
// - We don't want the task to move around on the screen when this happens, so update the
// task bounds so it stays in the same place.
// - Rotate the bounds and notify activity manager if the task can be resized independently
// from its stack. The stack will take care of task rotation for the other case.
mTmpRect2.set(getBounds());
if (!getWindowConfiguration().canResizeTask()) {
setBounds(mTmpRect2);
return;
}
displayContent.rotateBounds(mRotation, newRotation, mTmpRect2);
if (setBounds(mTmpRect2) != BOUNDS_CHANGE_NONE) {
mAtmService.resizeTask(mTaskId, getBounds(), RESIZE_MODE_SYSTEM_SCREEN_ROTATION);
}
}
/** Cancels any running app transitions associated with the task. */
void cancelTaskWindowTransition() {
for (int i = mChildren.size() - 1; i >= 0; --i) {
mChildren.get(i).cancelAnimation();
}
}
boolean showForAllUsers() {
if (mChildren.isEmpty()) return false;
final ActivityRecord r = getTopNonFinishingActivity();
return r != null && r.mShowForAllUsers;
}
@Override
boolean showToCurrentUser() {
return mForceShowForAllUsers || showForAllUsers()
|| mWmService.isCurrentProfile(getTopMostTask().mUserId);
}
void setForceShowForAllUsers(boolean forceShowForAllUsers) {
mForceShowForAllUsers = forceShowForAllUsers;
}
@Override
public boolean isAttached() {
final TaskDisplayArea taskDisplayArea = getDisplayArea();
return taskDisplayArea != null && !taskDisplayArea.isRemoved();
}
@Override
@Nullable
TaskDisplayArea getDisplayArea() {
return (TaskDisplayArea) super.getDisplayArea();
}
/**
* When we are in a floating stack (Freeform, Pinned, ...) we calculate
* insets differently. However if we are animating to the fullscreen stack
* we need to begin calculating insets as if we were fullscreen, otherwise
* we will have a jump at the end.
*/
boolean isFloating() {
return getWindowConfiguration().tasksAreFloating() && !mPreserveNonFloatingState;
}
/**
* Returns true if the stack is translucent and can have other contents visible behind it if
* needed. A stack is considered translucent if it don't contain a visible or
* starting (about to be visible) activity that is fullscreen (opaque).
* @param starting The currently starting activity or null if there is none.
*/
@VisibleForTesting
boolean isTranslucent(ActivityRecord starting) {
if (!isAttached() || isForceHidden()) {
return true;
}
final PooledPredicate p = PooledLambda.obtainPredicate(Task::isOpaqueActivity,
PooledLambda.__(ActivityRecord.class), starting);
final ActivityRecord opaque = getActivity(p);
p.recycle();
return opaque == null;
}
private static boolean isOpaqueActivity(ActivityRecord r, ActivityRecord starting) {
if (r.finishing) {
// We don't factor in finishing activities when determining translucency since
// they will be gone soon.
return false;
}
if (!r.visibleIgnoringKeyguard && r != starting) {
// Also ignore invisible activities that are not the currently starting
// activity (about to be visible).
return false;
}
if (r.occludesParent() || r.hasWallpaper) {
// Stack isn't translucent if it has at least one fullscreen activity
// that is visible.
return true;
}
return false;
}
@Override
public SurfaceControl.Builder makeAnimationLeash() {
return super.makeAnimationLeash().setMetadata(METADATA_TASK_ID, mTaskId);
}
@Override
public SurfaceControl getAnimationLeashParent() {
if (WindowManagerService.sHierarchicalAnimations) {
return super.getAnimationLeashParent();
}
// Currently, only the recents animation will create animation leashes for tasks. In this
// case, reparent the task to the home animation layer while it is being animated to allow
// the home activity to reorder the app windows relative to its own.
return getAppAnimationLayer(ANIMATION_LAYER_HOME);
}
@Override
Rect getAnimationBounds(int appStackClipMode) {
// TODO(b/131661052): we should remove appStackClipMode with hierarchical animations.
if (appStackClipMode == STACK_CLIP_BEFORE_ANIM && getStack() != null) {
// Using the stack bounds here effectively applies the clipping before animation.
return getStack().getBounds();
}
return super.getAnimationBounds(appStackClipMode);
}
boolean shouldAnimate() {
/**
* Animations are handled by the TaskOrganizer implementation.
*/
if (isOrganized()) {
return false;
}
// Don't animate while the task runs recents animation but only if we are in the mode
// where we cancel with deferred screenshot, which means that the controller has
// transformed the task.
final RecentsAnimationController controller = mWmService.getRecentsAnimationController();
if (controller != null && controller.isAnimatingTask(this)
&& controller.shouldDeferCancelUntilNextTransition()) {
return false;
}
return true;
}
@Override
void setInitialSurfaceControlProperties(SurfaceControl.Builder b) {
b.setEffectLayer().setMetadata(METADATA_TASK_ID, mTaskId);
super.setInitialSurfaceControlProperties(b);
}
boolean isTaskAnimating() {
final RecentsAnimationController recentsAnim = mWmService.getRecentsAnimationController();
if (recentsAnim != null) {
if (recentsAnim.isAnimatingTask(this)) {
return true;
}
}
return forAllTasks((t) -> { return t != this && t.isTaskAnimating(); });
}
@Override
RemoteAnimationTarget createRemoteAnimationTarget(
RemoteAnimationController.RemoteAnimationRecord record) {
final ActivityRecord activity = getTopMostActivity();
return activity != null ? activity.createRemoteAnimationTarget(record) : null;
}
@Override
boolean canCreateRemoteAnimationTarget() {
return true;
}
WindowState getTopVisibleAppMainWindow() {
final ActivityRecord activity = getTopVisibleActivity();
return activity != null ? activity.findMainWindow() : null;
}
ActivityRecord topRunningActivity() {
return topRunningActivity(false /* focusableOnly */);
}
ActivityRecord topRunningActivity(boolean focusableOnly) {
// Split into 2 to avoid object creation due to variable capture.
if (focusableOnly) {
return getActivity((r) -> r.canBeTopRunning() && r.isFocusable());
} else {
return getActivity(ActivityRecord::canBeTopRunning);
}
}
ActivityRecord topRunningNonDelayedActivityLocked(ActivityRecord notTop) {
final PooledPredicate p = PooledLambda.obtainPredicate(Task::isTopRunningNonDelayed
, PooledLambda.__(ActivityRecord.class), notTop);
final ActivityRecord r = getActivity(p);
p.recycle();
return r;
}
private static boolean isTopRunningNonDelayed(ActivityRecord r, ActivityRecord notTop) {
return !r.delayedResume && r != notTop && r.canBeTopRunning();
}
/**
* This is a simplified version of topRunningActivity that provides a number of
* optional skip-over modes. It is intended for use with the ActivityController hook only.
*
* @param token If non-null, any history records matching this token will be skipped.
* @param taskId If non-zero, we'll attempt to skip over records with the same task ID.
*
* @return Returns the HistoryRecord of the next activity on the stack.
*/
ActivityRecord topRunningActivity(IBinder token, int taskId) {
final PooledPredicate p = PooledLambda.obtainPredicate(Task::isTopRunning,
PooledLambda.__(ActivityRecord.class), taskId, token);
final ActivityRecord r = getActivity(p);
p.recycle();
return r;
}
private static boolean isTopRunning(ActivityRecord r, int taskId, IBinder notTop) {
return r.getTask().mTaskId != taskId && r.appToken != notTop && r.canBeTopRunning();
}
ActivityRecord getTopFullscreenActivity() {
return getActivity((r) -> {
final WindowState win = r.findMainWindow();
return (win != null && win.mAttrs.isFullscreen());
});
}
ActivityRecord getTopVisibleActivity() {
return getActivity((r) -> {
// skip hidden (or about to hide) apps
return !r.mIsExiting && r.isClientVisible() && r.mVisibleRequested;
});
}
boolean isTopActivityFocusable() {
final ActivityRecord r = topRunningActivity();
return r != null ? r.isFocusable()
: (isFocusable() && getWindowConfiguration().canReceiveKeys());
}
boolean isFocusableAndVisible() {
return isTopActivityFocusable() && shouldBeVisible(null /* starting */);
}
void positionChildAtTop(ActivityRecord child) {
positionChildAt(child, POSITION_TOP);
}
void positionChildAt(ActivityRecord child, int position) {
if (child == null) {
Slog.w(TAG_WM,
"Attempted to position of non-existing app");
return;
}
positionChildAt(position, child, false /* includeParents */);
}
void forceWindowsScaleable(boolean force) {
mWmService.openSurfaceTransaction();
try {
for (int i = mChildren.size() - 1; i >= 0; i--) {
mChildren.get(i).forceWindowsScaleableInTransaction(force);
}
} finally {
mWmService.closeSurfaceTransaction("forceWindowsScaleable");
}
}
void setTaskDescription(TaskDescription taskDescription) {
mTaskDescription = taskDescription;
}
void onSnapshotChanged(ActivityManager.TaskSnapshot snapshot) {
mAtmService.getTaskChangeNotificationController().notifyTaskSnapshotChanged(
mTaskId, snapshot);
}
TaskDescription getTaskDescription() {
return mTaskDescription;
}
@Override
int getOrientation(int candidate) {
return canSpecifyOrientation() ? super.getOrientation(candidate) : SCREEN_ORIENTATION_UNSET;
}
private boolean canSpecifyOrientation() {
final int windowingMode = getWindowingMode();
final int activityType = getActivityType();
return windowingMode == WINDOWING_MODE_FULLSCREEN
|| activityType == ACTIVITY_TYPE_HOME
|| activityType == ACTIVITY_TYPE_RECENTS
|| activityType == ACTIVITY_TYPE_ASSISTANT;
}
@Override
boolean fillsParent() {
return matchParentBounds();
}
@Override
void forAllLeafTasks(Consumer<Task> callback, boolean traverseTopToBottom) {
final int count = mChildren.size();
boolean isLeafTask = true;
if (traverseTopToBottom) {
for (int i = count - 1; i >= 0; --i) {
final Task child = mChildren.get(i).asTask();
if (child != null) {
isLeafTask = false;
child.forAllLeafTasks(callback, traverseTopToBottom);
}
}
} else {
for (int i = 0; i < count; i++) {
final Task child = mChildren.get(i).asTask();
if (child != null) {
isLeafTask = false;
child.forAllLeafTasks(callback, traverseTopToBottom);
}
}
}
if (isLeafTask) callback.accept(this);
}
@Override
void forAllTasks(Consumer<Task> callback, boolean traverseTopToBottom) {
super.forAllTasks(callback, traverseTopToBottom);
callback.accept(this);
}
@Override
boolean forAllTasks(Function<Task, Boolean> callback) {
if (super.forAllTasks(callback)) return true;
return callback.apply(this);
}
@Override
boolean forAllLeafTasks(Function<Task, Boolean> callback) {
boolean isLeafTask = true;
for (int i = mChildren.size() - 1; i >= 0; --i) {
final Task child = mChildren.get(i).asTask();
if (child != null) {
isLeafTask = false;
if (child.forAllLeafTasks(callback)) {
return true;
}
}
}
if (isLeafTask) {
return callback.apply(this);
}
return false;
}
@Override
Task getTask(Predicate<Task> callback, boolean traverseTopToBottom) {
final Task t = super.getTask(callback, traverseTopToBottom);
if (t != null) return t;
return callback.test(this) ? this : null;
}
/**
* @param canAffectSystemUiFlags If false, all windows in this task can not affect SystemUI
* flags. See {@link WindowState#canAffectSystemUiFlags()}.
*/
void setCanAffectSystemUiFlags(boolean canAffectSystemUiFlags) {
mCanAffectSystemUiFlags = canAffectSystemUiFlags;
}
/**
* @see #setCanAffectSystemUiFlags
*/
boolean canAffectSystemUiFlags() {
return mCanAffectSystemUiFlags;
}
void dontAnimateDimExit() {
mDimmer.dontAnimateExit();
}
String getName() {
return "Task=" + mTaskId;
}
void clearPreserveNonFloatingState() {
mPreserveNonFloatingState = false;
}
@Override
Dimmer getDimmer() {
// If the window is in multi-window mode, we want to dim at the Task level to ensure the dim
// bounds match the area the app lives in
if (inMultiWindowMode()) {
return mDimmer;
}
// If we're not at the root task level, we want to keep traversing through the parents to
// find the root.
// Once at the root task level, we want to check {@link #isTranslucent(ActivityRecord)}.
// If true, we want to get the Dimmer from the level above since we don't want to animate
// the dim with the Task.
if (!isRootTask() || isTranslucent(null)) {
return super.getDimmer();
}
return mDimmer;
}
@Override
void prepareSurfaces() {
mDimmer.resetDimStates();
super.prepareSurfaces();
getDimBounds(mTmpDimBoundsRect);
// Bounds need to be relative, as the dim layer is a child.
if (inFreeformWindowingMode()) {
getBounds(mTmpRect);
mTmpDimBoundsRect.offsetTo(mTmpDimBoundsRect.left - mTmpRect.left,
mTmpDimBoundsRect.top - mTmpRect.top);
} else {
mTmpDimBoundsRect.offsetTo(0, 0);
}
updateShadowsRadius(isFocused(), getSyncTransaction());
if (mDimmer.updateDims(getPendingTransaction(), mTmpDimBoundsRect)) {
scheduleAnimation();
}
}
@Override
protected void applyAnimationUnchecked(WindowManager.LayoutParams lp, boolean enter,
int transit, boolean isVoiceInteraction,
@Nullable ArrayList<WindowContainer> sources) {
final RecentsAnimationController control = mWmService.getRecentsAnimationController();
if (control != null) {
// We let the transition to be controlled by RecentsAnimation, and callback task's
// RemoteAnimationTarget for remote runner to animate.
if (enter) {
ProtoLog.d(WM_DEBUG_RECENTS_ANIMATIONS,
"applyAnimationUnchecked, control: %s, task: %s, transit: %s",
control, asTask(), AppTransition.appTransitionToString(transit));
control.addTaskToTargets(this, (type, anim) -> {
for (int i = 0; i < sources.size(); ++i) {
sources.get(i).onAnimationFinished(type, anim);
}
});
}
} else {
super.applyAnimationUnchecked(lp, enter, transit, isVoiceInteraction, sources);
}
}
@Override
void dump(PrintWriter pw, String prefix, boolean dumpAll) {
super.dump(pw, prefix, dumpAll);
pw.println(prefix + "bounds=" + getBounds().toShortString());
final String doublePrefix = prefix + " ";
for (int i = mChildren.size() - 1; i >= 0; i--) {
final WindowContainer<?> child = mChildren.get(i);
pw.println(prefix + "* " + child);
// Only dump non-activity because full activity info is already printed by
// RootWindowContainer#dumpActivities.
if (child.asActivityRecord() == null) {
child.dump(pw, doublePrefix, dumpAll);
}
}
}
/**
* Fills in a {@link TaskInfo} with information from this task. Note that the base intent in the
* task info will not include any extras or clip data.
*/
void fillTaskInfo(TaskInfo info) {
fillTaskInfo(info, true /* stripExtras */);
}
/**
* Fills in a {@link TaskInfo} with information from this task.
*/
void fillTaskInfo(TaskInfo info, boolean stripExtras) {
getNumRunningActivities(mReuseActivitiesReport);
info.userId = mUserId;
info.stackId = getRootTaskId();
info.taskId = mTaskId;
info.displayId = getDisplayId();
info.isRunning = getTopNonFinishingActivity() != null;
final Intent baseIntent = getBaseIntent();
// Make a copy of base intent because this is like a snapshot info.
// Besides, {@link RecentTasks#getRecentTasksImpl} may modify it.
final int baseIntentFlags = baseIntent == null ? 0 : baseIntent.getFlags();
info.baseIntent = baseIntent == null
? new Intent()
: stripExtras ? baseIntent.cloneFilter() : new Intent(baseIntent);
info.baseIntent.setFlags(baseIntentFlags);
info.baseActivity = mReuseActivitiesReport.base != null
? mReuseActivitiesReport.base.intent.getComponent()
: null;
info.topActivity = mReuseActivitiesReport.top != null
? mReuseActivitiesReport.top.mActivityComponent
: null;
info.origActivity = origActivity;
info.realActivity = realActivity;
info.numActivities = mReuseActivitiesReport.numActivities;
info.lastActiveTime = lastActiveTime;
info.taskDescription = new ActivityManager.TaskDescription(getTaskDescription());
info.supportsSplitScreenMultiWindow = supportsSplitScreenWindowingMode();
info.configuration.setTo(getConfiguration());
info.token = mRemoteToken.toWindowContainerToken();
//TODO (AM refactor): Just use local once updateEffectiveIntent is run during all child
// order changes.
final Task top = getTopMostTask();
info.resizeMode = top != null ? top.mResizeMode : mResizeMode;
info.topActivityType = top.getActivityType();
info.isResizeable = isResizeable();
ActivityRecord rootActivity = top.getRootActivity();
if (rootActivity == null || rootActivity.pictureInPictureArgs.empty()) {
info.pictureInPictureParams = null;
} else {
info.pictureInPictureParams = rootActivity.pictureInPictureArgs;
}
info.topActivityInfo = mReuseActivitiesReport.top != null
? mReuseActivitiesReport.top.info
: null;
}
/**
* Returns a {@link TaskInfo} with information from this task.
*/
ActivityManager.RunningTaskInfo getTaskInfo() {
ActivityManager.RunningTaskInfo info = new ActivityManager.RunningTaskInfo();
fillTaskInfo(info);
return info;
}
boolean isTaskId(int taskId) {
return mTaskId == taskId;
}
@Override
Task asTask() {
// I'm a task!
return this;
}
/**
* Returns true if the task should be visible.
*
* @param starting The currently starting activity or null if there is none.
*/
boolean shouldBeVisible(ActivityRecord starting) {
return getVisibility(starting) != STACK_VISIBILITY_INVISIBLE;
}
/**
* Returns true if the task should be visible.
*
* @param starting The currently starting activity or null if there is none.
*/
@ActivityStack.StackVisibility
int getVisibility(ActivityRecord starting) {
if (!isAttached() || isForceHidden()) {
return STACK_VISIBILITY_INVISIBLE;
}
if (isTopActivityLaunchedBehind()) {
return STACK_VISIBILITY_VISIBLE;
}
boolean gotSplitScreenStack = false;
boolean gotOpaqueSplitScreenPrimary = false;
boolean gotOpaqueSplitScreenSecondary = false;
boolean gotTranslucentFullscreen = false;
boolean gotTranslucentSplitScreenPrimary = false;
boolean gotTranslucentSplitScreenSecondary = false;
boolean shouldBeVisible = true;
// This stack is only considered visible if all its parent stacks are considered visible,
// so check the visibility of all ancestor stacks first.
final WindowContainer parent = getParent();
if (parent.asTask() != null) {
final int parentVisibility = parent.asTask().getVisibility(starting);
if (parentVisibility == STACK_VISIBILITY_INVISIBLE) {
// Can't be visible if parent isn't visible
return STACK_VISIBILITY_INVISIBLE;
} else if (parentVisibility == STACK_VISIBILITY_VISIBLE_BEHIND_TRANSLUCENT) {
// Parent is behind a translucent container so the highest visibility this container
// can get is that.
gotTranslucentFullscreen = true;
}
}
final int windowingMode = getWindowingMode();
final boolean isAssistantType = isActivityTypeAssistant();
for (int i = parent.getChildCount() - 1; i >= 0; --i) {
final WindowContainer wc = parent.getChildAt(i);
final Task other = wc.asTask();
if (other == null) continue;
final boolean hasRunningActivities = other.topRunningActivity() != null;
if (other == this) {
// Should be visible if there is no other stack occluding it, unless it doesn't
// have any running activities, not starting one and not home stack.
shouldBeVisible = hasRunningActivities || isInTask(starting) != null
|| isActivityTypeHome();
break;
}
if (!hasRunningActivities) {
continue;
}
final int otherWindowingMode = other.getWindowingMode();
if (otherWindowingMode == WINDOWING_MODE_FULLSCREEN) {
if (other.isTranslucent(starting)) {
// Can be visible behind a translucent fullscreen stack.
gotTranslucentFullscreen = true;
continue;
}
return STACK_VISIBILITY_INVISIBLE;
} else if (otherWindowingMode == WINDOWING_MODE_SPLIT_SCREEN_PRIMARY
&& !gotOpaqueSplitScreenPrimary) {
gotSplitScreenStack = true;
gotTranslucentSplitScreenPrimary = other.isTranslucent(starting);
gotOpaqueSplitScreenPrimary = !gotTranslucentSplitScreenPrimary;
if (windowingMode == WINDOWING_MODE_SPLIT_SCREEN_PRIMARY
&& gotOpaqueSplitScreenPrimary) {
// Can not be visible behind another opaque stack in split-screen-primary mode.
return STACK_VISIBILITY_INVISIBLE;
}
} else if (otherWindowingMode == WINDOWING_MODE_SPLIT_SCREEN_SECONDARY
&& !gotOpaqueSplitScreenSecondary) {
gotSplitScreenStack = true;
gotTranslucentSplitScreenSecondary = other.isTranslucent(starting);
gotOpaqueSplitScreenSecondary = !gotTranslucentSplitScreenSecondary;
if (windowingMode == WINDOWING_MODE_SPLIT_SCREEN_SECONDARY
&& gotOpaqueSplitScreenSecondary) {
// Can not be visible behind another opaque stack in split-screen-secondary mode.
return STACK_VISIBILITY_INVISIBLE;
}
}
if (gotOpaqueSplitScreenPrimary && gotOpaqueSplitScreenSecondary) {
// Can not be visible if we are in split-screen windowing mode and both halves of
// the screen are opaque.
return STACK_VISIBILITY_INVISIBLE;
}
if (isAssistantType && gotSplitScreenStack) {
// Assistant stack can't be visible behind split-screen. In addition to this not
// making sense, it also works around an issue here we boost the z-order of the
// assistant window surfaces in window manager whenever it is visible.
return STACK_VISIBILITY_INVISIBLE;
}
}
if (!shouldBeVisible) {
return STACK_VISIBILITY_INVISIBLE;
}
// Handle cases when there can be a translucent split-screen stack on top.
switch (windowingMode) {
case WINDOWING_MODE_FULLSCREEN:
if (gotTranslucentSplitScreenPrimary || gotTranslucentSplitScreenSecondary) {
// At least one of the split-screen stacks that covers this one is translucent.
return STACK_VISIBILITY_VISIBLE_BEHIND_TRANSLUCENT;
}
break;
case WINDOWING_MODE_SPLIT_SCREEN_PRIMARY:
if (gotTranslucentSplitScreenPrimary) {
// Covered by translucent primary split-screen on top.
return STACK_VISIBILITY_VISIBLE_BEHIND_TRANSLUCENT;
}
break;
case WINDOWING_MODE_SPLIT_SCREEN_SECONDARY:
if (gotTranslucentSplitScreenSecondary) {
// Covered by translucent secondary split-screen on top.
return STACK_VISIBILITY_VISIBLE_BEHIND_TRANSLUCENT;
}
break;
}
// Lastly - check if there is a translucent fullscreen stack on top.
return gotTranslucentFullscreen ? STACK_VISIBILITY_VISIBLE_BEHIND_TRANSLUCENT
: STACK_VISIBILITY_VISIBLE;
}
private boolean isTopActivityLaunchedBehind() {
final ActivityRecord top = topRunningActivity();
if (top != null && top.mLaunchTaskBehind) {
return true;
}
return false;
}
ActivityRecord isInTask(ActivityRecord r) {
if (r == null) {
return null;
}
if (r.isDescendantOf(this)) {
return r;
}
return null;
}
void dump(PrintWriter pw, String prefix) {
pw.print(prefix); pw.print("userId="); pw.print(mUserId);
pw.print(" effectiveUid="); UserHandle.formatUid(pw, effectiveUid);
pw.print(" mCallingUid="); UserHandle.formatUid(pw, mCallingUid);
pw.print(" mUserSetupComplete="); pw.print(mUserSetupComplete);
pw.print(" mCallingPackage="); pw.print(mCallingPackage);
pw.print(" mCallingFeatureId="); pw.println(mCallingFeatureId);
if (affinity != null || rootAffinity != null) {
pw.print(prefix); pw.print("affinity="); pw.print(affinity);
if (affinity == null || !affinity.equals(rootAffinity)) {
pw.print(" root="); pw.println(rootAffinity);
} else {
pw.println();
}
}
if (mWindowLayoutAffinity != null) {
pw.print(prefix); pw.print("windowLayoutAffinity="); pw.println(mWindowLayoutAffinity);
}
if (voiceSession != null || voiceInteractor != null) {
pw.print(prefix); pw.print("VOICE: session=0x");
pw.print(Integer.toHexString(System.identityHashCode(voiceSession)));
pw.print(" interactor=0x");
pw.println(Integer.toHexString(System.identityHashCode(voiceInteractor)));
}
if (intent != null) {
StringBuilder sb = new StringBuilder(128);
sb.append(prefix); sb.append("intent={");
intent.toShortString(sb, false, true, false, false);
sb.append('}');
pw.println(sb.toString());
}
if (affinityIntent != null) {
StringBuilder sb = new StringBuilder(128);
sb.append(prefix); sb.append("affinityIntent={");
affinityIntent.toShortString(sb, false, true, false, false);
sb.append('}');
pw.println(sb.toString());
}
if (origActivity != null) {
pw.print(prefix); pw.print("origActivity=");
pw.println(origActivity.flattenToShortString());
}
if (realActivity != null) {
pw.print(prefix); pw.print("mActivityComponent=");
pw.println(realActivity.flattenToShortString());
}
if (autoRemoveRecents || isPersistable || !isActivityTypeStandard()) {
pw.print(prefix); pw.print("autoRemoveRecents="); pw.print(autoRemoveRecents);
pw.print(" isPersistable="); pw.print(isPersistable);
pw.print(" activityType="); pw.println(getActivityType());
}
if (rootWasReset || mNeverRelinquishIdentity || mReuseTask
|| mLockTaskAuth != LOCK_TASK_AUTH_PINNABLE) {
pw.print(prefix); pw.print("rootWasReset="); pw.print(rootWasReset);
pw.print(" mNeverRelinquishIdentity="); pw.print(mNeverRelinquishIdentity);
pw.print(" mReuseTask="); pw.print(mReuseTask);
pw.print(" mLockTaskAuth="); pw.println(lockTaskAuthToString());
}
if (mAffiliatedTaskId != mTaskId || mPrevAffiliateTaskId != INVALID_TASK_ID
|| mPrevAffiliate != null || mNextAffiliateTaskId != INVALID_TASK_ID
|| mNextAffiliate != null) {
pw.print(prefix); pw.print("affiliation="); pw.print(mAffiliatedTaskId);
pw.print(" prevAffiliation="); pw.print(mPrevAffiliateTaskId);
pw.print(" (");
if (mPrevAffiliate == null) {
pw.print("null");
} else {
pw.print(Integer.toHexString(System.identityHashCode(mPrevAffiliate)));
}
pw.print(") nextAffiliation="); pw.print(mNextAffiliateTaskId);
pw.print(" (");
if (mNextAffiliate == null) {
pw.print("null");
} else {
pw.print(Integer.toHexString(System.identityHashCode(mNextAffiliate)));
}
pw.println(")");
}
pw.print(prefix); pw.print("Activities="); pw.println(mChildren);
if (!askedCompatMode || !inRecents || !isAvailable) {
pw.print(prefix); pw.print("askedCompatMode="); pw.print(askedCompatMode);
pw.print(" inRecents="); pw.print(inRecents);
pw.print(" isAvailable="); pw.println(isAvailable);
}
if (lastDescription != null) {
pw.print(prefix); pw.print("lastDescription="); pw.println(lastDescription);
}
if (mRootProcess != null) {
pw.print(prefix); pw.print("mRootProcess="); pw.println(mRootProcess);
}
pw.print(prefix); pw.print("taskId=" + mTaskId); pw.println(" stackId=" + getRootTaskId());
pw.print(prefix); pw.print("mHasBeenVisible="); pw.println(getHasBeenVisible());
pw.print(prefix); pw.print("mResizeMode=");
pw.print(ActivityInfo.resizeModeToString(mResizeMode));
pw.print(" mSupportsPictureInPicture="); pw.print(mSupportsPictureInPicture);
pw.print(" isResizeable="); pw.println(isResizeable());
pw.print(prefix); pw.print("lastActiveTime="); pw.print(lastActiveTime);
pw.println(" (inactive for " + (getInactiveDuration() / 1000) + "s)");
}
@Override
public String toString() {
StringBuilder sb = new StringBuilder(128);
if (stringName != null) {
sb.append(stringName);
sb.append(" U=");
sb.append(mUserId);
sb.append(" StackId=");
sb.append(getRootTaskId());
sb.append(" sz=");
sb.append(getChildCount());
sb.append('}');
return sb.toString();
}
sb.append("Task{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(" #");
sb.append(mTaskId);
sb.append(" visible=" + shouldBeVisible(null /* starting */));
sb.append(" type=" + activityTypeToString(getActivityType()));
sb.append(" mode=" + windowingModeToString(getWindowingMode()));
sb.append(" translucent=" + isTranslucent(null /* starting */));
if (affinity != null) {
sb.append(" A=");
sb.append(affinity);
} else if (intent != null && intent.getComponent() != null) {
sb.append(" I=");
sb.append(intent.getComponent().flattenToShortString());
} else if (affinityIntent != null && affinityIntent.getComponent() != null) {
sb.append(" aI=");
sb.append(affinityIntent.getComponent().flattenToShortString());
} else {
sb.append(" ??");
}
stringName = sb.toString();
return toString();
}
/** @see #getNumRunningActivities(TaskActivitiesReport) */
static class TaskActivitiesReport implements Consumer<ActivityRecord> {
int numRunning;
int numActivities;
ActivityRecord top;
ActivityRecord base;
void reset() {
numRunning = numActivities = 0;
top = base = null;
}
@Override
public void accept(ActivityRecord r) {
if (r.finishing) {
return;
}
base = r;
// Increment the total number of non-finishing activities
numActivities++;
if (top == null || (top.isState(ActivityState.INITIALIZING))) {
top = r;
// Reset the number of running activities until we hit the first non-initializing
// activity
numRunning = 0;
}
if (r.attachedToProcess()) {
// Increment the number of actually running activities
numRunning++;
}
}
}
/**
* Saves this {@link Task} to XML using given serializer.
*/
void saveToXml(XmlSerializer out) throws Exception {
if (DEBUG_RECENTS) Slog.i(TAG_RECENTS, "Saving task=" + this);
out.attribute(null, ATTR_TASKID, String.valueOf(mTaskId));
if (realActivity != null) {
out.attribute(null, ATTR_REALACTIVITY, realActivity.flattenToShortString());
}
out.attribute(null, ATTR_REALACTIVITY_SUSPENDED, String.valueOf(realActivitySuspended));
if (origActivity != null) {
out.attribute(null, ATTR_ORIGACTIVITY, origActivity.flattenToShortString());
}
// Write affinity, and root affinity if it is different from affinity.
// We use the special string "@" for a null root affinity, so we can identify
// later whether we were given a root affinity or should just make it the
// same as the affinity.
if (affinity != null) {
out.attribute(null, ATTR_AFFINITY, affinity);
if (!affinity.equals(rootAffinity)) {
out.attribute(null, ATTR_ROOT_AFFINITY, rootAffinity != null ? rootAffinity : "@");
}
} else if (rootAffinity != null) {
out.attribute(null, ATTR_ROOT_AFFINITY, rootAffinity != null ? rootAffinity : "@");
}
if (mWindowLayoutAffinity != null) {
out.attribute(null, ATTR_WINDOW_LAYOUT_AFFINITY, mWindowLayoutAffinity);
}
out.attribute(null, ATTR_ROOTHASRESET, String.valueOf(rootWasReset));
out.attribute(null, ATTR_AUTOREMOVERECENTS, String.valueOf(autoRemoveRecents));
out.attribute(null, ATTR_ASKEDCOMPATMODE, String.valueOf(askedCompatMode));
out.attribute(null, ATTR_USERID, String.valueOf(mUserId));
out.attribute(null, ATTR_USER_SETUP_COMPLETE, String.valueOf(mUserSetupComplete));
out.attribute(null, ATTR_EFFECTIVE_UID, String.valueOf(effectiveUid));
out.attribute(null, ATTR_LASTTIMEMOVED, String.valueOf(mLastTimeMoved));
out.attribute(null, ATTR_NEVERRELINQUISH, String.valueOf(mNeverRelinquishIdentity));
if (lastDescription != null) {
out.attribute(null, ATTR_LASTDESCRIPTION, lastDescription.toString());
}
if (getTaskDescription() != null) {
getTaskDescription().saveToXml(out);
}
out.attribute(null, ATTR_TASK_AFFILIATION_COLOR, String.valueOf(mAffiliatedTaskColor));
out.attribute(null, ATTR_TASK_AFFILIATION, String.valueOf(mAffiliatedTaskId));
out.attribute(null, ATTR_PREV_AFFILIATION, String.valueOf(mPrevAffiliateTaskId));
out.attribute(null, ATTR_NEXT_AFFILIATION, String.valueOf(mNextAffiliateTaskId));
out.attribute(null, ATTR_CALLING_UID, String.valueOf(mCallingUid));
out.attribute(null, ATTR_CALLING_PACKAGE, mCallingPackage == null ? "" : mCallingPackage);
out.attribute(null, ATTR_CALLING_FEATURE_ID,
mCallingFeatureId == null ? "" : mCallingFeatureId);
out.attribute(null, ATTR_RESIZE_MODE, String.valueOf(mResizeMode));
out.attribute(null, ATTR_SUPPORTS_PICTURE_IN_PICTURE,
String.valueOf(mSupportsPictureInPicture));
if (mLastNonFullscreenBounds != null) {
out.attribute(
null, ATTR_NON_FULLSCREEN_BOUNDS, mLastNonFullscreenBounds.flattenToString());
}
out.attribute(null, ATTR_MIN_WIDTH, String.valueOf(mMinWidth));
out.attribute(null, ATTR_MIN_HEIGHT, String.valueOf(mMinHeight));
out.attribute(null, ATTR_PERSIST_TASK_VERSION, String.valueOf(PERSIST_TASK_VERSION));
if (affinityIntent != null) {
out.startTag(null, TAG_AFFINITYINTENT);
affinityIntent.saveToXml(out);
out.endTag(null, TAG_AFFINITYINTENT);
}
if (intent != null) {
out.startTag(null, TAG_INTENT);
intent.saveToXml(out);
out.endTag(null, TAG_INTENT);
}
sTmpException = null;
final PooledFunction f = PooledLambda.obtainFunction(Task::saveActivityToXml,
PooledLambda.__(ActivityRecord.class), getBottomMostActivity(), out);
forAllActivities(f);
f.recycle();
if (sTmpException != null) {
throw sTmpException;
}
}
private static boolean saveActivityToXml(
ActivityRecord r, ActivityRecord first, XmlSerializer out) {
if (r.info.persistableMode == ActivityInfo.PERSIST_ROOT_ONLY || !r.isPersistable()
|| ((r.intent.getFlags() & FLAG_ACTIVITY_NEW_DOCUMENT
| FLAG_ACTIVITY_RETAIN_IN_RECENTS) == FLAG_ACTIVITY_NEW_DOCUMENT)
&& r != first) {
// Stop at first non-persistable or first break in task (CLEAR_WHEN_TASK_RESET).
return true;
}
try {
out.startTag(null, TAG_ACTIVITY);
r.saveToXml(out);
out.endTag(null, TAG_ACTIVITY);
return false;
} catch (Exception e) {
sTmpException = e;
return true;
}
}
static Task restoreFromXml(XmlPullParser in, ActivityStackSupervisor stackSupervisor)
throws IOException, XmlPullParserException {
Intent intent = null;
Intent affinityIntent = null;
ArrayList<ActivityRecord> activities = new ArrayList<>();
ComponentName realActivity = null;
boolean realActivitySuspended = false;
ComponentName origActivity = null;
String affinity = null;
String rootAffinity = null;
boolean hasRootAffinity = false;
String windowLayoutAffinity = null;
boolean rootHasReset = false;
boolean autoRemoveRecents = false;
boolean askedCompatMode = false;
int taskType = 0;
int userId = 0;
boolean userSetupComplete = true;
int effectiveUid = -1;
String lastDescription = null;
long lastTimeOnTop = 0;
boolean neverRelinquishIdentity = true;
int taskId = INVALID_TASK_ID;
final int outerDepth = in.getDepth();
TaskDescription taskDescription = new TaskDescription();
int taskAffiliation = INVALID_TASK_ID;
int taskAffiliationColor = 0;
int prevTaskId = INVALID_TASK_ID;
int nextTaskId = INVALID_TASK_ID;
int callingUid = -1;
String callingPackage = "";
String callingFeatureId = null;
int resizeMode = RESIZE_MODE_FORCE_RESIZEABLE;
boolean supportsPictureInPicture = false;
Rect lastNonFullscreenBounds = null;
int minWidth = INVALID_MIN_SIZE;
int minHeight = INVALID_MIN_SIZE;
int persistTaskVersion = 0;
for (int attrNdx = in.getAttributeCount() - 1; attrNdx >= 0; --attrNdx) {
final String attrName = in.getAttributeName(attrNdx);
final String attrValue = in.getAttributeValue(attrNdx);
if (TaskPersister.DEBUG) {
Slog.d(TaskPersister.TAG, "Task: attribute name=" + attrName + " value="
+ attrValue);
}
switch (attrName) {
case ATTR_TASKID:
if (taskId == INVALID_TASK_ID) taskId = Integer.parseInt(attrValue);
break;
case ATTR_REALACTIVITY:
realActivity = ComponentName.unflattenFromString(attrValue);
break;
case ATTR_REALACTIVITY_SUSPENDED:
realActivitySuspended = Boolean.valueOf(attrValue);
break;
case ATTR_ORIGACTIVITY:
origActivity = ComponentName.unflattenFromString(attrValue);
break;
case ATTR_AFFINITY:
affinity = attrValue;
break;
case ATTR_ROOT_AFFINITY:
rootAffinity = attrValue;
hasRootAffinity = true;
break;
case ATTR_WINDOW_LAYOUT_AFFINITY:
windowLayoutAffinity = attrValue;
break;
case ATTR_ROOTHASRESET:
rootHasReset = Boolean.parseBoolean(attrValue);
break;
case ATTR_AUTOREMOVERECENTS:
autoRemoveRecents = Boolean.parseBoolean(attrValue);
break;
case ATTR_ASKEDCOMPATMODE:
askedCompatMode = Boolean.parseBoolean(attrValue);
break;
case ATTR_USERID:
userId = Integer.parseInt(attrValue);
break;
case ATTR_USER_SETUP_COMPLETE:
userSetupComplete = Boolean.parseBoolean(attrValue);
break;
case ATTR_EFFECTIVE_UID:
effectiveUid = Integer.parseInt(attrValue);
break;
case ATTR_TASKTYPE:
taskType = Integer.parseInt(attrValue);
break;
case ATTR_LASTDESCRIPTION:
lastDescription = attrValue;
break;
case ATTR_LASTTIMEMOVED:
lastTimeOnTop = Long.parseLong(attrValue);
break;
case ATTR_NEVERRELINQUISH:
neverRelinquishIdentity = Boolean.parseBoolean(attrValue);
break;
case ATTR_TASK_AFFILIATION:
taskAffiliation = Integer.parseInt(attrValue);
break;
case ATTR_PREV_AFFILIATION:
prevTaskId = Integer.parseInt(attrValue);
break;
case ATTR_NEXT_AFFILIATION:
nextTaskId = Integer.parseInt(attrValue);
break;
case ATTR_TASK_AFFILIATION_COLOR:
taskAffiliationColor = Integer.parseInt(attrValue);
break;
case ATTR_CALLING_UID:
callingUid = Integer.parseInt(attrValue);
break;
case ATTR_CALLING_PACKAGE:
callingPackage = attrValue;
break;
case ATTR_CALLING_FEATURE_ID:
callingFeatureId = attrValue;
break;
case ATTR_RESIZE_MODE:
resizeMode = Integer.parseInt(attrValue);
break;
case ATTR_SUPPORTS_PICTURE_IN_PICTURE:
supportsPictureInPicture = Boolean.parseBoolean(attrValue);
break;
case ATTR_NON_FULLSCREEN_BOUNDS:
lastNonFullscreenBounds = Rect.unflattenFromString(attrValue);
break;
case ATTR_MIN_WIDTH:
minWidth = Integer.parseInt(attrValue);
break;
case ATTR_MIN_HEIGHT:
minHeight = Integer.parseInt(attrValue);
break;
case ATTR_PERSIST_TASK_VERSION:
persistTaskVersion = Integer.parseInt(attrValue);
break;
default:
if (!attrName.startsWith(TaskDescription.ATTR_TASKDESCRIPTION_PREFIX)) {
Slog.w(TAG, "Task: Unknown attribute=" + attrName);
}
}
}
taskDescription.restoreFromXml(in);
int event;
while (((event = in.next()) != XmlPullParser.END_DOCUMENT)
&& (event != XmlPullParser.END_TAG || in.getDepth() >= outerDepth)) {
if (event == XmlPullParser.START_TAG) {
final String name = in.getName();
if (TaskPersister.DEBUG) Slog.d(TaskPersister.TAG, "Task: START_TAG name=" + name);
if (TAG_AFFINITYINTENT.equals(name)) {
affinityIntent = Intent.restoreFromXml(in);
} else if (TAG_INTENT.equals(name)) {
intent = Intent.restoreFromXml(in);
} else if (TAG_ACTIVITY.equals(name)) {
ActivityRecord activity =
ActivityRecord.restoreFromXml(in, stackSupervisor);
if (TaskPersister.DEBUG) {
Slog.d(TaskPersister.TAG, "Task: activity=" + activity);
}
if (activity != null) {
activities.add(activity);
}
} else {
Slog.e(TAG, "restoreTask: Unexpected name=" + name);
XmlUtils.skipCurrentTag(in);
}
}
}
if (!hasRootAffinity) {
rootAffinity = affinity;
} else if ("@".equals(rootAffinity)) {
rootAffinity = null;
}
if (effectiveUid <= 0) {
Intent checkIntent = intent != null ? intent : affinityIntent;
effectiveUid = 0;
if (checkIntent != null) {
IPackageManager pm = AppGlobals.getPackageManager();
try {
ApplicationInfo ai = pm.getApplicationInfo(
checkIntent.getComponent().getPackageName(),
PackageManager.MATCH_UNINSTALLED_PACKAGES
| PackageManager.MATCH_DISABLED_COMPONENTS, userId);
if (ai != null) {
effectiveUid = ai.uid;
}
} catch (RemoteException e) {
}
}
Slog.w(TAG, "Updating task #" + taskId + " for " + checkIntent
+ ": effectiveUid=" + effectiveUid);
}
if (persistTaskVersion < 1) {
// We need to convert the resize mode of home activities saved before version one if
// they are marked as RESIZE_MODE_RESIZEABLE to
// RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION since we didn't have that differentiation
// before version 1 and the system didn't resize home activities before then.
if (taskType == 1 /* old home type */ && resizeMode == RESIZE_MODE_RESIZEABLE) {
resizeMode = RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION;
}
} else {
// This activity has previously marked itself explicitly as both resizeable and
// supporting picture-in-picture. Since there is no longer a requirement for
// picture-in-picture activities to be resizeable, we can mark this simply as
// resizeable and supporting picture-in-picture separately.
if (resizeMode == RESIZE_MODE_RESIZEABLE_AND_PIPABLE_DEPRECATED) {
resizeMode = RESIZE_MODE_RESIZEABLE;
supportsPictureInPicture = true;
}
}
final Task task = new ActivityStack(stackSupervisor.mService, taskId, intent,
affinityIntent, affinity, rootAffinity, realActivity, origActivity, rootHasReset,
autoRemoveRecents, askedCompatMode, userId, effectiveUid, lastDescription,
lastTimeOnTop, neverRelinquishIdentity, taskDescription, taskAffiliation,
prevTaskId, nextTaskId, taskAffiliationColor, callingUid, callingPackage,
callingFeatureId, resizeMode, supportsPictureInPicture, realActivitySuspended,
userSetupComplete, minWidth, minHeight, null /*ActivityInfo*/,
null /*_voiceSession*/, null /*_voiceInteractor*/, null /* stack */);
task.mLastNonFullscreenBounds = lastNonFullscreenBounds;
task.setBounds(lastNonFullscreenBounds);
task.mWindowLayoutAffinity = windowLayoutAffinity;
for (int activityNdx = activities.size() - 1; activityNdx >= 0; --activityNdx) {
task.addChild(activities.get(activityNdx));
}
if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "Restored task=" + task);
return task;
}
@Override
boolean isOrganized() {
return mTaskOrganizer != null;
}
@Override
protected void reparentSurfaceControl(SurfaceControl.Transaction t, SurfaceControl newParent) {
/**
* Avoid reparenting SurfaceControl of the organized tasks that are always on top, since
* the surfaces should be controlled by the organizer itself, like bubbles.
*/
if (isOrganized() && isAlwaysOnTop()) {
return;
}
super.reparentSurfaceControl(t, newParent);
}
void setHasBeenVisible(boolean hasBeenVisible) {
final boolean prevHasBeenVisible = mHasBeenVisible;
mHasBeenVisible = hasBeenVisible;
if (hasBeenVisible) {
// If the task is not yet visible when it is added to the task organizer, then we should
// hide it to allow the task organizer to show it when it is properly reparented. We
// skip this for tasks created by the organizer because they can synchronously update
// the leash before new children are added to the task.
if (!mCreatedByOrganizer && mTaskOrganizer != null && !prevHasBeenVisible) {
getSyncTransaction().hide(getSurfaceControl());
commitPendingTransaction();
}
sendTaskAppeared();
if (!isRootTask()) {
getRootTask().setHasBeenVisible(true);
}
}
}
boolean getHasBeenVisible() {
return mHasBeenVisible;
}
/** In the case that these conditions are true, we want to send the Task to the organizer:
* 1. An organizer has been set
* 2. The Task was created by the organizer
* or
* 2a. We have a SurfaceControl
* 2b. We have finished drawing
* Any time any of these conditions are updated, the updating code should call
* sendTaskAppeared.
*/
boolean taskAppearedReady() {
if (mTaskOrganizer == null) {
return false;
}
if (mCreatedByOrganizer) {
return true;
}
return mSurfaceControl != null && getHasBeenVisible();
}
private void sendTaskAppeared() {
if (mTaskOrganizer != null) {
mAtmService.mTaskOrganizerController.onTaskAppeared(mTaskOrganizer, this);
}
}
private void sendTaskVanished(ITaskOrganizer organizer) {
if (organizer != null) {
mAtmService.mTaskOrganizerController.onTaskVanished(organizer, this);
}
}
@VisibleForTesting
boolean setTaskOrganizer(ITaskOrganizer organizer) {
if (mTaskOrganizer == organizer) {
return false;
}
ITaskOrganizer previousOrganizer = mTaskOrganizer;
// Update the new task organizer before calling sendTaskVanished since it could result in
// a new SurfaceControl getting created that would notify the old organizer about it.
mTaskOrganizer = organizer;
// Let the old organizer know it has lost control.
sendTaskVanished(previousOrganizer);
if (mTaskOrganizer != null) {
sendTaskAppeared();
} else {
// No longer managed by any organizer.
mTaskAppearedSent = false;
mLastTaskOrganizerWindowingMode = -1;
setForceHidden(FLAG_FORCE_HIDDEN_FOR_TASK_ORG, false /* set */);
if (mCreatedByOrganizer) {
removeImmediately();
}
}
return true;
}
/**
* Called when the task state changes (ie. from windowing mode change) an the task organizer
* state should also be updated.
*
* @param forceUpdate Updates the task organizer to the one currently specified in the task
* org controller for the task's windowing mode, ignoring the cached
* windowing mode checks.
* @return {@code true} if task organizer changed.
*/
boolean updateTaskOrganizerState(boolean forceUpdate) {
if (!isRootTask()) {
return false;
}
final int windowingMode = getWindowingMode();
if (!forceUpdate && windowingMode == mLastTaskOrganizerWindowingMode) {
// If our windowing mode hasn't actually changed, then just stick
// with our old organizer. This lets us implement the semantic
// where SysUI can continue to manage it's old tasks
// while CTS temporarily takes over the registration.
return false;
}
/*
* Different windowing modes may be managed by different task organizers. If
* getTaskOrganizer returns null, we still call setTaskOrganizer to
* make sure we clear it.
*/
final ITaskOrganizer org =
mWmService.mAtmService.mTaskOrganizerController.getTaskOrganizer(windowingMode);
final boolean result = setTaskOrganizer(org);
mLastTaskOrganizerWindowingMode = windowingMode;
return result;
}
@Override
void setSurfaceControl(SurfaceControl sc) {
super.setSurfaceControl(sc);
// If the TaskOrganizer was set before we created the SurfaceControl, we need to
// emit the callbacks now.
sendTaskAppeared();
}
/**
* @return true if the task is currently focused.
*/
private boolean isFocused() {
if (mDisplayContent == null || mDisplayContent.mCurrentFocus == null) {
return false;
}
return mDisplayContent.mCurrentFocus.getTask() == this;
}
/**
* @return true if the task is visible and has at least one visible child.
*/
private boolean hasVisibleChildren() {
if (!isAttached() || isForceHidden()) {
return false;
}
return getActivity(ActivityRecord::isVisible) != null;
}
/**
* @return the desired shadow radius in pixels for the current task.
*/
private float getShadowRadius(boolean taskIsFocused) {
int elevation = 0;
// Get elevation for a specific windowing mode.
if (inPinnedWindowingMode()) {
elevation = PINNED_WINDOWING_MODE_ELEVATION_IN_DIP;
} else if (inFreeformWindowingMode()) {
elevation = taskIsFocused
? DECOR_SHADOW_FOCUSED_HEIGHT_IN_DIP : DECOR_SHADOW_UNFOCUSED_HEIGHT_IN_DIP;
} else {
// For all other windowing modes, do not draw a shadow.
return 0;
}
// If the task has no visible children, do not draw a shadow.
if (!hasVisibleChildren()) {
return 0;
}
return dipToPixel(elevation, getDisplayContent().getDisplayMetrics());
}
/**
* Update the length of the shadow if needed based on windowing mode and task focus state.
*/
private void updateShadowsRadius(boolean taskIsFocused,
SurfaceControl.Transaction pendingTransaction) {
if (!mWmService.mRenderShadowsInCompositor || !isRootTask()) return;
final float newShadowRadius = getShadowRadius(taskIsFocused);
if (mShadowRadius != newShadowRadius) {
mShadowRadius = newShadowRadius;
pendingTransaction.setShadowRadius(getSurfaceControl(), mShadowRadius);
}
}
/**
* Called on the task of a window which gained or lost focus.
* @param hasFocus
*/
void onWindowFocusChanged(boolean hasFocus) {
updateShadowsRadius(hasFocus, getSyncTransaction());
}
void onPictureInPictureParamsChanged() {
if (isOrganized()) {
mAtmService.mTaskOrganizerController.dispatchTaskInfoChanged(this, true /* force */);
}
}
/**
* See {@link WindowContainerTransaction#setBoundsChangeTransaction}. In short this
* transaction will be consumed by the next BASE_APPLICATION window within our hierarchy
* to resize, and it will defer the transaction until that resize frame completes.
*/
void setMainWindowSizeChangeTransaction(SurfaceControl.Transaction t) {
setMainWindowSizeChangeTransaction(t, this);
forAllWindows(WindowState::requestRedrawForSync, true);
}
private void setMainWindowSizeChangeTransaction(SurfaceControl.Transaction t, Task origin) {
// This is only meaningful on an activity's task, so put it on the top one.
ActivityRecord topActivity = getTopNonFinishingActivity();
Task leaf = topActivity != null ? topActivity.getTask() : null;
if (leaf == null) {
return;
}
if (leaf != this) {
leaf.setMainWindowSizeChangeTransaction(t, origin);
return;
}
mMainWindowSizeChangeTransaction = t;
mMainWindowSizeChangeTask = t == null ? null : origin;
}
SurfaceControl.Transaction getMainWindowSizeChangeTransaction() {
return mMainWindowSizeChangeTransaction;
}
Task getMainWindowSizeChangeTask() {
return mMainWindowSizeChangeTask;
}
void setActivityWindowingMode(int windowingMode) {
PooledConsumer c = PooledLambda.obtainConsumer(ActivityRecord::setWindowingMode,
PooledLambda.__(ActivityRecord.class), windowingMode);
forAllActivities(c);
c.recycle();
}
/**
* Sets/unsets the forced-hidden state flag for this task depending on {@param set}.
* @return Whether the force hidden state changed
*/
boolean setForceHidden(int flags, boolean set) {
int newFlags = mForceHiddenFlags;
if (set) {
newFlags |= flags;
} else {
newFlags &= ~flags;
}
if (mForceHiddenFlags == newFlags) {
return false;
}
final boolean wasHidden = isForceHidden();
mForceHiddenFlags = newFlags;
if (wasHidden && isFocusableAndVisible()) {
// The change in force-hidden state will change visibility without triggering a stack
// order change, so we should reset the preferred top focusable stack to ensure it's not
// used if a new activity is started from this task.
getDisplayArea().resetPreferredTopFocusableStackIfBelow(this);
}
return true;
}
/**
* Returns whether this task is currently forced to be hidden for any reason.
*/
protected boolean isForceHidden() {
return mForceHiddenFlags != 0;
}
@Override
long getProtoFieldId() {
return TASK;
}
}