/* * Copyright (C) 2012 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.ActivityManager.StackId.DOCKED_STACK_ID; import static android.app.ActivityManager.StackId.FREEFORM_WORKSPACE_STACK_ID; import static android.app.ActivityManager.StackId.HOME_STACK_ID; import static android.app.ActivityManager.StackId.PINNED_STACK_ID; import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_BEHIND; import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_UNSET; import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_UNSPECIFIED; import static android.view.Display.DEFAULT_DISPLAY; import static android.view.Display.FLAG_PRIVATE; import static android.view.Surface.ROTATION_0; import static android.view.Surface.ROTATION_180; import static android.view.Surface.ROTATION_270; import static android.view.Surface.ROTATION_90; import static android.view.View.GONE; import static android.view.WindowManager.DOCKED_BOTTOM; import static android.view.WindowManager.DOCKED_INVALID; import static android.view.WindowManager.DOCKED_TOP; import static android.view.WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE; import static android.view.WindowManager.LayoutParams.FLAG_NOT_TOUCHABLE; import static android.view.WindowManager.LayoutParams.FLAG_NOT_TOUCH_MODAL; import static android.view.WindowManager.LayoutParams.FLAG_SECURE; import static android.view.WindowManager.LayoutParams.FLAG_SHOW_WALLPAPER; import static android.view.WindowManager.LayoutParams.NEEDS_MENU_SET_TRUE; import static android.view.WindowManager.LayoutParams.NEEDS_MENU_UNSET; import static android.view.WindowManager.LayoutParams.PRIVATE_FLAG_KEYGUARD; import static android.view.WindowManager.LayoutParams.TYPE_APPLICATION; import static android.view.WindowManager.LayoutParams.TYPE_APPLICATION_STARTING; import static android.view.WindowManager.LayoutParams.TYPE_BOOT_PROGRESS; import static android.view.WindowManager.LayoutParams.TYPE_DRAWN_APPLICATION; import static android.view.WindowManager.LayoutParams.TYPE_DREAM; import static android.view.WindowManager.LayoutParams.TYPE_INPUT_METHOD; import static android.view.WindowManager.LayoutParams.TYPE_INPUT_METHOD_DIALOG; import static android.view.WindowManager.LayoutParams.TYPE_STATUS_BAR; import static android.view.WindowManager.LayoutParams.TYPE_SYSTEM_DIALOG; import static android.view.WindowManager.LayoutParams.TYPE_SYSTEM_ERROR; import static android.view.WindowManager.LayoutParams.TYPE_TOAST; import static android.view.WindowManager.LayoutParams.TYPE_WALLPAPER; import static android.view.WindowManagerPolicy.FINISH_LAYOUT_REDO_ANIM; import static android.view.WindowManagerPolicy.FINISH_LAYOUT_REDO_CONFIG; import static android.view.WindowManagerPolicy.FINISH_LAYOUT_REDO_LAYOUT; import static android.view.WindowManagerPolicy.FINISH_LAYOUT_REDO_WALLPAPER; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_BOOT; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_DISPLAY; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_FOCUS; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_FOCUS_LIGHT; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_INPUT_METHOD; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_LAYERS; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_LAYOUT; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_LAYOUT_REPEATS; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_ORIENTATION; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_SCREENSHOT; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_SCREEN_ON; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_STACK; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_WALLPAPER; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_WALLPAPER_LIGHT; import static com.android.server.wm.WindowManagerDebugConfig.SHOW_STACK_CRAWLS; import static com.android.server.wm.WindowManagerDebugConfig.SHOW_TRANSACTIONS; import static com.android.server.wm.WindowManagerDebugConfig.TAG_WITH_CLASS_NAME; import static com.android.server.wm.WindowManagerDebugConfig.TAG_WM; import static com.android.server.wm.WindowManagerService.H.SEND_NEW_CONFIGURATION; import static com.android.server.wm.WindowManagerService.H.UPDATE_DOCKED_STACK_DIVIDER; import static com.android.server.wm.WindowManagerService.H.WINDOW_HIDE_TIMEOUT; import static com.android.server.wm.WindowManagerService.LAYOUT_REPEAT_THRESHOLD; import static com.android.server.wm.WindowManagerService.TYPE_LAYER_MULTIPLIER; import static com.android.server.wm.WindowManagerService.TYPE_LAYER_OFFSET; import static com.android.server.wm.WindowManagerService.UPDATE_FOCUS_WILL_PLACE_SURFACES; import static com.android.server.wm.WindowManagerService.WINDOWS_FREEZING_SCREENS_TIMEOUT; import static com.android.server.wm.WindowManagerService.dipToPixel; import static com.android.server.wm.WindowManagerService.logSurface; import static com.android.server.wm.WindowState.RESIZE_HANDLE_WIDTH_IN_DP; import static com.android.server.wm.WindowStateAnimator.DRAW_PENDING; import static com.android.server.wm.WindowStateAnimator.READY_TO_SHOW; import static com.android.server.wm.WindowSurfacePlacer.SET_WALLPAPER_MAY_CHANGE; import android.annotation.NonNull; import android.app.ActivityManager.StackId; import android.content.res.Configuration; import android.graphics.Bitmap; import android.graphics.Matrix; import android.graphics.Rect; import android.graphics.RectF; import android.graphics.Region; import android.graphics.Region.Op; import android.hardware.display.DisplayManagerInternal; import android.os.Debug; import android.os.Handler; import android.os.IBinder; import android.os.RemoteException; import android.os.SystemClock; import android.util.DisplayMetrics; import android.util.Slog; import android.view.Display; import android.view.DisplayInfo; import android.view.Surface; import android.view.SurfaceControl; import android.view.WindowManagerPolicy; import com.android.internal.util.ToBooleanFunction; import com.android.internal.view.IInputMethodClient; import java.io.FileDescriptor; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Comparator; import java.util.HashMap; import java.util.Iterator; import java.util.LinkedList; import java.util.List; import java.util.function.Consumer; import java.util.function.Predicate; /** * Utility class for keeping track of the WindowStates and other pertinent contents of a * particular Display. * * IMPORTANT: No method from this class should ever be used without holding * WindowManagerService.mWindowMap. */ class DisplayContent extends WindowContainer { private static final String TAG = TAG_WITH_CLASS_NAME ? "DisplayContent" : TAG_WM; /** Unique identifier of this stack. */ private final int mDisplayId; /** The containers below are the only child containers the display can have. */ // Contains all window containers that are related to apps (Activities) private final TaskStackContainers mTaskStackContainers = new TaskStackContainers(); // Contains all non-app window containers that should be displayed above the app containers // (e.g. Status bar) private final NonAppWindowContainers mAboveAppWindowsContainers = new NonAppWindowContainers("mAboveAppWindowsContainers"); // Contains all non-app window containers that should be displayed below the app containers // (e.g. Wallpaper). private final NonAppWindowContainers mBelowAppWindowsContainers = new NonAppWindowContainers("mBelowAppWindowsContainers"); // Contains all IME window containers. Note that the z-ordering of the IME windows will depend // on the IME target. We mainly have this container grouping so we can keep track of all the IME // window containers together and move them in-sync if/when needed. private final NonAppWindowContainers mImeWindowsContainers = new NonAppWindowContainers("mImeWindowsContainers"); private WindowState mTmpWindow; private WindowState mTmpWindow2; private WindowAnimator mTmpWindowAnimator; private boolean mTmpRecoveringMemory; private boolean mUpdateImeTarget; private boolean mTmpInitial; // Mapping from a token IBinder to a WindowToken object on this display. private final HashMap mTokenMap = new HashMap(); int mInitialDisplayWidth = 0; int mInitialDisplayHeight = 0; int mInitialDisplayDensity = 0; int mBaseDisplayWidth = 0; int mBaseDisplayHeight = 0; int mBaseDisplayDensity = 0; boolean mDisplayScalingDisabled; private final DisplayInfo mDisplayInfo = new DisplayInfo(); private final Display mDisplay; private final DisplayMetrics mDisplayMetrics = new DisplayMetrics(); Rect mBaseDisplayRect = new Rect(); private Rect mContentRect = new Rect(); // Accessed directly by all users. private boolean mLayoutNeeded; int pendingLayoutChanges; // TODO(multi-display): remove some of the usages. boolean isDefaultDisplay; /** Window tokens that are in the process of exiting, but still on screen for animations. */ final ArrayList mExitingTokens = new ArrayList<>(); /** A special TaskStack with id==HOME_STACK_ID that moves to the bottom whenever any TaskStack * (except a future lockscreen TaskStack) moves to the top. */ private TaskStack mHomeStack = null; /** Detect user tapping outside of current focused task bounds .*/ TaskTapPointerEventListener mTapDetector; /** Detect user tapping outside of current focused stack bounds .*/ private Region mTouchExcludeRegion = new Region(); /** Save allocating when calculating rects */ private final Rect mTmpRect = new Rect(); private final Rect mTmpRect2 = new Rect(); private final RectF mTmpRectF = new RectF(); private final Matrix mTmpMatrix = new Matrix(); private final Region mTmpRegion = new Region(); WindowManagerService mService; /** Remove this display when animation on it has completed. */ private boolean mDeferredRemoval; final DockedStackDividerController mDividerControllerLocked; final PinnedStackController mPinnedStackControllerLocked; DimLayerController mDimLayerController; final ArrayList mTapExcludedWindows = new ArrayList<>(); private boolean mHaveBootMsg = false; private boolean mHaveApp = false; private boolean mHaveWallpaper = false; private boolean mHaveKeyguard = true; private final LinkedList mTmpUpdateAllDrawn = new LinkedList(); private final TaskForResizePointSearchResult mTmpTaskForResizePointSearchResult = new TaskForResizePointSearchResult(); private final ApplySurfaceChangesTransactionState mTmpApplySurfaceChangesTransactionState = new ApplySurfaceChangesTransactionState(); private final ScreenshotApplicationState mScreenshotApplicationState = new ScreenshotApplicationState(); // True if this display is in the process of being removed. Used to determine if the removal of // the display's direct children should be allowed. private boolean mRemovingDisplay = false; private final WindowLayersController mLayersController; WallpaperController mWallpaperController; int mInputMethodAnimLayerAdjustment; private final Consumer mUpdateWindowsForAnimator = w -> { WindowStateAnimator winAnimator = w.mWinAnimator; if (winAnimator.hasSurface()) { final boolean wasAnimating = winAnimator.mWasAnimating; final boolean nowAnimating = winAnimator.stepAnimationLocked( mTmpWindowAnimator.mCurrentTime); winAnimator.mWasAnimating = nowAnimating; mTmpWindowAnimator.orAnimating(nowAnimating); if (DEBUG_WALLPAPER) Slog.v(TAG, w + ": wasAnimating=" + wasAnimating + ", nowAnimating=" + nowAnimating); if (wasAnimating && !winAnimator.mAnimating && mWallpaperController.isWallpaperTarget(w)) { mTmpWindowAnimator.mBulkUpdateParams |= SET_WALLPAPER_MAY_CHANGE; pendingLayoutChanges |= FINISH_LAYOUT_REDO_WALLPAPER; if (DEBUG_LAYOUT_REPEATS) { mService.mWindowPlacerLocked.debugLayoutRepeats( "updateWindowsAndWallpaperLocked 2", pendingLayoutChanges); } } } final AppWindowToken atoken = w.mAppToken; if (winAnimator.mDrawState == READY_TO_SHOW) { if (atoken == null || atoken.allDrawn) { if (w.performShowLocked()) { pendingLayoutChanges |= FINISH_LAYOUT_REDO_ANIM; if (DEBUG_LAYOUT_REPEATS) { mService.mWindowPlacerLocked.debugLayoutRepeats( "updateWindowsAndWallpaperLocked 5", pendingLayoutChanges); } } } } final AppWindowAnimator appAnimator = winAnimator.mAppAnimator; if (appAnimator != null && appAnimator.thumbnail != null) { if (appAnimator.thumbnailTransactionSeq != mTmpWindowAnimator.mAnimTransactionSequence) { appAnimator.thumbnailTransactionSeq = mTmpWindowAnimator.mAnimTransactionSequence; appAnimator.thumbnailLayer = 0; } if (appAnimator.thumbnailLayer < winAnimator.mAnimLayer) { appAnimator.thumbnailLayer = winAnimator.mAnimLayer; } } }; private final Consumer mUpdateWallpaperForAnimator = w -> { final WindowStateAnimator winAnimator = w.mWinAnimator; if (winAnimator.mSurfaceController == null || !winAnimator.hasSurface()) { return; } final int flags = w.mAttrs.flags; // If this window is animating, make a note that we have an animating window and take // care of a request to run a detached wallpaper animation. if (winAnimator.mAnimating) { if (winAnimator.mAnimation != null) { if ((flags & FLAG_SHOW_WALLPAPER) != 0 && winAnimator.mAnimation.getDetachWallpaper()) { mTmpWindow = w; } final int color = winAnimator.mAnimation.getBackgroundColor(); if (color != 0) { final TaskStack stack = w.getStack(); if (stack != null) { stack.setAnimationBackground(winAnimator, color); } } } mTmpWindowAnimator.setAnimating(true); } // If this window's app token is running a detached wallpaper animation, make a note so // we can ensure the wallpaper is displayed behind it. final AppWindowAnimator appAnimator = winAnimator.mAppAnimator; if (appAnimator != null && appAnimator.animation != null && appAnimator.animating) { if ((flags & FLAG_SHOW_WALLPAPER) != 0 && appAnimator.animation.getDetachWallpaper()) { mTmpWindow = w; } final int color = appAnimator.animation.getBackgroundColor(); if (color != 0) { final TaskStack stack = w.getStack(); if (stack != null) { stack.setAnimationBackground(winAnimator, color); } } } }; private final Consumer mSetInputMethodAnimLayerAdjustment = w -> w.adjustAnimLayer(mInputMethodAnimLayerAdjustment); private final Consumer mScheduleToastTimeout = w -> { final int lostFocusUid = mTmpWindow.mOwnerUid; final Handler handler = mService.mH; if (w.mAttrs.type == TYPE_TOAST && w.mOwnerUid == lostFocusUid) { if (!handler.hasMessages(WINDOW_HIDE_TIMEOUT, w)) { handler.sendMessageDelayed(handler.obtainMessage(WINDOW_HIDE_TIMEOUT, w), w.mAttrs.hideTimeoutMilliseconds); } } }; private final ToBooleanFunction mFindFocusedWindow = w -> { final AppWindowToken focusedApp = mService.mFocusedApp; if (DEBUG_FOCUS) Slog.v(TAG_WM, "Looking for focus: " + w + ", flags=" + w.mAttrs.flags + ", canReceive=" + w.canReceiveKeys()); if (!w.canReceiveKeys()) { return false; } final AppWindowToken wtoken = w.mAppToken; // If this window's application has been removed, just skip it. if (wtoken != null && (wtoken.removed || wtoken.sendingToBottom)) { if (DEBUG_FOCUS) Slog.v(TAG_WM, "Skipping " + wtoken + " because " + (wtoken.removed ? "removed" : "sendingToBottom")); return false; } if (focusedApp == null) { if (DEBUG_FOCUS_LIGHT) Slog.v(TAG_WM, "findFocusedWindow: focusedApp=null" + " using new focus @ " + w); mTmpWindow = w; return true; } if (!focusedApp.windowsAreFocusable()) { // Current focused app windows aren't focusable... if (DEBUG_FOCUS_LIGHT) Slog.v(TAG_WM, "findFocusedWindow: focusedApp windows not" + " focusable using new focus @ " + w); mTmpWindow = w; return true; } // Descend through all of the app tokens and find the first that either matches // win.mAppToken (return win) or mFocusedApp (return null). if (wtoken != null && w.mAttrs.type != TYPE_APPLICATION_STARTING) { if (focusedApp.compareTo(wtoken) > 0) { // App stack below focused app stack. No focus for you!!! if (DEBUG_FOCUS_LIGHT) Slog.v(TAG_WM, "findFocusedWindow: Reached focused app=" + focusedApp); mTmpWindow = null; return true; } } if (DEBUG_FOCUS_LIGHT) Slog.v(TAG_WM, "findFocusedWindow: Found new focus @ " + w); mTmpWindow = w; return true; }; private final Consumer mPrepareWindowSurfaces = w -> w.mWinAnimator.prepareSurfaceLocked(true); private final Consumer mPerformLayout = w -> { // Don't do layout of a window if it is not visible, or soon won't be visible, to avoid // wasting time and funky changes while a window is animating away. final boolean gone = (mTmpWindow != null && mService.mPolicy.canBeHiddenByKeyguardLw(w)) || w.isGoneForLayoutLw(); if (DEBUG_LAYOUT && !w.mLayoutAttached) { Slog.v(TAG, "1ST PASS " + w + ": gone=" + gone + " mHaveFrame=" + w.mHaveFrame + " mLayoutAttached=" + w.mLayoutAttached + " screen changed=" + w.isConfigChanged()); final AppWindowToken atoken = w.mAppToken; if (gone) Slog.v(TAG, " GONE: mViewVisibility=" + w.mViewVisibility + " mRelayoutCalled=" + w.mRelayoutCalled + " hidden=" + w.mToken.hidden + " hiddenRequested=" + (atoken != null && atoken.hiddenRequested) + " parentHidden=" + w.isParentWindowHidden()); else Slog.v(TAG, " VIS: mViewVisibility=" + w.mViewVisibility + " mRelayoutCalled=" + w.mRelayoutCalled + " hidden=" + w.mToken.hidden + " hiddenRequested=" + (atoken != null && atoken.hiddenRequested) + " parentHidden=" + w.isParentWindowHidden()); } // If this view is GONE, then skip it -- keep the current frame, and let the caller know // so they can ignore it if they want. (We do the normal layout for INVISIBLE windows, // since that means "perform layout as normal, just don't display"). if (!gone || !w.mHaveFrame || w.mLayoutNeeded || ((w.isConfigChanged() || w.setReportResizeHints()) && !w.isGoneForLayoutLw() && ((w.mAttrs.privateFlags & PRIVATE_FLAG_KEYGUARD) != 0 || (w.mHasSurface && w.mAppToken != null && w.mAppToken.layoutConfigChanges)))) { if (!w.mLayoutAttached) { if (mTmpInitial) { //Slog.i(TAG, "Window " + this + " clearing mContentChanged - initial"); w.mContentChanged = false; } if (w.mAttrs.type == TYPE_DREAM) { // Don't layout windows behind a dream, so that if it does stuff like hide // the status bar we won't get a bad transition when it goes away. mTmpWindow = w; } w.mLayoutNeeded = false; w.prelayout(); mService.mPolicy.layoutWindowLw(w, null); w.mLayoutSeq = mService.mLayoutSeq; // Window frames may have changed. Update dim layer with the new bounds. final Task task = w.getTask(); if (task != null) { mDimLayerController.updateDimLayer(task); } if (DEBUG_LAYOUT) Slog.v(TAG, " LAYOUT: mFrame=" + w.mFrame + " mContainingFrame=" + w.mContainingFrame + " mDisplayFrame=" + w.mDisplayFrame); } } }; private final Consumer mPerformLayoutAttached = w -> { if (w.mLayoutAttached) { if (DEBUG_LAYOUT) Slog.v(TAG, "2ND PASS " + w + " mHaveFrame=" + w.mHaveFrame + " mViewVisibility=" + w.mViewVisibility + " mRelayoutCalled=" + w.mRelayoutCalled); // If this view is GONE, then skip it -- keep the current frame, and let the caller // know so they can ignore it if they want. (We do the normal layout for INVISIBLE // windows, since that means "perform layout as normal, just don't display"). if (mTmpWindow != null && mService.mPolicy.canBeHiddenByKeyguardLw(w)) { return; } if ((w.mViewVisibility != GONE && w.mRelayoutCalled) || !w.mHaveFrame || w.mLayoutNeeded) { if (mTmpInitial) { //Slog.i(TAG, "Window " + this + " clearing mContentChanged - initial"); w.mContentChanged = false; } w.mLayoutNeeded = false; w.prelayout(); mService.mPolicy.layoutWindowLw(w, w.getParentWindow()); w.mLayoutSeq = mService.mLayoutSeq; if (DEBUG_LAYOUT) Slog.v(TAG, " LAYOUT: mFrame=" + w.mFrame + " mContainingFrame=" + w.mContainingFrame + " mDisplayFrame=" + w.mDisplayFrame); } } else if (w.mAttrs.type == TYPE_DREAM) { // Don't layout windows behind a dream, so that if it does stuff like hide the // status bar we won't get a bad transition when it goes away. mTmpWindow = mTmpWindow2; } }; private final Predicate mComputeImeTargetPredicate = w -> { if (DEBUG_INPUT_METHOD && mUpdateImeTarget) Slog.i(TAG_WM, "Checking window @" + w + " fl=0x" + Integer.toHexString(w.mAttrs.flags)); return w.canBeImeTarget(); }; private final Consumer mApplyPostLayoutPolicy = w -> mService.mPolicy.applyPostLayoutPolicyLw(w, w.mAttrs, w.getParentWindow(), mService.mInputMethodTarget); private final Consumer mApplySurfaceChangesTransaction = w -> { final WindowSurfacePlacer surfacePlacer = mService.mWindowPlacerLocked; final boolean obscuredChanged = w.mObscured != mTmpApplySurfaceChangesTransactionState.obscured; final RootWindowContainer root = mService.mRoot; // Only used if default window final boolean someoneLosingFocus = !mService.mLosingFocus.isEmpty(); // Update effect. w.mObscured = mTmpApplySurfaceChangesTransactionState.obscured; if (!mTmpApplySurfaceChangesTransactionState.obscured) { final boolean isDisplayed = w.isDisplayedLw(); if (isDisplayed && w.isObscuringDisplay()) { // This window completely covers everything behind it, so we want to leave all // of them as undimmed (for performance reasons). root.mObscuringWindow = w; mTmpApplySurfaceChangesTransactionState.obscured = true; } mTmpApplySurfaceChangesTransactionState.displayHasContent |= root.handleNotObscuredLocked(w, mTmpApplySurfaceChangesTransactionState.obscured, mTmpApplySurfaceChangesTransactionState.syswin); if (w.mHasSurface && isDisplayed) { final int type = w.mAttrs.type; if (type == TYPE_SYSTEM_DIALOG || type == TYPE_SYSTEM_ERROR || (w.mAttrs.privateFlags & PRIVATE_FLAG_KEYGUARD) != 0) { mTmpApplySurfaceChangesTransactionState.syswin = true; } if (mTmpApplySurfaceChangesTransactionState.preferredRefreshRate == 0 && w.mAttrs.preferredRefreshRate != 0) { mTmpApplySurfaceChangesTransactionState.preferredRefreshRate = w.mAttrs.preferredRefreshRate; } if (mTmpApplySurfaceChangesTransactionState.preferredModeId == 0 && w.mAttrs.preferredDisplayModeId != 0) { mTmpApplySurfaceChangesTransactionState.preferredModeId = w.mAttrs.preferredDisplayModeId; } } } w.applyDimLayerIfNeeded(); if (isDefaultDisplay && obscuredChanged && w.isVisibleLw() && mWallpaperController.isWallpaperTarget(w)) { // This is the wallpaper target and its obscured state changed... make sure the // current wallpaper's visibility has been updated accordingly. mWallpaperController.updateWallpaperVisibility(); } w.handleWindowMovedIfNeeded(); final WindowStateAnimator winAnimator = w.mWinAnimator; //Slog.i(TAG, "Window " + this + " clearing mContentChanged - done placing"); w.mContentChanged = false; // Moved from updateWindowsAndWallpaperLocked(). if (w.mHasSurface) { // Take care of the window being ready to display. final boolean committed = winAnimator.commitFinishDrawingLocked(); if (isDefaultDisplay && committed) { if (w.mAttrs.type == TYPE_DREAM) { // HACK: When a dream is shown, it may at that point hide the lock screen. // So we need to redo the layout to let the phone window manager make this // happen. pendingLayoutChanges |= FINISH_LAYOUT_REDO_LAYOUT; if (DEBUG_LAYOUT_REPEATS) { surfacePlacer.debugLayoutRepeats( "dream and commitFinishDrawingLocked true", pendingLayoutChanges); } } if ((w.mAttrs.flags & FLAG_SHOW_WALLPAPER) != 0) { if (DEBUG_WALLPAPER_LIGHT) Slog.v(TAG, "First draw done in potential wallpaper target " + w); root.mWallpaperMayChange = true; pendingLayoutChanges |= FINISH_LAYOUT_REDO_WALLPAPER; if (DEBUG_LAYOUT_REPEATS) { surfacePlacer.debugLayoutRepeats( "wallpaper and commitFinishDrawingLocked true", pendingLayoutChanges); } } } if (!winAnimator.isAnimationStarting() && !winAnimator.isWaitingForOpening()) { // Updates the shown frame before we set up the surface. This is needed // because the resizing could change the top-left position (in addition to // size) of the window. setSurfaceBoundariesLocked uses mShownPosition to // position the surface. // // If an animation is being started, we can't call this method because the // animation hasn't processed its initial transformation yet, but in general // we do want to update the position if the window is animating. winAnimator.computeShownFrameLocked(); } winAnimator.setSurfaceBoundariesLocked(mTmpRecoveringMemory /* recoveringMemory */); } final AppWindowToken atoken = w.mAppToken; if (atoken != null) { final boolean updateAllDrawn = atoken.updateDrawnWindowStates(w); if (updateAllDrawn && !mTmpUpdateAllDrawn.contains(atoken)) { mTmpUpdateAllDrawn.add(atoken); } } if (isDefaultDisplay && someoneLosingFocus && w == mService.mCurrentFocus && w.isDisplayedLw()) { mTmpApplySurfaceChangesTransactionState.focusDisplayed = true; } w.updateResizingWindowIfNeeded(); }; /** * @param display May not be null. * @param service You know. * @param layersController window layer controller used to assign layer to the windows on this * display. * @param wallpaperController wallpaper windows controller used to adjust the positioning of the * wallpaper windows in the window list. */ DisplayContent(Display display, WindowManagerService service, WindowLayersController layersController, WallpaperController wallpaperController) { mDisplay = display; mDisplayId = display.getDisplayId(); mLayersController = layersController; mWallpaperController = wallpaperController; display.getDisplayInfo(mDisplayInfo); display.getMetrics(mDisplayMetrics); isDefaultDisplay = mDisplayId == DEFAULT_DISPLAY; mService = service; initializeDisplayBaseInfo(); mDividerControllerLocked = new DockedStackDividerController(service, this); mPinnedStackControllerLocked = new PinnedStackController(service, this); mDimLayerController = new DimLayerController(this); // These are the only direct children we should ever have and they are permanent. super.addChild(mBelowAppWindowsContainers, null); super.addChild(mTaskStackContainers, null); super.addChild(mAboveAppWindowsContainers, null); super.addChild(mImeWindowsContainers, null); } int getDisplayId() { return mDisplayId; } WindowToken getWindowToken(IBinder binder) { return mTokenMap.get(binder); } AppWindowToken getAppWindowToken(IBinder binder) { final WindowToken token = getWindowToken(binder); if (token == null) { return null; } return token.asAppWindowToken(); } void addWindowToken(IBinder binder, WindowToken token) { final DisplayContent dc = mService.mRoot.getWindowTokenDisplay(token); if (dc != null) { // We currently don't support adding a window token to the display if the display // already has the binder mapped to another token. If there is a use case for supporting // this moving forward we will either need to merge the WindowTokens some how or have // the binder map to a list of window tokens. throw new IllegalArgumentException("Can't map token=" + token + " to display=" + this + " already mapped to display=" + dc + " tokens=" + dc.mTokenMap); } mTokenMap.put(binder, token); if (token.asAppWindowToken() == null) { // Add non-app token to container hierarchy on the display. App tokens are added through // the parent container managing them (e.g. Tasks). switch (token.windowType) { case TYPE_WALLPAPER: mBelowAppWindowsContainers.addChild(token); break; case TYPE_INPUT_METHOD: case TYPE_INPUT_METHOD_DIALOG: mImeWindowsContainers.addChild(token); break; default: mAboveAppWindowsContainers.addChild(token); break; } } } WindowToken removeWindowToken(IBinder binder) { final WindowToken token = mTokenMap.remove(binder); if (token != null && token.asAppWindowToken() == null) { token.setExiting(); } return token; } /** Changes the display the input window token is housed on to this one. */ void reParentWindowToken(WindowToken token) { final DisplayContent prevDc = token.getDisplayContent(); if (prevDc == this) { return; } if (prevDc != null && prevDc.mTokenMap.remove(token.token) != null) { switch (token.windowType) { case TYPE_WALLPAPER: prevDc.mBelowAppWindowsContainers.removeChild(token); break; case TYPE_INPUT_METHOD: case TYPE_INPUT_METHOD_DIALOG: prevDc.mImeWindowsContainers.removeChild(token); break; default: prevDc.mAboveAppWindowsContainers.removeChild(token); break; } } addWindowToken(token.token, token); } void removeAppToken(IBinder binder) { final WindowToken token = removeWindowToken(binder); if (token == null) { Slog.w(TAG_WM, "removeAppToken: Attempted to remove non-existing token: " + binder); return; } final AppWindowToken appToken = token.asAppWindowToken(); if (appToken == null) { Slog.w(TAG_WM, "Attempted to remove non-App token: " + binder + " token=" + token); return; } appToken.onRemovedFromDisplay(); } Display getDisplay() { return mDisplay; } DisplayInfo getDisplayInfo() { return mDisplayInfo; } DisplayMetrics getDisplayMetrics() { return mDisplayMetrics; } DockedStackDividerController getDockedDividerController() { return mDividerControllerLocked; } PinnedStackController getPinnedStackController() { return mPinnedStackControllerLocked; } /** * Returns true if the specified UID has access to this display. */ boolean hasAccess(int uid) { return mDisplay.hasAccess(uid); } boolean isPrivate() { return (mDisplay.getFlags() & FLAG_PRIVATE) != 0; } TaskStack getHomeStack() { if (mHomeStack == null && mDisplayId == DEFAULT_DISPLAY) { Slog.e(TAG_WM, "getHomeStack: Returning null from this=" + this); } return mHomeStack; } TaskStack getStackById(int stackId) { for (int i = mTaskStackContainers.size() - 1; i >= 0; --i) { final TaskStack stack = mTaskStackContainers.get(i); if (stack.mStackId == stackId) { return stack; } } return null; } @Override void onConfigurationChanged(Configuration newParentConfig) { super.onConfigurationChanged(newParentConfig); // The display size information is heavily dependent on the resources in the current // configuration, so we need to reconfigure it every time the configuration changes. // See {@link PhoneWindowManager#setInitialDisplaySize}...sigh... mService.reconfigureDisplayLocked(this); getDockedDividerController().onConfigurationChanged(); getPinnedStackController().onConfigurationChanged(); } /** * Callback used to trigger bounds update after configuration change and get ids of stacks whose * bounds were updated. */ void updateStackBoundsAfterConfigChange(@NonNull List changedStackList) { for (int i = mTaskStackContainers.size() - 1; i >= 0; --i) { final TaskStack stack = mTaskStackContainers.get(i); if (stack.updateBoundsAfterConfigChange()) { changedStackList.add(stack.mStackId); } } } @Override boolean fillsParent() { return true; } @Override boolean isVisible() { return true; } @Override void onAppTransitionDone() { super.onAppTransitionDone(); mService.mWindowsChanged = true; } @Override boolean forAllWindows(ToBooleanFunction callback, boolean traverseTopToBottom) { // Special handling so we can process IME windows with #forAllImeWindows above their IME // target, or here in order if there isn't an IME target. if (traverseTopToBottom) { for (int i = mChildren.size() - 1; i >= 0; --i) { final DisplayChildWindowContainer child = mChildren.get(i); if (child == mImeWindowsContainers && mService.mInputMethodTarget != null) { // In this case the Ime windows will be processed above their target so we skip // here. continue; } if (child.forAllWindows(callback, traverseTopToBottom)) { return true; } } } else { final int count = mChildren.size(); for (int i = 0; i < count; i++) { final DisplayChildWindowContainer child = mChildren.get(i); if (child == mImeWindowsContainers && mService.mInputMethodTarget != null) { // In this case the Ime windows will be processed above their target so we skip // here. continue; } if (child.forAllWindows(callback, traverseTopToBottom)) { return true; } } } return false; } boolean forAllImeWindows(ToBooleanFunction callback, boolean traverseTopToBottom) { return mImeWindowsContainers.forAllWindows(callback, traverseTopToBottom); } @Override int getOrientation() { final WindowManagerPolicy policy = mService.mPolicy; if (mService.mDisplayFrozen) { if (mService.mLastWindowForcedOrientation != SCREEN_ORIENTATION_UNSPECIFIED) { if (DEBUG_ORIENTATION) Slog.v(TAG_WM, "Display is frozen, return " + mService.mLastWindowForcedOrientation); // If the display is frozen, some activities may be in the middle of restarting, and // thus have removed their old window. If the window has the flag to hide the lock // screen, then the lock screen can re-appear and inflict its own orientation on us. // Keep the orientation stable until this all settles down. return mService.mLastWindowForcedOrientation; } else if (policy.isKeyguardLocked()) { // Use the last orientation the while the display is frozen with the keyguard // locked. This could be the keyguard forced orientation or from a SHOW_WHEN_LOCKED // window. We don't want to check the show when locked window directly though as // things aren't stable while the display is frozen, for example the window could be // momentarily unavailable due to activity relaunch. if (DEBUG_ORIENTATION) Slog.v(TAG_WM, "Display is frozen while keyguard locked, " + "return " + mService.mLastOrientation); return mService.mLastOrientation; } } else { final int orientation = mAboveAppWindowsContainers.getOrientation(); if (orientation != SCREEN_ORIENTATION_UNSET) { return orientation; } } // Top system windows are not requesting an orientation. Start searching from apps. return mTaskStackContainers.getOrientation(); } void updateDisplayInfo() { mDisplay.getDisplayInfo(mDisplayInfo); mDisplay.getMetrics(mDisplayMetrics); for (int i = mTaskStackContainers.size() - 1; i >= 0; --i) { mTaskStackContainers.get(i).updateDisplayInfo(null); } } void initializeDisplayBaseInfo() { final DisplayManagerInternal displayManagerInternal = mService.mDisplayManagerInternal; if (displayManagerInternal != null) { // Bootstrap the default logical display from the display manager. final DisplayInfo newDisplayInfo = displayManagerInternal.getDisplayInfo(mDisplayId); if (newDisplayInfo != null) { mDisplayInfo.copyFrom(newDisplayInfo); } } mBaseDisplayWidth = mInitialDisplayWidth = mDisplayInfo.logicalWidth; mBaseDisplayHeight = mInitialDisplayHeight = mDisplayInfo.logicalHeight; mBaseDisplayDensity = mInitialDisplayDensity = mDisplayInfo.logicalDensityDpi; mBaseDisplayRect.set(0, 0, mBaseDisplayWidth, mBaseDisplayHeight); } void getLogicalDisplayRect(Rect out) { // Uses same calculation as in LogicalDisplay#configureDisplayInTransactionLocked. final int orientation = mDisplayInfo.rotation; boolean rotated = (orientation == ROTATION_90 || orientation == ROTATION_270); final int physWidth = rotated ? mBaseDisplayHeight : mBaseDisplayWidth; final int physHeight = rotated ? mBaseDisplayWidth : mBaseDisplayHeight; int width = mDisplayInfo.logicalWidth; int left = (physWidth - width) / 2; int height = mDisplayInfo.logicalHeight; int top = (physHeight - height) / 2; out.set(left, top, left + width, top + height); } private void getLogicalDisplayRect(Rect out, int orientation) { getLogicalDisplayRect(out); // Rotate the Rect if needed. final int currentRotation = mDisplayInfo.rotation; final int rotationDelta = deltaRotation(currentRotation, orientation); if (rotationDelta == ROTATION_90 || rotationDelta == ROTATION_270) { createRotationMatrix(rotationDelta, mBaseDisplayWidth, mBaseDisplayHeight, mTmpMatrix); mTmpRectF.set(out); mTmpMatrix.mapRect(mTmpRectF); mTmpRectF.round(out); } } void getContentRect(Rect out) { out.set(mContentRect); } /** * Adds the stack to this display. * @see WindowManagerService#addStackToDisplay(int, int, boolean) */ Rect addStackToDisplay(int stackId, boolean onTop) { boolean attachedToDisplay = false; TaskStack stack = mService.mStackIdToStack.get(stackId); if (stack == null) { if (DEBUG_STACK) Slog.d(TAG_WM, "Create new stackId=" + stackId + " on displayId=" + mDisplayId); stack = getStackById(stackId); if (stack != null) { // It's already attached to the display...clear mDeferRemoval and move stack to // appropriate z-order on display as needed. stack.mDeferRemoval = false; moveStack(stack, onTop); attachedToDisplay = true; } else { stack = new TaskStack(mService, stackId); } mService.mStackIdToStack.put(stackId, stack); if (stackId == DOCKED_STACK_ID) { mDividerControllerLocked.notifyDockedStackExistsChanged(true); } } else { final DisplayContent currentDC = stack.getDisplayContent(); if (currentDC != null) { throw new IllegalStateException("Trying to add stackId=" + stackId + "to displayId=" + mDisplayId + ", but it's already attached to displayId=" + currentDC.getDisplayId()); } } if (!attachedToDisplay) { mTaskStackContainers.addStackToDisplay(stack, onTop); } if (stack.getRawFullscreen()) { return null; } final Rect bounds = new Rect(); stack.getRawBounds(bounds); return bounds; } /** Removes the stack from the display and prepares for changing the parent. */ private void removeStackFromDisplay(TaskStack stack) { mTaskStackContainers.removeStackFromDisplay(stack); } /** Moves the stack to this display and returns the updated bounds. */ Rect moveStackToDisplay(TaskStack stack) { final DisplayContent currentDisplayContent = stack.getDisplayContent(); if (currentDisplayContent == null) { throw new IllegalStateException("Trying to move stackId=" + stack.mStackId + " which is not currently attached to any display"); } if (stack.getDisplayContent().getDisplayId() == mDisplayId) { throw new IllegalArgumentException("Trying to move stackId=" + stack.mStackId + " to its current displayId=" + mDisplayId); } currentDisplayContent.removeStackFromDisplay(stack); return addStackToDisplay(stack.mStackId, true /* onTop */); } void moveStack(TaskStack stack, boolean toTop) { mTaskStackContainers.moveStack(stack, toTop); } @Override protected void addChild(DisplayChildWindowContainer child, Comparator comparator) { throw new UnsupportedOperationException("See DisplayChildWindowContainer"); } @Override protected void addChild(DisplayChildWindowContainer child, int index) { throw new UnsupportedOperationException("See DisplayChildWindowContainer"); } @Override protected void removeChild(DisplayChildWindowContainer child) { // Only allow removal of direct children from this display if the display is in the process // of been removed. if (mRemovingDisplay) { super.removeChild(child); return; } throw new UnsupportedOperationException("See DisplayChildWindowContainer"); } int taskIdFromPoint(int x, int y) { for (int stackNdx = mTaskStackContainers.size() - 1; stackNdx >= 0; --stackNdx) { final TaskStack stack = mTaskStackContainers.get(stackNdx); final int taskId = stack.taskIdFromPoint(x, y); if (taskId != -1) { return taskId; } } return -1; } /** * Find the task whose outside touch area (for resizing) (x, y) falls within. * Returns null if the touch doesn't fall into a resizing area. */ Task findTaskForResizePoint(int x, int y) { final int delta = dipToPixel(RESIZE_HANDLE_WIDTH_IN_DP, mDisplayMetrics); mTmpTaskForResizePointSearchResult.reset(); for (int stackNdx = mTaskStackContainers.size() - 1; stackNdx >= 0; --stackNdx) { final TaskStack stack = mTaskStackContainers.get(stackNdx); if (!StackId.isTaskResizeAllowed(stack.mStackId)) { return null; } stack.findTaskForResizePoint(x, y, delta, mTmpTaskForResizePointSearchResult); if (mTmpTaskForResizePointSearchResult.searchDone) { return mTmpTaskForResizePointSearchResult.taskForResize; } } return null; } void setTouchExcludeRegion(Task focusedTask) { mTouchExcludeRegion.set(mBaseDisplayRect); final int delta = dipToPixel(RESIZE_HANDLE_WIDTH_IN_DP, mDisplayMetrics); mTmpRect2.setEmpty(); for (int stackNdx = mTaskStackContainers.size() - 1; stackNdx >= 0; --stackNdx) { final TaskStack stack = mTaskStackContainers.get(stackNdx); stack.setTouchExcludeRegion( focusedTask, delta, mTouchExcludeRegion, mContentRect, mTmpRect2); } // If we removed the focused task above, add it back and only leave its // outside touch area in the exclusion. TapDectector is not interested in // any touch inside the focused task itself. if (!mTmpRect2.isEmpty()) { mTouchExcludeRegion.op(mTmpRect2, Region.Op.UNION); } final WindowState inputMethod = mService.mInputMethodWindow; if (inputMethod != null && inputMethod.isVisibleLw()) { // If the input method is visible and the user is typing, we don't want these touch // events to be intercepted and used to change focus. This would likely cause a // disappearance of the input method. inputMethod.getTouchableRegion(mTmpRegion); mTouchExcludeRegion.op(mTmpRegion, Region.Op.UNION); } for (int i = mTapExcludedWindows.size() - 1; i >= 0; i--) { WindowState win = mTapExcludedWindows.get(i); win.getTouchableRegion(mTmpRegion); mTouchExcludeRegion.op(mTmpRegion, Region.Op.UNION); } // TODO(multi-display): Support docked stacks on secondary displays. if (mDisplayId == DEFAULT_DISPLAY && getDockedStackLocked() != null) { mDividerControllerLocked.getTouchRegion(mTmpRect); mTmpRegion.set(mTmpRect); mTouchExcludeRegion.op(mTmpRegion, Op.UNION); } if (mTapDetector != null) { mTapDetector.setTouchExcludeRegion(mTouchExcludeRegion); } } @Override void switchUser() { super.switchUser(); mService.mWindowsChanged = true; } private void resetAnimationBackgroundAnimator() { for (int stackNdx = mTaskStackContainers.size() - 1; stackNdx >= 0; --stackNdx) { mTaskStackContainers.get(stackNdx).resetAnimationBackgroundAnimator(); } } boolean animateDimLayers() { return mDimLayerController.animateDimLayers(); } private void resetDimming() { mDimLayerController.resetDimming(); } boolean isDimming() { return mDimLayerController.isDimming(); } private void stopDimmingIfNeeded() { mDimLayerController.stopDimmingIfNeeded(); } @Override void removeIfPossible() { if (isAnimating()) { mDeferredRemoval = true; return; } removeImmediately(); } @Override void removeImmediately() { mRemovingDisplay = true; try { super.removeImmediately(); if (DEBUG_DISPLAY) Slog.v(TAG_WM, "Removing display=" + this); mDimLayerController.close(); if (mDisplayId == DEFAULT_DISPLAY) { mService.unregisterPointerEventListener(mTapDetector); mService.unregisterPointerEventListener(mService.mMousePositionTracker); } } finally { mRemovingDisplay = false; } } /** Returns true if a removal action is still being deferred. */ @Override boolean checkCompleteDeferredRemoval() { final boolean stillDeferringRemoval = super.checkCompleteDeferredRemoval(); if (!stillDeferringRemoval && mDeferredRemoval) { removeImmediately(); mService.onDisplayRemoved(mDisplayId); return false; } return true; } boolean animateForIme(float interpolatedValue, float animationTarget, float dividerAnimationTarget) { boolean updated = false; for (int i = mTaskStackContainers.size() - 1; i >= 0; --i) { final TaskStack stack = mTaskStackContainers.get(i); if (stack == null || !stack.isAdjustedForIme()) { continue; } if (interpolatedValue >= 1f && animationTarget == 0f && dividerAnimationTarget == 0f) { stack.resetAdjustedForIme(true /* adjustBoundsNow */); updated = true; } else { mDividerControllerLocked.mLastAnimationProgress = mDividerControllerLocked.getInterpolatedAnimationValue(interpolatedValue); mDividerControllerLocked.mLastDividerProgress = mDividerControllerLocked.getInterpolatedDividerValue(interpolatedValue); updated |= stack.updateAdjustForIme( mDividerControllerLocked.mLastAnimationProgress, mDividerControllerLocked.mLastDividerProgress, false /* force */); } if (interpolatedValue >= 1f) { stack.endImeAdjustAnimation(); } } return updated; } boolean clearImeAdjustAnimation() { boolean changed = false; for (int i = mTaskStackContainers.size() - 1; i >= 0; --i) { final TaskStack stack = mTaskStackContainers.get(i); if (stack != null && stack.isAdjustedForIme()) { stack.resetAdjustedForIme(true /* adjustBoundsNow */); changed = true; } } return changed; } void beginImeAdjustAnimation() { for (int i = mTaskStackContainers.size() - 1; i >= 0; --i) { final TaskStack stack = mTaskStackContainers.get(i); if (stack.isVisible() && stack.isAdjustedForIme()) { stack.beginImeAdjustAnimation(); } } } void adjustForImeIfNeeded() { final WindowState imeWin = mService.mInputMethodWindow; final boolean imeVisible = imeWin != null && imeWin.isVisibleLw() && imeWin.isDisplayedLw() && !mDividerControllerLocked.isImeHideRequested(); final boolean dockVisible = mService.isStackVisibleLocked(DOCKED_STACK_ID); final TaskStack imeTargetStack = mService.getImeFocusStackLocked(); final int imeDockSide = (dockVisible && imeTargetStack != null) ? imeTargetStack.getDockSide() : DOCKED_INVALID; final boolean imeOnTop = (imeDockSide == DOCKED_TOP); final boolean imeOnBottom = (imeDockSide == DOCKED_BOTTOM); final boolean dockMinimized = mDividerControllerLocked.isMinimizedDock(); final int imeHeight = mService.mPolicy.getInputMethodWindowVisibleHeightLw(); final boolean imeHeightChanged = imeVisible && imeHeight != mDividerControllerLocked.getImeHeightAdjustedFor(); // The divider could be adjusted for IME position, or be thinner than usual, // or both. There are three possible cases: // - If IME is visible, and focus is on top, divider is not moved for IME but thinner. // - If IME is visible, and focus is on bottom, divider is moved for IME and thinner. // - If IME is not visible, divider is not moved and is normal width. if (imeVisible && dockVisible && (imeOnTop || imeOnBottom) && !dockMinimized) { for (int i = mTaskStackContainers.size() - 1; i >= 0; --i) { final TaskStack stack = mTaskStackContainers.get(i); final boolean isDockedOnBottom = stack.getDockSide() == DOCKED_BOTTOM; if (stack.isVisible() && (imeOnBottom || isDockedOnBottom)) { stack.setAdjustedForIme(imeWin, imeOnBottom && imeHeightChanged); } else { stack.resetAdjustedForIme(false); } } mDividerControllerLocked.setAdjustedForIme( imeOnBottom /*ime*/, true /*divider*/, true /*animate*/, imeWin, imeHeight); } else { for (int i = mTaskStackContainers.size() - 1; i >= 0; --i) { final TaskStack stack = mTaskStackContainers.get(i); stack.resetAdjustedForIme(!dockVisible); } mDividerControllerLocked.setAdjustedForIme( false /*ime*/, false /*divider*/, dockVisible /*animate*/, imeWin, imeHeight); } mPinnedStackControllerLocked.setAdjustedForIme(imeVisible, imeHeight); } void setInputMethodAnimLayerAdjustment(int adj) { if (DEBUG_LAYERS) Slog.v(TAG_WM, "Setting im layer adj to " + adj); mInputMethodAnimLayerAdjustment = adj; mImeWindowsContainers.forAllWindows(mSetInputMethodAnimLayerAdjustment, true /* traverseTopToBottom */); } /** * If a window that has an animation specifying a colored background and the current wallpaper * is visible, then the color goes *below* the wallpaper so we don't cause the wallpaper to * suddenly disappear. */ int getLayerForAnimationBackground(WindowStateAnimator winAnimator) { final WindowState visibleWallpaper = mBelowAppWindowsContainers.getWindow( w -> w.mIsWallpaper && w.isVisibleNow()); if (visibleWallpaper != null) { return visibleWallpaper.mWinAnimator.mAnimLayer; } return winAnimator.mAnimLayer; } void prepareFreezingTaskBounds() { for (int stackNdx = mTaskStackContainers.size() - 1; stackNdx >= 0; --stackNdx) { final TaskStack stack = mTaskStackContainers.get(stackNdx); stack.prepareFreezingTaskBounds(); } } void rotateBounds(int oldRotation, int newRotation, Rect bounds) { getLogicalDisplayRect(mTmpRect, newRotation); // Compute a transform matrix to undo the coordinate space transformation, // and present the window at the same physical position it previously occupied. final int deltaRotation = deltaRotation(newRotation, oldRotation); createRotationMatrix(deltaRotation, mTmpRect.width(), mTmpRect.height(), mTmpMatrix); mTmpRectF.set(bounds); mTmpMatrix.mapRect(mTmpRectF); mTmpRectF.round(bounds); } static int deltaRotation(int oldRotation, int newRotation) { int delta = newRotation - oldRotation; if (delta < 0) delta += 4; return delta; } private static void createRotationMatrix(int rotation, float displayWidth, float displayHeight, Matrix outMatrix) { // For rotations without Z-ordering we don't need the target rectangle's position. createRotationMatrix(rotation, 0 /* rectLeft */, 0 /* rectTop */, displayWidth, displayHeight, outMatrix); } static void createRotationMatrix(int rotation, float rectLeft, float rectTop, float displayWidth, float displayHeight, Matrix outMatrix) { switch (rotation) { case ROTATION_0: outMatrix.reset(); break; case ROTATION_270: outMatrix.setRotate(270, 0, 0); outMatrix.postTranslate(0, displayHeight); outMatrix.postTranslate(rectTop, 0); break; case ROTATION_180: outMatrix.reset(); break; case ROTATION_90: outMatrix.setRotate(90, 0, 0); outMatrix.postTranslate(displayWidth, 0); outMatrix.postTranslate(-rectTop, rectLeft); break; } } public void dump(String prefix, PrintWriter pw) { pw.print(prefix); pw.print("Display: mDisplayId="); pw.println(mDisplayId); final String subPrefix = " " + prefix; pw.print(subPrefix); pw.print("init="); pw.print(mInitialDisplayWidth); pw.print("x"); pw.print(mInitialDisplayHeight); pw.print(" "); pw.print(mInitialDisplayDensity); pw.print("dpi"); if (mInitialDisplayWidth != mBaseDisplayWidth || mInitialDisplayHeight != mBaseDisplayHeight || mInitialDisplayDensity != mBaseDisplayDensity) { pw.print(" base="); pw.print(mBaseDisplayWidth); pw.print("x"); pw.print(mBaseDisplayHeight); pw.print(" "); pw.print(mBaseDisplayDensity); pw.print("dpi"); } if (mDisplayScalingDisabled) { pw.println(" noscale"); } pw.print(" cur="); pw.print(mDisplayInfo.logicalWidth); pw.print("x"); pw.print(mDisplayInfo.logicalHeight); pw.print(" app="); pw.print(mDisplayInfo.appWidth); pw.print("x"); pw.print(mDisplayInfo.appHeight); pw.print(" rng="); pw.print(mDisplayInfo.smallestNominalAppWidth); pw.print("x"); pw.print(mDisplayInfo.smallestNominalAppHeight); pw.print("-"); pw.print(mDisplayInfo.largestNominalAppWidth); pw.print("x"); pw.println(mDisplayInfo.largestNominalAppHeight); pw.println(subPrefix + "deferred=" + mDeferredRemoval + " mLayoutNeeded=" + mLayoutNeeded); pw.println(); pw.println(prefix + "Application tokens in top down Z order:"); for (int stackNdx = mTaskStackContainers.size() - 1; stackNdx >= 0; --stackNdx) { final TaskStack stack = mTaskStackContainers.get(stackNdx); stack.dump(prefix + " ", pw); } pw.println(); if (!mExitingTokens.isEmpty()) { pw.println(); pw.println(" Exiting tokens:"); for (int i = mExitingTokens.size() - 1; i >= 0; i--) { final WindowToken token = mExitingTokens.get(i); pw.print(" Exiting #"); pw.print(i); pw.print(' '); pw.print(token); pw.println(':'); token.dump(pw, " "); } } pw.println(); mDimLayerController.dump(prefix, pw); pw.println(); mDividerControllerLocked.dump(prefix, pw); pw.println(); mPinnedStackControllerLocked.dump(prefix, pw); if (mInputMethodAnimLayerAdjustment != 0) { pw.println(subPrefix + "mInputMethodAnimLayerAdjustment=" + mInputMethodAnimLayerAdjustment); } } @Override public String toString() { return "Display " + mDisplayId + " info=" + mDisplayInfo + " stacks=" + mChildren; } String getName() { return "Display " + mDisplayId + " name=\"" + mDisplayInfo.name + "\""; } /** * @return The docked stack, but only if it is visible, and {@code null} otherwise. */ TaskStack getDockedStackLocked() { final TaskStack stack = mService.mStackIdToStack.get(DOCKED_STACK_ID); return (stack != null && stack.isVisible()) ? stack : null; } /** * Like {@link #getDockedStackLocked}, but also returns the docked stack if it's currently not * visible. */ TaskStack getDockedStackIgnoringVisibility() { return mService.mStackIdToStack.get(DOCKED_STACK_ID); } /** Find the visible, touch-deliverable window under the given point */ WindowState getTouchableWinAtPointLocked(float xf, float yf) { final int x = (int) xf; final int y = (int) yf; final WindowState touchedWin = getWindow(w -> { final int flags = w.mAttrs.flags; if (!w.isVisibleLw()) { return false; } if ((flags & FLAG_NOT_TOUCHABLE) != 0) { return false; } w.getVisibleBounds(mTmpRect); if (!mTmpRect.contains(x, y)) { return false; } w.getTouchableRegion(mTmpRegion); final int touchFlags = flags & (FLAG_NOT_FOCUSABLE | FLAG_NOT_TOUCH_MODAL); return mTmpRegion.contains(x, y) || touchFlags == 0; }); return touchedWin; } boolean canAddToastWindowForUid(int uid) { // We allow one toast window per UID being shown at a time. final WindowState win = getWindow(w -> w.mAttrs.type == TYPE_TOAST && w.mOwnerUid == uid && !w.mPermanentlyHidden && !w.mWindowRemovalAllowed); return win == null; } void scheduleToastWindowsTimeoutIfNeededLocked(WindowState oldFocus, WindowState newFocus) { if (oldFocus == null || (newFocus != null && newFocus.mOwnerUid == oldFocus.mOwnerUid)) { return; } // Used to communicate the old focus to the callback method. mTmpWindow = oldFocus; forAllWindows(mScheduleToastTimeout, false /* traverseTopToBottom */); } WindowState findFocusedWindow() { mTmpWindow = null; forAllWindows(mFindFocusedWindow, true /* traverseTopToBottom */); if (mTmpWindow == null) { if (DEBUG_FOCUS_LIGHT) Slog.v(TAG_WM, "findFocusedWindow: No focusable windows."); return null; } return mTmpWindow; } /** Updates the layer assignment of windows on this display. */ void assignWindowLayers(boolean setLayoutNeeded) { mLayersController.assignWindowLayers(this); if (setLayoutNeeded) { setLayoutNeeded(); } } void layoutAndAssignWindowLayersIfNeeded() { mService.mWindowsChanged = true; setLayoutNeeded(); if (!mService.updateFocusedWindowLocked(UPDATE_FOCUS_WILL_PLACE_SURFACES, false /*updateInputWindows*/)) { assignWindowLayers(false /* setLayoutNeeded */); } mService.mInputMonitor.setUpdateInputWindowsNeededLw(); mService.mWindowPlacerLocked.performSurfacePlacement(); mService.mInputMonitor.updateInputWindowsLw(false /*force*/); } /** Returns true if a leaked surface was destroyed */ boolean destroyLeakedSurfaces() { // Used to indicate that a surface was leaked. mTmpWindow = null; forAllWindows(w -> { final WindowStateAnimator wsa = w.mWinAnimator; if (wsa.mSurfaceController == null) { return; } if (!mService.mSessions.contains(wsa.mSession)) { Slog.w(TAG_WM, "LEAKED SURFACE (session doesn't exist): " + w + " surface=" + wsa.mSurfaceController + " token=" + w.mToken + " pid=" + w.mSession.mPid + " uid=" + w.mSession.mUid); wsa.destroySurface(); mService.mForceRemoves.add(w); mTmpWindow = w; } else if (w.mAppToken != null && w.mAppToken.clientHidden) { Slog.w(TAG_WM, "LEAKED SURFACE (app token hidden): " + w + " surface=" + wsa.mSurfaceController + " token=" + w.mAppToken + " saved=" + w.hasSavedSurface()); if (SHOW_TRANSACTIONS) logSurface(w, "LEAK DESTROY", false); wsa.destroySurface(); mTmpWindow = w; } }, false /* traverseTopToBottom */); return mTmpWindow != null; } /** * Determine and return the window that should be the IME target. * @param updateImeTarget If true the system IME target will be updated to match what we found. * @return The window that should be used as the IME target or null if there isn't any. */ WindowState computeImeTarget(boolean updateImeTarget) { if (mService.mInputMethodWindow == null) { // There isn't an IME so there shouldn't be a target...That was easy! if (updateImeTarget) { if (DEBUG_INPUT_METHOD) Slog.w(TAG_WM, "Moving IM target from " + mService.mInputMethodTarget + " to null since mInputMethodWindow is null"); setInputMethodTarget(null, mService.mInputMethodTargetWaitingAnim, 0); } return null; } // TODO(multidisplay): Needs some serious rethought when the target and IME are not on the // same display. Or even when the current IME/target are not on the same screen as the next // IME/target. For now only look for input windows on the main screen. mUpdateImeTarget = updateImeTarget; WindowState target = getWindow(mComputeImeTargetPredicate); // Yet more tricksyness! If this window is a "starting" window, we do actually want // to be on top of it, but it is not -really- where input will go. So look down below // for a real window to target... if (target != null && target.mAttrs.type == TYPE_APPLICATION_STARTING) { final AppWindowToken token = target.mAppToken; if (token != null) { final WindowState betterTarget = token.getImeTargetBelowWindow(target); if (betterTarget != null) { target = betterTarget; } } } if (DEBUG_INPUT_METHOD && updateImeTarget) Slog.v(TAG_WM, "Proposed new IME target: " + target); // Now, a special case -- if the last target's window is in the process of exiting, and is // above the new target, keep on the last target to avoid flicker. Consider for example a // Dialog with the IME shown: when the Dialog is dismissed, we want to keep the IME above it // until it is completely gone so it doesn't drop behind the dialog or its full-screen // scrim. final WindowState curTarget = mService.mInputMethodTarget; if (curTarget != null && curTarget.isDisplayedLw() && curTarget.isClosing() && (target == null || curTarget.mWinAnimator.mAnimLayer > target.mWinAnimator.mAnimLayer)) { if (DEBUG_INPUT_METHOD) Slog.v(TAG_WM, "Current target higher, not changing"); return curTarget; } if (DEBUG_INPUT_METHOD) Slog.v(TAG_WM, "Desired input method target=" + target + " updateImeTarget=" + updateImeTarget); if (target == null) { if (updateImeTarget) { if (DEBUG_INPUT_METHOD) Slog.w(TAG_WM, "Moving IM target from " + curTarget + " to null." + (SHOW_STACK_CRAWLS ? " Callers=" + Debug.getCallers(4) : "")); setInputMethodTarget(null, mService.mInputMethodTargetWaitingAnim, 0); } return null; } if (updateImeTarget) { AppWindowToken token = curTarget == null ? null : curTarget.mAppToken; if (token != null) { // Now some fun for dealing with window animations that modify the Z order. We need // to look at all windows below the current target that are in this app, finding the // highest visible one in layering. WindowState highestTarget = null; if (token.mAppAnimator.animating || token.mAppAnimator.animation != null) { highestTarget = token.getHighestAnimLayerWindow(curTarget); } if (highestTarget != null) { final AppTransition appTransition = mService.mAppTransition; if (DEBUG_INPUT_METHOD) Slog.v(TAG_WM, appTransition + " " + highestTarget + " animating=" + highestTarget.mWinAnimator.isAnimationSet() + " layer=" + highestTarget.mWinAnimator.mAnimLayer + " new layer=" + target.mWinAnimator.mAnimLayer); if (appTransition.isTransitionSet()) { // If we are currently setting up for an animation, hold everything until we // can find out what will happen. setInputMethodTarget(highestTarget, true, mInputMethodAnimLayerAdjustment); return highestTarget; } else if (highestTarget.mWinAnimator.isAnimationSet() && highestTarget.mWinAnimator.mAnimLayer > target.mWinAnimator.mAnimLayer) { // If the window we are currently targeting is involved with an animation, // and it is on top of the next target we will be over, then hold off on // moving until that is done. setInputMethodTarget(highestTarget, true, mInputMethodAnimLayerAdjustment); return highestTarget; } } } if (DEBUG_INPUT_METHOD) Slog.w(TAG_WM, "Moving IM target from " + curTarget + " to " + target + (SHOW_STACK_CRAWLS ? " Callers=" + Debug.getCallers(4) : "")); setInputMethodTarget(target, false, target.mAppToken != null ? target.mAppToken.mAppAnimator.animLayerAdjustment : 0); } return target; } private void setInputMethodTarget(WindowState target, boolean targetWaitingAnim, int layerAdj) { if (target == mService.mInputMethodTarget && mService.mInputMethodTargetWaitingAnim == targetWaitingAnim && mInputMethodAnimLayerAdjustment == layerAdj) { return; } mService.mInputMethodTarget = target; mService.mInputMethodTargetWaitingAnim = targetWaitingAnim; setInputMethodAnimLayerAdjustment(layerAdj); assignWindowLayers(false /* setLayoutNeeded */); } boolean getNeedsMenu(WindowState top, WindowManagerPolicy.WindowState bottom) { if (top.mAttrs.needsMenuKey != NEEDS_MENU_UNSET) { return top.mAttrs.needsMenuKey == NEEDS_MENU_SET_TRUE; } // Used to indicate we have reached the first window in the range we are interested in. mTmpWindow = null; // TODO: Figure-out a more efficient way to do this. final WindowState candidate = getWindow(w -> { if (w == top) { // Reached the first window in the range we are interested in. mTmpWindow = w; } if (mTmpWindow == null) { return false; } if (w.mAttrs.needsMenuKey != NEEDS_MENU_UNSET) { return true; } // If we reached the bottom of the range of windows we are considering, // assume no menu is needed. if (w == bottom) { return true; } return false; }); return candidate != null && candidate.mAttrs.needsMenuKey == NEEDS_MENU_SET_TRUE; } void setLayoutNeeded() { if (DEBUG_LAYOUT) Slog.w(TAG_WM, "setLayoutNeeded: callers=" + Debug.getCallers(3)); mLayoutNeeded = true; } private void clearLayoutNeeded() { if (DEBUG_LAYOUT) Slog.w(TAG_WM, "clearLayoutNeeded: callers=" + Debug.getCallers(3)); mLayoutNeeded = false; } boolean isLayoutNeeded() { return mLayoutNeeded; } void dumpTokens(PrintWriter pw, boolean dumpAll) { if (mTokenMap.isEmpty()) { return; } pw.println(" Display #" + mDisplayId); final Iterator it = mTokenMap.values().iterator(); while (it.hasNext()) { final WindowToken token = it.next(); pw.print(" "); pw.print(token); if (dumpAll) { pw.println(':'); token.dump(pw, " "); } else { pw.println(); } } } void dumpWindowAnimators(PrintWriter pw, String subPrefix) { final int[] index = new int[1]; forAllWindows(w -> { final WindowStateAnimator wAnim = w.mWinAnimator; pw.println(subPrefix + "Window #" + index[0] + ": " + wAnim); index[0] = index[0] + 1; }, false /* traverseTopToBottom */); } void enableSurfaceTrace(FileDescriptor fd) { forAllWindows(w -> { w.mWinAnimator.enableSurfaceTrace(fd); }, true /* traverseTopToBottom */); } void disableSurfaceTrace() { forAllWindows(w -> { w.mWinAnimator.disableSurfaceTrace(); }, true /* traverseTopToBottom */); } /** * Starts the Keyguard exit animation on all windows that don't belong to an app token. */ void startKeyguardExitOnNonAppWindows(boolean onWallpaper, boolean goingToShade) { final WindowManagerPolicy policy = mService.mPolicy; forAllWindows(w -> { if (w.mAppToken == null && policy.canBeHiddenByKeyguardLw(w)) { w.mWinAnimator.setAnimation( policy.createHiddenByKeyguardExit(onWallpaper, goingToShade)); } }, true /* traverseTopToBottom */); } boolean checkWaitingForWindows() { mHaveBootMsg = false; mHaveApp = false; mHaveWallpaper = false; mHaveKeyguard = true; final WindowState visibleWindow = getWindow(w -> { if (w.isVisibleLw() && !w.mObscured && !w.isDrawnLw()) { return true; } if (w.isDrawnLw()) { if (w.mAttrs.type == TYPE_BOOT_PROGRESS) { mHaveBootMsg = true; } else if (w.mAttrs.type == TYPE_APPLICATION || w.mAttrs.type == TYPE_DRAWN_APPLICATION) { mHaveApp = true; } else if (w.mAttrs.type == TYPE_WALLPAPER) { mHaveWallpaper = true; } else if (w.mAttrs.type == TYPE_STATUS_BAR) { mHaveKeyguard = mService.mPolicy.isKeyguardDrawnLw(); } } return false; }); if (visibleWindow != null) { // We have a visible window. return true; } // if the wallpaper service is disabled on the device, we're never going to have // wallpaper, don't bother waiting for it boolean wallpaperEnabled = mService.mContext.getResources().getBoolean( com.android.internal.R.bool.config_enableWallpaperService) && !mService.mOnlyCore; if (DEBUG_SCREEN_ON || DEBUG_BOOT) Slog.i(TAG_WM, "******** booted=" + mService.mSystemBooted + " msg=" + mService.mShowingBootMessages + " haveBoot=" + mHaveBootMsg + " haveApp=" + mHaveApp + " haveWall=" + mHaveWallpaper + " wallEnabled=" + wallpaperEnabled + " haveKeyguard=" + mHaveKeyguard); // If we are turning on the screen to show the boot message, don't do it until the boot // message is actually displayed. if (!mService.mSystemBooted && !mHaveBootMsg) { return true; } // If we are turning on the screen after the boot is completed normally, don't do so until // we have the application and wallpaper. if (mService.mSystemBooted && ((!mHaveApp && !mHaveKeyguard) || (wallpaperEnabled && !mHaveWallpaper))) { return true; } return false; } void updateWindowsForAnimator(WindowAnimator animator) { mTmpWindowAnimator = animator; forAllWindows(mUpdateWindowsForAnimator, true /* traverseTopToBottom */); } void updateWallpaperForAnimator(WindowAnimator animator) { resetAnimationBackgroundAnimator(); // Used to indicate a detached wallpaper. mTmpWindow = null; mTmpWindowAnimator = animator; forAllWindows(mUpdateWallpaperForAnimator, true /* traverseTopToBottom */); if (animator.mWindowDetachedWallpaper != mTmpWindow) { if (DEBUG_WALLPAPER) Slog.v(TAG, "Detached wallpaper changed from " + animator.mWindowDetachedWallpaper + " to " + mTmpWindow); animator.mWindowDetachedWallpaper = mTmpWindow; animator.mBulkUpdateParams |= SET_WALLPAPER_MAY_CHANGE; } } void prepareWindowSurfaces() { forAllWindows(mPrepareWindowSurfaces, false /* traverseTopToBottom */); } boolean inputMethodClientHasFocus(IInputMethodClient client) { final WindowState imFocus = computeImeTarget(false /* updateImeTarget */); if (imFocus == null) { return false; } if (DEBUG_INPUT_METHOD) { Slog.i(TAG_WM, "Desired input method target: " + imFocus); Slog.i(TAG_WM, "Current focus: " + mService.mCurrentFocus); Slog.i(TAG_WM, "Last focus: " + mService.mLastFocus); } final IInputMethodClient imeClient = imFocus.mSession.mClient; if (DEBUG_INPUT_METHOD) { Slog.i(TAG_WM, "IM target client: " + imeClient); if (imeClient != null) { Slog.i(TAG_WM, "IM target client binder: " + imeClient.asBinder()); Slog.i(TAG_WM, "Requesting client binder: " + client.asBinder()); } } return imeClient != null && imeClient.asBinder() == client.asBinder(); } boolean hasSecureWindowOnScreen() { final WindowState win = getWindow( w -> w.isOnScreen() && (w.mAttrs.flags & FLAG_SECURE) != 0); return win != null; } void updateSystemUiVisibility(int visibility, int globalDiff) { forAllWindows(w -> { try { final int curValue = w.mSystemUiVisibility; final int diff = (curValue ^ visibility) & globalDiff; final int newValue = (curValue & ~diff) | (visibility & diff); if (newValue != curValue) { w.mSeq++; w.mSystemUiVisibility = newValue; } if (newValue != curValue || w.mAttrs.hasSystemUiListeners) { w.mClient.dispatchSystemUiVisibilityChanged(w.mSeq, visibility, newValue, diff); } } catch (RemoteException e) { // so sorry } }, true /* traverseTopToBottom */); } void onWindowFreezeTimeout() { Slog.w(TAG_WM, "Window freeze timeout expired."); mService.mWindowsFreezingScreen = WINDOWS_FREEZING_SCREENS_TIMEOUT; forAllWindows(w -> { if (!w.mOrientationChanging) { return; } w.mOrientationChanging = false; w.mLastFreezeDuration = (int)(SystemClock.elapsedRealtime() - mService.mDisplayFreezeTime); Slog.w(TAG_WM, "Force clearing orientation change: " + w); }, true /* traverseTopToBottom */); mService.mWindowPlacerLocked.performSurfacePlacement(); } void waitForAllWindowsDrawn() { final WindowManagerPolicy policy = mService.mPolicy; forAllWindows(w -> { final boolean keyguard = policy.isKeyguardHostWindow(w.mAttrs); if (w.isVisibleLw() && (w.mAppToken != null || keyguard)) { w.mWinAnimator.mDrawState = DRAW_PENDING; // Force add to mResizingWindows. w.mLastContentInsets.set(-1, -1, -1, -1); mService.mWaitingForDrawn.add(w); } }, true /* traverseTopToBottom */); } // TODO: Super crazy long method that should be broken down... boolean applySurfaceChangesTransaction(boolean recoveringMemory) { final int dw = mDisplayInfo.logicalWidth; final int dh = mDisplayInfo.logicalHeight; final WindowSurfacePlacer surfacePlacer = mService.mWindowPlacerLocked; mTmpUpdateAllDrawn.clear(); int repeats = 0; do { repeats++; if (repeats > 6) { Slog.w(TAG, "Animation repeat aborted after too many iterations"); clearLayoutNeeded(); break; } if (DEBUG_LAYOUT_REPEATS) surfacePlacer.debugLayoutRepeats("On entry to LockedInner", pendingLayoutChanges); // TODO(multi-display): For now adjusting wallpaper only on primary display to avoid // the wallpaper window jumping across displays. // Remove check for default display when there will be support for multiple wallpaper // targets (on different displays). if (isDefaultDisplay && (pendingLayoutChanges & FINISH_LAYOUT_REDO_WALLPAPER) != 0) { mWallpaperController.adjustWallpaperWindows(this); } if (isDefaultDisplay && (pendingLayoutChanges & FINISH_LAYOUT_REDO_CONFIG) != 0) { if (DEBUG_LAYOUT) Slog.v(TAG, "Computing new config from layout"); if (mService.updateOrientationFromAppTokensLocked(true, mDisplayId)) { setLayoutNeeded(); mService.mH.obtainMessage(SEND_NEW_CONFIGURATION, mDisplayId).sendToTarget(); } } if ((pendingLayoutChanges & FINISH_LAYOUT_REDO_LAYOUT) != 0) { setLayoutNeeded(); } // FIRST LOOP: Perform a layout, if needed. if (repeats < LAYOUT_REPEAT_THRESHOLD) { performLayout(repeats == 1, false /* updateInputWindows */); } else { Slog.w(TAG, "Layout repeat skipped after too many iterations"); } // FIRST AND ONE HALF LOOP: Make WindowManagerPolicy think it is animating. pendingLayoutChanges = 0; if (isDefaultDisplay) { mService.mPolicy.beginPostLayoutPolicyLw(dw, dh); forAllWindows(mApplyPostLayoutPolicy, true /* traverseTopToBottom */); pendingLayoutChanges |= mService.mPolicy.finishPostLayoutPolicyLw(); if (DEBUG_LAYOUT_REPEATS) surfacePlacer.debugLayoutRepeats( "after finishPostLayoutPolicyLw", pendingLayoutChanges); } } while (pendingLayoutChanges != 0); mTmpApplySurfaceChangesTransactionState.reset(); resetDimming(); mTmpRecoveringMemory = recoveringMemory; forAllWindows(mApplySurfaceChangesTransaction, true /* traverseTopToBottom */); mService.mDisplayManagerInternal.setDisplayProperties(mDisplayId, mTmpApplySurfaceChangesTransactionState.displayHasContent, mTmpApplySurfaceChangesTransactionState.preferredRefreshRate, mTmpApplySurfaceChangesTransactionState.preferredModeId, true /* inTraversal, must call performTraversalInTrans... below */); stopDimmingIfNeeded(); while (!mTmpUpdateAllDrawn.isEmpty()) { final AppWindowToken atoken = mTmpUpdateAllDrawn.removeLast(); // See if any windows have been drawn, so they (and others associated with them) // can now be shown. atoken.updateAllDrawn(this); } return mTmpApplySurfaceChangesTransactionState.focusDisplayed; } void performLayout(boolean initial, boolean updateInputWindows) { if (!isLayoutNeeded()) { return; } clearLayoutNeeded(); final int dw = mDisplayInfo.logicalWidth; final int dh = mDisplayInfo.logicalHeight; if (DEBUG_LAYOUT) { Slog.v(TAG, "-------------------------------------"); Slog.v(TAG, "performLayout: needed=" + isLayoutNeeded() + " dw=" + dw + " dh=" + dh); } mService.mPolicy.beginLayoutLw(isDefaultDisplay, dw, dh, mService.mRotation, getConfiguration().uiMode); if (isDefaultDisplay) { // Not needed on non-default displays. mService.mSystemDecorLayer = mService.mPolicy.getSystemDecorLayerLw(); mService.mScreenRect.set(0, 0, dw, dh); } mService.mPolicy.getContentRectLw(mContentRect); int seq = mService.mLayoutSeq + 1; if (seq < 0) seq = 0; mService.mLayoutSeq = seq; // Used to indicate that we have processed the dream window and all additional windows are // behind it. mTmpWindow = null; mTmpInitial = initial; // First perform layout of any root windows (not attached to another window). forAllWindows(mPerformLayout, true /* traverseTopToBottom */); // Used to indicate that we have processed the dream window and all additional attached // windows are behind it. mTmpWindow2 = mTmpWindow; mTmpWindow = null; // Now perform layout of attached windows, which usually depend on the position of the // window they are attached to. XXX does not deal with windows that are attached to windows // that are themselves attached. forAllWindows(mPerformLayoutAttached, true /* traverseTopToBottom */); // Window frames may have changed. Tell the input dispatcher about it. mService.mInputMonitor.layoutInputConsumers(dw, dh); mService.mInputMonitor.setUpdateInputWindowsNeededLw(); if (updateInputWindows) { mService.mInputMonitor.updateInputWindowsLw(false /*force*/); } mService.mPolicy.finishLayoutLw(); mService.mH.sendEmptyMessage(UPDATE_DOCKED_STACK_DIVIDER); } /** * Takes a snapshot of the display. In landscape mode this grabs the whole screen. * In portrait mode, it grabs the full screenshot. * * @param width the width of the target bitmap * @param height the height of the target bitmap * @param includeFullDisplay true if the screen should not be cropped before capture * @param frameScale the scale to apply to the frame, only used when width = -1 and height = -1 * @param config of the output bitmap * @param wallpaperOnly true if only the wallpaper layer should be included in the screenshot */ Bitmap screenshotApplications(IBinder appToken, int width, int height, boolean includeFullDisplay, float frameScale, Bitmap.Config config, boolean wallpaperOnly) { int dw = mDisplayInfo.logicalWidth; int dh = mDisplayInfo.logicalHeight; if (dw == 0 || dh == 0) { if (DEBUG_SCREENSHOT) Slog.i(TAG_WM, "Screenshot of " + appToken + ": returning null. logical widthxheight=" + dw + "x" + dh); return null; } Bitmap bm = null; mScreenshotApplicationState.reset(appToken == null && !wallpaperOnly); final Rect frame = new Rect(); final Rect stackBounds = new Rect(); boolean includeImeInScreenshot; synchronized(mService.mWindowMap) { final AppWindowToken imeTargetAppToken = mService.mInputMethodTarget != null ? mService.mInputMethodTarget.mAppToken : null; // We only include the Ime in the screenshot if the app we are screenshoting is the IME // target and isn't in multi-window mode. We don't screenshot the IME in multi-window // mode because the frame of the IME might not overlap with that of the app. // E.g. IME target app at the top in split-screen mode and the IME at the bottom // overlapping with the bottom app. includeImeInScreenshot = imeTargetAppToken != null && imeTargetAppToken.appToken != null && imeTargetAppToken.appToken.asBinder() == appToken && !mService.mInputMethodTarget.isInMultiWindowMode(); } final int aboveAppLayer = (mService.mPolicy.windowTypeToLayerLw(TYPE_APPLICATION) + 1) * TYPE_LAYER_MULTIPLIER + TYPE_LAYER_OFFSET; synchronized(mService.mWindowMap) { // Figure out the part of the screen that is actually the app. mScreenshotApplicationState.appWin = null; forAllWindows(w -> { if (!w.mHasSurface) { return false; } if (w.mLayer >= aboveAppLayer) { return false; } if (wallpaperOnly && !w.mIsWallpaper) { return false; } if (w.mIsImWindow) { if (!includeImeInScreenshot) { return false; } } else if (w.mIsWallpaper) { // If this is the wallpaper layer and we're only looking for the wallpaper layer // then the target window state is this one. if (wallpaperOnly) { mScreenshotApplicationState.appWin = w; } if (mScreenshotApplicationState.appWin == null) { // We have not ran across the target window yet, so it is probably behind // the wallpaper. This can happen when the keyguard is up and all windows // are moved behind the wallpaper. We don't want to include the wallpaper // layer in the screenshot as it will cover-up the layer of the target // window. return false; } // Fall through. The target window is in front of the wallpaper. For this // case we want to include the wallpaper layer in the screenshot because // the target window might have some transparent areas. } else if (appToken != null) { if (w.mAppToken == null || w.mAppToken.token != appToken) { // This app window is of no interest if it is not associated with the // screenshot app. return false; } mScreenshotApplicationState.appWin = w; } // Include this window. final WindowStateAnimator winAnim = w.mWinAnimator; int layer = winAnim.mSurfaceController.getLayer(); if (mScreenshotApplicationState.maxLayer < layer) { mScreenshotApplicationState.maxLayer = layer; } if (mScreenshotApplicationState.minLayer > layer) { mScreenshotApplicationState.minLayer = layer; } // Don't include wallpaper in bounds calculation if (!includeFullDisplay && !w.mIsWallpaper) { final Rect wf = w.mFrame; final Rect cr = w.mContentInsets; int left = wf.left + cr.left; int top = wf.top + cr.top; int right = wf.right - cr.right; int bottom = wf.bottom - cr.bottom; frame.union(left, top, right, bottom); w.getVisibleBounds(stackBounds); if (!Rect.intersects(frame, stackBounds)) { // Set frame empty if there's no intersection. frame.setEmpty(); } } final boolean foundTargetWs = (w.mAppToken != null && w.mAppToken.token == appToken) || (mScreenshotApplicationState.appWin != null && wallpaperOnly); if (foundTargetWs && w.isDisplayedLw() && winAnim.getShown()) { mScreenshotApplicationState.screenshotReady = true; } if (w.isObscuringDisplay()){ return true; } return false; }, true /* traverseTopToBottom */); final WindowState appWin = mScreenshotApplicationState.appWin; final boolean screenshotReady = mScreenshotApplicationState.screenshotReady; final int maxLayer = mScreenshotApplicationState.maxLayer; final int minLayer = mScreenshotApplicationState.minLayer; if (appToken != null && appWin == null) { // Can't find a window to snapshot. if (DEBUG_SCREENSHOT) Slog.i(TAG_WM, "Screenshot: Couldn't find a surface matching " + appToken); return null; } if (!screenshotReady) { Slog.i(TAG_WM, "Failed to capture screenshot of " + appToken + " appWin=" + (appWin == null ? "null" : (appWin + " drawState=" + appWin.mWinAnimator.mDrawState))); return null; } // Screenshot is ready to be taken. Everything from here below will continue // through the bottom of the loop and return a value. We only stay in the loop // because we don't want to release the mWindowMap lock until the screenshot is // taken. if (maxLayer == 0) { if (DEBUG_SCREENSHOT) Slog.i(TAG_WM, "Screenshot of " + appToken + ": returning null maxLayer=" + maxLayer); return null; } if (!includeFullDisplay) { // Constrain frame to the screen size. if (!frame.intersect(0, 0, dw, dh)) { frame.setEmpty(); } } else { // Caller just wants entire display. frame.set(0, 0, dw, dh); } if (frame.isEmpty()) { return null; } if (width < 0) { width = (int) (frame.width() * frameScale); } if (height < 0) { height = (int) (frame.height() * frameScale); } // Tell surface flinger what part of the image to crop. Take the top // right part of the application, and crop the larger dimension to fit. Rect crop = new Rect(frame); if (width / (float) frame.width() < height / (float) frame.height()) { int cropWidth = (int)((float)width / (float)height * frame.height()); crop.right = crop.left + cropWidth; } else { int cropHeight = (int)((float)height / (float)width * frame.width()); crop.bottom = crop.top + cropHeight; } // The screenshot API does not apply the current screen rotation. int rot = mDisplay.getRotation(); if (rot == ROTATION_90 || rot == ROTATION_270) { rot = (rot == ROTATION_90) ? ROTATION_270 : ROTATION_90; } // Surfaceflinger is not aware of orientation, so convert our logical // crop to surfaceflinger's portrait orientation. convertCropForSurfaceFlinger(crop, rot, dw, dh); if (DEBUG_SCREENSHOT) { Slog.i(TAG_WM, "Screenshot: " + dw + "x" + dh + " from " + minLayer + " to " + maxLayer + " appToken=" + appToken); forAllWindows(w -> { final WindowSurfaceController controller = w.mWinAnimator.mSurfaceController; Slog.i(TAG_WM, w + ": " + w.mLayer + " animLayer=" + w.mWinAnimator.mAnimLayer + " surfaceLayer=" + ((controller == null) ? "null" : controller.getLayer())); }, false /* traverseTopToBottom */); } final ScreenRotationAnimation screenRotationAnimation = mService.mAnimator.getScreenRotationAnimationLocked(DEFAULT_DISPLAY); final boolean inRotation = screenRotationAnimation != null && screenRotationAnimation.isAnimating(); if (DEBUG_SCREENSHOT && inRotation) Slog.v(TAG_WM, "Taking screenshot while rotating"); // We force pending transactions to flush before taking // the screenshot by pushing an empty synchronous transaction. SurfaceControl.openTransaction(); SurfaceControl.closeTransactionSync(); bm = SurfaceControl.screenshot(crop, width, height, minLayer, maxLayer, inRotation, rot); if (bm == null) { Slog.w(TAG_WM, "Screenshot failure taking screenshot for (" + dw + "x" + dh + ") to layer " + maxLayer); return null; } } if (DEBUG_SCREENSHOT) { // TEST IF IT's ALL BLACK int[] buffer = new int[bm.getWidth() * bm.getHeight()]; bm.getPixels(buffer, 0, bm.getWidth(), 0, 0, bm.getWidth(), bm.getHeight()); boolean allBlack = true; final int firstColor = buffer[0]; for (int i = 0; i < buffer.length; i++) { if (buffer[i] != firstColor) { allBlack = false; break; } } if (allBlack) { final WindowState appWin = mScreenshotApplicationState.appWin; final int maxLayer = mScreenshotApplicationState.maxLayer; final int minLayer = mScreenshotApplicationState.minLayer; Slog.i(TAG_WM, "Screenshot " + appWin + " was monochrome(" + Integer.toHexString(firstColor) + ")! mSurfaceLayer=" + (appWin != null ? appWin.mWinAnimator.mSurfaceController.getLayer() : "null") + " minLayer=" + minLayer + " maxLayer=" + maxLayer); } } // Create a copy of the screenshot that is immutable and backed in ashmem. // This greatly reduces the overhead of passing the bitmap between processes. Bitmap ret = bm.createAshmemBitmap(config); bm.recycle(); return ret; } // TODO: Can this use createRotationMatrix()? private static void convertCropForSurfaceFlinger(Rect crop, int rot, int dw, int dh) { if (rot == Surface.ROTATION_90) { final int tmp = crop.top; crop.top = dw - crop.right; crop.right = crop.bottom; crop.bottom = dw - crop.left; crop.left = tmp; } else if (rot == Surface.ROTATION_180) { int tmp = crop.top; crop.top = dh - crop.bottom; crop.bottom = dh - tmp; tmp = crop.right; crop.right = dw - crop.left; crop.left = dw - tmp; } else if (rot == Surface.ROTATION_270) { final int tmp = crop.top; crop.top = crop.left; crop.left = dh - crop.bottom; crop.bottom = crop.right; crop.right = dh - tmp; } } void onSeamlessRotationTimeout() { // Used to indicate the layout is needed. mTmpWindow = null; forAllWindows(w -> { if (!w.mSeamlesslyRotated) { return; } mTmpWindow = w; w.setDisplayLayoutNeeded(); mService.markForSeamlessRotation(w, false); }, true /* traverseTopToBottom */); if (mTmpWindow != null) { mService.mWindowPlacerLocked.performSurfacePlacement(); } } static final class TaskForResizePointSearchResult { boolean searchDone; Task taskForResize; void reset() { searchDone = false; taskForResize = null; } } private static final class ApplySurfaceChangesTransactionState { boolean displayHasContent; boolean obscured; boolean syswin; boolean focusDisplayed; float preferredRefreshRate; int preferredModeId; void reset() { displayHasContent = false; obscured = false; syswin = false; focusDisplayed = false; preferredRefreshRate = 0; preferredModeId = 0; } } private static final class ScreenshotApplicationState { WindowState appWin; int maxLayer; int minLayer; boolean screenshotReady; void reset(boolean screenshotReady) { appWin = null; maxLayer = 0; minLayer = 0; this.screenshotReady = screenshotReady; minLayer = (screenshotReady) ? 0 : Integer.MAX_VALUE; } } /** * Base class for any direct child window container of {@link #DisplayContent} need to inherit * from. This is mainly a pass through class that allows {@link #DisplayContent} to have * homogeneous children type which is currently required by sub-classes of * {@link WindowContainer} class. */ static class DisplayChildWindowContainer extends WindowContainer { int size() { return mChildren.size(); } E get(int index) { return mChildren.get(index); } @Override boolean fillsParent() { return true; } @Override boolean isVisible() { return true; } } /** * Window container class that contains all containers on this display relating to Apps. * I.e Activities. */ private final class TaskStackContainers extends DisplayChildWindowContainer { /** * Adds the stack to this container. * @see WindowManagerService#addStackToDisplay(int, int, boolean) */ void addStackToDisplay(TaskStack stack, boolean onTop) { if (stack.mStackId == HOME_STACK_ID) { if (mHomeStack != null) { throw new IllegalArgumentException("attachStack: HOME_STACK_ID (0) not first."); } mHomeStack = stack; } addChild(stack, onTop); stack.onDisplayChanged(DisplayContent.this); } /** Removes the stack from its container and prepare for changing the parent. */ void removeStackFromDisplay(TaskStack stack) { removeChild(stack); stack.onRemovedFromDisplay(); } void moveStack(TaskStack stack, boolean toTop) { if (StackId.isAlwaysOnTop(stack.mStackId) && !toTop) { // This stack is always-on-top silly... Slog.w(TAG_WM, "Ignoring move of always-on-top stack=" + stack + " to bottom"); return; } if (!mChildren.contains(stack)) { Slog.wtf(TAG_WM, "moving stack that was not added: " + stack, new Throwable()); } removeChild(stack); addChild(stack, toTop); } private void addChild(TaskStack stack, boolean toTop) { int addIndex = toTop ? mChildren.size() : 0; if (toTop && mService.isStackVisibleLocked(PINNED_STACK_ID) && stack.mStackId != PINNED_STACK_ID) { // The pinned stack is always the top most stack (always-on-top) when it is visible. // So, stack is moved just below the pinned stack. addIndex--; TaskStack topStack = mChildren.get(addIndex); if (topStack.mStackId != PINNED_STACK_ID) { throw new IllegalStateException("Pinned stack isn't top stack??? " + mChildren); } } addChild(stack, addIndex); setLayoutNeeded(); } @Override boolean forAllWindows(ToBooleanFunction callback, boolean traverseTopToBottom) { if (traverseTopToBottom) { if (super.forAllWindows(callback, traverseTopToBottom)) { return true; } if (forAllExitingAppTokenWindows(callback, traverseTopToBottom)) { return true; } } else { if (forAllExitingAppTokenWindows(callback, traverseTopToBottom)) { return true; } if (super.forAllWindows(callback, traverseTopToBottom)) { return true; } } return false; } private boolean forAllExitingAppTokenWindows(ToBooleanFunction callback, boolean traverseTopToBottom) { // For legacy reasons we process the TaskStack.mExitingAppTokens first here before the // app tokens. // TODO: Investigate if we need to continue to do this or if we can just process them // in-order. if (traverseTopToBottom) { for (int i = mChildren.size() - 1; i >= 0; --i) { final AppTokenList appTokens = mChildren.get(i).mExitingAppTokens; for (int j = appTokens.size() - 1; j >= 0; --j) { if (appTokens.get(j).forAllWindowsUnchecked(callback, traverseTopToBottom)) { return true; } } } } else { final int count = mChildren.size(); for (int i = 0; i < count; ++i) { final AppTokenList appTokens = mChildren.get(i).mExitingAppTokens; final int appTokensCount = appTokens.size(); for (int j = 0; j < appTokensCount; j++) { if (appTokens.get(j).forAllWindowsUnchecked(callback, traverseTopToBottom)) { return true; } } } } return false; } @Override int getOrientation() { if (mService.isStackVisibleLocked(DOCKED_STACK_ID) || mService.isStackVisibleLocked(FREEFORM_WORKSPACE_STACK_ID)) { // Apps and their containers are not allowed to specify an orientation while the // docked or freeform stack is visible...except for the home stack/task if the // docked stack is minimized and it actually set something. if (mHomeStack != null && mHomeStack.isVisible() && mDividerControllerLocked.isMinimizedDock()) { final int orientation = mHomeStack.getOrientation(); if (orientation != SCREEN_ORIENTATION_UNSET) { return orientation; } } return SCREEN_ORIENTATION_UNSPECIFIED; } final int orientation = super.getOrientation(); if (orientation != SCREEN_ORIENTATION_UNSET && orientation != SCREEN_ORIENTATION_BEHIND) { if (DEBUG_ORIENTATION) Slog.v(TAG_WM, "App is requesting an orientation, return " + orientation); return orientation; } if (DEBUG_ORIENTATION) Slog.v(TAG_WM, "No app is requesting an orientation, return " + mService.mLastOrientation); // The next app has not been requested to be visible, so we keep the current orientation // to prevent freezing/unfreezing the display too early. return mService.mLastOrientation; } } /** * Window container class that contains all containers on this display that are not related to * Apps. E.g. status bar. */ private final class NonAppWindowContainers extends DisplayChildWindowContainer { /** * Compares two child window tokens returns -1 if the first is lesser than the second in * terms of z-order and 1 otherwise. */ private final Comparator mWindowComparator = (token1, token2) -> // Tokens with higher base layer are z-ordered on-top. mService.mPolicy.windowTypeToLayerLw(token1.windowType) < mService.mPolicy.windowTypeToLayerLw(token2.windowType) ? -1 : 1; private final Predicate mGetOrientingWindow = w -> { if (!w.isVisibleLw() || !w.mPolicyVisibilityAfterAnim) { return false; } final int req = w.mAttrs.screenOrientation; if(req == SCREEN_ORIENTATION_UNSPECIFIED || req == SCREEN_ORIENTATION_BEHIND || req == SCREEN_ORIENTATION_UNSET) { return false; } return true; }; private final String mName; NonAppWindowContainers(String name) { mName = name; } void addChild(WindowToken token) { addChild(token, mWindowComparator); } @Override int getOrientation() { final WindowManagerPolicy policy = mService.mPolicy; // Find a window requesting orientation. final WindowState win = getWindow(mGetOrientingWindow); if (win != null) { final int req = win.mAttrs.screenOrientation; if (DEBUG_ORIENTATION) Slog.v(TAG_WM, win + " forcing orientation to " + req); if (policy.isKeyguardHostWindow(win.mAttrs)) { mService.mLastKeyguardForcedOrientation = req; } return (mService.mLastWindowForcedOrientation = req); } mService.mLastWindowForcedOrientation = SCREEN_ORIENTATION_UNSPECIFIED; if (policy.isKeyguardShowingAndNotOccluded()) { return mService.mLastKeyguardForcedOrientation; } return SCREEN_ORIENTATION_UNSET; } @Override String getName() { return mName; } } }