| /* |
| * Copyright (C) 2016 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.WindowConfiguration.ACTIVITY_TYPE_HOME; |
| import static android.app.WindowConfiguration.ACTIVITY_TYPE_STANDARD; |
| import static android.app.WindowConfiguration.WINDOWING_MODE_FREEFORM; |
| import static android.app.WindowConfiguration.WINDOWING_MODE_FULLSCREEN; |
| import static android.app.WindowConfiguration.WINDOWING_MODE_PINNED; |
| import static android.content.pm.ActivityInfo.FLAG_SHOW_WHEN_LOCKED; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_BEHIND; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_LANDSCAPE; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_PORTRAIT; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_UNSPECIFIED; |
| import static android.hardware.display.DisplayManager.VIRTUAL_DISPLAY_FLAG_AUTO_MIRROR; |
| import static android.os.Build.VERSION_CODES.P; |
| import static android.os.Build.VERSION_CODES.Q; |
| import static android.view.Display.DEFAULT_DISPLAY; |
| import static android.view.Display.FLAG_PRIVATE; |
| import static android.view.DisplayCutout.BOUNDS_POSITION_TOP; |
| import static android.view.DisplayCutout.fromBoundingRect; |
| import static android.view.InsetsState.ITYPE_IME; |
| import static android.view.InsetsState.ITYPE_NAVIGATION_BAR; |
| import static android.view.InsetsState.ITYPE_STATUS_BAR; |
| 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.WindowInsetsController.BEHAVIOR_SHOW_TRANSIENT_BARS_BY_SWIPE; |
| import static android.view.WindowManager.LayoutParams.FIRST_SUB_WINDOW; |
| import static android.view.WindowManager.LayoutParams.FLAG_ALT_FOCUSABLE_IM; |
| import static android.view.WindowManager.LayoutParams.FLAG_LAYOUT_INSET_DECOR; |
| import static android.view.WindowManager.LayoutParams.FLAG_LAYOUT_IN_SCREEN; |
| import static android.view.WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE; |
| import static android.view.WindowManager.LayoutParams.FLAG_SECURE; |
| import static android.view.WindowManager.LayoutParams.LAYOUT_IN_DISPLAY_CUTOUT_MODE_SHORT_EDGES; |
| import static android.view.WindowManager.LayoutParams.PRIVATE_FLAG_NO_MOVE_ANIMATION; |
| import static android.view.WindowManager.LayoutParams.TYPE_APPLICATION; |
| import static android.view.WindowManager.LayoutParams.TYPE_APPLICATION_ATTACHED_DIALOG; |
| import static android.view.WindowManager.LayoutParams.TYPE_APPLICATION_OVERLAY; |
| import static android.view.WindowManager.LayoutParams.TYPE_APPLICATION_STARTING; |
| import static android.view.WindowManager.LayoutParams.TYPE_BASE_APPLICATION; |
| import static android.view.WindowManager.LayoutParams.TYPE_INPUT_METHOD_DIALOG; |
| import static android.view.WindowManager.LayoutParams.TYPE_NAVIGATION_BAR; |
| import static android.view.WindowManager.LayoutParams.TYPE_NOTIFICATION_SHADE; |
| import static android.view.WindowManager.LayoutParams.TYPE_SCREENSHOT; |
| import static android.view.WindowManager.LayoutParams.TYPE_STATUS_BAR; |
| import static android.view.WindowManager.LayoutParams.TYPE_VOICE_INTERACTION; |
| import static android.view.WindowManager.LayoutParams.TYPE_WALLPAPER; |
| import static android.view.WindowManager.TRANSIT_CLOSE; |
| import static android.view.WindowManager.TRANSIT_OLD_TASK_CLOSE; |
| import static android.view.WindowManager.TRANSIT_OLD_TRANSLUCENT_ACTIVITY_CLOSE; |
| import static android.window.DisplayAreaOrganizer.FEATURE_WINDOWED_MAGNIFICATION; |
| |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.any; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.anyBoolean; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.doNothing; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.doReturn; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.mock; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.never; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.reset; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.same; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.spyOn; |
| import static com.android.dx.mockito.inline.extended.ExtendedMockito.verify; |
| import static com.android.server.wm.ActivityTaskSupervisor.ON_TOP; |
| import static com.android.server.wm.DisplayContent.IME_TARGET_LAYERING; |
| import static com.android.server.wm.SurfaceAnimator.ANIMATION_TYPE_APP_TRANSITION; |
| import static com.android.server.wm.SurfaceAnimator.ANIMATION_TYPE_TOKEN_TRANSFORM; |
| import static com.android.server.wm.WindowContainer.AnimationFlags.PARENTS; |
| import static com.android.server.wm.WindowContainer.AnimationFlags.TRANSITION; |
| import static com.android.server.wm.WindowContainer.POSITION_TOP; |
| import static com.android.server.wm.WindowManagerService.UPDATE_FOCUS_NORMAL; |
| |
| import static com.google.common.truth.Truth.assertThat; |
| |
| import static org.hamcrest.Matchers.is; |
| import static org.junit.Assert.assertEquals; |
| import static org.junit.Assert.assertFalse; |
| import static org.junit.Assert.assertNotEquals; |
| import static org.junit.Assert.assertNotNull; |
| import static org.junit.Assert.assertNull; |
| import static org.junit.Assert.assertThat; |
| import static org.junit.Assert.assertTrue; |
| import static org.mockito.ArgumentMatchers.anyInt; |
| import static org.mockito.ArgumentMatchers.eq; |
| import static org.mockito.Mockito.atLeast; |
| import static org.mockito.Mockito.clearInvocations; |
| import static org.mockito.Mockito.doAnswer; |
| import static org.mockito.Mockito.doCallRealMethod; |
| import static org.mockito.Mockito.when; |
| |
| import android.app.ActivityTaskManager; |
| import android.app.WindowConfiguration; |
| import android.content.res.Configuration; |
| import android.graphics.Insets; |
| import android.graphics.Point; |
| import android.graphics.Rect; |
| import android.graphics.Region; |
| import android.hardware.HardwareBuffer; |
| import android.hardware.display.VirtualDisplay; |
| import android.metrics.LogMaker; |
| import android.os.Binder; |
| import android.os.IBinder; |
| import android.os.RemoteException; |
| import android.os.SystemClock; |
| import android.platform.test.annotations.Presubmit; |
| import android.util.ArraySet; |
| import android.util.DisplayMetrics; |
| import android.view.ContentRecordingSession; |
| import android.view.DisplayCutout; |
| import android.view.DisplayInfo; |
| import android.view.Gravity; |
| import android.view.IDisplayChangeWindowCallback; |
| import android.view.IDisplayChangeWindowController; |
| import android.view.ISystemGestureExclusionListener; |
| import android.view.IWindowManager; |
| import android.view.InsetsState; |
| import android.view.InsetsVisibilities; |
| import android.view.MotionEvent; |
| import android.view.Surface; |
| import android.view.SurfaceControl; |
| import android.view.SurfaceControl.Transaction; |
| import android.view.View; |
| import android.view.WindowManager; |
| import android.window.DisplayAreaInfo; |
| import android.window.IDisplayAreaOrganizer; |
| import android.window.WindowContainerToken; |
| |
| import androidx.test.filters.SmallTest; |
| |
| import com.android.internal.logging.MetricsLogger; |
| import com.android.internal.logging.nano.MetricsProto; |
| import com.android.server.LocalServices; |
| import com.android.server.policy.WindowManagerPolicy; |
| import com.android.server.wm.utils.WmDisplayCutout; |
| |
| import org.junit.Test; |
| import org.junit.runner.RunWith; |
| import org.mockito.ArgumentCaptor; |
| import org.mockito.Mockito; |
| |
| import java.util.ArrayList; |
| import java.util.Arrays; |
| import java.util.Collections; |
| import java.util.LinkedList; |
| import java.util.List; |
| |
| /** |
| * Tests for the {@link DisplayContent} class. |
| * |
| * Build/Install/Run: |
| * atest WmTests:DisplayContentTests |
| */ |
| @SmallTest |
| @Presubmit |
| @RunWith(WindowTestRunner.class) |
| public class DisplayContentTests extends WindowTestsBase { |
| |
| @UseTestDisplay(addAllCommonWindows = true) |
| @Test |
| public void testForAllWindows() { |
| final WindowState exitingAppWindow = createWindow(null, TYPE_BASE_APPLICATION, |
| mDisplayContent, "exiting app"); |
| final ActivityRecord exitingApp = exitingAppWindow.mActivityRecord; |
| exitingApp.startAnimation(exitingApp.getPendingTransaction(), mock(AnimationAdapter.class), |
| false /* hidden */, SurfaceAnimator.ANIMATION_TYPE_APP_TRANSITION); |
| exitingApp.mIsExiting = true; |
| // If the activity is animating, its window should not be removed. |
| mDisplayContent.handleCompleteDeferredRemoval(); |
| |
| final ArrayList<WindowState> windows = new ArrayList<>(Arrays.asList( |
| mWallpaperWindow, |
| mChildAppWindowBelow, |
| mAppWindow, |
| mChildAppWindowAbove, |
| exitingAppWindow, |
| mDockedDividerWindow, |
| mImeWindow, |
| mImeDialogWindow, |
| mStatusBarWindow, |
| mNotificationShadeWindow, |
| mNavBarWindow)); |
| assertForAllWindowsOrder(windows); |
| |
| exitingApp.cancelAnimation(); |
| // The exiting window will be removed because its parent is no longer animating. |
| mDisplayContent.handleCompleteDeferredRemoval(); |
| windows.remove(exitingAppWindow); |
| assertForAllWindowsOrder(windows); |
| } |
| |
| @UseTestDisplay(addAllCommonWindows = true) |
| @Test |
| public void testForAllWindows_WithAppImeTarget() { |
| final WindowState imeAppTarget = |
| createWindow(null, TYPE_BASE_APPLICATION, mDisplayContent, "imeAppTarget"); |
| |
| mDisplayContent.setImeLayeringTarget(imeAppTarget); |
| |
| assertForAllWindowsOrder(Arrays.asList( |
| mWallpaperWindow, |
| mChildAppWindowBelow, |
| mAppWindow, |
| mChildAppWindowAbove, |
| imeAppTarget, |
| mImeWindow, |
| mImeDialogWindow, |
| mDockedDividerWindow, |
| mStatusBarWindow, |
| mNotificationShadeWindow, |
| mNavBarWindow)); |
| } |
| |
| @UseTestDisplay(addAllCommonWindows = true) |
| @Test |
| public void testForAllWindows_WithChildWindowImeTarget() throws Exception { |
| mDisplayContent.setImeLayeringTarget(mChildAppWindowAbove); |
| |
| assertForAllWindowsOrder(Arrays.asList( |
| mWallpaperWindow, |
| mChildAppWindowBelow, |
| mAppWindow, |
| mChildAppWindowAbove, |
| mImeWindow, |
| mImeDialogWindow, |
| mDockedDividerWindow, |
| mStatusBarWindow, |
| mNotificationShadeWindow, |
| mNavBarWindow)); |
| } |
| |
| @UseTestDisplay(addAllCommonWindows = true) |
| @Test |
| public void testForAllWindows_WithStatusBarImeTarget() throws Exception { |
| mDisplayContent.setImeLayeringTarget(mStatusBarWindow); |
| |
| assertForAllWindowsOrder(Arrays.asList( |
| mWallpaperWindow, |
| mChildAppWindowBelow, |
| mAppWindow, |
| mChildAppWindowAbove, |
| mDockedDividerWindow, |
| mStatusBarWindow, |
| mImeWindow, |
| mImeDialogWindow, |
| mNotificationShadeWindow, |
| mNavBarWindow)); |
| } |
| |
| @UseTestDisplay(addAllCommonWindows = true) |
| @Test |
| public void testForAllWindows_WithNotificationShadeImeTarget() throws Exception { |
| mDisplayContent.setImeLayeringTarget(mNotificationShadeWindow); |
| |
| assertForAllWindowsOrder(Arrays.asList( |
| mWallpaperWindow, |
| mChildAppWindowBelow, |
| mAppWindow, |
| mChildAppWindowAbove, |
| mDockedDividerWindow, |
| mStatusBarWindow, |
| mNotificationShadeWindow, |
| mImeWindow, |
| mImeDialogWindow, |
| mNavBarWindow)); |
| } |
| |
| @UseTestDisplay(addAllCommonWindows = true) |
| @Test |
| public void testForAllWindows_WithInBetweenWindowToken() { |
| // This window is set-up to be z-ordered between some windows that go in the same token like |
| // the nav bar and status bar. |
| final WindowState voiceInteractionWindow = createWindow(null, TYPE_VOICE_INTERACTION, |
| mDisplayContent, "voiceInteractionWindow"); |
| |
| assertForAllWindowsOrder(Arrays.asList( |
| mWallpaperWindow, |
| mChildAppWindowBelow, |
| mAppWindow, |
| mChildAppWindowAbove, |
| mDockedDividerWindow, |
| mImeWindow, |
| mImeDialogWindow, |
| mStatusBarWindow, |
| mNotificationShadeWindow, |
| voiceInteractionWindow, // It can show above lock screen. |
| mNavBarWindow)); |
| } |
| |
| @UseTestDisplay(addAllCommonWindows = true) |
| @Test |
| public void testComputeImeTarget() { |
| // Verify that an app window can be an ime target. |
| final WindowState appWin = createWindow(null, TYPE_APPLICATION, mDisplayContent, "appWin"); |
| appWin.setHasSurface(true); |
| assertTrue(appWin.canBeImeTarget()); |
| WindowState imeTarget = mDisplayContent.computeImeTarget(false /* updateImeTarget */); |
| assertEquals(appWin, imeTarget); |
| appWin.mHidden = false; |
| |
| // Verify that an child window can be an ime target. |
| final WindowState childWin = createWindow(appWin, |
| TYPE_APPLICATION_ATTACHED_DIALOG, "childWin"); |
| childWin.setHasSurface(true); |
| assertTrue(childWin.canBeImeTarget()); |
| imeTarget = mDisplayContent.computeImeTarget(false /* updateImeTarget */); |
| assertEquals(childWin, imeTarget); |
| } |
| |
| @UseTestDisplay(addAllCommonWindows = true) |
| @Test |
| public void testComputeImeTarget_startingWindow() { |
| ActivityRecord activity = createActivityRecord(mDisplayContent); |
| |
| final WindowState startingWin = createWindow(null, TYPE_APPLICATION_STARTING, activity, |
| "startingWin"); |
| startingWin.setHasSurface(true); |
| assertTrue(startingWin.canBeImeTarget()); |
| |
| WindowState imeTarget = mDisplayContent.computeImeTarget(false /* updateImeTarget */); |
| assertEquals(startingWin, imeTarget); |
| startingWin.mHidden = false; |
| |
| // Verify that the starting window still be an ime target even an app window launching |
| // behind it. |
| final WindowState appWin = createWindow(null, TYPE_BASE_APPLICATION, activity, "appWin"); |
| appWin.setHasSurface(true); |
| assertTrue(appWin.canBeImeTarget()); |
| |
| imeTarget = mDisplayContent.computeImeTarget(false /* updateImeTarget */); |
| assertEquals(startingWin, imeTarget); |
| appWin.mHidden = false; |
| |
| // Verify that the starting window still be an ime target even the child window behind a |
| // launching app window |
| final WindowState childWin = createWindow(appWin, |
| TYPE_APPLICATION_ATTACHED_DIALOG, "childWin"); |
| childWin.setHasSurface(true); |
| assertTrue(childWin.canBeImeTarget()); |
| imeTarget = mDisplayContent.computeImeTarget(false /* updateImeTarget */); |
| assertEquals(startingWin, imeTarget); |
| } |
| |
| @Test |
| public void testUpdateImeParent_forceUpdateRelativeLayer() { |
| final DisplayArea.Tokens imeContainer = mDisplayContent.getImeContainer(); |
| final ActivityRecord activity = createActivityRecord(mDisplayContent); |
| |
| final WindowState startingWin = createWindow(null, TYPE_APPLICATION_STARTING, activity, |
| "startingWin"); |
| startingWin.setHasSurface(true); |
| assertTrue(startingWin.canBeImeTarget()); |
| final SurfaceControl imeSurfaceParent = mock(SurfaceControl.class); |
| doReturn(imeSurfaceParent).when(mDisplayContent).computeImeParent(); |
| spyOn(imeContainer); |
| |
| mDisplayContent.setImeInputTarget(startingWin); |
| mDisplayContent.onConfigurationChanged(new Configuration()); |
| verify(mDisplayContent).updateImeParent(); |
| |
| // Force reassign the relative layer when the IME surface parent is changed. |
| verify(imeContainer).assignRelativeLayer(any(), eq(imeSurfaceParent), anyInt(), eq(true)); |
| } |
| |
| @Test |
| public void testComputeImeTargetReturnsNull_windowDidntRequestIme() { |
| final WindowState win1 = createWindow(null, TYPE_BASE_APPLICATION, |
| new ActivityBuilder(mAtm).setCreateTask(true).build(), "app"); |
| final WindowState win2 = createWindow(null, TYPE_BASE_APPLICATION, |
| new ActivityBuilder(mAtm).setCreateTask(true).build(), "app2"); |
| |
| mDisplayContent.setImeInputTarget(win1); |
| mDisplayContent.setImeLayeringTarget(win2); |
| |
| doReturn(true).when(mDisplayContent).shouldImeAttachedToApp(); |
| // Compute IME parent returns nothing if current target and window receiving input |
| // are different i.e. if current window didn't request IME. |
| assertNull("computeImeParent() should be null", mDisplayContent.computeImeParent()); |
| } |
| |
| @Test |
| public void testUpdateImeParent_skipForOrganizedImeContainer() { |
| final DisplayArea.Tokens imeContainer = mDisplayContent.getImeContainer(); |
| final ActivityRecord activity = createActivityRecord(mDisplayContent); |
| |
| final WindowState startingWin = createWindow(null, TYPE_APPLICATION_STARTING, activity, |
| "startingWin"); |
| startingWin.setHasSurface(true); |
| assertTrue(startingWin.canBeImeTarget()); |
| final SurfaceControl imeSurfaceParent = mock(SurfaceControl.class); |
| doReturn(imeSurfaceParent).when(mDisplayContent).computeImeParent(); |
| |
| // Main precondition for this test: organize the ImeContainer. |
| final IDisplayAreaOrganizer mockImeOrganizer = mock(IDisplayAreaOrganizer.class); |
| when(mockImeOrganizer.asBinder()).thenReturn(new Binder()); |
| imeContainer.setOrganizer(mockImeOrganizer); |
| |
| mDisplayContent.updateImeParent(); |
| |
| assertNull("Don't reparent the surface of an organized ImeContainer.", |
| mDisplayContent.mInputMethodSurfaceParent); |
| |
| // Clean up organizer. |
| imeContainer.setOrganizer(null); |
| } |
| |
| @Test |
| public void testImeContainerIsReparentedUnderParentWhenOrganized() { |
| final DisplayArea.Tokens imeContainer = mDisplayContent.getImeContainer(); |
| final ActivityRecord activity = createActivityRecord(mDisplayContent); |
| |
| final WindowState startingWin = createWindow(null, TYPE_APPLICATION_STARTING, activity, |
| "startingWin"); |
| startingWin.setHasSurface(true); |
| assertTrue(startingWin.canBeImeTarget()); |
| |
| final Transaction transaction = mDisplayContent.getPendingTransaction(); |
| spyOn(transaction); |
| |
| // Organized the ime container. |
| final IDisplayAreaOrganizer mockImeOrganizer = mock(IDisplayAreaOrganizer.class); |
| when(mockImeOrganizer.asBinder()).thenReturn(new Binder()); |
| imeContainer.setOrganizer(mockImeOrganizer); |
| |
| // Verify that the ime container surface is reparented under |
| // its parent surface as a consequence of the setOrganizer call. |
| SurfaceControl imeParentSurfaceControl = imeContainer.getParentSurfaceControl(); |
| verify(transaction).reparent(imeContainer.getSurfaceControl(), imeParentSurfaceControl); |
| |
| // Clean up organizer. |
| imeContainer.setOrganizer(null); |
| } |
| |
| /** |
| * This tests root task movement between displays and proper root task's, task's and app token's |
| * display container references updates. |
| */ |
| @Test |
| public void testMoveRootTaskBetweenDisplays() { |
| // Create a second display. |
| final DisplayContent dc = createNewDisplay(); |
| |
| // Add root task with activity. |
| final Task rootTask = createTask(dc); |
| assertEquals(dc.getDisplayId(), rootTask.getDisplayContent().getDisplayId()); |
| assertEquals(dc, rootTask.getDisplayContent()); |
| |
| final Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| final ActivityRecord activity = createNonAttachedActivityRecord(dc); |
| task.addChild(activity, 0); |
| assertEquals(dc, task.getDisplayContent()); |
| assertEquals(dc, activity.getDisplayContent()); |
| |
| // Move root task to first display. |
| rootTask.reparent(mDisplayContent.getDefaultTaskDisplayArea(), true /* onTop */); |
| assertEquals(mDisplayContent.getDisplayId(), rootTask.getDisplayContent().getDisplayId()); |
| assertEquals(mDisplayContent, rootTask.getDisplayContent()); |
| assertEquals(mDisplayContent, task.getDisplayContent()); |
| assertEquals(mDisplayContent, activity.getDisplayContent()); |
| } |
| |
| /** |
| * This tests global configuration updates when default display config is updated. |
| */ |
| @Test |
| public void testDefaultDisplayOverrideConfigUpdate() { |
| DisplayContent defaultDisplay = mWm.mRoot.getDisplayContent(DEFAULT_DISPLAY); |
| final Configuration currentConfig = defaultDisplay.getConfiguration(); |
| |
| // Create new, slightly changed override configuration and apply it to the display. |
| final Configuration newOverrideConfig = new Configuration(currentConfig); |
| newOverrideConfig.densityDpi += 120; |
| newOverrideConfig.fontScale += 0.3; |
| |
| defaultDisplay.updateDisplayOverrideConfigurationLocked(newOverrideConfig, |
| null /* starting */, false /* deferResume */, null /* result */); |
| |
| // Check that global configuration is updated, as we've updated default display's config. |
| Configuration globalConfig = mWm.mRoot.getConfiguration(); |
| assertEquals(newOverrideConfig.densityDpi, globalConfig.densityDpi); |
| assertEquals(newOverrideConfig.fontScale, globalConfig.fontScale, 0.1 /* delta */); |
| |
| // Return back to original values. |
| defaultDisplay.updateDisplayOverrideConfigurationLocked(currentConfig, |
| null /* starting */, false /* deferResume */, null /* result */); |
| globalConfig = mWm.mRoot.getConfiguration(); |
| assertEquals(currentConfig.densityDpi, globalConfig.densityDpi); |
| assertEquals(currentConfig.fontScale, globalConfig.fontScale, 0.1 /* delta */); |
| } |
| |
| /** |
| * Tests tapping on a root task in different display results in window gaining focus. |
| */ |
| @Test |
| public void testInputEventBringsCorrectDisplayInFocus() { |
| DisplayContent dc0 = mWm.getDefaultDisplayContentLocked(); |
| // Create a second display |
| final DisplayContent dc1 = createNewDisplay(); |
| |
| // Add root task with activity. |
| final Task rootTask0 = createTask(dc0); |
| final Task task0 = createTaskInRootTask(rootTask0, 0 /* userId */); |
| final ActivityRecord activity = createNonAttachedActivityRecord(dc0); |
| task0.addChild(activity, 0); |
| dc0.configureDisplayPolicy(); |
| assertNotNull(dc0.mTapDetector); |
| |
| final Task rootTask1 = createTask(dc1); |
| final Task task1 = createTaskInRootTask(rootTask1, 0 /* userId */); |
| final ActivityRecord activity1 = createNonAttachedActivityRecord(dc0); |
| task1.addChild(activity1, 0); |
| dc1.configureDisplayPolicy(); |
| assertNotNull(dc1.mTapDetector); |
| |
| // tap on primary display. |
| tapOnDisplay(dc0); |
| // Check focus is on primary display. |
| assertEquals(mWm.mRoot.getTopFocusedDisplayContent().mCurrentFocus, |
| dc0.findFocusedWindow()); |
| |
| // Tap on secondary display. |
| tapOnDisplay(dc1); |
| // Check focus is on secondary. |
| assertEquals(mWm.mRoot.getTopFocusedDisplayContent().mCurrentFocus, |
| dc1.findFocusedWindow()); |
| } |
| |
| @Test |
| public void testFocusedWindowMultipleDisplays() { |
| doTestFocusedWindowMultipleDisplays(false /* perDisplayFocusEnabled */, Q); |
| } |
| |
| @Test |
| public void testFocusedWindowMultipleDisplaysPerDisplayFocusEnabled() { |
| doTestFocusedWindowMultipleDisplays(true /* perDisplayFocusEnabled */, Q); |
| } |
| |
| @Test |
| public void testFocusedWindowMultipleDisplaysPerDisplayFocusEnabledLegacyApp() { |
| doTestFocusedWindowMultipleDisplays(true /* perDisplayFocusEnabled */, P); |
| } |
| |
| private void doTestFocusedWindowMultipleDisplays(boolean perDisplayFocusEnabled, |
| int targetSdk) { |
| mWm.mPerDisplayFocusEnabled = perDisplayFocusEnabled; |
| |
| // Create a focusable window and check that focus is calculated correctly |
| final WindowState window1 = |
| createWindow(null, TYPE_BASE_APPLICATION, mDisplayContent, "window1"); |
| window1.mActivityRecord.mTargetSdk = targetSdk; |
| updateFocusedWindow(); |
| assertTrue(window1.isFocused()); |
| assertEquals(window1, mWm.mRoot.getTopFocusedDisplayContent().mCurrentFocus); |
| |
| // Check that a new display doesn't affect focus |
| final DisplayContent dc = createNewDisplay(); |
| updateFocusedWindow(); |
| assertTrue(window1.isFocused()); |
| assertEquals(window1, mWm.mRoot.getTopFocusedDisplayContent().mCurrentFocus); |
| |
| // Add a window to the second display, and it should be focused |
| final WindowState window2 = createWindow(null, TYPE_BASE_APPLICATION, dc, "window2"); |
| window2.mActivityRecord.mTargetSdk = targetSdk; |
| updateFocusedWindow(); |
| assertTrue(window2.isFocused()); |
| assertEquals(perDisplayFocusEnabled && targetSdk >= Q, window1.isFocused()); |
| assertEquals(window2, mWm.mRoot.getTopFocusedDisplayContent().mCurrentFocus); |
| |
| // Move the first window to top including parents, and make sure focus is updated |
| window1.getParent().positionChildAt(POSITION_TOP, window1, true); |
| updateFocusedWindow(); |
| assertTrue(window1.isFocused()); |
| assertEquals(perDisplayFocusEnabled && targetSdk >= Q, window2.isFocused()); |
| assertEquals(window1, mWm.mRoot.getTopFocusedDisplayContent().mCurrentFocus); |
| |
| // Make sure top focused display not changed if there is a focused app. |
| window1.mActivityRecord.mVisibleRequested = false; |
| window1.getDisplayContent().setFocusedApp(window1.mActivityRecord); |
| updateFocusedWindow(); |
| assertTrue(!window1.isFocused()); |
| assertEquals(window1.getDisplayId(), |
| mWm.mRoot.getTopFocusedDisplayContent().getDisplayId()); |
| } |
| |
| @Test |
| public void testShouldWaitForSystemDecorWindowsOnBoot_OnDefaultDisplay() { |
| mWm.mSystemBooted = true; |
| final DisplayContent defaultDisplay = mWm.getDefaultDisplayContentLocked(); |
| final WindowState[] windows = createNotDrawnWindowsOn(defaultDisplay, |
| TYPE_WALLPAPER, TYPE_APPLICATION); |
| final WindowState wallpaper = windows[0]; |
| assertTrue(wallpaper.mIsWallpaper); |
| wallpaper.mToken.asWallpaperToken().setVisibility(false); |
| // By default WindowState#mWallpaperVisible is false. |
| assertFalse(wallpaper.isVisible()); |
| |
| // Verify waiting for windows to be drawn. |
| assertTrue(defaultDisplay.shouldWaitForSystemDecorWindowsOnBoot()); |
| |
| // Verify not waiting for drawn window and invisible wallpaper. |
| setDrawnState(WindowStateAnimator.READY_TO_SHOW, wallpaper); |
| setDrawnState(WindowStateAnimator.HAS_DRAWN, windows[1]); |
| assertFalse(defaultDisplay.shouldWaitForSystemDecorWindowsOnBoot()); |
| } |
| |
| @Test |
| public void testShouldWaitForSystemDecorWindowsOnBoot_OnSecondaryDisplay() { |
| mWm.mSystemBooted = true; |
| final DisplayContent secondaryDisplay = createNewDisplay(); |
| final WindowState[] windows = createNotDrawnWindowsOn(secondaryDisplay, |
| TYPE_WALLPAPER, TYPE_APPLICATION); |
| |
| // Verify not waiting for display without system decorations. |
| doReturn(false).when(secondaryDisplay).supportsSystemDecorations(); |
| assertFalse(secondaryDisplay.shouldWaitForSystemDecorWindowsOnBoot()); |
| |
| // Verify waiting for non-drawn windows on display with system decorations. |
| reset(secondaryDisplay); |
| doReturn(true).when(secondaryDisplay).supportsSystemDecorations(); |
| assertTrue(secondaryDisplay.shouldWaitForSystemDecorWindowsOnBoot()); |
| |
| // Verify not waiting for drawn windows on display with system decorations. |
| setDrawnState(WindowStateAnimator.HAS_DRAWN, windows); |
| assertFalse(secondaryDisplay.shouldWaitForSystemDecorWindowsOnBoot()); |
| } |
| |
| @Test |
| public void testImeIsAttachedToDisplayForLetterboxedApp() { |
| final DisplayContent dc = mDisplayContent; |
| final WindowState ws = createWindow(null, TYPE_APPLICATION, dc, "app window"); |
| dc.setImeLayeringTarget(ws); |
| |
| // Adjust bounds so that matchesRootDisplayAreaBounds() returns false. |
| final Rect bounds = new Rect(dc.getBounds()); |
| bounds.scale(0.5f); |
| ws.mActivityRecord.setBounds(bounds); |
| assertFalse("matchesRootDisplayAreaBounds() should return false", |
| ws.matchesDisplayAreaBounds()); |
| |
| assertTrue("IME shouldn't be attached to app", |
| dc.computeImeParent() != dc.getImeTarget(IME_TARGET_LAYERING).getWindow() |
| .mActivityRecord.getSurfaceControl()); |
| assertEquals("IME should be attached to display", |
| dc.getImeContainer().getParent().getSurfaceControl(), dc.computeImeParent()); |
| } |
| |
| private WindowState[] createNotDrawnWindowsOn(DisplayContent displayContent, int... types) { |
| final WindowState[] windows = new WindowState[types.length]; |
| for (int i = 0; i < types.length; i++) { |
| final int type = types[i]; |
| windows[i] = createWindow(null /* parent */, type, displayContent, "window-" + type); |
| windows[i].setHasSurface(true); |
| windows[i].mWinAnimator.mDrawState = WindowStateAnimator.DRAW_PENDING; |
| } |
| return windows; |
| } |
| |
| private static void setDrawnState(int state, WindowState... windows) { |
| for (WindowState window : windows) { |
| window.mHasSurface = state != WindowStateAnimator.NO_SURFACE; |
| window.mWinAnimator.mDrawState = state; |
| } |
| } |
| |
| /** |
| * This tests setting the maximum ui width on a display. |
| */ |
| @Test |
| public void testMaxUiWidth() { |
| // Prevent base display metrics for test from being updated to the value of real display. |
| final DisplayContent displayContent = createDisplayNoUpdateDisplayInfo(); |
| final int baseWidth = 1440; |
| final int baseHeight = 2560; |
| final int baseDensity = 300; |
| final float baseXDpi = 60; |
| final float baseYDpi = 60; |
| |
| displayContent.updateBaseDisplayMetrics(baseWidth, baseHeight, baseDensity, baseYDpi, |
| baseYDpi); |
| |
| final int maxWidth = 300; |
| final float ratioChange = maxWidth / (float) baseWidth; |
| final int resultingHeight = (int) (baseHeight * ratioChange); |
| final int resultingDensity = (int) (baseDensity * ratioChange); |
| final float resultingXDpi = baseXDpi * ratioChange; |
| final float resultingYDpi = baseYDpi * ratioChange; |
| |
| displayContent.setMaxUiWidth(maxWidth); |
| verifySizes(displayContent, maxWidth, resultingHeight, resultingDensity, resultingXDpi, |
| resultingYDpi); |
| |
| // Assert setting values again does not change; |
| displayContent.updateBaseDisplayMetrics(baseWidth, baseHeight, baseDensity, baseXDpi, |
| baseYDpi); |
| verifySizes(displayContent, maxWidth, resultingHeight, resultingDensity, resultingXDpi, |
| resultingYDpi); |
| |
| final int smallerWidth = 200; |
| final int smallerHeight = 400; |
| final int smallerDensity = 100; |
| |
| // Specify smaller dimension, verify that it is honored |
| displayContent.updateBaseDisplayMetrics(smallerWidth, smallerHeight, smallerDensity, |
| baseXDpi, baseYDpi); |
| verifySizes(displayContent, smallerWidth, smallerHeight, smallerDensity, baseXDpi, |
| baseYDpi); |
| |
| // Verify that setting the max width to a greater value than the base width has no effect |
| displayContent.setMaxUiWidth(maxWidth); |
| verifySizes(displayContent, smallerWidth, smallerHeight, smallerDensity, baseXDpi, |
| baseYDpi); |
| } |
| |
| @Test |
| public void testSetForcedSize() { |
| // Prevent base display metrics for test from being updated to the value of real display. |
| final DisplayContent displayContent = createDisplayNoUpdateDisplayInfo(); |
| final int baseWidth = 1280; |
| final int baseHeight = 720; |
| final int baseDensity = 320; |
| final float baseXDpi = 60; |
| final float baseYDpi = 60; |
| |
| displayContent.mInitialDisplayWidth = baseWidth; |
| displayContent.mInitialDisplayHeight = baseHeight; |
| displayContent.mInitialDisplayDensity = baseDensity; |
| displayContent.updateBaseDisplayMetrics(baseWidth, baseHeight, baseDensity, baseXDpi, |
| baseYDpi); |
| |
| final int forcedWidth = 1920; |
| final int forcedHeight = 1080; |
| |
| // Verify that forcing the size is honored and the density doesn't change. |
| displayContent.setForcedSize(forcedWidth, forcedHeight); |
| verifySizes(displayContent, forcedWidth, forcedHeight, baseDensity); |
| |
| // Verify that forcing the size is idempotent. |
| displayContent.setForcedSize(forcedWidth, forcedHeight); |
| verifySizes(displayContent, forcedWidth, forcedHeight, baseDensity); |
| } |
| |
| @Test |
| public void testSetForcedSize_WithMaxUiWidth() { |
| // Prevent base display metrics for test from being updated to the value of real display. |
| final DisplayContent displayContent = createDisplayNoUpdateDisplayInfo(); |
| final int baseWidth = 1280; |
| final int baseHeight = 720; |
| final int baseDensity = 320; |
| final float baseXDpi = 60; |
| final float baseYDpi = 60; |
| |
| displayContent.mInitialDisplayWidth = baseWidth; |
| displayContent.mInitialDisplayHeight = baseHeight; |
| displayContent.mInitialDisplayDensity = baseDensity; |
| displayContent.updateBaseDisplayMetrics(baseWidth, baseHeight, baseDensity, baseXDpi, |
| baseYDpi); |
| |
| displayContent.setMaxUiWidth(baseWidth); |
| |
| final int forcedWidth = 1920; |
| final int forcedHeight = 1080; |
| |
| // Verify that forcing bigger size doesn't work and density doesn't change. |
| displayContent.setForcedSize(forcedWidth, forcedHeight); |
| verifySizes(displayContent, baseWidth, baseHeight, baseDensity); |
| |
| // Verify that forcing the size is idempotent. |
| displayContent.setForcedSize(forcedWidth, forcedHeight); |
| verifySizes(displayContent, baseWidth, baseHeight, baseDensity); |
| } |
| |
| @Test |
| public void testSetForcedDensity() { |
| final DisplayContent displayContent = createDisplayNoUpdateDisplayInfo(); |
| final int baseWidth = 1280; |
| final int baseHeight = 720; |
| final int baseDensity = 320; |
| final float baseXDpi = 60; |
| final float baseYDpi = 60; |
| |
| displayContent.mInitialDisplayWidth = baseWidth; |
| displayContent.mInitialDisplayHeight = baseHeight; |
| displayContent.mInitialDisplayDensity = baseDensity; |
| displayContent.updateBaseDisplayMetrics(baseWidth, baseHeight, baseDensity, baseXDpi, |
| baseYDpi); |
| |
| final int forcedDensity = 600; |
| |
| // Verify that forcing the density is honored and the size doesn't change. |
| displayContent.setForcedDensity(forcedDensity, 0 /* userId */); |
| verifySizes(displayContent, baseWidth, baseHeight, forcedDensity); |
| |
| // Verify that forcing the density is idempotent. |
| displayContent.setForcedDensity(forcedDensity, 0 /* userId */); |
| verifySizes(displayContent, baseWidth, baseHeight, forcedDensity); |
| |
| // Verify that forcing resolution won't affect the already forced density. |
| displayContent.setForcedSize(1800, 1200); |
| verifySizes(displayContent, 1800, 1200, forcedDensity); |
| } |
| |
| @Test |
| public void testDisplayCutout_rot0() { |
| final DisplayContent dc = createNewDisplay(); |
| dc.mInitialDisplayWidth = 200; |
| dc.mInitialDisplayHeight = 400; |
| final Rect r = new Rect(80, 0, 120, 10); |
| final DisplayCutout cutout = new WmDisplayCutout( |
| fromBoundingRect(r.left, r.top, r.right, r.bottom, BOUNDS_POSITION_TOP), null) |
| .computeSafeInsets(200, 400).getDisplayCutout(); |
| |
| dc.mInitialDisplayCutout = cutout; |
| dc.getDisplayRotation().setRotation(Surface.ROTATION_0); |
| dc.computeScreenConfiguration(new Configuration()); // recomputes dc.mDisplayInfo. |
| |
| assertEquals(cutout, dc.getDisplayInfo().displayCutout); |
| } |
| |
| @Test |
| public void testDisplayCutout_rot90() { |
| // Prevent mInitialDisplayCutout from being updated from real display (e.g. null |
| // if the device has no cutout). |
| final DisplayContent dc = createDisplayNoUpdateDisplayInfo(); |
| // This test assumes it's a top cutout on a portrait display, so if it happens to be a |
| // landscape display let's rotate it. |
| if (dc.mInitialDisplayHeight < dc.mInitialDisplayWidth) { |
| int tmp = dc.mInitialDisplayHeight; |
| dc.mInitialDisplayHeight = dc.mInitialDisplayWidth; |
| dc.mInitialDisplayWidth = tmp; |
| } |
| // Rotation may use real display info to compute bound, so here also uses the |
| // same width and height. |
| final int displayWidth = dc.mInitialDisplayWidth; |
| final int displayHeight = dc.mInitialDisplayHeight; |
| final float density = dc.mInitialDisplayDensity; |
| final int cutoutWidth = 40; |
| final int cutoutHeight = 10; |
| final int left = (displayWidth - cutoutWidth) / 2; |
| final int top = 0; |
| final int right = (displayWidth + cutoutWidth) / 2; |
| final int bottom = cutoutHeight; |
| |
| final Rect zeroRect = new Rect(); |
| final Rect[] bounds = new Rect[]{zeroRect, new Rect(left, top, right, bottom), zeroRect, |
| zeroRect}; |
| final DisplayCutout.CutoutPathParserInfo info = new DisplayCutout.CutoutPathParserInfo( |
| displayWidth, displayHeight, displayWidth, displayHeight, density, "", |
| Surface.ROTATION_0, 1f, 1f); |
| final DisplayCutout cutout = new WmDisplayCutout( |
| DisplayCutout.constructDisplayCutout(bounds, Insets.NONE, info), null) |
| .computeSafeInsets(displayWidth, displayHeight).getDisplayCutout(); |
| |
| dc.mInitialDisplayCutout = cutout; |
| dc.getDisplayRotation().setRotation(Surface.ROTATION_90); |
| dc.computeScreenConfiguration(new Configuration()); // recomputes dc.mDisplayInfo. |
| |
| // ----o---------- ------------- |
| // | | | | | |
| // | ------o | o--- |
| // | | | | |
| // | | -> | | |
| // | | ---o |
| // | | | |
| // | | ------------- |
| final Rect[] bounds90 = new Rect[]{new Rect(top, left, bottom, right), zeroRect, zeroRect, |
| zeroRect}; |
| final DisplayCutout.CutoutPathParserInfo info90 = new DisplayCutout.CutoutPathParserInfo( |
| displayWidth, displayHeight, displayWidth, displayHeight, density, "", |
| Surface.ROTATION_90, 1f, 1f); |
| assertEquals(new WmDisplayCutout( |
| DisplayCutout.constructDisplayCutout(bounds90, Insets.NONE, info90), null) |
| .computeSafeInsets(displayHeight, displayWidth).getDisplayCutout(), |
| dc.getDisplayInfo().displayCutout); |
| } |
| |
| @Test |
| public void testLayoutSeq_assignedDuringLayout() { |
| final DisplayContent dc = createNewDisplay(); |
| final WindowState win = createWindow(null /* parent */, TYPE_BASE_APPLICATION, dc, "w"); |
| |
| performLayout(dc); |
| |
| assertThat(win.mLayoutSeq, is(dc.mLayoutSeq)); |
| } |
| |
| @Test |
| public void testOrientationDefinedByKeyguard() { |
| final DisplayContent dc = mDisplayContent; |
| dc.getDisplayPolicy().setAwake(true); |
| |
| // Create a window that requests landscape orientation. It will define device orientation |
| // by default. |
| final WindowState window = createWindow(null /* parent */, TYPE_BASE_APPLICATION, dc, "w"); |
| window.mActivityRecord.setOrientation(SCREEN_ORIENTATION_LANDSCAPE); |
| |
| final WindowState keyguard = createWindow(null, TYPE_NOTIFICATION_SHADE , dc, "keyguard"); |
| keyguard.mHasSurface = true; |
| keyguard.mAttrs.screenOrientation = SCREEN_ORIENTATION_UNSPECIFIED; |
| |
| assertEquals("Screen orientation must be defined by the app window by default", |
| SCREEN_ORIENTATION_LANDSCAPE, dc.getOrientation()); |
| |
| keyguard.mAttrs.screenOrientation = SCREEN_ORIENTATION_PORTRAIT; |
| mAtm.mKeyguardController.setKeyguardShown(window.getDisplayId(), true /* keyguardShowing */, |
| false /* aodShowing */); |
| assertEquals("Visible keyguard must influence device orientation", |
| SCREEN_ORIENTATION_PORTRAIT, dc.getOrientation()); |
| |
| mAtm.mKeyguardController.keyguardGoingAway(window.getDisplayId(), 0 /* flags */); |
| assertEquals("Keyguard that is going away must not influence device orientation", |
| SCREEN_ORIENTATION_LANDSCAPE, dc.getOrientation()); |
| } |
| |
| @Test |
| public void testOrientationForAspectRatio() { |
| final DisplayContent dc = createNewDisplay(); |
| |
| // When display content is created its configuration is not yet initialized, which could |
| // cause unnecessary configuration propagation, so initialize it here. |
| final Configuration config = new Configuration(); |
| dc.computeScreenConfiguration(config); |
| dc.onRequestedOverrideConfigurationChanged(config); |
| |
| // Create a window that requests a fixed orientation. It will define device orientation |
| // by default. |
| final WindowState window = createWindow(null /* parent */, TYPE_APPLICATION_OVERLAY, dc, |
| "window"); |
| window.mHasSurface = true; |
| window.mAttrs.screenOrientation = SCREEN_ORIENTATION_LANDSCAPE; |
| |
| // -------------------------------- |
| // Test non-close-to-square display |
| // -------------------------------- |
| dc.mBaseDisplayWidth = 1000; |
| dc.mBaseDisplayHeight = (int) (dc.mBaseDisplayWidth * dc.mCloseToSquareMaxAspectRatio * 2f); |
| dc.configureDisplayPolicy(); |
| |
| assertEquals("Screen orientation must be defined by the window by default.", |
| window.mAttrs.screenOrientation, dc.getOrientation()); |
| |
| // ---------------------------- |
| // Test close-to-square display - should be handled in the same way |
| // ---------------------------- |
| dc.mBaseDisplayHeight = dc.mBaseDisplayWidth; |
| dc.configureDisplayPolicy(); |
| |
| assertEquals( |
| "Screen orientation must be defined by the window even on close-to-square display.", |
| window.mAttrs.screenOrientation, dc.getOrientation()); |
| } |
| |
| @Test |
| public void testGetPreferredOptionsPanelGravityFromDifferentDisplays() { |
| final DisplayContent portraitDisplay = createNewDisplay(); |
| portraitDisplay.mInitialDisplayHeight = 2000; |
| portraitDisplay.mInitialDisplayWidth = 1000; |
| |
| portraitDisplay.getDisplayRotation().setRotation(Surface.ROTATION_0); |
| assertFalse(isOptionsPanelAtRight(portraitDisplay.getDisplayId())); |
| portraitDisplay.getDisplayRotation().setRotation(ROTATION_90); |
| assertTrue(isOptionsPanelAtRight(portraitDisplay.getDisplayId())); |
| |
| final DisplayContent landscapeDisplay = createNewDisplay(); |
| landscapeDisplay.mInitialDisplayHeight = 1000; |
| landscapeDisplay.mInitialDisplayWidth = 2000; |
| |
| landscapeDisplay.getDisplayRotation().setRotation(Surface.ROTATION_0); |
| assertTrue(isOptionsPanelAtRight(landscapeDisplay.getDisplayId())); |
| landscapeDisplay.getDisplayRotation().setRotation(ROTATION_90); |
| assertFalse(isOptionsPanelAtRight(landscapeDisplay.getDisplayId())); |
| } |
| |
| @UseTestDisplay(addWindows = W_INPUT_METHOD) |
| @Test |
| public void testInputMethodTargetUpdateWhenSwitchingOnDisplays() { |
| final DisplayContent newDisplay = createNewDisplay(); |
| |
| final WindowState appWin = createWindow(null, TYPE_APPLICATION, mDisplayContent, "appWin"); |
| final Task rootTask = mDisplayContent.getTopRootTask(); |
| final ActivityRecord activity = rootTask.topRunningActivity(); |
| doReturn(true).when(activity).shouldBeVisibleUnchecked(); |
| |
| final WindowState appWin1 = createWindow(null, TYPE_APPLICATION, newDisplay, "appWin1"); |
| final Task rootTask1 = newDisplay.getTopRootTask(); |
| final ActivityRecord activity1 = rootTask1.topRunningActivity(); |
| doReturn(true).when(activity1).shouldBeVisibleUnchecked(); |
| appWin.setHasSurface(true); |
| appWin1.setHasSurface(true); |
| |
| // Set current input method window on default display, make sure the input method target |
| // is appWin & null on the other display. |
| mDisplayContent.setInputMethodWindowLocked(mImeWindow); |
| newDisplay.setInputMethodWindowLocked(null); |
| assertEquals("appWin should be IME target window", |
| appWin, mDisplayContent.getImeTarget(IME_TARGET_LAYERING)); |
| assertNull("newDisplay Ime target: ", newDisplay.getImeTarget(IME_TARGET_LAYERING)); |
| |
| // Switch input method window on new display & make sure the input method target also |
| // switched as expected. |
| newDisplay.setInputMethodWindowLocked(mImeWindow); |
| mDisplayContent.setInputMethodWindowLocked(null); |
| assertEquals("appWin1 should be IME target window", appWin1, |
| newDisplay.getImeTarget(IME_TARGET_LAYERING)); |
| assertNull("default display Ime target: ", |
| mDisplayContent.getImeTarget(IME_TARGET_LAYERING)); |
| } |
| |
| @UseTestDisplay(addWindows = W_INPUT_METHOD) |
| @Test |
| public void testInputMethodSet_listenOnDisplayAreaConfigurationChanged() { |
| spyOn(mAtm); |
| mDisplayContent.setInputMethodWindowLocked(mImeWindow); |
| |
| verify(mAtm).onImeWindowSetOnDisplayArea( |
| mImeWindow.mSession.mPid, mDisplayContent.getImeContainer()); |
| } |
| |
| @Test |
| public void testAllowsTopmostFullscreenOrientation() { |
| final DisplayContent dc = createNewDisplay(); |
| dc.getDisplayRotation().setFixedToUserRotation( |
| IWindowManager.FIXED_TO_USER_ROTATION_DISABLED); |
| |
| final Task rootTask = new TaskBuilder(mSupervisor) |
| .setDisplay(dc) |
| .setCreateActivity(true) |
| .build(); |
| doReturn(true).when(rootTask).isVisible(); |
| |
| final Task freeformRootTask = new TaskBuilder(mSupervisor) |
| .setDisplay(dc) |
| .setCreateActivity(true) |
| .setWindowingMode(WINDOWING_MODE_FREEFORM) |
| .build(); |
| doReturn(true).when(freeformRootTask).isVisible(); |
| freeformRootTask.getTopChild().setBounds(100, 100, 300, 400); |
| |
| assertTrue(dc.getDefaultTaskDisplayArea().isRootTaskVisible(WINDOWING_MODE_FREEFORM)); |
| |
| freeformRootTask.getTopNonFinishingActivity().setOrientation(SCREEN_ORIENTATION_LANDSCAPE); |
| rootTask.getTopNonFinishingActivity().setOrientation(SCREEN_ORIENTATION_PORTRAIT); |
| assertEquals(SCREEN_ORIENTATION_PORTRAIT, dc.getOrientation()); |
| |
| rootTask.getTopNonFinishingActivity().setOrientation(SCREEN_ORIENTATION_LANDSCAPE); |
| freeformRootTask.getTopNonFinishingActivity().setOrientation(SCREEN_ORIENTATION_PORTRAIT); |
| assertEquals(SCREEN_ORIENTATION_LANDSCAPE, dc.getOrientation()); |
| } |
| |
| @Test |
| public void testOnDescendantOrientationRequestChanged() { |
| final DisplayContent dc = createNewDisplay(); |
| dc.getDisplayRotation().setFixedToUserRotation( |
| IWindowManager.FIXED_TO_USER_ROTATION_DISABLED); |
| final int newOrientation = getRotatedOrientation(dc); |
| |
| final Task task = new TaskBuilder(mSupervisor) |
| .setDisplay(dc).setCreateActivity(true).build(); |
| final ActivityRecord activity = task.getTopMostTask().getTopNonFinishingActivity(); |
| dc.setFocusedApp(activity); |
| |
| activity.setRequestedOrientation(newOrientation); |
| |
| assertTrue("The display should be rotated.", dc.getRotation() % 2 == 1); |
| } |
| |
| @Test |
| public void testOnDescendantOrientationRequestChanged_FrozenToUserRotation() { |
| final DisplayContent dc = createNewDisplay(); |
| dc.getDisplayRotation().setFixedToUserRotation( |
| IWindowManager.FIXED_TO_USER_ROTATION_ENABLED); |
| dc.getDisplayRotation().setUserRotation( |
| WindowManagerPolicy.USER_ROTATION_LOCKED, ROTATION_180); |
| final int newOrientation = getRotatedOrientation(dc); |
| |
| final Task task = new TaskBuilder(mSupervisor) |
| .setDisplay(dc).setCreateActivity(true).build(); |
| final ActivityRecord activity = task.getTopMostTask().getTopNonFinishingActivity(); |
| dc.setFocusedApp(activity); |
| |
| activity.setRequestedOrientation(newOrientation); |
| |
| verify(dc, never()).updateDisplayOverrideConfigurationLocked(any(), eq(activity), |
| anyBoolean(), same(null)); |
| assertEquals(ROTATION_180, dc.getRotation()); |
| } |
| |
| @Test |
| public void testOrientationBehind() { |
| final ActivityRecord prev = new ActivityBuilder(mAtm).setCreateTask(true) |
| .setScreenOrientation(getRotatedOrientation(mDisplayContent)).build(); |
| prev.mVisibleRequested = false; |
| final ActivityRecord top = new ActivityBuilder(mAtm).setCreateTask(true) |
| .setScreenOrientation(SCREEN_ORIENTATION_BEHIND).build(); |
| assertNotEquals(WindowConfiguration.ROTATION_UNDEFINED, |
| mDisplayContent.rotationForActivityInDifferentOrientation(top)); |
| |
| mDisplayContent.requestTransitionAndLegacyPrepare(WindowManager.TRANSIT_OPEN, 0); |
| top.setVisibility(true); |
| mDisplayContent.updateOrientation(); |
| // The top uses "behind", so the orientation is decided by the previous. |
| assertEquals(prev, mDisplayContent.getLastOrientationSource()); |
| // The top will use the rotation from "prev" with fixed rotation. |
| assertTrue(top.hasFixedRotationTransform()); |
| } |
| |
| @Test |
| public void testFixedToUserRotationChanged() { |
| final DisplayContent dc = createNewDisplay(); |
| dc.getDisplayRotation().setFixedToUserRotation( |
| IWindowManager.FIXED_TO_USER_ROTATION_ENABLED); |
| dc.getDisplayRotation().setUserRotation( |
| WindowManagerPolicy.USER_ROTATION_LOCKED, ROTATION_0); |
| final int newOrientation = getRotatedOrientation(dc); |
| |
| final Task task = new TaskBuilder(mSupervisor) |
| .setDisplay(dc).setCreateActivity(true).build(); |
| final ActivityRecord activity = task.getTopMostTask().getTopNonFinishingActivity(); |
| dc.setFocusedApp(activity); |
| |
| activity.setRequestedOrientation(newOrientation); |
| |
| dc.getDisplayRotation().setFixedToUserRotation( |
| IWindowManager.FIXED_TO_USER_ROTATION_DISABLED); |
| |
| assertTrue("The display should be rotated.", dc.getRotation() % 2 == 1); |
| } |
| |
| @Test |
| public void testComputeImeParent_app() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| dc.setImeLayeringTarget(createWindow(null, TYPE_BASE_APPLICATION, "app")); |
| dc.setImeInputTarget(dc.getImeTarget(IME_TARGET_LAYERING).getWindow()); |
| assertEquals(dc.getImeTarget(IME_TARGET_LAYERING).getWindow() |
| .mActivityRecord.getSurfaceControl(), dc.computeImeParent()); |
| } |
| |
| @Test |
| public void testComputeImeParent_app_notFullscreen() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| dc.setImeLayeringTarget(createWindow(null, TYPE_STATUS_BAR, "app")); |
| dc.getImeTarget(IME_TARGET_LAYERING).getWindow().setWindowingMode( |
| WindowConfiguration.WINDOWING_MODE_MULTI_WINDOW); |
| assertEquals(dc.getImeContainer().getParentSurfaceControl(), dc.computeImeParent()); |
| } |
| |
| @UseTestDisplay(addWindows = W_ACTIVITY) |
| @Test |
| public void testComputeImeParent_app_notMatchParentBounds() { |
| spyOn(mAppWindow.mActivityRecord); |
| doReturn(false).when(mAppWindow.mActivityRecord).matchParentBounds(); |
| mDisplayContent.setImeLayeringTarget(mAppWindow); |
| // The surface parent of IME should be the display instead of app window. |
| assertEquals(mDisplayContent.getImeContainer().getParentSurfaceControl(), |
| mDisplayContent.computeImeParent()); |
| } |
| |
| @Test |
| public void testComputeImeParent_noApp() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| dc.setImeLayeringTarget(createWindow(null, TYPE_STATUS_BAR, "statusBar")); |
| assertEquals(dc.getImeContainer().getParentSurfaceControl(), dc.computeImeParent()); |
| } |
| |
| @UseTestDisplay(addWindows = W_ACTIVITY) |
| @Test |
| public void testComputeImeParent_inputTargetNotUpdate() throws Exception { |
| WindowState app1 = createWindow(null, TYPE_BASE_APPLICATION, "app1"); |
| WindowState app2 = createWindow(null, TYPE_BASE_APPLICATION, "app2"); |
| doReturn(true).when(mDisplayContent).shouldImeAttachedToApp(); |
| mDisplayContent.setImeLayeringTarget(app1); |
| mDisplayContent.setImeInputTarget(app1); |
| assertEquals(app1.mActivityRecord.getSurfaceControl(), mDisplayContent.computeImeParent()); |
| mDisplayContent.setImeLayeringTarget(app2); |
| // Expect null means no change IME parent when the IME layering target not yet |
| // request IME to be the input target. |
| assertNull(mDisplayContent.computeImeParent()); |
| } |
| |
| @UseTestDisplay(addWindows = W_ACTIVITY) |
| @Test |
| public void testComputeImeParent_updateParentWhenTargetNotUseIme() throws Exception { |
| WindowState overlay = createWindow(null, TYPE_APPLICATION_OVERLAY, "overlay"); |
| overlay.setBounds(100, 100, 200, 200); |
| overlay.mAttrs.flags = FLAG_NOT_FOCUSABLE | FLAG_ALT_FOCUSABLE_IM; |
| WindowState app = createWindow(null, TYPE_BASE_APPLICATION, "app"); |
| mDisplayContent.setImeLayeringTarget(overlay); |
| mDisplayContent.setImeInputTarget(app); |
| assertFalse(mDisplayContent.shouldImeAttachedToApp()); |
| assertEquals(mDisplayContent.getImeContainer().getParentSurfaceControl(), |
| mDisplayContent.computeImeParent()); |
| } |
| |
| @Test |
| public void testComputeImeParent_remoteControlTarget() throws Exception { |
| final DisplayContent dc = mDisplayContent; |
| WindowState app1 = createWindow(null, TYPE_BASE_APPLICATION, "app1"); |
| WindowState app2 = createWindow(null, TYPE_BASE_APPLICATION, "app2"); |
| |
| dc.setImeLayeringTarget(app1); |
| dc.setImeInputTarget(app2); |
| dc.setRemoteInsetsController(createDisplayWindowInsetsController()); |
| dc.getImeTarget(IME_TARGET_LAYERING).getWindow().setWindowingMode( |
| WindowConfiguration.WINDOWING_MODE_MULTI_WINDOW); |
| dc.getImeInputTarget().getWindowState().setWindowingMode( |
| WindowConfiguration.WINDOWING_MODE_MULTI_WINDOW); |
| |
| // Expect ImeParent is null since ImeLayeringTarget and ImeInputTarget are different. |
| assertNull(dc.computeImeParent()); |
| |
| // ImeLayeringTarget and ImeInputTarget are updated to the same. |
| dc.setImeInputTarget(app1); |
| assertEquals(dc.getImeTarget(IME_TARGET_LAYERING), dc.getImeInputTarget()); |
| |
| // The ImeParent should be the display. |
| assertEquals(dc.getImeContainer().getParent().getSurfaceControl(), dc.computeImeParent()); |
| } |
| |
| @Test |
| public void testInputMethodInputTarget_isClearedWhenWindowStateIsRemoved() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| |
| WindowState app = createWindow(null, TYPE_BASE_APPLICATION, dc, "app"); |
| |
| dc.setImeInputTarget(app); |
| assertEquals(app, dc.computeImeControlTarget()); |
| |
| app.removeImmediately(); |
| |
| assertNull(dc.getImeInputTarget()); |
| assertNull(dc.computeImeControlTarget()); |
| } |
| |
| @Test |
| public void testComputeImeControlTarget() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| dc.setRemoteInsetsController(createDisplayWindowInsetsController()); |
| dc.setImeInputTarget(createWindow(null, TYPE_BASE_APPLICATION, "app")); |
| dc.setImeLayeringTarget(dc.getImeInputTarget().getWindowState()); |
| assertEquals(dc.getImeInputTarget().getWindowState(), dc.computeImeControlTarget()); |
| } |
| |
| @Test |
| public void testComputeImeControlTarget_splitscreen() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| dc.setImeInputTarget(createWindow(null, TYPE_BASE_APPLICATION, "app")); |
| dc.getImeInputTarget().getWindowState().setWindowingMode( |
| WindowConfiguration.WINDOWING_MODE_MULTI_WINDOW); |
| dc.setImeLayeringTarget(dc.getImeInputTarget().getWindowState()); |
| dc.setRemoteInsetsController(createDisplayWindowInsetsController()); |
| assertNotEquals(dc.getImeInputTarget().getWindowState(), |
| dc.computeImeControlTarget()); |
| } |
| |
| @UseTestDisplay(addWindows = W_INPUT_METHOD) |
| @Test |
| public void testImeSecureFlagGetUpdatedAfterImeInputTarget() { |
| // Verify IME window can get up-to-date secure flag update when the IME input target |
| // set before setCanScreenshot called. |
| final WindowState app = createWindow(null, TYPE_APPLICATION, "app"); |
| SurfaceControl.Transaction t = mDisplayContent.mInputMethodWindow.getPendingTransaction(); |
| spyOn(t); |
| mDisplayContent.setImeInputTarget(app); |
| mDisplayContent.mInputMethodWindow.setCanScreenshot(t, false /* canScreenshot */); |
| |
| verify(t).setSecure(eq(mDisplayContent.mInputMethodWindow.mSurfaceControl), eq(true)); |
| } |
| |
| @UseTestDisplay(addWindows = W_ACTIVITY) |
| @Test |
| public void testComputeImeControlTarget_notMatchParentBounds() throws Exception { |
| spyOn(mAppWindow.mActivityRecord); |
| doReturn(false).when(mAppWindow.mActivityRecord).matchParentBounds(); |
| mDisplayContent.setImeInputTarget(mAppWindow); |
| mDisplayContent.setImeLayeringTarget( |
| mDisplayContent.getImeInputTarget().getWindowState()); |
| mDisplayContent.setRemoteInsetsController(createDisplayWindowInsetsController()); |
| assertEquals(mAppWindow, mDisplayContent.computeImeControlTarget()); |
| } |
| |
| @Test |
| public void testUpdateSystemGestureExclusion() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| final WindowState win = createWindow(null, TYPE_BASE_APPLICATION, dc, "win"); |
| win.getAttrs().flags |= FLAG_LAYOUT_IN_SCREEN | FLAG_LAYOUT_INSET_DECOR; |
| win.setSystemGestureExclusion(Collections.singletonList(new Rect(10, 20, 30, 40))); |
| |
| performLayout(dc); |
| |
| win.setHasSurface(true); |
| dc.updateSystemGestureExclusion(); |
| |
| final boolean[] invoked = { false }; |
| final ISystemGestureExclusionListener.Stub verifier = |
| new ISystemGestureExclusionListener.Stub() { |
| @Override |
| public void onSystemGestureExclusionChanged(int displayId, Region actual, |
| Region unrestricted) { |
| Region expected = Region.obtain(); |
| expected.set(10, 20, 30, 40); |
| assertEquals(expected, actual); |
| invoked[0] = true; |
| } |
| }; |
| try { |
| dc.registerSystemGestureExclusionListener(verifier); |
| } finally { |
| dc.unregisterSystemGestureExclusionListener(verifier); |
| } |
| assertTrue("SystemGestureExclusionListener was not invoked", invoked[0]); |
| } |
| |
| @Test |
| public void testCalculateSystemGestureExclusion() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| final WindowState win = createWindow(null, TYPE_BASE_APPLICATION, dc, "win"); |
| win.getAttrs().flags |= FLAG_LAYOUT_IN_SCREEN | FLAG_LAYOUT_INSET_DECOR; |
| win.setSystemGestureExclusion(Collections.singletonList(new Rect(10, 20, 30, 40))); |
| |
| final WindowState win2 = createWindow(null, TYPE_APPLICATION, dc, "win2"); |
| win2.getAttrs().flags |= FLAG_LAYOUT_IN_SCREEN | FLAG_LAYOUT_INSET_DECOR; |
| win2.setSystemGestureExclusion(Collections.singletonList(new Rect(20, 30, 40, 50))); |
| |
| performLayout(dc); |
| |
| win.setHasSurface(true); |
| win2.setHasSurface(true); |
| |
| final Region expected = Region.obtain(); |
| expected.set(20, 30, 40, 50); |
| assertEquals(expected, calculateSystemGestureExclusion(dc)); |
| } |
| |
| private Region calculateSystemGestureExclusion(DisplayContent dc) { |
| Region out = Region.obtain(); |
| Region unrestricted = Region.obtain(); |
| dc.calculateSystemGestureExclusion(out, unrestricted); |
| return out; |
| } |
| |
| @Test |
| public void testCalculateSystemGestureExclusion_modal() throws Exception { |
| final DisplayContent dc = createNewDisplay(); |
| final WindowState win = createWindow(null, TYPE_BASE_APPLICATION, dc, "base"); |
| win.getAttrs().flags |= FLAG_LAYOUT_IN_SCREEN | FLAG_LAYOUT_INSET_DECOR; |
| win.setSystemGestureExclusion(Collections.singletonList(new Rect(0, 0, 1000, 1000))); |
| |
| final WindowState win2 = createWindow(null, TYPE_APPLICATION, dc, "modal"); |
| win2.getAttrs().flags |= FLAG_LAYOUT_IN_SCREEN | FLAG_LAYOUT_INSET_DECOR; |
| win2.getAttrs().privateFlags |= PRIVATE_FLAG_NO_MOVE_ANIMATION; |
| win2.getAttrs().width = 10; |
| win2.getAttrs().height = 10; |
| win2.setSystemGestureExclusion(Collections.emptyList()); |
| |
| performLayout(dc); |
| |
| win.setHasSurface(true); |
| win2.setHasSurface(true); |
| |
| final Region expected = Region.obtain(); |
| assertEquals(expected, calculateSystemGestureExclusion(dc)); |
| } |
| |
| @Test |
| public void testCalculateSystemGestureExclusion_immersiveStickyLegacyWindow() throws Exception { |
| mWm.mConstants.mSystemGestureExcludedByPreQStickyImmersive = true; |
| |
| final DisplayContent dc = createNewDisplay(); |
| final WindowState win = createWindow(null, TYPE_BASE_APPLICATION, dc, "win"); |
| win.getAttrs().flags |= FLAG_LAYOUT_IN_SCREEN | FLAG_LAYOUT_INSET_DECOR; |
| win.getAttrs().layoutInDisplayCutoutMode = LAYOUT_IN_DISPLAY_CUTOUT_MODE_SHORT_EDGES; |
| win.getAttrs().privateFlags |= PRIVATE_FLAG_NO_MOVE_ANIMATION; |
| win.getAttrs().insetsFlags.behavior = BEHAVIOR_SHOW_TRANSIENT_BARS_BY_SWIPE; |
| final InsetsVisibilities requestedVisibilities = new InsetsVisibilities(); |
| requestedVisibilities.setVisibility(ITYPE_NAVIGATION_BAR, false); |
| requestedVisibilities.setVisibility(ITYPE_STATUS_BAR, false); |
| win.setRequestedVisibilities(requestedVisibilities); |
| win.mActivityRecord.mTargetSdk = P; |
| |
| performLayout(dc); |
| |
| win.setHasSurface(true); |
| |
| final Region expected = Region.obtain(); |
| expected.set(dc.getBounds()); |
| assertEquals(expected, calculateSystemGestureExclusion(dc)); |
| |
| win.setHasSurface(false); |
| } |
| |
| @UseTestDisplay(addWindows = { W_ABOVE_ACTIVITY, W_ACTIVITY}) |
| @Test |
| public void testRequestResizeForEmptyFrames() { |
| final WindowState win = mChildAppWindowAbove; |
| makeWindowVisible(win, win.getParentWindow()); |
| win.setRequestedSize(mDisplayContent.mBaseDisplayWidth, 0 /* height */); |
| win.mAttrs.width = win.mAttrs.height = WindowManager.LayoutParams.WRAP_CONTENT; |
| win.mAttrs.gravity = Gravity.CENTER; |
| performLayout(mDisplayContent); |
| |
| // The frame is empty because the requested height is zero. |
| assertTrue(win.getFrame().isEmpty()); |
| // The window should be scheduled to resize then the client may report a new non-empty size. |
| win.updateResizingWindowIfNeeded(); |
| assertThat(mWm.mResizingWindows).contains(win); |
| } |
| |
| @Test |
| public void testOrientationChangeLogging() { |
| MetricsLogger mockLogger = mock(MetricsLogger.class); |
| Configuration oldConfig = new Configuration(); |
| oldConfig.orientation = Configuration.ORIENTATION_LANDSCAPE; |
| |
| Configuration newConfig = new Configuration(); |
| newConfig.orientation = Configuration.ORIENTATION_PORTRAIT; |
| final DisplayContent displayContent = createNewDisplay(); |
| Mockito.doReturn(mockLogger).when(displayContent).getMetricsLogger(); |
| Mockito.doReturn(oldConfig).doReturn(newConfig).when(displayContent).getConfiguration(); |
| |
| displayContent.onConfigurationChanged(newConfig); |
| |
| ArgumentCaptor<LogMaker> logMakerCaptor = ArgumentCaptor.forClass(LogMaker.class); |
| verify(mockLogger).write(logMakerCaptor.capture()); |
| assertThat(logMakerCaptor.getValue().getCategory(), |
| is(MetricsProto.MetricsEvent.ACTION_PHONE_ORIENTATION_CHANGED)); |
| assertThat(logMakerCaptor.getValue().getSubtype(), |
| is(Configuration.ORIENTATION_PORTRAIT)); |
| } |
| |
| @Test |
| public void testHybridRotationAnimation() { |
| final DisplayContent displayContent = mDefaultDisplay; |
| final WindowState statusBar = createWindow(null, TYPE_STATUS_BAR, "statusBar"); |
| final WindowState navBar = createWindow(null, TYPE_NAVIGATION_BAR, "navBar"); |
| final WindowState app = createWindow(null, TYPE_BASE_APPLICATION, "app"); |
| final WindowState[] windows = { statusBar, navBar, app }; |
| makeWindowVisible(windows); |
| final DisplayPolicy displayPolicy = displayContent.getDisplayPolicy(); |
| displayPolicy.addWindowLw(statusBar, statusBar.mAttrs); |
| displayPolicy.addWindowLw(navBar, navBar.mAttrs); |
| final ScreenRotationAnimation rotationAnim = new ScreenRotationAnimation(displayContent, |
| displayContent.getRotation()); |
| spyOn(rotationAnim); |
| // Assume that the display rotation is changed so it is frozen in preparation for animation. |
| doReturn(true).when(rotationAnim).hasScreenshot(); |
| displayContent.getDisplayRotation().setRotation((displayContent.getRotation() + 1) % 4); |
| displayContent.setRotationAnimation(rotationAnim); |
| // The fade rotation animation also starts to hide some non-app windows. |
| assertNotNull(displayContent.getAsyncRotationController()); |
| assertTrue(statusBar.isAnimating(PARENTS, ANIMATION_TYPE_TOKEN_TRANSFORM)); |
| |
| for (WindowState w : windows) { |
| w.setOrientationChanging(true); |
| } |
| // The display only waits for the app window to unfreeze. |
| assertFalse(displayContent.shouldSyncRotationChange(statusBar)); |
| assertFalse(displayContent.shouldSyncRotationChange(navBar)); |
| assertTrue(displayContent.shouldSyncRotationChange(app)); |
| // If all windows animated by fade rotation animation have done the orientation change, |
| // the animation controller should be cleared. |
| statusBar.setOrientationChanging(false); |
| navBar.setOrientationChanging(false); |
| assertNull(displayContent.getAsyncRotationController()); |
| } |
| |
| @UseTestDisplay(addWindows = { W_ACTIVITY, W_WALLPAPER, W_STATUS_BAR, W_NAVIGATION_BAR, |
| W_INPUT_METHOD, W_NOTIFICATION_SHADE }) |
| @Test |
| public void testApplyTopFixedRotationTransform() { |
| final DisplayPolicy displayPolicy = mDisplayContent.getDisplayPolicy(); |
| // Only non-movable (gesture) navigation bar will be animated by fixed rotation animation. |
| doReturn(false).when(displayPolicy).navigationBarCanMove(); |
| displayPolicy.addWindowLw(mStatusBarWindow, mStatusBarWindow.mAttrs); |
| displayPolicy.addWindowLw(mNavBarWindow, mNavBarWindow.mAttrs); |
| displayPolicy.addWindowLw(mNotificationShadeWindow, mNotificationShadeWindow.mAttrs); |
| makeWindowVisible(mStatusBarWindow, mNavBarWindow); |
| final Configuration config90 = new Configuration(); |
| mDisplayContent.computeScreenConfiguration(config90, ROTATION_90); |
| |
| final Configuration config = new Configuration(); |
| mDisplayContent.getDisplayRotation().setRotation(ROTATION_0); |
| mDisplayContent.computeScreenConfiguration(config); |
| mDisplayContent.onRequestedOverrideConfigurationChanged(config); |
| assertNotEquals(config90.windowConfiguration.getMaxBounds(), |
| config.windowConfiguration.getMaxBounds()); |
| |
| final ActivityRecord app = mAppWindow.mActivityRecord; |
| app.setVisible(false); |
| mDisplayContent.prepareAppTransition(WindowManager.TRANSIT_OPEN); |
| mDisplayContent.mOpeningApps.add(app); |
| final int newOrientation = getRotatedOrientation(mDisplayContent); |
| app.setRequestedOrientation(newOrientation); |
| |
| assertTrue(app.isFixedRotationTransforming()); |
| assertTrue(mAppWindow.matchesDisplayAreaBounds()); |
| assertFalse(mAppWindow.areAppWindowBoundsLetterboxed()); |
| assertTrue(mDisplayContent.getDisplayRotation().shouldRotateSeamlessly( |
| ROTATION_0 /* oldRotation */, ROTATION_90 /* newRotation */, |
| false /* forceUpdate */)); |
| |
| final AsyncRotationController asyncRotationController = |
| mDisplayContent.getAsyncRotationController(); |
| assertNotNull(asyncRotationController); |
| assertTrue(mStatusBarWindow.isAnimating(PARENTS, ANIMATION_TYPE_TOKEN_TRANSFORM)); |
| assertTrue(mNavBarWindow.isAnimating(PARENTS, ANIMATION_TYPE_TOKEN_TRANSFORM)); |
| // Notification shade may have its own view animation in real case so do not fade out it. |
| assertFalse(mNotificationShadeWindow.isAnimating(PARENTS, ANIMATION_TYPE_TOKEN_TRANSFORM)); |
| |
| // If the visibility of insets state is changed, the rotated state should be updated too. |
| final InsetsState rotatedState = app.getFixedRotationTransformInsetsState(); |
| final InsetsState state = mDisplayContent.getInsetsStateController().getRawInsetsState(); |
| assertEquals(state.getSource(ITYPE_STATUS_BAR).isVisible(), |
| rotatedState.getSource(ITYPE_STATUS_BAR).isVisible()); |
| state.getSource(ITYPE_STATUS_BAR).setVisible( |
| !rotatedState.getSource(ITYPE_STATUS_BAR).isVisible()); |
| mDisplayContent.getInsetsStateController().notifyInsetsChanged(); |
| assertEquals(state.getSource(ITYPE_STATUS_BAR).isVisible(), |
| rotatedState.getSource(ITYPE_STATUS_BAR).isVisible()); |
| |
| final Rect outFrame = new Rect(); |
| final Rect outInsets = new Rect(); |
| final Rect outStableInsets = new Rect(); |
| final Rect outSurfaceInsets = new Rect(); |
| mAppWindow.getAnimationFrames(outFrame, outInsets, outStableInsets, outSurfaceInsets); |
| // The animation frames should not be rotated because display hasn't rotated. |
| assertEquals(mDisplayContent.getBounds(), outFrame); |
| |
| // The display should keep current orientation and the rotated configuration should apply |
| // to the activity. |
| assertEquals(config.orientation, mDisplayContent.getConfiguration().orientation); |
| assertEquals(config90.orientation, app.getConfiguration().orientation); |
| assertEquals(config90.windowConfiguration.getBounds(), app.getBounds()); |
| |
| // Associate wallpaper with the fixed rotation transform. |
| final WindowToken wallpaperToken = mWallpaperWindow.mToken; |
| wallpaperToken.linkFixedRotationTransform(app); |
| |
| // Force the negative offset to verify it can be updated. |
| mWallpaperWindow.mXOffset = mWallpaperWindow.mYOffset = -1; |
| assertTrue(mDisplayContent.mWallpaperController.updateWallpaperOffset(mWallpaperWindow, |
| false /* sync */)); |
| assertThat(mWallpaperWindow.mXOffset).isNotEqualTo(-1); |
| assertThat(mWallpaperWindow.mYOffset).isNotEqualTo(-1); |
| |
| // The wallpaper need to animate with transformed position, so its surface position should |
| // not be reset. |
| final Transaction t = wallpaperToken.getPendingTransaction(); |
| spyOn(t); |
| mWallpaperWindow.mToken.onAnimationLeashCreated(t, null /* leash */); |
| verify(t, never()).setPosition(any(), eq(0), eq(0)); |
| |
| // Launch another activity before the transition is finished. |
| final Task task2 = new TaskBuilder(mSupervisor).setDisplay(mDisplayContent).build(); |
| final ActivityRecord app2 = new ActivityBuilder(mAtm).setTask(task2) |
| .setUseProcess(app.app).build(); |
| app2.setVisible(false); |
| mDisplayContent.mOpeningApps.add(app2); |
| app2.setRequestedOrientation(newOrientation); |
| |
| // The activity should share the same transform state as the existing one. The activity |
| // should also be the fixed rotation launching app because it is the latest top. |
| assertTrue(app.hasFixedRotationTransform(app2)); |
| assertTrue(mDisplayContent.isFixedRotationLaunchingApp(app2)); |
| |
| final Configuration expectedProcConfig = new Configuration(app2.app.getConfiguration()); |
| expectedProcConfig.windowConfiguration.setActivityType( |
| WindowConfiguration.ACTIVITY_TYPE_UNDEFINED); |
| assertEquals("The process should receive rotated configuration for compatibility", |
| expectedProcConfig, app2.app.getConfiguration()); |
| |
| // If the rotated activity requests to show IME, the IME window should use the |
| // transformation from activity to lay out in the same orientation. |
| mDisplayContent.setImeLayeringTarget(mAppWindow); |
| LocalServices.getService(WindowManagerInternal.class).onToggleImeRequested(true /* show */, |
| app.token, app.token, mDisplayContent.mDisplayId); |
| assertTrue(asyncRotationController.isTargetToken(mImeWindow.mToken)); |
| assertTrue(mImeWindow.mToken.hasFixedRotationTransform()); |
| assertTrue(mImeWindow.isAnimating(PARENTS, ANIMATION_TYPE_TOKEN_TRANSFORM)); |
| |
| // The fixed rotation transform can only be finished when all animation finished. |
| doReturn(false).when(app2).isAnimating(anyInt(), anyInt()); |
| mDisplayContent.mAppTransition.notifyAppTransitionFinishedLocked(app2.token); |
| assertTrue(app.hasFixedRotationTransform()); |
| assertTrue(app2.hasFixedRotationTransform()); |
| |
| // The display should be rotated after the launch is finished. |
| doReturn(false).when(app).isAnimating(anyInt(), anyInt()); |
| mDisplayContent.mAppTransition.notifyAppTransitionFinishedLocked(app.token); |
| |
| // The fixed rotation should be cleared and the new rotation is applied to display. |
| assertFalse(app.hasFixedRotationTransform()); |
| assertFalse(app2.hasFixedRotationTransform()); |
| assertEquals(config90.orientation, mDisplayContent.getConfiguration().orientation); |
| assertNull(mDisplayContent.getAsyncRotationController()); |
| } |
| |
| @Test |
| public void testFinishFixedRotationNoAppTransitioningTask() { |
| unblockDisplayRotation(mDisplayContent); |
| final ActivityRecord app = createActivityRecord(mDisplayContent); |
| final Task task = app.getTask(); |
| final ActivityRecord app2 = new ActivityBuilder(mWm.mAtmService).setTask(task).build(); |
| mDisplayContent.setFixedRotationLaunchingApp(app2, (mDisplayContent.getRotation() + 1) % 4); |
| doReturn(true).when(task).isAppTransitioning(); |
| // If the task is animating transition, this should be no-op. |
| mDisplayContent.mFixedRotationTransitionListener.onAppTransitionFinishedLocked(app.token); |
| |
| assertTrue(app2.hasFixedRotationTransform()); |
| assertTrue(mDisplayContent.hasTopFixedRotationLaunchingApp()); |
| |
| doReturn(false).when(task).isAppTransitioning(); |
| // Although this notifies app instead of app2 that uses the fixed rotation, app2 should |
| // still finish the transform because there is no more transition event. |
| mDisplayContent.mFixedRotationTransitionListener.onAppTransitionFinishedLocked(app.token); |
| |
| assertFalse(app2.hasFixedRotationTransform()); |
| assertFalse(mDisplayContent.hasTopFixedRotationLaunchingApp()); |
| } |
| |
| @UseTestDisplay(addWindows = W_ACTIVITY) |
| @Test |
| public void testRotateSeamlesslyWithFixedRotation() { |
| final DisplayRotation displayRotation = mDisplayContent.getDisplayRotation(); |
| final ActivityRecord app = mAppWindow.mActivityRecord; |
| mDisplayContent.setFixedRotationLaunchingAppUnchecked(app); |
| mAppWindow.mAttrs.rotationAnimation = WindowManager.LayoutParams.ROTATION_ANIMATION_ROTATE; |
| |
| // Use seamless rotation if the top app is rotated. |
| assertTrue(displayRotation.shouldRotateSeamlessly(ROTATION_0 /* oldRotation */, |
| ROTATION_90 /* newRotation */, false /* forceUpdate */)); |
| |
| mDisplayContent.mFixedRotationTransitionListener.onStartRecentsAnimation(app); |
| |
| // Use normal rotation because animating recents is an intermediate state. |
| assertFalse(displayRotation.shouldRotateSeamlessly(ROTATION_0 /* oldRotation */, |
| ROTATION_90 /* newRotation */, false /* forceUpdate */)); |
| } |
| |
| @Test |
| public void testFixedRotationWithPip() { |
| final DisplayContent displayContent = mDefaultDisplay; |
| unblockDisplayRotation(displayContent); |
| // Unblock the condition in PinnedTaskController#continueOrientationChangeIfNeeded. |
| doNothing().when(displayContent).prepareAppTransition(anyInt()); |
| // Make resume-top really update the activity state. |
| setBooted(mAtm); |
| clearInvocations(mWm); |
| // Speed up the test by a few seconds. |
| mAtm.deferWindowLayout(); |
| |
| final ActivityRecord homeActivity = createActivityRecord( |
| displayContent.getDefaultTaskDisplayArea().getRootHomeTask()); |
| final ActivityRecord pinnedActivity = new ActivityBuilder(mAtm).setCreateTask(true).build(); |
| final Task pinnedTask = pinnedActivity.getRootTask(); |
| doReturn((displayContent.getRotation() + 1) % 4).when(displayContent) |
| .rotationForActivityInDifferentOrientation(eq(homeActivity)); |
| // Enter PiP from fullscreen. |
| pinnedTask.setWindowingMode(WINDOWING_MODE_PINNED); |
| |
| assertTrue(displayContent.hasTopFixedRotationLaunchingApp()); |
| assertTrue(displayContent.mPinnedTaskController.shouldDeferOrientationChange()); |
| verify(mWm, never()).startFreezingDisplay(anyInt(), anyInt(), any(), anyInt()); |
| clearInvocations(pinnedTask); |
| |
| // Assume that the PiP enter animation is done then the new bounds are set. Expect the |
| // orientation update is no longer deferred. |
| displayContent.mPinnedTaskController.setEnterPipBounds(pinnedTask.getBounds()); |
| // The Task Configuration was frozen to skip the change of orientation. |
| verify(pinnedTask, never()).onConfigurationChanged(any()); |
| assertFalse(displayContent.mPinnedTaskController.shouldDeferOrientationChange()); |
| assertFalse(displayContent.hasTopFixedRotationLaunchingApp()); |
| assertEquals(homeActivity.getConfiguration().orientation, |
| displayContent.getConfiguration().orientation); |
| |
| doReturn((displayContent.getRotation() + 1) % 4).when(displayContent) |
| .rotationForActivityInDifferentOrientation(eq(pinnedActivity)); |
| // Leave PiP to fullscreen. Simulate the step of PipTaskOrganizer that sets the activity |
| // to fullscreen, so fixed rotation will apply on it. |
| pinnedActivity.setWindowingMode(WINDOWING_MODE_FULLSCREEN); |
| assertTrue(displayContent.hasTopFixedRotationLaunchingApp()); |
| |
| // Assume the animation of PipTaskOrganizer is done and then commit fullscreen to task. |
| pinnedTask.setWindowingMode(WINDOWING_MODE_FULLSCREEN); |
| displayContent.continueUpdateOrientationForDiffOrienLaunchingApp(); |
| assertFalse(displayContent.mPinnedTaskController.isFreezingTaskConfig(pinnedTask)); |
| assertEquals(pinnedActivity.getConfiguration().orientation, |
| displayContent.getConfiguration().orientation); |
| } |
| |
| @Test |
| public void testNoFixedRotationOnResumedScheduledApp() { |
| unblockDisplayRotation(mDisplayContent); |
| final ActivityRecord app = new ActivityBuilder(mAtm).setCreateTask(true).build(); |
| app.setVisible(false); |
| app.setState(ActivityRecord.State.RESUMED, "test"); |
| mDisplayContent.prepareAppTransition(WindowManager.TRANSIT_OPEN); |
| mDisplayContent.mOpeningApps.add(app); |
| final int newOrientation = getRotatedOrientation(mDisplayContent); |
| app.setRequestedOrientation(newOrientation); |
| |
| // The condition should reject using fixed rotation because the resumed client in real case |
| // might get display info immediately. And the fixed rotation adjustments haven't arrived |
| // client side so the info may be inconsistent with the requested orientation. |
| verify(mDisplayContent).updateOrientation(eq(app), anyBoolean()); |
| assertFalse(app.isFixedRotationTransforming()); |
| assertFalse(mDisplayContent.hasTopFixedRotationLaunchingApp()); |
| } |
| |
| /** |
| * Creates different types of displays, verifies that minimal task size doesn't change |
| * with density of display. |
| */ |
| @Test |
| public void testCalculatesDisplaySpecificMinTaskSizes() { |
| DisplayContent defaultTestDisplay = |
| new TestDisplayContent.Builder(mAtm, 1000, 2000).build(); |
| final int defaultMinTaskSize = defaultTestDisplay.mMinSizeOfResizeableTaskDp; |
| DisplayContent firstDisplay = new TestDisplayContent.Builder(mAtm, 1000, 2000) |
| .setDensityDpi(300) |
| .updateDisplayMetrics() |
| .setDefaultMinTaskSizeDp(defaultMinTaskSize + 10) |
| .build(); |
| assertEquals(defaultMinTaskSize + 10, firstDisplay.mMinSizeOfResizeableTaskDp); |
| |
| DisplayContent secondDisplay = new TestDisplayContent.Builder(mAtm, 200, 200) |
| .setDensityDpi(320) |
| .updateDisplayMetrics() |
| .setDefaultMinTaskSizeDp(defaultMinTaskSize + 20) |
| .build(); |
| assertEquals(defaultMinTaskSize + 20, secondDisplay.mMinSizeOfResizeableTaskDp); |
| } |
| |
| @Test |
| public void testRecentsNotRotatingWithFixedRotation() { |
| unblockDisplayRotation(mDisplayContent); |
| final DisplayRotation displayRotation = mDisplayContent.getDisplayRotation(); |
| // Skip freezing so the unrelated conditions in updateRotationUnchecked won't disturb. |
| doNothing().when(mWm).startFreezingDisplay(anyInt(), anyInt(), any(), anyInt()); |
| |
| final ActivityRecord activity = createActivityRecord(mDisplayContent); |
| final ActivityRecord recentsActivity = createActivityRecord(mDisplayContent); |
| recentsActivity.setRequestedOrientation(SCREEN_ORIENTATION_PORTRAIT); |
| doReturn(mock(RecentsAnimationController.class)).when(mWm).getRecentsAnimationController(); |
| |
| // Do not rotate if the recents animation is animating on top. |
| mDisplayContent.mFixedRotationTransitionListener.onStartRecentsAnimation(recentsActivity); |
| displayRotation.setRotation((displayRotation.getRotation() + 1) % 4); |
| assertFalse(displayRotation.updateRotationUnchecked(false)); |
| |
| // Rotation can be updated if the recents animation is finished. |
| mDisplayContent.mFixedRotationTransitionListener.onFinishRecentsAnimation(); |
| assertTrue(displayRotation.updateRotationUnchecked(false)); |
| |
| // Rotation can be updated if the policy is not ok to animate (e.g. going to sleep). |
| mDisplayContent.mFixedRotationTransitionListener.onStartRecentsAnimation(recentsActivity); |
| displayRotation.setRotation((displayRotation.getRotation() + 1) % 4); |
| ((TestWindowManagerPolicy) mWm.mPolicy).mOkToAnimate = false; |
| assertTrue(displayRotation.updateRotationUnchecked(false)); |
| |
| // Rotation can be updated if the recents animation is animating but it is not on top, e.g. |
| // switching activities in different orientations by quickstep gesture. |
| mDisplayContent.mFixedRotationTransitionListener.onStartRecentsAnimation(recentsActivity); |
| mDisplayContent.setFixedRotationLaunchingAppUnchecked(activity); |
| displayRotation.setRotation((displayRotation.getRotation() + 1) % 4); |
| assertTrue(displayRotation.updateRotationUnchecked(false)); |
| |
| // The recents activity should not apply fixed rotation if the top activity is not opaque. |
| mDisplayContent.mFocusedApp = activity; |
| doReturn(false).when(mDisplayContent.mFocusedApp).occludesParent(); |
| doReturn(ROTATION_90).when(mDisplayContent).rotationForActivityInDifferentOrientation( |
| eq(recentsActivity)); |
| mDisplayContent.mFixedRotationTransitionListener.onStartRecentsAnimation(recentsActivity); |
| assertFalse(recentsActivity.hasFixedRotationTransform()); |
| } |
| |
| @Test |
| public void testRemoteRotation() { |
| DisplayContent dc = createNewDisplay(); |
| |
| final DisplayRotation dr = dc.getDisplayRotation(); |
| doCallRealMethod().when(dr).updateRotationUnchecked(anyBoolean()); |
| // Rotate 180 degree so the display doesn't have configuration change. This condition is |
| // used for the later verification of stop-freezing (without setting mWaitingForConfig). |
| doReturn((dr.getRotation() + 2) % 4).when(dr).rotationForOrientation(anyInt(), anyInt()); |
| final boolean[] continued = new boolean[1]; |
| doAnswer( |
| invocation -> { |
| continued[0] = true; |
| return true; |
| }).when(dc).updateDisplayOverrideConfigurationLocked(); |
| final boolean[] called = new boolean[1]; |
| mWm.mDisplayChangeController = |
| new IDisplayChangeWindowController.Stub() { |
| @Override |
| public void onDisplayChange(int displayId, int fromRotation, int toRotation, |
| DisplayAreaInfo newDisplayAreaInfo, |
| IDisplayChangeWindowCallback callback) throws RemoteException { |
| called[0] = true; |
| |
| try { |
| callback.continueDisplayChange(null); |
| } catch (RemoteException e) { |
| assertTrue(false); |
| } |
| } |
| }; |
| |
| // kill any existing rotation animation (vestigial from test setup). |
| dc.setRotationAnimation(null); |
| |
| mWm.updateRotation(true /* alwaysSendConfiguration */, false /* forceRelayout */); |
| // If remote rotation is not finished, the display should not be able to unfreeze. |
| mWm.stopFreezingDisplayLocked(); |
| assertTrue(mWm.mDisplayFrozen); |
| |
| assertTrue(called[0]); |
| waitUntilHandlersIdle(); |
| assertTrue(continued[0]); |
| |
| mWm.stopFreezingDisplayLocked(); |
| assertFalse(mWm.mDisplayFrozen); |
| } |
| |
| @Test |
| public void testShellTransitRotation() { |
| DisplayContent dc = createNewDisplay(); |
| dc.setLastHasContent(); |
| |
| final TestTransitionPlayer testPlayer = registerTestTransitionPlayer(); |
| final DisplayRotation dr = dc.getDisplayRotation(); |
| doCallRealMethod().when(dr).updateRotationUnchecked(anyBoolean()); |
| // Rotate 180 degree so the display doesn't have configuration change. This condition is |
| // used for the later verification of stop-freezing (without setting mWaitingForConfig). |
| doReturn((dr.getRotation() + 2) % 4).when(dr).rotationForOrientation(anyInt(), anyInt()); |
| mWm.mDisplayChangeController = |
| new IDisplayChangeWindowController.Stub() { |
| @Override |
| public void onDisplayChange(int displayId, int fromRotation, int toRotation, |
| DisplayAreaInfo newDisplayAreaInfo, |
| IDisplayChangeWindowCallback callback) throws RemoteException { |
| try { |
| callback.continueDisplayChange(null); |
| } catch (RemoteException e) { |
| assertTrue(false); |
| } |
| } |
| }; |
| |
| // kill any existing rotation animation (vestigial from test setup). |
| dc.setRotationAnimation(null); |
| |
| final int origRot = dc.getConfiguration().windowConfiguration.getRotation(); |
| |
| mWm.updateRotation(true /* alwaysSendConfiguration */, false /* forceRelayout */); |
| // Should create a transition request without performing rotation |
| assertNotNull(testPlayer.mLastRequest); |
| assertEquals(origRot, dc.getConfiguration().windowConfiguration.getRotation()); |
| |
| // Once transition starts, rotation is applied and transition shows DC rotating. |
| testPlayer.start(); |
| assertNotEquals(origRot, dc.getConfiguration().windowConfiguration.getRotation()); |
| assertNotNull(testPlayer.mLastReady); |
| assertEquals(dc, DisplayRotation.getDisplayFromTransition(testPlayer.mLastTransit)); |
| WindowContainerToken dcToken = dc.mRemoteToken.toWindowContainerToken(); |
| assertNotEquals(testPlayer.mLastReady.getChange(dcToken).getEndRotation(), |
| testPlayer.mLastReady.getChange(dcToken).getStartRotation()); |
| testPlayer.finish(); |
| } |
| |
| @Test |
| public void testValidWindowingLayer() { |
| final SurfaceControl windowingLayer = mDisplayContent.getWindowingLayer(); |
| assertNotNull(windowingLayer); |
| |
| final List<DisplayArea<?>> windowedMagnificationAreas = |
| mDisplayContent.mDisplayAreaPolicy.getDisplayAreas(FEATURE_WINDOWED_MAGNIFICATION); |
| if (windowedMagnificationAreas != null) { |
| assertEquals("There should be only one DisplayArea for FEATURE_WINDOWED_MAGNIFICATION", |
| 1, windowedMagnificationAreas.size()); |
| assertEquals(windowedMagnificationAreas.get(0).mSurfaceControl, windowingLayer); |
| } else { |
| assertNotEquals(mDisplayContent.mSurfaceControl, windowingLayer); |
| } |
| } |
| |
| @Test |
| public void testFindScrollCaptureTargetWindow_behindWindow() { |
| DisplayContent display = createNewDisplay(); |
| Task rootTask = createTask(display); |
| Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| WindowState activityWindow = createAppWindow(task, TYPE_APPLICATION, "App Window"); |
| WindowState behindWindow = createWindow(null, TYPE_SCREENSHOT, display, "Screenshot"); |
| |
| WindowState result = display.findScrollCaptureTargetWindow(behindWindow, |
| ActivityTaskManager.INVALID_TASK_ID); |
| assertEquals(activityWindow, result); |
| } |
| |
| @Test |
| public void testFindScrollCaptureTargetWindow_cantReceiveKeys() { |
| DisplayContent display = createNewDisplay(); |
| Task rootTask = createTask(display); |
| Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| WindowState activityWindow = createAppWindow(task, TYPE_APPLICATION, "App Window"); |
| WindowState invisible = createWindow(null, TYPE_APPLICATION, "invisible"); |
| invisible.mViewVisibility = View.INVISIBLE; // make canReceiveKeys return false |
| |
| WindowState result = display.findScrollCaptureTargetWindow(null, |
| ActivityTaskManager.INVALID_TASK_ID); |
| assertEquals(activityWindow, result); |
| } |
| |
| @Test |
| public void testFindScrollCaptureTargetWindow_secure() { |
| DisplayContent display = createNewDisplay(); |
| Task rootTask = createTask(display); |
| Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| WindowState secureWindow = createWindow(null, TYPE_APPLICATION, "Secure Window"); |
| secureWindow.mAttrs.flags |= FLAG_SECURE; |
| |
| WindowState result = display.findScrollCaptureTargetWindow(null, |
| ActivityTaskManager.INVALID_TASK_ID); |
| assertNull(result); |
| } |
| |
| @Test |
| public void testFindScrollCaptureTargetWindow_secureTaskId() { |
| DisplayContent display = createNewDisplay(); |
| Task rootTask = createTask(display); |
| Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| WindowState secureWindow = createWindow(null, TYPE_APPLICATION, "Secure Window"); |
| secureWindow.mAttrs.flags |= FLAG_SECURE; |
| |
| WindowState result = display.findScrollCaptureTargetWindow(null, task.mTaskId); |
| assertNull(result); |
| } |
| |
| @Test |
| public void testFindScrollCaptureTargetWindow_taskId() { |
| DisplayContent display = createNewDisplay(); |
| Task rootTask = createTask(display); |
| Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| WindowState window = createAppWindow(task, TYPE_APPLICATION, "App Window"); |
| WindowState behindWindow = createWindow(null, TYPE_SCREENSHOT, display, "Screenshot"); |
| |
| WindowState result = display.findScrollCaptureTargetWindow(null, task.mTaskId); |
| assertEquals(window, result); |
| } |
| |
| @Test |
| public void testFindScrollCaptureTargetWindow_taskIdCantReceiveKeys() { |
| DisplayContent display = createNewDisplay(); |
| Task rootTask = createTask(display); |
| Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| WindowState window = createAppWindow(task, TYPE_APPLICATION, "App Window"); |
| window.mViewVisibility = View.INVISIBLE; // make canReceiveKeys return false |
| WindowState behindWindow = createWindow(null, TYPE_SCREENSHOT, display, "Screenshot"); |
| |
| WindowState result = display.findScrollCaptureTargetWindow(null, task.mTaskId); |
| assertEquals(window, result); |
| } |
| |
| @Test |
| public void testEnsureActivitiesVisibleNotRecursive() { |
| final TaskDisplayArea mockTda = mock(TaskDisplayArea.class); |
| final boolean[] called = { false }; |
| doAnswer(invocation -> { |
| // The assertion will fail if DisplayArea#ensureActivitiesVisible is called twice. |
| assertFalse(called[0]); |
| called[0] = true; |
| mDisplayContent.ensureActivitiesVisible(null, 0, false, false); |
| return null; |
| }).when(mockTda).ensureActivitiesVisible(any(), anyInt(), anyBoolean(), anyBoolean()); |
| |
| mDisplayContent.ensureActivitiesVisible(null, 0, false, false); |
| } |
| |
| @Test |
| public void testSetWindowingModeAtomicallyUpdatesWindoingModeAndDisplayWindowingMode() { |
| final DisplayContent dc = createNewDisplay(); |
| final Task rootTask = new TaskBuilder(mSupervisor) |
| .setDisplay(dc) |
| .build(); |
| doAnswer(invocation -> { |
| Object[] args = invocation.getArguments(); |
| final Configuration config = ((Configuration) args[0]); |
| assertEquals(config.windowConfiguration.getWindowingMode(), |
| config.windowConfiguration.getDisplayWindowingMode()); |
| return null; |
| }).when(rootTask).onConfigurationChanged(any()); |
| dc.setWindowingMode(WINDOWING_MODE_FREEFORM); |
| dc.setWindowingMode(WINDOWING_MODE_FULLSCREEN); |
| } |
| |
| @Test |
| public void testForceDesktopMode() { |
| mWm.mForceDesktopModeOnExternalDisplays = true; |
| // Not applicable for default display |
| assertFalse(mDefaultDisplay.forceDesktopMode()); |
| |
| // Not applicable for private secondary display. |
| final DisplayInfo displayInfo = new DisplayInfo(); |
| displayInfo.copyFrom(mDisplayInfo); |
| displayInfo.flags = FLAG_PRIVATE; |
| final DisplayContent privateDc = createNewDisplay(displayInfo); |
| assertFalse(privateDc.forceDesktopMode()); |
| |
| // Applicable for public secondary display. |
| final DisplayContent publicDc = createNewDisplay(); |
| assertTrue(publicDc.forceDesktopMode()); |
| |
| // Make sure forceDesktopMode() is false when the force config is disabled. |
| mWm.mForceDesktopModeOnExternalDisplays = false; |
| assertFalse(publicDc.forceDesktopMode()); |
| } |
| |
| @Test |
| public void testDisplaySettingsReappliedWhenDisplayChanged() { |
| final DisplayInfo displayInfo = new DisplayInfo(); |
| displayInfo.copyFrom(mDisplayInfo); |
| final DisplayContent dc = createNewDisplay(displayInfo); |
| |
| // Generate width/height/density values different from the default of the display. |
| final int forcedWidth = dc.mBaseDisplayWidth + 1; |
| final int forcedHeight = dc.mBaseDisplayHeight + 1;; |
| final int forcedDensity = dc.mBaseDisplayDensity + 1;; |
| // Update the forced size and density in settings and the unique id to simualate a display |
| // remap. |
| dc.mWmService.mDisplayWindowSettings.setForcedSize(dc, forcedWidth, forcedHeight); |
| dc.mWmService.mDisplayWindowSettings.setForcedDensity(dc, forcedDensity, 0 /* userId */); |
| dc.mCurrentUniqueDisplayId = mDisplayInfo.uniqueId + "-test"; |
| // Trigger display changed. |
| dc.onDisplayChanged(); |
| // Ensure overridden size and denisty match the most up-to-date values in settings for the |
| // display. |
| verifySizes(dc, forcedWidth, forcedHeight, forcedDensity); |
| } |
| |
| @UseTestDisplay(addWindows = { W_ACTIVITY, W_INPUT_METHOD }) |
| @Test |
| public void testComputeImeTarget_shouldNotCheckOutdatedImeTargetLayerWhenRemoved() { |
| final WindowState child1 = createWindow(mAppWindow, FIRST_SUB_WINDOW, "child1"); |
| final WindowState nextImeTargetApp = createWindow(null /* parent */, |
| TYPE_BASE_APPLICATION, "nextImeTargetApp"); |
| spyOn(child1); |
| doReturn(false).when(mDisplayContent).shouldImeAttachedToApp(); |
| mDisplayContent.setImeLayeringTarget(child1); |
| |
| spyOn(nextImeTargetApp); |
| spyOn(mAppWindow); |
| doReturn(true).when(nextImeTargetApp).canBeImeTarget(); |
| doReturn(true).when(nextImeTargetApp).isActivityTypeHome(); |
| doReturn(false).when(mAppWindow).canBeImeTarget(); |
| |
| child1.removeImmediately(); |
| |
| verify(mDisplayContent).computeImeTarget(true); |
| assertNull(mDisplayContent.getImeInputTarget()); |
| verify(child1, never()).needsRelativeLayeringToIme(); |
| } |
| |
| @UseTestDisplay(addWindows = {W_INPUT_METHOD}, addAllCommonWindows = true) |
| @Test |
| public void testAttachAndShowImeScreenshotOnTarget() { |
| // Preparation: Simulate screen state is on. |
| spyOn(mWm.mPolicy); |
| doReturn(true).when(mWm.mPolicy).isScreenOn(); |
| |
| // Preparation: Simulate snapshot IME surface. |
| spyOn(mWm.mTaskSnapshotController); |
| SurfaceControl.ScreenshotHardwareBuffer mockHwBuffer = mock( |
| SurfaceControl.ScreenshotHardwareBuffer.class); |
| doReturn(mock(HardwareBuffer.class)).when(mockHwBuffer).getHardwareBuffer(); |
| doReturn(mockHwBuffer).when(mWm.mTaskSnapshotController).snapshotImeFromAttachedTask(any()); |
| |
| // Preparation: Simulate snapshot Task. |
| ActivityRecord act1 = createActivityRecord(mDisplayContent); |
| final WindowState appWin1 = createWindow(null, TYPE_BASE_APPLICATION, act1, "appWin1"); |
| spyOn(appWin1); |
| spyOn(appWin1.mWinAnimator); |
| appWin1.setHasSurface(true); |
| assertTrue(appWin1.canBeImeTarget()); |
| doReturn(true).when(appWin1.mWinAnimator).getShown(); |
| doReturn(true).when(appWin1.mActivityRecord).isSurfaceShowing(); |
| appWin1.mWinAnimator.mLastAlpha = 1f; |
| |
| // Test step 1: appWin1 is the current IME target and soft-keyboard is visible. |
| mDisplayContent.computeImeTarget(true); |
| assertEquals(appWin1, mDisplayContent.getImeTarget(IME_TARGET_LAYERING)); |
| mDisplayContent.setImeInputTarget(appWin1); |
| spyOn(mDisplayContent.mInputMethodWindow); |
| doReturn(true).when(mDisplayContent.mInputMethodWindow).isVisible(); |
| mDisplayContent.getInsetsStateController().getImeSourceProvider().setImeShowing(true); |
| |
| // Test step 2: Simulate launching appWin2 and appWin1 is in app transition. |
| ActivityRecord act2 = createActivityRecord(mDisplayContent); |
| final WindowState appWin2 = createWindow(null, TYPE_BASE_APPLICATION, act2, "appWin2"); |
| appWin2.setHasSurface(true); |
| assertTrue(appWin2.canBeImeTarget()); |
| doReturn(true).when(appWin1).isClosing(); |
| doReturn(true).when(appWin1).inTransitionSelfOrParent(); |
| |
| // Test step 3: Verify appWin2 will be the next IME target and the IME snapshot surface will |
| // be attached and shown on the display at this time. |
| mDisplayContent.computeImeTarget(true); |
| assertEquals(appWin2, mDisplayContent.getImeTarget(IME_TARGET_LAYERING)); |
| assertTrue(mDisplayContent.shouldImeAttachedToApp()); |
| |
| verify(mDisplayContent, atLeast(1)).showImeScreenshot(); |
| verify(mWm.mTaskSnapshotController).snapshotImeFromAttachedTask(appWin1.getTask()); |
| assertNotNull(mDisplayContent.mImeScreenshot); |
| } |
| |
| @UseTestDisplay(addWindows = {W_INPUT_METHOD}, addAllCommonWindows = true) |
| @Test |
| public void testShowImeScreenshot() { |
| final Task rootTask = createTask(mDisplayContent); |
| final Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| final ActivityRecord activity = createActivityRecord(mDisplayContent, task); |
| final WindowState win = createWindow(null, TYPE_BASE_APPLICATION, activity, "win"); |
| task.getDisplayContent().prepareAppTransition(TRANSIT_CLOSE); |
| doReturn(true).when(task).okToAnimate(); |
| ArrayList<WindowContainer> sources = new ArrayList<>(); |
| sources.add(activity); |
| |
| mDisplayContent.setImeLayeringTarget(win); |
| spyOn(mDisplayContent); |
| |
| // Expecting the IME screenshot only be attached when performing task closing transition. |
| task.applyAnimation(null, TRANSIT_OLD_TASK_CLOSE, false /* enter */, |
| false /* isVoiceInteraction */, sources); |
| verify(mDisplayContent).showImeScreenshot(); |
| |
| clearInvocations(mDisplayContent); |
| activity.applyAnimation(null, TRANSIT_OLD_TRANSLUCENT_ACTIVITY_CLOSE, false /* enter */, |
| false /* isVoiceInteraction */, sources); |
| verify(mDisplayContent, never()).showImeScreenshot(); |
| } |
| |
| @UseTestDisplay(addWindows = {W_INPUT_METHOD}) |
| @Test |
| public void testShowImeScreenshot_removeCurSnapshotBeforeCreateNext() { |
| final Task rootTask = createTask(mDisplayContent); |
| final Task task = createTaskInRootTask(rootTask, 0 /* userId */); |
| final ActivityRecord activity = createActivityRecord(mDisplayContent, task); |
| final WindowState win = createWindow(null, TYPE_BASE_APPLICATION, activity, "win"); |
| |
| mDisplayContent.setImeLayeringTarget(win); |
| mDisplayContent.setImeInputTarget(win); |
| spyOn(mDisplayContent); |
| spyOn(mDisplayContent.mInputMethodWindow); |
| doReturn(true).when(mDisplayContent.mInputMethodWindow).isVisible(); |
| mDisplayContent.getInsetsStateController().getImeSourceProvider().setImeShowing(true); |
| |
| // Verify when the timing of 2 showImeScreenshot invocations are very close, will first |
| // detach the current snapshot then create the next one. |
| mDisplayContent.showImeScreenshot(); |
| DisplayContent.ImeScreenshot curSnapshot = mDisplayContent.mImeScreenshot; |
| spyOn(curSnapshot); |
| mDisplayContent.showImeScreenshot(); |
| verify(curSnapshot).detach(any()); |
| assertNotNull(mDisplayContent.mImeScreenshot); |
| assertNotEquals(curSnapshot, mDisplayContent.mImeScreenshot); |
| } |
| |
| @Test |
| public void testRotateBounds_keepSamePhysicalPosition() { |
| final DisplayContent dc = |
| new TestDisplayContent.Builder(mAtm, 1000, 2000).build(); |
| final Rect initBounds = new Rect(0, 0, 700, 1500); |
| final Rect rotateBounds = new Rect(initBounds); |
| |
| // Rotate from 0 to 0 |
| dc.rotateBounds(ROTATION_0, ROTATION_0, rotateBounds); |
| |
| assertEquals(new Rect(0, 0, 700, 1500), rotateBounds); |
| |
| // Rotate from 0 to 90 |
| rotateBounds.set(initBounds); |
| dc.rotateBounds(ROTATION_0, ROTATION_90, rotateBounds); |
| |
| assertEquals(new Rect(0, 300, 1500, 1000), rotateBounds); |
| |
| // Rotate from 0 to 180 |
| rotateBounds.set(initBounds); |
| dc.rotateBounds(ROTATION_0, ROTATION_180, rotateBounds); |
| |
| assertEquals(new Rect(300, 500, 1000, 2000), rotateBounds); |
| |
| // Rotate from 0 to 270 |
| rotateBounds.set(initBounds); |
| dc.rotateBounds(ROTATION_0, ROTATION_270, rotateBounds); |
| |
| assertEquals(new Rect(500, 0, 2000, 700), rotateBounds); |
| } |
| |
| /** |
| * Creates a TestDisplayContent using the constructor that takes in display width and height as |
| * parameters and validates that the newly-created TestDisplayContent's DisplayInfo and |
| * WindowConfiguration match the parameters passed into the constructor. Additionally, this test |
| * checks that device-specific overrides are not applied. |
| */ |
| @Test |
| public void testCreateTestDisplayContentFromDimensions() { |
| final int displayWidth = 540; |
| final int displayHeight = 960; |
| final int density = 192; |
| final int expectedWidthDp = 450; // = 540/(192/160) |
| final int expectedHeightDp = 800; // = 960/(192/160) |
| final int windowingMode = WINDOWING_MODE_FULLSCREEN; |
| final boolean ignoreOrientationRequests = false; |
| final float fixedOrientationLetterboxRatio = 0; |
| final DisplayContent testDisplayContent = new TestDisplayContent.Builder(mAtm, displayWidth, |
| displayHeight).setDensityDpi(density).build(); |
| |
| // test display info |
| final DisplayInfo di = testDisplayContent.getDisplayInfo(); |
| assertEquals(displayWidth, di.logicalWidth); |
| assertEquals(displayHeight, di.logicalHeight); |
| assertEquals(density, di.logicalDensityDpi); |
| |
| // test configuration |
| final Configuration config = testDisplayContent.getConfiguration(); |
| assertEquals(expectedWidthDp, config.screenWidthDp); |
| assertEquals(expectedHeightDp, config.screenHeightDp); |
| final WindowConfiguration windowConfig = config.windowConfiguration; |
| assertEquals(displayWidth, windowConfig.getBounds().width()); |
| assertEquals(displayHeight, windowConfig.getBounds().height()); |
| assertEquals(windowingMode, windowConfig.getWindowingMode()); |
| |
| // test misc display overrides |
| assertEquals(ignoreOrientationRequests, testDisplayContent.mSetIgnoreOrientationRequest); |
| assertEquals(fixedOrientationLetterboxRatio, |
| mWm.mLetterboxConfiguration.getFixedOrientationLetterboxAspectRatio(), |
| 0 /* delta */); |
| } |
| |
| /** |
| * Creates a TestDisplayContent using the constructor that takes in a DisplayInfo as a parameter |
| * and validates that the newly-created TestDisplayContent's DisplayInfo and WindowConfiguration |
| * match the width, height, and density values set in the DisplayInfo passed as a parameter. |
| * Additionally, this test checks that device-specific overrides are not applied. |
| */ |
| @Test |
| public void testCreateTestDisplayContentFromDisplayInfo() { |
| final int displayWidth = 1000; |
| final int displayHeight = 2000; |
| final int windowingMode = WINDOWING_MODE_FULLSCREEN; |
| final boolean ignoreOrientationRequests = false; |
| final float fixedOrientationLetterboxRatio = 0; |
| final DisplayInfo testDisplayInfo = new DisplayInfo(); |
| mContext.getDisplay().getDisplayInfo(testDisplayInfo); |
| testDisplayInfo.logicalWidth = displayWidth; |
| testDisplayInfo.logicalHeight = displayHeight; |
| testDisplayInfo.logicalDensityDpi = TestDisplayContent.DEFAULT_LOGICAL_DISPLAY_DENSITY; |
| final DisplayContent testDisplayContent = new TestDisplayContent.Builder(mAtm, |
| testDisplayInfo).build(); |
| |
| // test display info |
| final DisplayInfo di = testDisplayContent.getDisplayInfo(); |
| assertEquals(displayWidth, di.logicalWidth); |
| assertEquals(displayHeight, di.logicalHeight); |
| assertEquals(TestDisplayContent.DEFAULT_LOGICAL_DISPLAY_DENSITY, di.logicalDensityDpi); |
| |
| // test configuration |
| final WindowConfiguration windowConfig = testDisplayContent.getConfiguration() |
| .windowConfiguration; |
| assertEquals(displayWidth, windowConfig.getBounds().width()); |
| assertEquals(displayHeight, windowConfig.getBounds().height()); |
| assertEquals(windowingMode, windowConfig.getWindowingMode()); |
| |
| // test misc display overrides |
| assertEquals(ignoreOrientationRequests, testDisplayContent.mSetIgnoreOrientationRequest); |
| assertEquals(fixedOrientationLetterboxRatio, |
| mWm.mLetterboxConfiguration.getFixedOrientationLetterboxAspectRatio(), |
| 0 /* delta */); |
| } |
| |
| /** |
| * Verifies {@link DisplayContent#remove} should not resume home root task on the removing |
| * display. |
| */ |
| @Test |
| public void testNotResumeHomeRootTaskOnRemovingDisplay() { |
| // Create a display which supports system decoration and allows reparenting root tasks to |
| // another display when the display is removed. |
| final DisplayContent display = new TestDisplayContent.Builder( |
| mAtm, 1000, 1500).setSystemDecorations(true).build(); |
| doReturn(false).when(display).shouldDestroyContentOnRemove(); |
| |
| // Put home root task on the display. |
| final Task homeRootTask = new TaskBuilder(mSupervisor) |
| .setDisplay(display).setActivityType(ACTIVITY_TYPE_HOME).build(); |
| |
| // Put a finishing standard activity which will be reparented. |
| final Task rootTask = createTaskWithActivity(display.getDefaultTaskDisplayArea(), |
| WINDOWING_MODE_FULLSCREEN, ACTIVITY_TYPE_STANDARD, ON_TOP, true /* twoLevelTask */); |
| rootTask.topRunningActivity().makeFinishingLocked(); |
| |
| clearInvocations(homeRootTask); |
| display.remove(); |
| |
| // The removed display should have no focused root task and its home root task should never |
| // resume. |
| assertNull(display.getFocusedRootTask()); |
| verify(homeRootTask, never()).resumeTopActivityUncheckedLocked(any(), any()); |
| } |
| |
| /** |
| * Verifies the correct activity is returned when querying the top running activity. |
| */ |
| @Test |
| public void testTopRunningActivity() { |
| final DisplayContent display = mRootWindowContainer.getDefaultDisplay(); |
| final KeyguardController keyguard = mSupervisor.getKeyguardController(); |
| final Task rootTask = new TaskBuilder(mSupervisor).setCreateActivity(true).build(); |
| final ActivityRecord activity = rootTask.getTopNonFinishingActivity(); |
| |
| // Create empty root task on top. |
| final Task emptyRootTask = new TaskBuilder(mSupervisor).build(); |
| |
| // Make sure the top running activity is not affected when keyguard is not locked. |
| assertTopRunningActivity(activity, display); |
| |
| // Check to make sure activity not reported when it cannot show on lock and lock is on. |
| doReturn(true).when(keyguard).isKeyguardLocked(anyInt()); |
| assertEquals(activity, display.topRunningActivity()); |
| assertNull(display.topRunningActivity(true /* considerKeyguardState */)); |
| |
| // Move root task with activity to top. |
| rootTask.moveToFront("testRootTaskToFront"); |
| assertEquals(rootTask, display.getFocusedRootTask()); |
| assertEquals(activity, display.topRunningActivity()); |
| assertNull(display.topRunningActivity(true /* considerKeyguardState */)); |
| |
| // Add activity that should be shown on the keyguard. |
| final ActivityRecord showWhenLockedActivity = new ActivityBuilder(mAtm) |
| .setTask(rootTask) |
| .setActivityFlags(FLAG_SHOW_WHEN_LOCKED) |
| .build(); |
| |
| // Ensure the show when locked activity is returned. |
| assertTopRunningActivity(showWhenLockedActivity, display); |
| |
| // Move empty root task to front. The running activity in focusable root task which below |
| // the empty root task should be returned. |
| emptyRootTask.moveToFront("emptyRootTaskToFront"); |
| assertEquals(rootTask, display.getFocusedRootTask()); |
| assertTopRunningActivity(showWhenLockedActivity, display); |
| } |
| |
| private static void assertTopRunningActivity(ActivityRecord top, DisplayContent display) { |
| assertEquals(top, display.topRunningActivity()); |
| assertEquals(top, display.topRunningActivity(true /* considerKeyguardState */)); |
| } |
| |
| @Test |
| public void testKeyguardGoingAwayWhileAodShown() { |
| mDisplayContent.getDisplayPolicy().setAwake(true); |
| |
| final WindowState appWin = createWindow(null, TYPE_APPLICATION, mDisplayContent, "appWin"); |
| final ActivityRecord activity = appWin.mActivityRecord; |
| |
| mAtm.mKeyguardController.setKeyguardShown(appWin.getDisplayId(), true /* keyguardShowing */, |
| true /* aodShowing */); |
| assertFalse(activity.isVisibleRequested()); |
| |
| mAtm.mKeyguardController.keyguardGoingAway(appWin.getDisplayId(), 0 /* flags */); |
| assertTrue(activity.isVisibleRequested()); |
| } |
| |
| @Test |
| public void testRemoveRootTaskInWindowingModes() { |
| removeRootTaskTests(() -> mRootWindowContainer.removeRootTasksInWindowingModes( |
| WINDOWING_MODE_FULLSCREEN)); |
| } |
| |
| @Test |
| public void testRemoveRootTaskWithActivityTypes() { |
| removeRootTaskTests(() -> mRootWindowContainer.removeRootTasksWithActivityTypes( |
| ACTIVITY_TYPE_STANDARD)); |
| } |
| |
| @UseTestDisplay(addWindows = W_INPUT_METHOD) |
| @Test |
| public void testImeChildWindowFocusWhenImeLayeringTargetChanges() { |
| final WindowState imeChildWindow = |
| createWindow(mImeWindow, TYPE_APPLICATION_ATTACHED_DIALOG, "imeChildWindow"); |
| makeWindowVisibleAndDrawn(imeChildWindow, mImeWindow); |
| assertTrue(imeChildWindow.canReceiveKeys()); |
| mDisplayContent.setInputMethodWindowLocked(mImeWindow); |
| |
| // Verify imeChildWindow can be focused window if the next IME target requests IME visible. |
| final WindowState imeAppTarget = |
| createWindow(null, TYPE_BASE_APPLICATION, mDisplayContent, "imeAppTarget"); |
| mDisplayContent.setImeLayeringTarget(imeAppTarget); |
| spyOn(imeAppTarget); |
| doReturn(true).when(imeAppTarget).getRequestedVisibility(ITYPE_IME); |
| assertEquals(imeChildWindow, mDisplayContent.findFocusedWindow()); |
| |
| // Verify imeChildWindow doesn't be focused window if the next IME target does not |
| // request IME visible. |
| final WindowState nextImeAppTarget = |
| createWindow(null, TYPE_BASE_APPLICATION, mDisplayContent, "nextImeAppTarget"); |
| mDisplayContent.setImeLayeringTarget(nextImeAppTarget); |
| assertNotEquals(imeChildWindow, mDisplayContent.findFocusedWindow()); |
| } |
| |
| @UseTestDisplay(addWindows = W_INPUT_METHOD) |
| @Test |
| public void testImeMenuDialogFocusWhenImeLayeringTargetChanges() { |
| final WindowState imeMenuDialog = |
| createWindow(mImeWindow, TYPE_INPUT_METHOD_DIALOG, "imeMenuDialog"); |
| makeWindowVisibleAndDrawn(imeMenuDialog, mImeWindow); |
| assertTrue(imeMenuDialog.canReceiveKeys()); |
| mDisplayContent.setInputMethodWindowLocked(mImeWindow); |
| |
| // Verify imeMenuDialog can be focused window if the next IME target requests IME visible. |
| final WindowState imeAppTarget = |
| createWindow(null, TYPE_BASE_APPLICATION, mDisplayContent, "imeAppTarget"); |
| mDisplayContent.setImeLayeringTarget(imeAppTarget); |
| spyOn(imeAppTarget); |
| doReturn(true).when(imeAppTarget).getRequestedVisibility(ITYPE_IME); |
| assertEquals(imeMenuDialog, mDisplayContent.findFocusedWindow()); |
| |
| // Verify imeMenuDialog doesn't be focused window if the next IME target does not |
| // request IME visible. |
| final WindowState nextImeAppTarget = |
| createWindow(null, TYPE_BASE_APPLICATION, mDisplayContent, "nextImeAppTarget"); |
| spyOn(nextImeAppTarget); |
| doReturn(true).when(nextImeAppTarget).isAnimating(PARENTS | TRANSITION, |
| ANIMATION_TYPE_APP_TRANSITION); |
| mDisplayContent.setImeLayeringTarget(nextImeAppTarget); |
| assertNotEquals(imeMenuDialog, mDisplayContent.findFocusedWindow()); |
| } |
| |
| @Test |
| public void testVirtualDisplayContent_withoutSurface() { |
| // GIVEN MediaProjection has already initialized the WindowToken of the DisplayArea to |
| // mirror. |
| final IBinder tokenToMirror = setUpDefaultTaskDisplayAreaWindowToken(); |
| |
| // GIVEN SurfaceControl does not mirror a null surface. |
| Point surfaceSize = new Point( |
| mDefaultDisplay.getDefaultTaskDisplayArea().getBounds().width(), |
| mDefaultDisplay.getDefaultTaskDisplayArea().getBounds().height()); |
| |
| // GIVEN a new VirtualDisplay with an associated surface. |
| final VirtualDisplay display = createVirtualDisplay(surfaceSize, null /* surface */); |
| final int displayId = display.getDisplay().getDisplayId(); |
| mWm.mRoot.onDisplayAdded(displayId); |
| |
| // WHEN getting the DisplayContent for the new virtual display. |
| DisplayContent actualDC = mWm.mRoot.getDisplayContent(displayId); |
| ContentRecordingSession session = ContentRecordingSession.createDisplaySession( |
| tokenToMirror); |
| session.setDisplayId(displayId); |
| mWm.mContentRecordingController.setContentRecordingSessionLocked(session, mWm); |
| actualDC.updateRecording(); |
| |
| // THEN mirroring is not started, since a null surface indicates the VirtualDisplay is off. |
| assertThat(actualDC.isCurrentlyRecording()).isFalse(); |
| |
| display.release(); |
| } |
| |
| @Test |
| public void testVirtualDisplayContent_withSurface() { |
| // GIVEN MediaProjection has already initialized the WindowToken of the DisplayArea to |
| // mirror. |
| final IBinder tokenToMirror = setUpDefaultTaskDisplayAreaWindowToken(); |
| |
| // GIVEN SurfaceControl can successfully mirror the provided surface. |
| Point surfaceSize = new Point( |
| mDefaultDisplay.getDefaultTaskDisplayArea().getBounds().width(), |
| mDefaultDisplay.getDefaultTaskDisplayArea().getBounds().height()); |
| surfaceControlMirrors(surfaceSize); |
| |
| // GIVEN a new VirtualDisplay with an associated surface. |
| final VirtualDisplay display = createVirtualDisplay(surfaceSize, new Surface()); |
| final int displayId = display.getDisplay().getDisplayId(); |
| |
| // GIVEN a session for this display. |
| ContentRecordingSession session = ContentRecordingSession.createDisplaySession( |
| tokenToMirror); |
| session.setDisplayId(displayId); |
| mWm.mContentRecordingController.setContentRecordingSessionLocked(session, mWm); |
| mWm.mRoot.onDisplayAdded(displayId); |
| |
| // WHEN getting the DisplayContent for the new virtual display. |
| DisplayContent actualDC = mWm.mRoot.getDisplayContent(displayId); |
| actualDC.updateRecording(); |
| |
| // THEN mirroring is initiated for the default display's DisplayArea. |
| assertThat(actualDC.isCurrentlyRecording()).isTrue(); |
| |
| display.release(); |
| } |
| |
| private static class MirroringTestToken extends Binder { |
| } |
| |
| /** |
| * Creates a WindowToken associated with the default task DisplayArea, in order for that |
| * DisplayArea to be mirrored. |
| */ |
| private IBinder setUpDefaultTaskDisplayAreaWindowToken() { |
| // GIVEN MediaProjection has already initialized the WindowToken of the DisplayArea to |
| // mirror. |
| final IBinder tokenToMirror = new MirroringTestToken(); |
| // GIVEN the default task display area is represented by the WindowToken. |
| spyOn(mWm.mWindowContextListenerController); |
| doReturn(mDefaultDisplay.getDefaultTaskDisplayArea()).when( |
| mWm.mWindowContextListenerController).getContainer(any()); |
| return tokenToMirror; |
| } |
| |
| /** |
| * SurfaceControl successfully creates a mirrored surface of the given size. |
| */ |
| private SurfaceControl surfaceControlMirrors(Point surfaceSize) { |
| // Do not set the parent, since the mirrored surface is the root of a new surface hierarchy. |
| SurfaceControl mirroredSurface = new SurfaceControl.Builder() |
| .setName("mirroredSurface") |
| .setBufferSize(surfaceSize.x, surfaceSize.y) |
| .setCallsite("mirrorSurface") |
| .build(); |
| doReturn(mirroredSurface).when(() -> SurfaceControl.mirrorSurface(any())); |
| doReturn(surfaceSize).when(mWm.mDisplayManagerInternal).getDisplaySurfaceDefaultSize( |
| anyInt()); |
| return mirroredSurface; |
| } |
| |
| private VirtualDisplay createVirtualDisplay(Point size, Surface surface) { |
| return mWm.mDisplayManager.createVirtualDisplay("VirtualDisplay", size.x, size.y, |
| DisplayMetrics.DENSITY_140, surface, VIRTUAL_DISPLAY_FLAG_AUTO_MIRROR); |
| } |
| |
| @Test |
| public void testKeepClearAreasMultipleWindows() { |
| final WindowState w1 = createWindow(null, TYPE_NAVIGATION_BAR, mDisplayContent, "w1"); |
| final Rect rect1 = new Rect(0, 0, 10, 10); |
| w1.setKeepClearAreas(Arrays.asList(rect1), Collections.emptyList()); |
| final WindowState w2 = createWindow(null, TYPE_NOTIFICATION_SHADE, mDisplayContent, "w2"); |
| final Rect rect2 = new Rect(10, 10, 20, 20); |
| w2.setKeepClearAreas(Arrays.asList(rect2), Collections.emptyList()); |
| |
| // No keep clear areas on display, because the windows are not visible |
| assertEquals(Collections.emptySet(), mDisplayContent.getKeepClearAreas()); |
| |
| makeWindowVisible(w1); |
| |
| // The returned keep-clear areas contain the areas just from the visible window |
| assertEquals(new ArraySet(Arrays.asList(rect1)), mDisplayContent.getKeepClearAreas()); |
| |
| makeWindowVisible(w1, w2); |
| |
| // The returned keep-clear areas contain the areas from all visible windows |
| assertEquals(new ArraySet(Arrays.asList(rect1, rect2)), |
| mDisplayContent.getKeepClearAreas()); |
| } |
| |
| private void removeRootTaskTests(Runnable runnable) { |
| final TaskDisplayArea taskDisplayArea = mRootWindowContainer.getDefaultTaskDisplayArea(); |
| final Task rootTask1 = taskDisplayArea.createRootTask(WINDOWING_MODE_FULLSCREEN, |
| ACTIVITY_TYPE_STANDARD, ON_TOP); |
| final Task rootTask2 = taskDisplayArea.createRootTask(WINDOWING_MODE_FULLSCREEN, |
| ACTIVITY_TYPE_STANDARD, ON_TOP); |
| final Task rootTask3 = taskDisplayArea.createRootTask(WINDOWING_MODE_FULLSCREEN, |
| ACTIVITY_TYPE_STANDARD, ON_TOP); |
| final Task rootTask4 = taskDisplayArea.createRootTask(WINDOWING_MODE_FULLSCREEN, |
| ACTIVITY_TYPE_STANDARD, ON_TOP); |
| final Task task1 = new TaskBuilder(mSupervisor).setParentTaskFragment(rootTask1).build(); |
| final Task task2 = new TaskBuilder(mSupervisor).setParentTaskFragment(rootTask2).build(); |
| final Task task3 = new TaskBuilder(mSupervisor).setParentTaskFragment(rootTask3).build(); |
| final Task task4 = new TaskBuilder(mSupervisor).setParentTaskFragment(rootTask4).build(); |
| |
| // Reordering root tasks while removing root tasks. |
| doAnswer(invocation -> { |
| taskDisplayArea.positionChildAt(POSITION_TOP, rootTask3, false /*includingParents*/); |
| return true; |
| }).when(mSupervisor).removeTask(eq(task4), anyBoolean(), anyBoolean(), any()); |
| |
| // Removing root tasks from the display while removing root tasks. |
| doAnswer(invocation -> { |
| taskDisplayArea.removeRootTask(rootTask2); |
| return true; |
| }).when(mSupervisor).removeTask(eq(task2), anyBoolean(), anyBoolean(), any()); |
| |
| runnable.run(); |
| verify(mSupervisor).removeTask(eq(task4), anyBoolean(), anyBoolean(), any()); |
| verify(mSupervisor).removeTask(eq(task3), anyBoolean(), anyBoolean(), any()); |
| verify(mSupervisor).removeTask(eq(task2), anyBoolean(), anyBoolean(), any()); |
| verify(mSupervisor).removeTask(eq(task1), anyBoolean(), anyBoolean(), any()); |
| } |
| |
| private boolean isOptionsPanelAtRight(int displayId) { |
| return (mWm.getPreferredOptionsPanelGravity(displayId) & Gravity.RIGHT) == Gravity.RIGHT; |
| } |
| |
| private static void verifySizes(DisplayContent displayContent, int expectedBaseWidth, |
| int expectedBaseHeight, int expectedBaseDensity) { |
| assertEquals(expectedBaseWidth, displayContent.mBaseDisplayWidth); |
| assertEquals(expectedBaseHeight, displayContent.mBaseDisplayHeight); |
| assertEquals(expectedBaseDensity, displayContent.mBaseDisplayDensity); |
| } |
| |
| private static void verifySizes(DisplayContent displayContent, int expectedBaseWidth, |
| int expectedBaseHeight, int expectedBaseDensity, float expectedBaseXDpi, |
| float expectedBaseYDpi) { |
| assertEquals(expectedBaseWidth, displayContent.mBaseDisplayWidth); |
| assertEquals(expectedBaseHeight, displayContent.mBaseDisplayHeight); |
| assertEquals(expectedBaseDensity, displayContent.mBaseDisplayDensity); |
| assertEquals(expectedBaseXDpi, displayContent.mBaseDisplayPhysicalXDpi, 1.0f /* delta */); |
| assertEquals(expectedBaseYDpi, displayContent.mBaseDisplayPhysicalYDpi, 1.0f /* delta */); |
| } |
| |
| private void updateFocusedWindow() { |
| mWm.updateFocusedWindowLocked(UPDATE_FOCUS_NORMAL, false /* updateInputWindows */); |
| } |
| |
| static void performLayout(DisplayContent dc) { |
| dc.setLayoutNeeded(); |
| dc.performLayout(true /* initial */, false /* updateImeWindows */); |
| } |
| |
| /** |
| * Create DisplayContent that does not update display base/initial values from device to keep |
| * the values set by test. |
| */ |
| private DisplayContent createDisplayNoUpdateDisplayInfo() { |
| final DisplayContent displayContent = createNewDisplay(); |
| doNothing().when(displayContent).updateDisplayInfo(); |
| return displayContent; |
| } |
| |
| private void assertForAllWindowsOrder(List<WindowState> expectedWindowsBottomToTop) { |
| final LinkedList<WindowState> actualWindows = new LinkedList<>(); |
| |
| // Test forward traversal. |
| mDisplayContent.forAllWindows(actualWindows::addLast, false /* traverseTopToBottom */); |
| assertThat("bottomToTop", actualWindows, is(expectedWindowsBottomToTop)); |
| |
| actualWindows.clear(); |
| |
| // Test backward traversal. |
| mDisplayContent.forAllWindows(actualWindows::addLast, true /* traverseTopToBottom */); |
| assertThat("topToBottom", actualWindows, is(reverseList(expectedWindowsBottomToTop))); |
| } |
| |
| static int getRotatedOrientation(DisplayContent dc) { |
| return dc.mBaseDisplayWidth > dc.mBaseDisplayHeight |
| ? SCREEN_ORIENTATION_PORTRAIT |
| : SCREEN_ORIENTATION_LANDSCAPE; |
| } |
| |
| private static List<WindowState> reverseList(List<WindowState> list) { |
| final ArrayList<WindowState> result = new ArrayList<>(list); |
| Collections.reverse(result); |
| return result; |
| } |
| |
| private void tapOnDisplay(final DisplayContent dc) { |
| final DisplayMetrics dm = dc.getDisplayMetrics(); |
| final float x = dm.widthPixels / 2; |
| final float y = dm.heightPixels / 2; |
| final long downTime = SystemClock.uptimeMillis(); |
| final long eventTime = SystemClock.uptimeMillis() + 100; |
| // sending ACTION_DOWN |
| final MotionEvent downEvent = MotionEvent.obtain( |
| downTime, |
| downTime, |
| MotionEvent.ACTION_DOWN, |
| x, |
| y, |
| 0 /*metaState*/); |
| downEvent.setDisplayId(dc.getDisplayId()); |
| dc.mTapDetector.onPointerEvent(downEvent); |
| |
| // sending ACTION_UP |
| final MotionEvent upEvent = MotionEvent.obtain( |
| downTime, |
| eventTime, |
| MotionEvent.ACTION_UP, |
| x, |
| y, |
| 0 /*metaState*/); |
| upEvent.setDisplayId(dc.getDisplayId()); |
| dc.mTapDetector.onPointerEvent(upEvent); |
| } |
| } |