/* * 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 android.server.wm; import static android.app.WindowConfiguration.WINDOWING_MODE_FULLSCREEN; import static android.server.wm.StateLogger.log; import static android.server.wm.StateLogger.logE; import static android.server.wm.WindowManagerState.STATE_RESUMED; import static android.server.wm.app.Components.FONT_SCALE_ACTIVITY; import static android.server.wm.app.Components.FONT_SCALE_NO_RELAUNCH_ACTIVITY; import static android.server.wm.app.Components.FontScaleActivity.EXTRA_FONT_ACTIVITY_DPI; import static android.server.wm.app.Components.FontScaleActivity.EXTRA_FONT_PIXEL_SIZE; import static android.server.wm.app.Components.NO_RELAUNCH_ACTIVITY; import static android.server.wm.app.Components.TEST_ACTIVITY; import static android.server.wm.app.Components.TestActivity.EXTRA_CONFIG_ASSETS_SEQ; 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 com.google.common.truth.Truth.assertWithMessage; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertTrue; import static org.junit.Assert.fail; import static org.junit.Assume.assumeFalse; import static org.junit.Assume.assumeTrue; import android.content.ComponentName; import android.os.Bundle; import android.platform.test.annotations.Presubmit; import android.server.wm.CommandSession.ActivityCallback; import android.server.wm.TestJournalProvider.TestJournalContainer; import com.android.compatibility.common.util.SystemUtil; import org.junit.Test; import java.util.Arrays; import java.util.List; /** * Build/Install/Run: * atest CtsWindowManagerDeviceTestCases:ConfigChangeTests */ @Presubmit public class ConfigChangeTests extends ActivityManagerTestBase { private static final float EXPECTED_FONT_SIZE_SP = 10.0f; @Test public void testRotation90Relaunch() { assumeTrue("Skipping test: no rotation support", supportsRotation()); // Should relaunch on every rotation and receive no onConfigurationChanged() testRotation(TEST_ACTIVITY, 1, 1, 0); } @Test public void testRotation90NoRelaunch() { assumeTrue("Skipping test: no rotation support", supportsRotation()); // Should receive onConfigurationChanged() on every rotation and no relaunch testRotation(NO_RELAUNCH_ACTIVITY, 1, 0, 1); } @Test public void testRotation180_RegularActivity() { assumeTrue("Skipping test: no rotation support", supportsRotation()); assumeFalse("Skipping test: display cutout present, can't predict exact lifecycle", hasDisplayCutout()); // Should receive nothing testRotation(TEST_ACTIVITY, 2, 0, 0); } @Test public void testRotation180_NoRelaunchActivity() { assumeTrue("Skipping test: no rotation support", supportsRotation()); assumeFalse("Skipping test: display cutout present, can't predict exact lifecycle", hasDisplayCutout()); // Should receive nothing testRotation(NO_RELAUNCH_ACTIVITY, 2, 0, 0); } /** * Test activity configuration changes for devices with cutout(s). Landscape and * reverse-landscape rotations should result in same screen space available for apps. */ @Test public void testRotation180RelaunchWithCutout() { assumeTrue("Skipping test: no rotation support", supportsRotation()); assumeTrue("Skipping test: no display cutout", hasDisplayCutout()); testRotation180WithCutout(TEST_ACTIVITY, false /* canHandleConfigChange */); } @Test public void testRotation180NoRelaunchWithCutout() { assumeTrue("Skipping test: no rotation support", supportsRotation()); assumeTrue("Skipping test: no display cutout", hasDisplayCutout()); testRotation180WithCutout(NO_RELAUNCH_ACTIVITY, true /* canHandleConfigChange */); } private void testRotation180WithCutout(ComponentName activityName, boolean canHandleConfigChange) { launchActivity(activityName); mWmState.computeState(activityName); final RotationSession rotationSession = createManagedRotationSession(); final ActivityLifecycleCounts count1 = getLifecycleCountsForRotation(activityName, rotationSession, ROTATION_0 /* before */, ROTATION_180 /* after */, canHandleConfigChange); final int configChangeCount1 = count1.getCount(ActivityCallback.ON_CONFIGURATION_CHANGED); final int relaunchCount1 = count1.getCount(ActivityCallback.ON_CREATE); final ActivityLifecycleCounts count2 = getLifecycleCountsForRotation(activityName, rotationSession, ROTATION_90 /* before */, ROTATION_270 /* after */, canHandleConfigChange); final int configChangeCount2 = count2.getCount(ActivityCallback.ON_CONFIGURATION_CHANGED); final int relaunchCount2 = count2.getCount(ActivityCallback.ON_CREATE); final int configChange = configChangeCount1 + configChangeCount2; final int relaunch = relaunchCount1 + relaunchCount2; if (canHandleConfigChange) { assertWithMessage("There must be at most one 180 degree rotation that results in the" + " same configuration.").that(configChange).isLessThan(2); assertEquals("There must be no relaunch during test", 0, relaunch); return; } // If the size change does not cross the threshold, the activity will receive // onConfigurationChanged instead of relaunching. assertWithMessage("There must be at most one 180 degree rotation that results in relaunch" + " or a configuration change.").that(relaunch + configChange).isLessThan(2); final boolean resize1 = configChangeCount1 + relaunchCount1 > 0; final boolean resize2 = configChangeCount2 + relaunchCount2 > 0; // There should at least one 180 rotation without resize. final boolean sameSize = !resize1 || !resize2; assertTrue("A device with cutout should have the same available screen space" + " in landscape and reverse-landscape", sameSize); } private void prepareRotation(ComponentName activityName, RotationSession session, int currentRotation, int initialRotation, boolean canHandleConfigChange) { final boolean is90DegreeDelta = Math.abs(currentRotation - initialRotation) % 2 != 0; if (is90DegreeDelta) { separateTestJournal(); } session.set(initialRotation); if (is90DegreeDelta) { // Consume the changes of "before" rotation to make sure the activity is in a stable // state to apply "after" rotation. final ActivityCallback expectedCallback = canHandleConfigChange ? ActivityCallback.ON_CONFIGURATION_CHANGED : ActivityCallback.ON_CREATE; Condition.waitFor(new ActivityLifecycleCounts(activityName) .countWithRetry("activity rotated with 90 degree delta", countSpec(expectedCallback, CountSpec.GREATER_THAN, 0))); } } private ActivityLifecycleCounts getLifecycleCountsForRotation(ComponentName activityName, RotationSession session, int before, int after, boolean canHandleConfigChange) { final int currentRotation = mWmState.getRotation(); // The test verifies the events from "before" rotation to "after" rotation. So when // preparing "before" rotation, the changes should be consumed to avoid being mixed into // the result to verify. prepareRotation(activityName, session, currentRotation, before, canHandleConfigChange); separateTestJournal(); session.set(after); mWmState.computeState(activityName); return new ActivityLifecycleCounts(activityName); } @Test public void testChangeFontScaleRelaunch() { // Should relaunch and receive no onConfigurationChanged() testChangeFontScale(FONT_SCALE_ACTIVITY, true /* relaunch */); } @Test public void testChangeFontScaleNoRelaunch() { // Should receive onConfigurationChanged() and no relaunch testChangeFontScale(FONT_SCALE_NO_RELAUNCH_ACTIVITY, false /* relaunch */); } private void testRotation(ComponentName activityName, int rotationStep, int numRelaunch, int numConfigChange) { launchActivity(activityName, WINDOWING_MODE_FULLSCREEN); mWmState.computeState(activityName); final int initialRotation = 4 - rotationStep; final RotationSession rotationSession = createManagedRotationSession(); prepareRotation(activityName, rotationSession, mWmState.getRotation(), initialRotation, numConfigChange > 0); final int actualStackId = mWmState.getTaskByActivity(activityName).mRootTaskId; final int displayId = mWmState.getRootTask(actualStackId).mDisplayId; final int newDeviceRotation = getDeviceRotation(displayId); if (newDeviceRotation == INVALID_DEVICE_ROTATION) { logE("Got an invalid device rotation value. " + "Continuing the test despite of that, but it is likely to fail."); } else if (newDeviceRotation != initialRotation) { log("This device doesn't support user rotation " + "mode. Not continuing the rotation checks."); return; } for (int rotation = 0; rotation < 4; rotation += rotationStep) { separateTestJournal(); rotationSession.set(rotation); mWmState.computeState(activityName); assertRelaunchOrConfigChanged(activityName, numRelaunch, numConfigChange); } } private void testChangeFontScale(ComponentName activityName, boolean relaunch) { final FontScaleSession fontScaleSession = createManagedFontScaleSession(); fontScaleSession.set(1.0f); separateTestJournal(); launchActivity(activityName); mWmState.computeState(activityName); final Bundle extras = TestJournalContainer.get(activityName).extras; if (!extras.containsKey(EXTRA_FONT_ACTIVITY_DPI)) { fail("No fontActivityDpi reported from activity " + activityName); } final int densityDpi = extras.getInt(EXTRA_FONT_ACTIVITY_DPI); for (float fontScale = 0.85f; fontScale <= 1.3f; fontScale += 0.15f) { separateTestJournal(); fontScaleSession.set(fontScale); mWmState.computeState(activityName); assertRelaunchOrConfigChanged(activityName, relaunch ? 1 : 0, relaunch ? 0 : 1); // Verify that the display metrics are updated, and therefore the text size is also // updated accordingly. final Bundle changedExtras = TestJournalContainer.get(activityName).extras; waitForOrFail("reported fontPixelSize from " + activityName, () -> changedExtras.containsKey(EXTRA_FONT_PIXEL_SIZE)); final int expectedFontPixelSize = scaledPixelsToPixels(EXPECTED_FONT_SIZE_SP, fontScale, densityDpi); assertEquals("Expected font pixel size should match", expectedFontPixelSize, changedExtras.getInt(EXTRA_FONT_PIXEL_SIZE)); } } /** * Test updating application info when app is running. An activity with matching package name * must be recreated and its asset sequence number must be incremented. */ @Test public void testUpdateApplicationInfo() throws Exception { separateTestJournal(); // Launch an activity that prints applied config. launchActivity(TEST_ACTIVITY); final int assetSeq = getAssetSeqNumber(TEST_ACTIVITY); separateTestJournal(); // Update package info. updateApplicationInfo(Arrays.asList(TEST_ACTIVITY.getPackageName())); mWmState.waitForWithAmState((amState) -> { // Wait for activity to be resumed and asset seq number to be updated. try { return getAssetSeqNumber(TEST_ACTIVITY) == assetSeq + 1 && amState.hasActivityState(TEST_ACTIVITY, STATE_RESUMED); } catch (Exception e) { logE("Error waiting for valid state: " + e.getMessage()); return false; } }, "asset sequence number to be updated and for activity to be resumed."); // Check if activity is relaunched and asset seq is updated. assertRelaunchOrConfigChanged(TEST_ACTIVITY, 1 /* numRelaunch */, 0 /* numConfigChange */); final int newAssetSeq = getAssetSeqNumber(TEST_ACTIVITY); assertTrue("Asset sequence number must be incremented.", assetSeq < newAssetSeq); } private static int getAssetSeqNumber(ComponentName activityName) { return TestJournalContainer.get(activityName).extras.getInt(EXTRA_CONFIG_ASSETS_SEQ); } // Calculate the scaled pixel size just like the device is supposed to. private static int scaledPixelsToPixels(float sp, float fontScale, int densityDpi) { final int DEFAULT_DENSITY = 160; float f = densityDpi * (1.0f / DEFAULT_DENSITY) * fontScale * sp; return (int) ((f >= 0) ? (f + 0.5f) : (f - 0.5f)); } private void updateApplicationInfo(List packages) { SystemUtil.runWithShellPermissionIdentity( () -> mAm.scheduleApplicationInfoChanged(packages, android.os.Process.myUserHandle().getIdentifier()) ); } }