/* * Copyright (C) 2022 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.display; import static com.android.dx.mockito.inline.extended.ExtendedMockito.verify; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertFalse; import static org.junit.Assert.assertTrue; import static org.mockito.ArgumentMatchers.eq; import static org.mockito.Mockito.mock; import static org.mockito.Mockito.times; import static org.mockito.Mockito.verifyZeroInteractions; import static org.mockito.Mockito.when; import android.hardware.Sensor; import android.hardware.SensorEventListener; import android.hardware.SensorManager; import android.hardware.display.DisplayManagerInternal; import android.os.test.TestLooper; import android.view.Display; import androidx.test.ext.junit.runners.AndroidJUnit4; import androidx.test.filters.SmallTest; import com.android.server.display.config.SensorData; import com.android.server.testutils.OffsettableClock; import org.junit.Before; import org.junit.Test; import org.junit.runner.RunWith; import org.mockito.Mock; import org.mockito.MockitoAnnotations; import java.util.List; @SmallTest @RunWith(AndroidJUnit4.class) public final class DisplayPowerProximityStateControllerTest { @Mock WakelockController mWakelockController; @Mock DisplayDeviceConfig mDisplayDeviceConfig; @Mock Runnable mNudgeUpdatePowerState; @Mock SensorManager mSensorManager; private Sensor mProximitySensor; private OffsettableClock mClock; private TestLooper mTestLooper; private SensorEventListener mSensorEventListener; private DisplayPowerProximityStateController mDisplayPowerProximityStateController; @Before public void before() throws Exception { MockitoAnnotations.initMocks(this); mClock = new OffsettableClock.Stopped(); mTestLooper = new TestLooper(mClock::now); when(mDisplayDeviceConfig.getProximitySensor()).thenReturn( new SensorData(Sensor.STRING_TYPE_PROXIMITY, null)); setUpProxSensor(); DisplayPowerProximityStateController.Injector injector = new DisplayPowerProximityStateController.Injector() { @Override DisplayPowerProximityStateController.Clock createClock() { return mClock::now; } }; mDisplayPowerProximityStateController = new DisplayPowerProximityStateController( mWakelockController, mDisplayDeviceConfig, mTestLooper.getLooper(), mNudgeUpdatePowerState, Display.DEFAULT_DISPLAY, mSensorManager, injector); mSensorEventListener = mDisplayPowerProximityStateController.getProximitySensorListener(); } @Test public void updatePendingProximityRequestsWorksAsExpectedWhenPending() { // Set the system to pending wait for proximity assertTrue(mDisplayPowerProximityStateController.setPendingWaitForNegativeProximityLocked( true)); assertTrue( mDisplayPowerProximityStateController.getPendingWaitForNegativeProximityLocked()); // Update the pending proximity wait request mDisplayPowerProximityStateController.updatePendingProximityRequestsLocked(); assertTrue(mDisplayPowerProximityStateController.getWaitingForNegativeProximity()); assertFalse( mDisplayPowerProximityStateController.getPendingWaitForNegativeProximityLocked()); } @Test public void updatePendingProximityRequestsWorksAsExpectedWhenNotPending() { // Will not wait or be in the pending wait state of not already pending mDisplayPowerProximityStateController.updatePendingProximityRequestsLocked(); assertFalse(mDisplayPowerProximityStateController.getWaitingForNegativeProximity()); assertFalse( mDisplayPowerProximityStateController.getPendingWaitForNegativeProximityLocked()); } @Test public void updatePendingProximityRequestsWorksAsExpectedWhenPendingAndProximityIgnored() throws Exception { // Set the system to the state where it will ignore proximity unless changed enableProximitySensor(); emitAndValidatePositiveProximityEvent(); mDisplayPowerProximityStateController.ignoreProximitySensorUntilChangedInternal(); advanceTime(); assertTrue(mDisplayPowerProximityStateController.shouldIgnoreProximityUntilChanged()); verify(mNudgeUpdatePowerState, times(2)).run(); // Do not set the system to pending wait for proximity mDisplayPowerProximityStateController.updatePendingProximityRequestsLocked(); assertFalse(mDisplayPowerProximityStateController.getWaitingForNegativeProximity()); assertFalse( mDisplayPowerProximityStateController.getPendingWaitForNegativeProximityLocked()); // Set the system to pending wait for proximity. But because the proximity is being // ignored, it will not wait or not set the pending wait assertTrue(mDisplayPowerProximityStateController.setPendingWaitForNegativeProximityLocked( true)); mDisplayPowerProximityStateController.updatePendingProximityRequestsLocked(); assertFalse(mDisplayPowerProximityStateController.getWaitingForNegativeProximity()); assertFalse( mDisplayPowerProximityStateController.getPendingWaitForNegativeProximityLocked()); } @Test public void cleanupDisablesTheProximitySensor() { enableProximitySensor(); mDisplayPowerProximityStateController.cleanup(); verify(mSensorManager).unregisterListener( mSensorEventListener); assertFalse(mDisplayPowerProximityStateController.isProximitySensorEnabled()); assertFalse(mDisplayPowerProximityStateController.getWaitingForNegativeProximity()); assertFalse(mDisplayPowerProximityStateController.shouldIgnoreProximityUntilChanged()); assertEquals(mDisplayPowerProximityStateController.getProximity(), DisplayPowerProximityStateController.PROXIMITY_UNKNOWN); when(mWakelockController.releaseWakelock( WakelockController.WAKE_LOCK_PROXIMITY_DEBOUNCE)).thenReturn(true); assertEquals(mDisplayPowerProximityStateController.getPendingProximityDebounceTime(), -1); } @Test public void isProximitySensorAvailableReturnsTrueWhenAvailable() { assertTrue(mDisplayPowerProximityStateController.isProximitySensorAvailable()); } @Test public void isProximitySensorAvailableReturnsFalseWhenNotAvailableAndNoDefault() { when(mDisplayDeviceConfig.getProximitySensor()).thenReturn(new SensorData()); mDisplayPowerProximityStateController = new DisplayPowerProximityStateController( mWakelockController, mDisplayDeviceConfig, mTestLooper.getLooper(), mNudgeUpdatePowerState, Display.DEFAULT_DISPLAY, mSensorManager, null); assertFalse(mDisplayPowerProximityStateController.isProximitySensorAvailable()); } @Test public void isProximitySensorAvailableReturnsTrueWhenNotAvailableAndHasDefault() throws Exception { when(mDisplayDeviceConfig.getProximitySensor()).thenReturn(new SensorData()); when(mSensorManager.getDefaultSensor(Sensor.TYPE_PROXIMITY)).thenReturn( TestUtils.createSensor(Sensor.TYPE_PROXIMITY, "proximity")); mDisplayPowerProximityStateController = new DisplayPowerProximityStateController( mWakelockController, mDisplayDeviceConfig, mTestLooper.getLooper(), mNudgeUpdatePowerState, Display.DEFAULT_DISPLAY, mSensorManager, null); assertTrue(mDisplayPowerProximityStateController.isProximitySensorAvailable()); } @Test public void isProximitySensorAvailableReturnsFalseWhenNotAvailableHasDefaultNonDefaultDisplay() throws Exception { when(mDisplayDeviceConfig.getProximitySensor()).thenReturn(new SensorData()); when(mSensorManager.getDefaultSensor(Sensor.TYPE_PROXIMITY)).thenReturn( TestUtils.createSensor(Sensor.TYPE_PROXIMITY, "proximity")); mDisplayPowerProximityStateController = new DisplayPowerProximityStateController( mWakelockController, mDisplayDeviceConfig, mTestLooper.getLooper(), mNudgeUpdatePowerState, 1, mSensorManager, null); assertFalse(mDisplayPowerProximityStateController.isProximitySensorAvailable()); } @Test public void isProximitySensorAvailableReturnsTrueWhenNoSensorConfigured() throws Exception { when(mDisplayDeviceConfig.getProximitySensor()).thenReturn(null); when(mSensorManager.getDefaultSensor(Sensor.TYPE_PROXIMITY)).thenReturn( TestUtils.createSensor(Sensor.TYPE_PROXIMITY, Sensor.STRING_TYPE_PROXIMITY)); mDisplayPowerProximityStateController = new DisplayPowerProximityStateController( mWakelockController, mDisplayDeviceConfig, mTestLooper.getLooper(), mNudgeUpdatePowerState, Display.DEFAULT_DISPLAY, mSensorManager, null); assertFalse(mDisplayPowerProximityStateController.isProximitySensorAvailable()); } @Test public void notifyDisplayDeviceChangedReloadsTheProximitySensor() throws Exception { DisplayDeviceConfig updatedDisplayDeviceConfig = mock(DisplayDeviceConfig.class); when(updatedDisplayDeviceConfig.getProximitySensor()).thenReturn( new SensorData(Sensor.STRING_TYPE_PROXIMITY, null)); Sensor newProxSensor = TestUtils.createSensor( Sensor.TYPE_PROXIMITY, Sensor.STRING_TYPE_PROXIMITY, 4.0f); when(mSensorManager.getSensorList(eq(Sensor.TYPE_ALL))) .thenReturn(List.of(newProxSensor)); mDisplayPowerProximityStateController.notifyDisplayDeviceChanged( updatedDisplayDeviceConfig); assertTrue(mDisplayPowerProximityStateController.isProximitySensorAvailable()); } @Test public void setPendingWaitForNegativeProximityLockedWorksAsExpected() { // Doesn't do anything not asked to wait assertFalse(mDisplayPowerProximityStateController.setPendingWaitForNegativeProximityLocked( false)); assertFalse( mDisplayPowerProximityStateController.getPendingWaitForNegativeProximityLocked()); // Sets pending wait negative proximity if not already waiting assertTrue(mDisplayPowerProximityStateController.setPendingWaitForNegativeProximityLocked( true)); assertTrue( mDisplayPowerProximityStateController.getPendingWaitForNegativeProximityLocked()); // Will not set pending wait negative proximity if already waiting assertFalse(mDisplayPowerProximityStateController.setPendingWaitForNegativeProximityLocked( true)); assertTrue( mDisplayPowerProximityStateController.getPendingWaitForNegativeProximityLocked()); } @Test public void evaluateProximityStateWhenRequestedUseOfProximitySensor() throws Exception { // Enable the proximity sensor enableProximitySensor(); // Emit a positive proximity event to move the system to a state to mimic a scenario // where the system is in positive proximity emitAndValidatePositiveProximityEvent(); // Again evaluate the proximity state, with system having positive proximity setScreenOffBecauseOfPositiveProximityState(); } @Test public void evaluateProximityStateWhenScreenOffBecauseOfPositiveProximity() throws Exception { // Enable the proximity sensor enableProximitySensor(); // Emit a positive proximity event to move the system to a state to mimic a scenario // where the system is in positive proximity emitAndValidatePositiveProximityEvent(); // Again evaluate the proximity state, with system having positive proximity setScreenOffBecauseOfPositiveProximityState(); // Set the system to pending wait for proximity mDisplayPowerProximityStateController.setPendingWaitForNegativeProximityLocked(true); // Update the pending proximity wait request mDisplayPowerProximityStateController.updatePendingProximityRequestsLocked(); // Start ignoring proximity sensor mDisplayPowerProximityStateController.ignoreProximitySensorUntilChangedInternal(); // Re-evaluate the proximity state, such that the system is detecting the positive // proximity, and screen is off because of that when(mWakelockController.getOnProximityNegativeRunnable()).thenReturn(mock(Runnable.class)); mDisplayPowerProximityStateController.updateProximityState(mock( DisplayManagerInternal.DisplayPowerRequest.class), Display.STATE_ON); assertTrue(mDisplayPowerProximityStateController.isProximitySensorEnabled()); assertFalse(mDisplayPowerProximityStateController.isScreenOffBecauseOfProximity()); assertTrue( mDisplayPowerProximityStateController .shouldSkipRampBecauseOfProximityChangeToNegative()); verify(mWakelockController).acquireWakelock( WakelockController.WAKE_LOCK_PROXIMITY_NEGATIVE); } @Test public void evaluateProximityStateWhenDisplayIsTurningOff() throws Exception { // Enable the proximity sensor enableProximitySensor(); // Emit a positive proximity event to move the system to a state to mimic a scenario // where the system is in positive proximity emitAndValidatePositiveProximityEvent(); // Again evaluate the proximity state, with system having positive proximity setScreenOffBecauseOfPositiveProximityState(); // Re-evaluate the proximity state, such that the system is detecting the positive // proximity, and screen is off because of that mDisplayPowerProximityStateController.updateProximityState(mock( DisplayManagerInternal.DisplayPowerRequest.class), Display.STATE_OFF); verify(mSensorManager).unregisterListener( mSensorEventListener); assertFalse(mDisplayPowerProximityStateController.isProximitySensorEnabled()); assertFalse(mDisplayPowerProximityStateController.getWaitingForNegativeProximity()); assertFalse(mDisplayPowerProximityStateController.shouldIgnoreProximityUntilChanged()); assertEquals(mDisplayPowerProximityStateController.getProximity(), DisplayPowerProximityStateController.PROXIMITY_UNKNOWN); when(mWakelockController.releaseWakelock( WakelockController.WAKE_LOCK_PROXIMITY_DEBOUNCE)).thenReturn(true); assertEquals(mDisplayPowerProximityStateController.getPendingProximityDebounceTime(), -1); } @Test public void evaluateProximityStateNotWaitingForNegativeProximityAndNotUsingProxSensor() throws Exception { // Enable the proximity sensor enableProximitySensor(); // Emit a positive proximity event to move the system to a state to mimic a scenario // where the system is in positive proximity emitAndValidatePositiveProximityEvent(); // Re-evaluate the proximity state, such that the system is detecting the positive // proximity, and screen is off because of that mDisplayPowerProximityStateController.updateProximityState(mock( DisplayManagerInternal.DisplayPowerRequest.class), Display.STATE_ON); verify(mSensorManager).unregisterListener( mSensorEventListener); assertFalse(mDisplayPowerProximityStateController.isProximitySensorEnabled()); assertFalse(mDisplayPowerProximityStateController.getWaitingForNegativeProximity()); assertFalse(mDisplayPowerProximityStateController.shouldIgnoreProximityUntilChanged()); assertEquals(mDisplayPowerProximityStateController.getProximity(), DisplayPowerProximityStateController.PROXIMITY_UNKNOWN); when(mWakelockController.releaseWakelock( WakelockController.WAKE_LOCK_PROXIMITY_DEBOUNCE)).thenReturn(true); assertEquals(mDisplayPowerProximityStateController.getPendingProximityDebounceTime(), -1); } private void advanceTime() { mClock.fastForward(1); mTestLooper.dispatchAll(); } private void setUpProxSensor() throws Exception { mProximitySensor = TestUtils.createSensor( Sensor.TYPE_PROXIMITY, Sensor.STRING_TYPE_PROXIMITY, 5.0f); when(mSensorManager.getSensorList(eq(Sensor.TYPE_ALL))) .thenReturn(List.of(mProximitySensor)); } private void emitAndValidatePositiveProximityEvent() throws Exception { // Emit a positive proximity event to move the system to a state to mimic a scenario // where the system is in positive proximity when(mWakelockController.releaseWakelock( WakelockController.WAKE_LOCK_PROXIMITY_DEBOUNCE)).thenReturn(true); mSensorEventListener.onSensorChanged(TestUtils.createSensorEvent(mProximitySensor, 4)); verify(mSensorManager).registerListener(mSensorEventListener, mProximitySensor, SensorManager.SENSOR_DELAY_NORMAL, mDisplayPowerProximityStateController.getHandler()); verify(mWakelockController).acquireWakelock( WakelockController.WAKE_LOCK_PROXIMITY_DEBOUNCE); assertEquals(mDisplayPowerProximityStateController.getPendingProximity(), DisplayPowerProximityStateController.PROXIMITY_POSITIVE); assertFalse(mDisplayPowerProximityStateController.shouldIgnoreProximityUntilChanged()); assertEquals(mDisplayPowerProximityStateController.getProximity(), DisplayPowerProximityStateController.PROXIMITY_POSITIVE); verify(mNudgeUpdatePowerState).run(); assertEquals(mDisplayPowerProximityStateController.getPendingProximityDebounceTime(), -1); } // Call evaluateProximityState with the request for using the proximity sensor. This will // register the proximity sensor listener, which will be needed for mocking positive // proximity scenarios. private void enableProximitySensor() { DisplayManagerInternal.DisplayPowerRequest displayPowerRequest = mock( DisplayManagerInternal.DisplayPowerRequest.class); displayPowerRequest.useProximitySensor = true; mDisplayPowerProximityStateController.updateProximityState(displayPowerRequest, Display.STATE_ON); verify(mSensorManager).registerListener( mSensorEventListener, mProximitySensor, SensorManager.SENSOR_DELAY_NORMAL, mDisplayPowerProximityStateController.getHandler()); assertTrue(mDisplayPowerProximityStateController.isProximitySensorEnabled()); assertFalse(mDisplayPowerProximityStateController.shouldIgnoreProximityUntilChanged()); assertFalse(mDisplayPowerProximityStateController.isScreenOffBecauseOfProximity()); verifyZeroInteractions(mWakelockController); } private void setScreenOffBecauseOfPositiveProximityState() { // Prepare a request to indicate that the proximity sensor is to be used DisplayManagerInternal.DisplayPowerRequest displayPowerRequest = mock( DisplayManagerInternal.DisplayPowerRequest.class); displayPowerRequest.useProximitySensor = true; Runnable onProximityPositiveRunnable = mock(Runnable.class); when(mWakelockController.getOnProximityPositiveRunnable()).thenReturn( onProximityPositiveRunnable); mDisplayPowerProximityStateController.updateProximityState(displayPowerRequest, Display.STATE_ON); verify(mSensorManager).registerListener( mSensorEventListener, mProximitySensor, SensorManager.SENSOR_DELAY_NORMAL, mDisplayPowerProximityStateController.getHandler()); assertTrue(mDisplayPowerProximityStateController.isProximitySensorEnabled()); assertFalse(mDisplayPowerProximityStateController.shouldIgnoreProximityUntilChanged()); assertTrue(mDisplayPowerProximityStateController.isScreenOffBecauseOfProximity()); verify(mWakelockController).acquireWakelock( WakelockController.WAKE_LOCK_PROXIMITY_POSITIVE); } }