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android / platform / frameworks / base / 2d51788b08aa85afdb27af4f4586ac40dc949097 / . / services / tests / servicestests / src / com / android / server / GestureLauncherServiceTest.java
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/*
* Copyright (C) 2017 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;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
import static org.mockito.Matchers.anyInt;
import static org.mockito.Matchers.eq;
import static org.mockito.Mockito.never;
import static org.mockito.Mockito.times;
import static org.mockito.Mockito.verify;
import static org.mockito.Mockito.when;
import android.app.StatusBarManager;
import android.content.Context;
import android.content.res.Resources;
import android.os.Looper;
import android.os.UserHandle;
import android.platform.test.annotations.Presubmit;
import android.provider.Settings;
import android.test.mock.MockContentResolver;
import android.util.MutableBoolean;
import android.view.KeyEvent;
import androidx.test.InstrumentationRegistry;
import androidx.test.filters.SmallTest;
import androidx.test.runner.AndroidJUnit4;
import com.android.internal.logging.MetricsLogger;
import com.android.internal.logging.nano.MetricsProto.MetricsEvent;
import com.android.internal.util.test.FakeSettingsProvider;
import com.android.server.LocalServices;
import com.android.server.statusbar.StatusBarManagerInternal;
import org.junit.Before;
import org.junit.BeforeClass;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.mockito.ArgumentCaptor;
import org.mockito.Mock;
import org.mockito.MockitoAnnotations;
import java.util.List;
/**
* Unit tests for {@link GestureLauncherService}.
* runtest frameworks-services -c com.android.server.GestureLauncherServiceTest
*/
@Presubmit
@SmallTest
@RunWith(AndroidJUnit4.class)
public class GestureLauncherServiceTest {
private static final int FAKE_USER_ID = 1337;
private static final int FAKE_SOURCE = 1982;
private static final long INITIAL_EVENT_TIME_MILLIS = 20000L;
private static final long IGNORED_DOWN_TIME = 1234L;
private static final int IGNORED_ACTION = 13;
private static final int IGNORED_CODE = 1999;
private static final int IGNORED_REPEAT = 42;
private static final int IGNORED_META_STATE = 0;
private static final int IGNORED_DEVICE_ID = 0;
private static final int IGNORED_SCANCODE = 0;
private @Mock Context mContext;
private @Mock Resources mResources;
private @Mock StatusBarManagerInternal mStatusBarManagerInternal;
private @Mock MetricsLogger mMetricsLogger;
private MockContentResolver mContentResolver;
private GestureLauncherService mGestureLauncherService;
@BeforeClass
public static void oneTimeInitialization() {
if (Looper.myLooper() == null) {
Looper.prepare();
}
}
@Before
public void setup() {
MockitoAnnotations.initMocks(this);
LocalServices.removeServiceForTest(StatusBarManagerInternal.class);
LocalServices.addService(StatusBarManagerInternal.class, mStatusBarManagerInternal);
final Context originalContext = InstrumentationRegistry.getContext();
when(mContext.getApplicationInfo()).thenReturn(originalContext.getApplicationInfo());
when(mContext.getResources()).thenReturn(mResources);
mContentResolver = new MockContentResolver(mContext);
mContentResolver.addProvider(Settings.AUTHORITY, new FakeSettingsProvider());
when(mContext.getContentResolver()).thenReturn(mContentResolver);
mGestureLauncherService = new GestureLauncherService(mContext, mMetricsLogger);
}
@Test
public void testIsCameraDoubleTapPowerEnabled_configFalse() {
withCameraDoubleTapPowerEnableConfigValue(false);
assertFalse(mGestureLauncherService.isCameraDoubleTapPowerEnabled(mResources));
}
@Test
public void testIsCameraDoubleTapPowerEnabled_configTrue() {
withCameraDoubleTapPowerEnableConfigValue(true);
assertTrue(mGestureLauncherService.isCameraDoubleTapPowerEnabled(mResources));
}
@Test
public void testIsCameraDoubleTapPowerSettingEnabled_configFalseSettingDisabled() {
withCameraDoubleTapPowerEnableConfigValue(false);
withCameraDoubleTapPowerDisableSettingValue(1);
assertFalse(mGestureLauncherService.isCameraDoubleTapPowerSettingEnabled(
mContext, FAKE_USER_ID));
}
@Test
public void testIsCameraDoubleTapPowerSettingEnabled_configFalseSettingEnabled() {
withCameraDoubleTapPowerEnableConfigValue(false);
withCameraDoubleTapPowerDisableSettingValue(0);
assertFalse(mGestureLauncherService.isCameraDoubleTapPowerSettingEnabled(
mContext, FAKE_USER_ID));
}
@Test
public void testIsCameraDoubleTapPowerSettingEnabled_configTrueSettingDisabled() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(1);
assertFalse(mGestureLauncherService.isCameraDoubleTapPowerSettingEnabled(
mContext, FAKE_USER_ID));
}
@Test
public void testIsCameraDoubleTapPowerSettingEnabled_configTrueSettingEnabled() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
assertTrue(mGestureLauncherService.isCameraDoubleTapPowerSettingEnabled(
mContext, FAKE_USER_ID));
}
@Test
public void testHandleCameraLaunchGesture_userSetupComplete() {
withUserSetupCompleteValue(true);
boolean useWakeLock = false;
assertTrue(mGestureLauncherService.handleCameraGesture(useWakeLock, FAKE_SOURCE));
verify(mStatusBarManagerInternal).onCameraLaunchGestureDetected(FAKE_SOURCE);
}
@Test
public void testHandleCameraLaunchGesture_userSetupNotComplete() {
withUserSetupCompleteValue(false);
boolean useWakeLock = false;
assertFalse(mGestureLauncherService.handleCameraGesture(useWakeLock, FAKE_SOURCE));
}
@Test
public void testInterceptPowerKeyDown_firstPowerDownCameraPowerGestureOnInteractive() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS +
GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS - 1;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger).histogram("power_consecutive_short_tap_count", 1);
verify(mMetricsLogger).histogram("power_double_tap_interval", (int) eventTime);
}
@Test
public void testInterceptPowerKeyDown_intervalInBoundsCameraPowerGestureOffInteractive() {
withCameraDoubleTapPowerEnableConfigValue(false);
withCameraDoubleTapPowerDisableSettingValue(1);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS - 1;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalMidBoundsCameraPowerGestureOffInteractive() {
withCameraDoubleTapPowerEnableConfigValue(false);
withCameraDoubleTapPowerDisableSettingValue(1);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
// The interval is too long to launch the camera, but short enough to count as a
// sequential tap.
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalOutOfBoundsCameraPowerGestureOffInteractive() {
withCameraDoubleTapPowerEnableConfigValue(false);
withCameraDoubleTapPowerDisableSettingValue(1);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
long interval = GestureLauncherService.POWER_SHORT_TAP_SEQUENCE_MAX_INTERVAL_MS;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(1, tapCounts.get(1).intValue());
}
@Test
public void
testInterceptPowerKeyDown_intervalInBoundsCameraPowerGestureOnInteractiveSetupComplete() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
withUserSetupCompleteValue(true);
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS - 1;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = false;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertTrue(intercepted);
assertTrue(outLaunched.value);
verify(mStatusBarManagerInternal).onCameraLaunchGestureDetected(
StatusBarManager.CAMERA_LAUNCH_SOURCE_POWER_DOUBLE_TAP);
verify(mMetricsLogger)
.action(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE, (int) interval);
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_longpress() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
withUserSetupCompleteValue(true);
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS - 1;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT, IGNORED_META_STATE, IGNORED_DEVICE_ID, IGNORED_SCANCODE,
KeyEvent.FLAG_LONG_PRESS);
outLaunched.value = false;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(1)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(1)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
}
@Test
public void
testInterceptPowerKeyDown_intervalInBoundsCameraPowerGestureOnInteractiveSetupIncomplete() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
withUserSetupCompleteValue(false);
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS - 1;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
// The interval is too long to launch the camera, but short enough to count as a
// sequential tap.
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalMidBoundsCameraPowerGestureOnInteractive() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
// The interval is too long to launch the camera, but short enough to count as a
// sequential tap.
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalOutOfBoundsCameraPowerGestureOnInteractive() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = true;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
long interval = GestureLauncherService.POWER_SHORT_TAP_SEQUENCE_MAX_INTERVAL_MS;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(1, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalInBoundsCameraPowerGestureOffNotInteractive() {
withCameraDoubleTapPowerEnableConfigValue(false);
withCameraDoubleTapPowerDisableSettingValue(1);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = false;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS - 1;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalMidBoundsCameraPowerGestureOffNotInteractive() {
withCameraDoubleTapPowerEnableConfigValue(false);
withCameraDoubleTapPowerDisableSettingValue(1);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = false;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
// The interval is too long to launch the camera, but short enough to count as a
// sequential tap.
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalOutOfBoundsCameraPowerGestureOffNotInteractive() {
withCameraDoubleTapPowerEnableConfigValue(false);
withCameraDoubleTapPowerDisableSettingValue(1);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = false;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
long interval = GestureLauncherService.POWER_SHORT_TAP_SEQUENCE_MAX_INTERVAL_MS;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(1, tapCounts.get(1).intValue());
}
@Test
public void
testInterceptPowerKeyDown_intervalInBoundsCameraPowerGestureOnNotInteractiveSetupComplete() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
withUserSetupCompleteValue(true);
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = false;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS - 1;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertTrue(outLaunched.value);
verify(mStatusBarManagerInternal).onCameraLaunchGestureDetected(
StatusBarManager.CAMERA_LAUNCH_SOURCE_POWER_DOUBLE_TAP);
verify(mMetricsLogger)
.action(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE, (int) interval);
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void
testInterceptPowerKeyDown_intervalInBoundsCameraPowerGestureOnNotInteractiveSetupIncomplete() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
withUserSetupCompleteValue(false);
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = false;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS - 1;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalMidBoundsCameraPowerGestureOnNotInteractive() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = false;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
final long interval = GestureLauncherService.CAMERA_POWER_DOUBLE_TAP_MAX_TIME_MS;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
// The interval is too long to launch the camera, but short enough to count as a
// sequential tap.
assertEquals(2, tapCounts.get(1).intValue());
}
@Test
public void testInterceptPowerKeyDown_intervalOutOfBoundsCameraPowerGestureOnNotInteractive() {
withCameraDoubleTapPowerEnableConfigValue(true);
withCameraDoubleTapPowerDisableSettingValue(0);
mGestureLauncherService.updateCameraDoubleTapPowerEnabled();
long eventTime = INITIAL_EVENT_TIME_MILLIS;
KeyEvent keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
boolean interactive = false;
MutableBoolean outLaunched = new MutableBoolean(true);
boolean intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
long interval = GestureLauncherService.POWER_SHORT_TAP_SEQUENCE_MAX_INTERVAL_MS;
eventTime += interval;
keyEvent = new KeyEvent(IGNORED_DOWN_TIME, eventTime, IGNORED_ACTION, IGNORED_CODE,
IGNORED_REPEAT);
outLaunched.value = true;
intercepted = mGestureLauncherService.interceptPowerKeyDown(keyEvent, interactive,
outLaunched);
assertFalse(intercepted);
assertFalse(outLaunched.value);
verify(mMetricsLogger, never())
.action(eq(MetricsEvent.ACTION_DOUBLE_TAP_POWER_CAMERA_GESTURE), anyInt());
final ArgumentCaptor<Integer> intervalCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_double_tap_interval"), intervalCaptor.capture());
List<Integer> intervals = intervalCaptor.getAllValues();
assertEquals((int) INITIAL_EVENT_TIME_MILLIS, intervals.get(0).intValue());
assertEquals((int) interval, intervals.get(1).intValue());
final ArgumentCaptor<Integer> tapCountCaptor = ArgumentCaptor.forClass(Integer.class);
verify(mMetricsLogger, times(2)).histogram(
eq("power_consecutive_short_tap_count"), tapCountCaptor.capture());
List<Integer> tapCounts = tapCountCaptor.getAllValues();
assertEquals(1, tapCounts.get(0).intValue());
assertEquals(1, tapCounts.get(1).intValue());
}
private void withCameraDoubleTapPowerEnableConfigValue(boolean enableConfigValue) {
when(mResources.getBoolean(
com.android.internal.R.bool.config_cameraDoubleTapPowerGestureEnabled))
.thenReturn(enableConfigValue);
}
private void withCameraDoubleTapPowerDisableSettingValue(int disableSettingValue) {
Settings.Secure.putIntForUser(
mContentResolver,
Settings.Secure.CAMERA_DOUBLE_TAP_POWER_GESTURE_DISABLED,
disableSettingValue,
UserHandle.USER_CURRENT);
}
private void withUserSetupCompleteValue(boolean userSetupComplete) {
int userSetupCompleteValue = userSetupComplete ? 1 : 0;
Settings.Secure.putIntForUser(
mContentResolver,
Settings.Secure.USER_SETUP_COMPLETE,
userSetupCompleteValue,
UserHandle.USER_CURRENT);
}
}