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      1 /*
      2  * Copyright (C) 2015 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 
     17 package com.android.server;
     18 
     19 import android.Manifest;
     20 import android.app.ActivityManagerNative;
     21 import android.app.AlarmManager;
     22 import android.content.BroadcastReceiver;
     23 import android.content.ContentResolver;
     24 import android.content.Context;
     25 import android.content.Intent;
     26 import android.content.IntentFilter;
     27 import android.content.pm.ApplicationInfo;
     28 import android.content.pm.PackageManager;
     29 import android.content.pm.PackageManager.NameNotFoundException;
     30 import android.database.ContentObserver;
     31 import android.hardware.Sensor;
     32 import android.hardware.SensorManager;
     33 import android.hardware.SensorEvent;
     34 import android.hardware.SensorEventListener;
     35 import android.hardware.TriggerEvent;
     36 import android.hardware.TriggerEventListener;
     37 import android.hardware.display.DisplayManager;
     38 import android.location.LocationRequest;
     39 import android.location.Location;
     40 import android.location.LocationListener;
     41 import android.location.LocationManager;
     42 import android.net.ConnectivityManager;
     43 import android.net.INetworkPolicyManager;
     44 import android.net.NetworkInfo;
     45 import android.net.Uri;
     46 import android.os.BatteryStats;
     47 import android.os.Binder;
     48 import android.os.Bundle;
     49 import android.os.Environment;
     50 import android.os.FileUtils;
     51 import android.os.Handler;
     52 import android.os.IBinder;
     53 import android.os.IDeviceIdleController;
     54 import android.os.IMaintenanceActivityListener;
     55 import android.os.Looper;
     56 import android.os.Message;
     57 import android.os.PowerManager;
     58 import android.os.PowerManagerInternal;
     59 import android.os.Process;
     60 import android.os.RemoteCallbackList;
     61 import android.os.RemoteException;
     62 import android.os.ResultReceiver;
     63 import android.os.ServiceManager;
     64 import android.os.ShellCommand;
     65 import android.os.SystemClock;
     66 import android.os.UserHandle;
     67 import android.provider.Settings;
     68 import android.util.ArrayMap;
     69 import android.util.ArraySet;
     70 import android.util.KeyValueListParser;
     71 import android.util.MutableLong;
     72 import android.util.Pair;
     73 import android.util.Slog;
     74 import android.util.SparseArray;
     75 import android.util.SparseBooleanArray;
     76 import android.util.TimeUtils;
     77 import android.util.Xml;
     78 import android.view.Display;
     79 
     80 import com.android.internal.app.IBatteryStats;
     81 import com.android.internal.os.AtomicFile;
     82 import com.android.internal.os.BackgroundThread;
     83 import com.android.internal.util.FastXmlSerializer;
     84 import com.android.internal.util.XmlUtils;
     85 import com.android.server.am.BatteryStatsService;
     86 
     87 import org.xmlpull.v1.XmlPullParser;
     88 import org.xmlpull.v1.XmlPullParserException;
     89 import org.xmlpull.v1.XmlSerializer;
     90 
     91 import java.io.ByteArrayOutputStream;
     92 import java.io.File;
     93 import java.io.FileDescriptor;
     94 import java.io.FileInputStream;
     95 import java.io.FileNotFoundException;
     96 import java.io.FileOutputStream;
     97 import java.io.IOException;
     98 import java.io.PrintWriter;
     99 import java.nio.charset.StandardCharsets;
    100 import java.util.Arrays;
    101 
    102 /**
    103  * Keeps track of device idleness and drives low power mode based on that.
    104  */
    105 public class DeviceIdleController extends SystemService
    106         implements AnyMotionDetector.DeviceIdleCallback {
    107     private static final String TAG = "DeviceIdleController";
    108 
    109     private static final boolean DEBUG = false;
    110 
    111     private static final boolean COMPRESS_TIME = false;
    112 
    113     private static final int EVENT_BUFFER_SIZE = 100;
    114 
    115     private AlarmManager mAlarmManager;
    116     private IBatteryStats mBatteryStats;
    117     private PowerManagerInternal mLocalPowerManager;
    118     private PowerManager mPowerManager;
    119     private ConnectivityService mConnectivityService;
    120     private AlarmManagerService.LocalService mLocalAlarmManager;
    121     private INetworkPolicyManager mNetworkPolicyManager;
    122     private DisplayManager mDisplayManager;
    123     private SensorManager mSensorManager;
    124     private Sensor mMotionSensor;
    125     private LocationManager mLocationManager;
    126     private LocationRequest mLocationRequest;
    127     private Intent mIdleIntent;
    128     private Intent mLightIdleIntent;
    129     private Display mCurDisplay;
    130     private AnyMotionDetector mAnyMotionDetector;
    131     private boolean mLightEnabled;
    132     private boolean mDeepEnabled;
    133     private boolean mForceIdle;
    134     private boolean mNetworkConnected;
    135     private boolean mScreenOn;
    136     private boolean mCharging;
    137     private boolean mNotMoving;
    138     private boolean mLocating;
    139     private boolean mLocated;
    140     private boolean mHasGps;
    141     private boolean mHasNetworkLocation;
    142     private Location mLastGenericLocation;
    143     private Location mLastGpsLocation;
    144 
    145     /** Device is currently active. */
    146     private static final int STATE_ACTIVE = 0;
    147     /** Device is inactive (screen off, no motion) and we are waiting to for idle. */
    148     private static final int STATE_INACTIVE = 1;
    149     /** Device is past the initial inactive period, and waiting for the next idle period. */
    150     private static final int STATE_IDLE_PENDING = 2;
    151     /** Device is currently sensing motion. */
    152     private static final int STATE_SENSING = 3;
    153     /** Device is currently finding location (and may still be sensing). */
    154     private static final int STATE_LOCATING = 4;
    155     /** Device is in the idle state, trying to stay asleep as much as possible. */
    156     private static final int STATE_IDLE = 5;
    157     /** Device is in the idle state, but temporarily out of idle to do regular maintenance. */
    158     private static final int STATE_IDLE_MAINTENANCE = 6;
    159     private static String stateToString(int state) {
    160         switch (state) {
    161             case STATE_ACTIVE: return "ACTIVE";
    162             case STATE_INACTIVE: return "INACTIVE";
    163             case STATE_IDLE_PENDING: return "IDLE_PENDING";
    164             case STATE_SENSING: return "SENSING";
    165             case STATE_LOCATING: return "LOCATING";
    166             case STATE_IDLE: return "IDLE";
    167             case STATE_IDLE_MAINTENANCE: return "IDLE_MAINTENANCE";
    168             default: return Integer.toString(state);
    169         }
    170     }
    171 
    172     /** Device is currently active. */
    173     private static final int LIGHT_STATE_ACTIVE = 0;
    174     /** Device is inactive (screen off) and we are waiting to for the first light idle. */
    175     private static final int LIGHT_STATE_INACTIVE = 1;
    176     /** Device is about to go idle for the first time, wait for current work to complete. */
    177     private static final int LIGHT_STATE_PRE_IDLE = 3;
    178     /** Device is in the light idle state, trying to stay asleep as much as possible. */
    179     private static final int LIGHT_STATE_IDLE = 4;
    180     /** Device is in the light idle state, we want to go in to idle maintenance but are
    181      * waiting for network connectivity before doing so. */
    182     private static final int LIGHT_STATE_WAITING_FOR_NETWORK = 5;
    183     /** Device is in the light idle state, but temporarily out of idle to do regular maintenance. */
    184     private static final int LIGHT_STATE_IDLE_MAINTENANCE = 6;
    185     /** Device light idle state is overriden, now applying deep doze state. */
    186     private static final int LIGHT_STATE_OVERRIDE = 7;
    187     private static String lightStateToString(int state) {
    188         switch (state) {
    189             case LIGHT_STATE_ACTIVE: return "ACTIVE";
    190             case LIGHT_STATE_INACTIVE: return "INACTIVE";
    191             case LIGHT_STATE_PRE_IDLE: return "PRE_IDLE";
    192             case LIGHT_STATE_IDLE: return "IDLE";
    193             case LIGHT_STATE_WAITING_FOR_NETWORK: return "WAITING_FOR_NETWORK";
    194             case LIGHT_STATE_IDLE_MAINTENANCE: return "IDLE_MAINTENANCE";
    195             case LIGHT_STATE_OVERRIDE: return "OVERRIDE";
    196             default: return Integer.toString(state);
    197         }
    198     }
    199 
    200     private int mState;
    201     private int mLightState;
    202 
    203     private long mInactiveTimeout;
    204     private long mNextAlarmTime;
    205     private long mNextIdlePendingDelay;
    206     private long mNextIdleDelay;
    207     private long mNextLightIdleDelay;
    208     private long mNextLightAlarmTime;
    209     private long mNextSensingTimeoutAlarmTime;
    210     private long mCurIdleBudget;
    211     private long mMaintenanceStartTime;
    212 
    213     private int mActiveIdleOpCount;
    214     private PowerManager.WakeLock mActiveIdleWakeLock;
    215     private boolean mJobsActive;
    216     private boolean mAlarmsActive;
    217     private boolean mReportedMaintenanceActivity;
    218 
    219     public final AtomicFile mConfigFile;
    220 
    221     private final RemoteCallbackList<IMaintenanceActivityListener> mMaintenanceActivityListeners =
    222             new RemoteCallbackList<IMaintenanceActivityListener>();
    223 
    224     /**
    225      * Package names the system has white-listed to opt out of power save restrictions,
    226      * except for device idle mode.
    227      */
    228     private final ArrayMap<String, Integer> mPowerSaveWhitelistAppsExceptIdle = new ArrayMap<>();
    229 
    230     /**
    231      * Package names the system has white-listed to opt out of power save restrictions for
    232      * all modes.
    233      */
    234     private final ArrayMap<String, Integer> mPowerSaveWhitelistApps = new ArrayMap<>();
    235 
    236     /**
    237      * Package names the user has white-listed to opt out of power save restrictions.
    238      */
    239     private final ArrayMap<String, Integer> mPowerSaveWhitelistUserApps = new ArrayMap<>();
    240 
    241     /**
    242      * App IDs of built-in system apps that have been white-listed except for idle modes.
    243      */
    244     private final SparseBooleanArray mPowerSaveWhitelistSystemAppIdsExceptIdle
    245             = new SparseBooleanArray();
    246 
    247     /**
    248      * App IDs of built-in system apps that have been white-listed.
    249      */
    250     private final SparseBooleanArray mPowerSaveWhitelistSystemAppIds = new SparseBooleanArray();
    251 
    252     /**
    253      * App IDs that have been white-listed to opt out of power save restrictions, except
    254      * for device idle modes.
    255      */
    256     private final SparseBooleanArray mPowerSaveWhitelistExceptIdleAppIds = new SparseBooleanArray();
    257 
    258     /**
    259      * Current app IDs that are in the complete power save white list, but shouldn't be
    260      * excluded from idle modes.  This array can be shared with others because it will not be
    261      * modified once set.
    262      */
    263     private int[] mPowerSaveWhitelistExceptIdleAppIdArray = new int[0];
    264 
    265     /**
    266      * App IDs that have been white-listed to opt out of power save restrictions.
    267      */
    268     private final SparseBooleanArray mPowerSaveWhitelistAllAppIds = new SparseBooleanArray();
    269 
    270     /**
    271      * Current app IDs that are in the complete power save white list.  This array can
    272      * be shared with others because it will not be modified once set.
    273      */
    274     private int[] mPowerSaveWhitelistAllAppIdArray = new int[0];
    275 
    276     /**
    277      * App IDs that have been white-listed by the user to opt out of power save restrictions.
    278      */
    279     private final SparseBooleanArray mPowerSaveWhitelistUserAppIds = new SparseBooleanArray();
    280 
    281     /**
    282      * Current app IDs that are in the user power save white list.  This array can
    283      * be shared with others because it will not be modified once set.
    284      */
    285     private int[] mPowerSaveWhitelistUserAppIdArray = new int[0];
    286 
    287     /**
    288      * List of end times for UIDs that are temporarily marked as being allowed to access
    289      * the network and acquire wakelocks. Times are in milliseconds.
    290      */
    291     private final SparseArray<Pair<MutableLong, String>> mTempWhitelistAppIdEndTimes
    292             = new SparseArray<>();
    293 
    294     /**
    295      * Callback to the NetworkPolicyManagerService to tell it that the temp whitelist has changed.
    296      */
    297     Runnable mNetworkPolicyTempWhitelistCallback;
    298 
    299     /**
    300      * Current app IDs of temporarily whitelist apps for high-priority messages.
    301      */
    302     private int[] mTempWhitelistAppIdArray = new int[0];
    303 
    304     private static final int EVENT_NULL = 0;
    305     private static final int EVENT_NORMAL = 1;
    306     private static final int EVENT_LIGHT_IDLE = 2;
    307     private static final int EVENT_LIGHT_MAINTENANCE = 3;
    308     private static final int EVENT_DEEP_IDLE = 4;
    309     private static final int EVENT_DEEP_MAINTENANCE = 5;
    310 
    311     private final int[] mEventCmds = new int[EVENT_BUFFER_SIZE];
    312     private final long[] mEventTimes = new long[EVENT_BUFFER_SIZE];
    313 
    314     private void addEvent(int cmd) {
    315         if (mEventCmds[0] != cmd) {
    316             System.arraycopy(mEventCmds, 0, mEventCmds, 1, EVENT_BUFFER_SIZE - 1);
    317             System.arraycopy(mEventTimes, 0, mEventTimes, 1, EVENT_BUFFER_SIZE - 1);
    318             mEventCmds[0] = cmd;
    319             mEventTimes[0] = SystemClock.elapsedRealtime();
    320         }
    321     }
    322 
    323     private final BroadcastReceiver mReceiver = new BroadcastReceiver() {
    324         @Override public void onReceive(Context context, Intent intent) {
    325             switch (intent.getAction()) {
    326                 case ConnectivityManager.CONNECTIVITY_ACTION: {
    327                     updateConnectivityState(intent);
    328                 } break;
    329                 case Intent.ACTION_BATTERY_CHANGED: {
    330                     synchronized (DeviceIdleController.this) {
    331                         int plugged = intent.getIntExtra("plugged", 0);
    332                         updateChargingLocked(plugged != 0);
    333                     }
    334                 } break;
    335                 case Intent.ACTION_PACKAGE_REMOVED: {
    336                     if (!intent.getBooleanExtra(Intent.EXTRA_REPLACING, false)) {
    337                         Uri data = intent.getData();
    338                         String ssp;
    339                         if (data != null && (ssp = data.getSchemeSpecificPart()) != null) {
    340                             removePowerSaveWhitelistAppInternal(ssp);
    341                         }
    342                     }
    343                 } break;
    344             }
    345         }
    346     };
    347 
    348     private final AlarmManager.OnAlarmListener mLightAlarmListener
    349             = new AlarmManager.OnAlarmListener() {
    350         @Override
    351         public void onAlarm() {
    352             synchronized (DeviceIdleController.this) {
    353                 stepLightIdleStateLocked("s:alarm");
    354             }
    355         }
    356     };
    357 
    358     private final AlarmManager.OnAlarmListener mSensingTimeoutAlarmListener
    359             = new AlarmManager.OnAlarmListener() {
    360         @Override
    361         public void onAlarm() {
    362             if (mState == STATE_SENSING) {
    363                 synchronized (DeviceIdleController.this) {
    364                     becomeInactiveIfAppropriateLocked();
    365                 }
    366             }
    367         }
    368     };
    369 
    370     private final AlarmManager.OnAlarmListener mDeepAlarmListener
    371             = new AlarmManager.OnAlarmListener() {
    372         @Override
    373         public void onAlarm() {
    374             synchronized (DeviceIdleController.this) {
    375                 stepIdleStateLocked("s:alarm");
    376             }
    377         }
    378     };
    379 
    380     private final BroadcastReceiver mIdleStartedDoneReceiver = new BroadcastReceiver() {
    381         @Override public void onReceive(Context context, Intent intent) {
    382             // When coming out of a deep idle, we will add in some delay before we allow
    383             // the system to settle down and finish the maintenance window.  This is
    384             // to give a chance for any pending work to be scheduled.
    385             if (PowerManager.ACTION_DEVICE_IDLE_MODE_CHANGED.equals(intent.getAction())) {
    386                 mHandler.sendEmptyMessageDelayed(MSG_FINISH_IDLE_OP,
    387                         mConstants.MIN_DEEP_MAINTENANCE_TIME);
    388             } else {
    389                 mHandler.sendEmptyMessageDelayed(MSG_FINISH_IDLE_OP,
    390                         mConstants.MIN_LIGHT_MAINTENANCE_TIME);
    391             }
    392         }
    393     };
    394 
    395     private final DisplayManager.DisplayListener mDisplayListener
    396             = new DisplayManager.DisplayListener() {
    397         @Override public void onDisplayAdded(int displayId) {
    398         }
    399 
    400         @Override public void onDisplayRemoved(int displayId) {
    401         }
    402 
    403         @Override public void onDisplayChanged(int displayId) {
    404             if (displayId == Display.DEFAULT_DISPLAY) {
    405                 synchronized (DeviceIdleController.this) {
    406                     updateDisplayLocked();
    407                 }
    408             }
    409         }
    410     };
    411 
    412     private final class MotionListener extends TriggerEventListener
    413             implements SensorEventListener {
    414 
    415         boolean active = false;
    416 
    417         @Override
    418         public void onTrigger(TriggerEvent event) {
    419             synchronized (DeviceIdleController.this) {
    420                 active = false;
    421                 motionLocked();
    422             }
    423         }
    424 
    425         @Override
    426         public void onSensorChanged(SensorEvent event) {
    427             synchronized (DeviceIdleController.this) {
    428                 mSensorManager.unregisterListener(this, mMotionSensor);
    429                 active = false;
    430                 motionLocked();
    431             }
    432         }
    433 
    434         @Override
    435         public void onAccuracyChanged(Sensor sensor, int accuracy) {}
    436 
    437         public boolean registerLocked() {
    438             boolean success;
    439             if (mMotionSensor.getReportingMode() == Sensor.REPORTING_MODE_ONE_SHOT) {
    440                 success = mSensorManager.requestTriggerSensor(mMotionListener, mMotionSensor);
    441             } else {
    442                 success = mSensorManager.registerListener(
    443                         mMotionListener, mMotionSensor, SensorManager.SENSOR_DELAY_NORMAL);
    444             }
    445             if (success) {
    446                 active = true;
    447             } else {
    448                 Slog.e(TAG, "Unable to register for " + mMotionSensor);
    449             }
    450             return success;
    451         }
    452 
    453         public void unregisterLocked() {
    454             if (mMotionSensor.getReportingMode() == Sensor.REPORTING_MODE_ONE_SHOT) {
    455                 mSensorManager.cancelTriggerSensor(mMotionListener, mMotionSensor);
    456             } else {
    457                 mSensorManager.unregisterListener(mMotionListener);
    458             }
    459             active = false;
    460         }
    461     }
    462     private final MotionListener mMotionListener = new MotionListener();
    463 
    464     private final LocationListener mGenericLocationListener = new LocationListener() {
    465         @Override
    466         public void onLocationChanged(Location location) {
    467             synchronized (DeviceIdleController.this) {
    468                 receivedGenericLocationLocked(location);
    469             }
    470         }
    471 
    472         @Override
    473         public void onStatusChanged(String provider, int status, Bundle extras) {
    474         }
    475 
    476         @Override
    477         public void onProviderEnabled(String provider) {
    478         }
    479 
    480         @Override
    481         public void onProviderDisabled(String provider) {
    482         }
    483     };
    484 
    485     private final LocationListener mGpsLocationListener = new LocationListener() {
    486         @Override
    487         public void onLocationChanged(Location location) {
    488             synchronized (DeviceIdleController.this) {
    489                 receivedGpsLocationLocked(location);
    490             }
    491         }
    492 
    493         @Override
    494         public void onStatusChanged(String provider, int status, Bundle extras) {
    495         }
    496 
    497         @Override
    498         public void onProviderEnabled(String provider) {
    499         }
    500 
    501         @Override
    502         public void onProviderDisabled(String provider) {
    503         }
    504     };
    505 
    506     /**
    507      * All times are in milliseconds. These constants are kept synchronized with the system
    508      * global Settings. Any access to this class or its fields should be done while
    509      * holding the DeviceIdleController lock.
    510      */
    511     private final class Constants extends ContentObserver {
    512         // Key names stored in the settings value.
    513         private static final String KEY_LIGHT_IDLE_AFTER_INACTIVE_TIMEOUT
    514                 = "light_after_inactive_to";
    515         private static final String KEY_LIGHT_PRE_IDLE_TIMEOUT = "light_pre_idle_to";
    516         private static final String KEY_LIGHT_IDLE_TIMEOUT = "light_idle_to";
    517         private static final String KEY_LIGHT_IDLE_FACTOR = "light_idle_factor";
    518         private static final String KEY_LIGHT_MAX_IDLE_TIMEOUT = "light_max_idle_to";
    519         private static final String KEY_LIGHT_IDLE_MAINTENANCE_MIN_BUDGET
    520                 = "light_idle_maintenance_min_budget";
    521         private static final String KEY_LIGHT_IDLE_MAINTENANCE_MAX_BUDGET
    522                 = "light_idle_maintenance_max_budget";
    523         private static final String KEY_MIN_LIGHT_MAINTENANCE_TIME = "min_light_maintenance_time";
    524         private static final String KEY_MIN_DEEP_MAINTENANCE_TIME = "min_deep_maintenance_time";
    525         private static final String KEY_INACTIVE_TIMEOUT = "inactive_to";
    526         private static final String KEY_SENSING_TIMEOUT = "sensing_to";
    527         private static final String KEY_LOCATING_TIMEOUT = "locating_to";
    528         private static final String KEY_LOCATION_ACCURACY = "location_accuracy";
    529         private static final String KEY_MOTION_INACTIVE_TIMEOUT = "motion_inactive_to";
    530         private static final String KEY_IDLE_AFTER_INACTIVE_TIMEOUT = "idle_after_inactive_to";
    531         private static final String KEY_IDLE_PENDING_TIMEOUT = "idle_pending_to";
    532         private static final String KEY_MAX_IDLE_PENDING_TIMEOUT = "max_idle_pending_to";
    533         private static final String KEY_IDLE_PENDING_FACTOR = "idle_pending_factor";
    534         private static final String KEY_IDLE_TIMEOUT = "idle_to";
    535         private static final String KEY_MAX_IDLE_TIMEOUT = "max_idle_to";
    536         private static final String KEY_IDLE_FACTOR = "idle_factor";
    537         private static final String KEY_MIN_TIME_TO_ALARM = "min_time_to_alarm";
    538         private static final String KEY_MAX_TEMP_APP_WHITELIST_DURATION =
    539                 "max_temp_app_whitelist_duration";
    540         private static final String KEY_MMS_TEMP_APP_WHITELIST_DURATION =
    541                 "mms_temp_app_whitelist_duration";
    542         private static final String KEY_SMS_TEMP_APP_WHITELIST_DURATION =
    543                 "sms_temp_app_whitelist_duration";
    544         private static final String KEY_NOTIFICATION_WHITELIST_DURATION =
    545                 "notification_whitelist_duration";
    546 
    547         /**
    548          * This is the time, after becoming inactive, that we go in to the first
    549          * light-weight idle mode.
    550          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    551          * @see #KEY_LIGHT_IDLE_AFTER_INACTIVE_TIMEOUT
    552          */
    553         public long LIGHT_IDLE_AFTER_INACTIVE_TIMEOUT;
    554 
    555         /**
    556          * This is amount of time we will wait from the point where we decide we would
    557          * like to go idle until we actually do, while waiting for jobs and other current
    558          * activity to finish.
    559          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    560          * @see #KEY_LIGHT_PRE_IDLE_TIMEOUT
    561          */
    562         public long LIGHT_PRE_IDLE_TIMEOUT;
    563 
    564         /**
    565          * This is the initial time that we will run in idle maintenance mode.
    566          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    567          * @see #KEY_LIGHT_IDLE_TIMEOUT
    568          */
    569         public long LIGHT_IDLE_TIMEOUT;
    570 
    571         /**
    572          * Scaling factor to apply to the light idle mode time each time we complete a cycle.
    573          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    574          * @see #KEY_LIGHT_IDLE_FACTOR
    575          */
    576         public float LIGHT_IDLE_FACTOR;
    577 
    578         /**
    579          * This is the maximum time we will run in idle maintenence mode.
    580          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    581          * @see #KEY_LIGHT_MAX_IDLE_TIMEOUT
    582          */
    583         public long LIGHT_MAX_IDLE_TIMEOUT;
    584 
    585         /**
    586          * This is the minimum amount of time we want to make available for maintenance mode
    587          * when lightly idling.  That is, we will always have at least this amount of time
    588          * available maintenance before timing out and cutting off maintenance mode.
    589          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    590          * @see #KEY_LIGHT_IDLE_MAINTENANCE_MIN_BUDGET
    591          */
    592         public long LIGHT_IDLE_MAINTENANCE_MIN_BUDGET;
    593 
    594         /**
    595          * This is the maximum amount of time we want to make available for maintenance mode
    596          * when lightly idling.  That is, if the system isn't using up its minimum maintenance
    597          * budget and this time is being added to the budget reserve, this is the maximum
    598          * reserve size we will allow to grow and thus the maximum amount of time we will
    599          * allow for the maintenance window.
    600          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    601          * @see #KEY_LIGHT_IDLE_MAINTENANCE_MAX_BUDGET
    602          */
    603         public long LIGHT_IDLE_MAINTENANCE_MAX_BUDGET;
    604 
    605         /**
    606          * This is the minimum amount of time that we will stay in maintenance mode after
    607          * a light doze.  We have this minimum to allow various things to respond to switching
    608          * in to maintenance mode and scheduling their work -- otherwise we may
    609          * see there is nothing to do (no jobs pending) and go out of maintenance
    610          * mode immediately.
    611          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    612          * @see #KEY_MIN_LIGHT_MAINTENANCE_TIME
    613          */
    614         public long MIN_LIGHT_MAINTENANCE_TIME;
    615 
    616         /**
    617          * This is the minimum amount of time that we will stay in maintenance mode after
    618          * a full doze.  We have this minimum to allow various things to respond to switching
    619          * in to maintenance mode and scheduling their work -- otherwise we may
    620          * see there is nothing to do (no jobs pending) and go out of maintenance
    621          * mode immediately.
    622          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    623          * @see #KEY_MIN_DEEP_MAINTENANCE_TIME
    624          */
    625         public long MIN_DEEP_MAINTENANCE_TIME;
    626 
    627         /**
    628          * This is the time, after becoming inactive, at which we start looking at the
    629          * motion sensor to determine if the device is being left alone.  We don't do this
    630          * immediately after going inactive just because we don't want to be continually running
    631          * the motion sensor whenever the screen is off.
    632          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    633          * @see #KEY_INACTIVE_TIMEOUT
    634          */
    635         public long INACTIVE_TIMEOUT;
    636 
    637         /**
    638          * If we don't receive a callback from AnyMotion in this amount of time +
    639          * {@link #LOCATING_TIMEOUT}, we will change from
    640          * STATE_SENSING to STATE_INACTIVE, and any AnyMotion callbacks while not in STATE_SENSING
    641          * will be ignored.
    642          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    643          * @see #KEY_SENSING_TIMEOUT
    644          */
    645         public long SENSING_TIMEOUT;
    646 
    647         /**
    648          * This is how long we will wait to try to get a good location fix before going in to
    649          * idle mode.
    650          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    651          * @see #KEY_LOCATING_TIMEOUT
    652          */
    653         public long LOCATING_TIMEOUT;
    654 
    655         /**
    656          * The desired maximum accuracy (in meters) we consider the location to be good enough to go
    657          * on to idle.  We will be trying to get an accuracy fix at least this good or until
    658          * {@link #LOCATING_TIMEOUT} expires.
    659          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    660          * @see #KEY_LOCATION_ACCURACY
    661          */
    662         public float LOCATION_ACCURACY;
    663 
    664         /**
    665          * This is the time, after seeing motion, that we wait after becoming inactive from
    666          * that until we start looking for motion again.
    667          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    668          * @see #KEY_MOTION_INACTIVE_TIMEOUT
    669          */
    670         public long MOTION_INACTIVE_TIMEOUT;
    671 
    672         /**
    673          * This is the time, after the inactive timeout elapses, that we will wait looking
    674          * for motion until we truly consider the device to be idle.
    675          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    676          * @see #KEY_IDLE_AFTER_INACTIVE_TIMEOUT
    677          */
    678         public long IDLE_AFTER_INACTIVE_TIMEOUT;
    679 
    680         /**
    681          * This is the initial time, after being idle, that we will allow ourself to be back
    682          * in the IDLE_MAINTENANCE state allowing the system to run normally until we return to
    683          * idle.
    684          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    685          * @see #KEY_IDLE_PENDING_TIMEOUT
    686          */
    687         public long IDLE_PENDING_TIMEOUT;
    688 
    689         /**
    690          * Maximum pending idle timeout (time spent running) we will be allowed to use.
    691          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    692          * @see #KEY_MAX_IDLE_PENDING_TIMEOUT
    693          */
    694         public long MAX_IDLE_PENDING_TIMEOUT;
    695 
    696         /**
    697          * Scaling factor to apply to current pending idle timeout each time we cycle through
    698          * that state.
    699          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    700          * @see #KEY_IDLE_PENDING_FACTOR
    701          */
    702         public float IDLE_PENDING_FACTOR;
    703 
    704         /**
    705          * This is the initial time that we want to sit in the idle state before waking up
    706          * again to return to pending idle and allowing normal work to run.
    707          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    708          * @see #KEY_IDLE_TIMEOUT
    709          */
    710         public long IDLE_TIMEOUT;
    711 
    712         /**
    713          * Maximum idle duration we will be allowed to use.
    714          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    715          * @see #KEY_MAX_IDLE_TIMEOUT
    716          */
    717         public long MAX_IDLE_TIMEOUT;
    718 
    719         /**
    720          * Scaling factor to apply to current idle timeout each time we cycle through that state.
    721           * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    722          * @see #KEY_IDLE_FACTOR
    723          */
    724         public float IDLE_FACTOR;
    725 
    726         /**
    727          * This is the minimum time we will allow until the next upcoming alarm for us to
    728          * actually go in to idle mode.
    729          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    730          * @see #KEY_MIN_TIME_TO_ALARM
    731          */
    732         public long MIN_TIME_TO_ALARM;
    733 
    734         /**
    735          * Max amount of time to temporarily whitelist an app when it receives a high priority
    736          * tickle.
    737          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    738          * @see #KEY_MAX_TEMP_APP_WHITELIST_DURATION
    739          */
    740         public long MAX_TEMP_APP_WHITELIST_DURATION;
    741 
    742         /**
    743          * Amount of time we would like to whitelist an app that is receiving an MMS.
    744          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    745          * @see #KEY_MMS_TEMP_APP_WHITELIST_DURATION
    746          */
    747         public long MMS_TEMP_APP_WHITELIST_DURATION;
    748 
    749         /**
    750          * Amount of time we would like to whitelist an app that is receiving an SMS.
    751          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    752          * @see #KEY_SMS_TEMP_APP_WHITELIST_DURATION
    753          */
    754         public long SMS_TEMP_APP_WHITELIST_DURATION;
    755 
    756         /**
    757          * Amount of time we would like to whitelist an app that is handling a
    758          * {@link android.app.PendingIntent} triggered by a {@link android.app.Notification}.
    759          * @see Settings.Global#DEVICE_IDLE_CONSTANTS
    760          * @see #KEY_NOTIFICATION_WHITELIST_DURATION
    761          */
    762         public long NOTIFICATION_WHITELIST_DURATION;
    763 
    764         private final ContentResolver mResolver;
    765         private final boolean mHasWatch;
    766         private final KeyValueListParser mParser = new KeyValueListParser(',');
    767 
    768         public Constants(Handler handler, ContentResolver resolver) {
    769             super(handler);
    770             mResolver = resolver;
    771             mHasWatch = getContext().getPackageManager().hasSystemFeature(
    772                     PackageManager.FEATURE_WATCH);
    773             mResolver.registerContentObserver(Settings.Global.getUriFor(
    774                     mHasWatch ? Settings.Global.DEVICE_IDLE_CONSTANTS_WATCH
    775                               : Settings.Global.DEVICE_IDLE_CONSTANTS),
    776                     false, this);
    777             updateConstants();
    778         }
    779 
    780         @Override
    781         public void onChange(boolean selfChange, Uri uri) {
    782             updateConstants();
    783         }
    784 
    785         private void updateConstants() {
    786             synchronized (DeviceIdleController.this) {
    787                 try {
    788                     mParser.setString(Settings.Global.getString(mResolver,
    789                             mHasWatch ? Settings.Global.DEVICE_IDLE_CONSTANTS_WATCH
    790                                       : Settings.Global.DEVICE_IDLE_CONSTANTS));
    791                 } catch (IllegalArgumentException e) {
    792                     // Failed to parse the settings string, log this and move on
    793                     // with defaults.
    794                     Slog.e(TAG, "Bad device idle settings", e);
    795                 }
    796 
    797                 LIGHT_IDLE_AFTER_INACTIVE_TIMEOUT = mParser.getLong(
    798                         KEY_LIGHT_IDLE_AFTER_INACTIVE_TIMEOUT,
    799                         !COMPRESS_TIME ? 5 * 60 * 1000L : 15 * 1000L);
    800                 LIGHT_PRE_IDLE_TIMEOUT = mParser.getLong(KEY_LIGHT_PRE_IDLE_TIMEOUT,
    801                         !COMPRESS_TIME ? 10 * 60 * 1000L : 30 * 1000L);
    802                 LIGHT_IDLE_TIMEOUT = mParser.getLong(KEY_LIGHT_IDLE_TIMEOUT,
    803                         !COMPRESS_TIME ? 5 * 60 * 1000L : 15 * 1000L);
    804                 LIGHT_IDLE_FACTOR = mParser.getFloat(KEY_LIGHT_IDLE_FACTOR,
    805                         2f);
    806                 LIGHT_MAX_IDLE_TIMEOUT = mParser.getLong(KEY_LIGHT_MAX_IDLE_TIMEOUT,
    807                         !COMPRESS_TIME ? 15 * 60 * 1000L : 60 * 1000L);
    808                 LIGHT_IDLE_MAINTENANCE_MIN_BUDGET = mParser.getLong(
    809                         KEY_LIGHT_IDLE_MAINTENANCE_MIN_BUDGET,
    810                         !COMPRESS_TIME ? 1 * 60 * 1000L : 15 * 1000L);
    811                 LIGHT_IDLE_MAINTENANCE_MAX_BUDGET = mParser.getLong(
    812                         KEY_LIGHT_IDLE_MAINTENANCE_MAX_BUDGET,
    813                         !COMPRESS_TIME ? 5 * 60 * 1000L : 30 * 1000L);
    814                 MIN_LIGHT_MAINTENANCE_TIME = mParser.getLong(
    815                         KEY_MIN_LIGHT_MAINTENANCE_TIME,
    816                         !COMPRESS_TIME ? 5 * 1000L : 1 * 1000L);
    817                 MIN_DEEP_MAINTENANCE_TIME = mParser.getLong(
    818                         KEY_MIN_DEEP_MAINTENANCE_TIME,
    819                         !COMPRESS_TIME ? 30 * 1000L : 5 * 1000L);
    820                 long inactiveTimeoutDefault = (mHasWatch ? 15 : 30) * 60 * 1000L;
    821                 INACTIVE_TIMEOUT = mParser.getLong(KEY_INACTIVE_TIMEOUT,
    822                         !COMPRESS_TIME ? inactiveTimeoutDefault : (inactiveTimeoutDefault / 10));
    823                 SENSING_TIMEOUT = mParser.getLong(KEY_SENSING_TIMEOUT,
    824                         !DEBUG ? 4 * 60 * 1000L : 60 * 1000L);
    825                 LOCATING_TIMEOUT = mParser.getLong(KEY_LOCATING_TIMEOUT,
    826                         !DEBUG ? 30 * 1000L : 15 * 1000L);
    827                 LOCATION_ACCURACY = mParser.getFloat(KEY_LOCATION_ACCURACY, 20);
    828                 MOTION_INACTIVE_TIMEOUT = mParser.getLong(KEY_MOTION_INACTIVE_TIMEOUT,
    829                         !COMPRESS_TIME ? 10 * 60 * 1000L : 60 * 1000L);
    830                 long idleAfterInactiveTimeout = (mHasWatch ? 15 : 30) * 60 * 1000L;
    831                 IDLE_AFTER_INACTIVE_TIMEOUT = mParser.getLong(KEY_IDLE_AFTER_INACTIVE_TIMEOUT,
    832                         !COMPRESS_TIME ? idleAfterInactiveTimeout
    833                                        : (idleAfterInactiveTimeout / 10));
    834                 IDLE_PENDING_TIMEOUT = mParser.getLong(KEY_IDLE_PENDING_TIMEOUT,
    835                         !COMPRESS_TIME ? 5 * 60 * 1000L : 30 * 1000L);
    836                 MAX_IDLE_PENDING_TIMEOUT = mParser.getLong(KEY_MAX_IDLE_PENDING_TIMEOUT,
    837                         !COMPRESS_TIME ? 10 * 60 * 1000L : 60 * 1000L);
    838                 IDLE_PENDING_FACTOR = mParser.getFloat(KEY_IDLE_PENDING_FACTOR,
    839                         2f);
    840                 IDLE_TIMEOUT = mParser.getLong(KEY_IDLE_TIMEOUT,
    841                         !COMPRESS_TIME ? 60 * 60 * 1000L : 6 * 60 * 1000L);
    842                 MAX_IDLE_TIMEOUT = mParser.getLong(KEY_MAX_IDLE_TIMEOUT,
    843                         !COMPRESS_TIME ? 6 * 60 * 60 * 1000L : 30 * 60 * 1000L);
    844                 IDLE_FACTOR = mParser.getFloat(KEY_IDLE_FACTOR,
    845                         2f);
    846                 MIN_TIME_TO_ALARM = mParser.getLong(KEY_MIN_TIME_TO_ALARM,
    847                         !COMPRESS_TIME ? 60 * 60 * 1000L : 6 * 60 * 1000L);
    848                 MAX_TEMP_APP_WHITELIST_DURATION = mParser.getLong(
    849                         KEY_MAX_TEMP_APP_WHITELIST_DURATION, 5 * 60 * 1000L);
    850                 MMS_TEMP_APP_WHITELIST_DURATION = mParser.getLong(
    851                         KEY_MMS_TEMP_APP_WHITELIST_DURATION, 60 * 1000L);
    852                 SMS_TEMP_APP_WHITELIST_DURATION = mParser.getLong(
    853                         KEY_SMS_TEMP_APP_WHITELIST_DURATION, 20 * 1000L);
    854                 NOTIFICATION_WHITELIST_DURATION = mParser.getLong(
    855                         KEY_NOTIFICATION_WHITELIST_DURATION, 30 * 1000L);
    856             }
    857         }
    858 
    859         void dump(PrintWriter pw) {
    860             pw.println("  Settings:");
    861 
    862             pw.print("    "); pw.print(KEY_LIGHT_IDLE_AFTER_INACTIVE_TIMEOUT); pw.print("=");
    863             TimeUtils.formatDuration(LIGHT_IDLE_AFTER_INACTIVE_TIMEOUT, pw);
    864             pw.println();
    865 
    866             pw.print("    "); pw.print(KEY_LIGHT_PRE_IDLE_TIMEOUT); pw.print("=");
    867             TimeUtils.formatDuration(LIGHT_PRE_IDLE_TIMEOUT, pw);
    868             pw.println();
    869 
    870             pw.print("    "); pw.print(KEY_LIGHT_IDLE_TIMEOUT); pw.print("=");
    871             TimeUtils.formatDuration(LIGHT_IDLE_TIMEOUT, pw);
    872             pw.println();
    873 
    874             pw.print("    "); pw.print(KEY_LIGHT_IDLE_FACTOR); pw.print("=");
    875             pw.print(LIGHT_IDLE_FACTOR);
    876             pw.println();
    877 
    878             pw.print("    "); pw.print(KEY_LIGHT_MAX_IDLE_TIMEOUT); pw.print("=");
    879             TimeUtils.formatDuration(LIGHT_MAX_IDLE_TIMEOUT, pw);
    880             pw.println();
    881 
    882             pw.print("    "); pw.print(KEY_LIGHT_IDLE_MAINTENANCE_MIN_BUDGET); pw.print("=");
    883             TimeUtils.formatDuration(LIGHT_IDLE_MAINTENANCE_MIN_BUDGET, pw);
    884             pw.println();
    885 
    886             pw.print("    "); pw.print(KEY_LIGHT_IDLE_MAINTENANCE_MAX_BUDGET); pw.print("=");
    887             TimeUtils.formatDuration(LIGHT_IDLE_MAINTENANCE_MAX_BUDGET, pw);
    888             pw.println();
    889 
    890             pw.print("    "); pw.print(KEY_MIN_LIGHT_MAINTENANCE_TIME); pw.print("=");
    891             TimeUtils.formatDuration(MIN_LIGHT_MAINTENANCE_TIME, pw);
    892             pw.println();
    893 
    894             pw.print("    "); pw.print(KEY_MIN_DEEP_MAINTENANCE_TIME); pw.print("=");
    895             TimeUtils.formatDuration(MIN_DEEP_MAINTENANCE_TIME, pw);
    896             pw.println();
    897 
    898             pw.print("    "); pw.print(KEY_INACTIVE_TIMEOUT); pw.print("=");
    899             TimeUtils.formatDuration(INACTIVE_TIMEOUT, pw);
    900             pw.println();
    901 
    902             pw.print("    "); pw.print(KEY_SENSING_TIMEOUT); pw.print("=");
    903             TimeUtils.formatDuration(SENSING_TIMEOUT, pw);
    904             pw.println();
    905 
    906             pw.print("    "); pw.print(KEY_LOCATING_TIMEOUT); pw.print("=");
    907             TimeUtils.formatDuration(LOCATING_TIMEOUT, pw);
    908             pw.println();
    909 
    910             pw.print("    "); pw.print(KEY_LOCATION_ACCURACY); pw.print("=");
    911             pw.print(LOCATION_ACCURACY); pw.print("m");
    912             pw.println();
    913 
    914             pw.print("    "); pw.print(KEY_MOTION_INACTIVE_TIMEOUT); pw.print("=");
    915             TimeUtils.formatDuration(MOTION_INACTIVE_TIMEOUT, pw);
    916             pw.println();
    917 
    918             pw.print("    "); pw.print(KEY_IDLE_AFTER_INACTIVE_TIMEOUT); pw.print("=");
    919             TimeUtils.formatDuration(IDLE_AFTER_INACTIVE_TIMEOUT, pw);
    920             pw.println();
    921 
    922             pw.print("    "); pw.print(KEY_IDLE_PENDING_TIMEOUT); pw.print("=");
    923             TimeUtils.formatDuration(IDLE_PENDING_TIMEOUT, pw);
    924             pw.println();
    925 
    926             pw.print("    "); pw.print(KEY_MAX_IDLE_PENDING_TIMEOUT); pw.print("=");
    927             TimeUtils.formatDuration(MAX_IDLE_PENDING_TIMEOUT, pw);
    928             pw.println();
    929 
    930             pw.print("    "); pw.print(KEY_IDLE_PENDING_FACTOR); pw.print("=");
    931             pw.println(IDLE_PENDING_FACTOR);
    932 
    933             pw.print("    "); pw.print(KEY_IDLE_TIMEOUT); pw.print("=");
    934             TimeUtils.formatDuration(IDLE_TIMEOUT, pw);
    935             pw.println();
    936 
    937             pw.print("    "); pw.print(KEY_MAX_IDLE_TIMEOUT); pw.print("=");
    938             TimeUtils.formatDuration(MAX_IDLE_TIMEOUT, pw);
    939             pw.println();
    940 
    941             pw.print("    "); pw.print(KEY_IDLE_FACTOR); pw.print("=");
    942             pw.println(IDLE_FACTOR);
    943 
    944             pw.print("    "); pw.print(KEY_MIN_TIME_TO_ALARM); pw.print("=");
    945             TimeUtils.formatDuration(MIN_TIME_TO_ALARM, pw);
    946             pw.println();
    947 
    948             pw.print("    "); pw.print(KEY_MAX_TEMP_APP_WHITELIST_DURATION); pw.print("=");
    949             TimeUtils.formatDuration(MAX_TEMP_APP_WHITELIST_DURATION, pw);
    950             pw.println();
    951 
    952             pw.print("    "); pw.print(KEY_MMS_TEMP_APP_WHITELIST_DURATION); pw.print("=");
    953             TimeUtils.formatDuration(MMS_TEMP_APP_WHITELIST_DURATION, pw);
    954             pw.println();
    955 
    956             pw.print("    "); pw.print(KEY_SMS_TEMP_APP_WHITELIST_DURATION); pw.print("=");
    957             TimeUtils.formatDuration(SMS_TEMP_APP_WHITELIST_DURATION, pw);
    958             pw.println();
    959 
    960             pw.print("    "); pw.print(KEY_NOTIFICATION_WHITELIST_DURATION); pw.print("=");
    961             TimeUtils.formatDuration(NOTIFICATION_WHITELIST_DURATION, pw);
    962             pw.println();
    963         }
    964     }
    965 
    966     private Constants mConstants;
    967 
    968     @Override
    969     public void onAnyMotionResult(int result) {
    970         if (DEBUG) Slog.d(TAG, "onAnyMotionResult(" + result + ")");
    971         if (result != AnyMotionDetector.RESULT_UNKNOWN) {
    972             synchronized (this) {
    973                 cancelSensingTimeoutAlarmLocked();
    974             }
    975         }
    976         if ((result == AnyMotionDetector.RESULT_MOVED) ||
    977             (result == AnyMotionDetector.RESULT_UNKNOWN)) {
    978             synchronized (this) {
    979                 handleMotionDetectedLocked(mConstants.INACTIVE_TIMEOUT, "non_stationary");
    980             }
    981         } else if (result == AnyMotionDetector.RESULT_STATIONARY) {
    982             if (mState == STATE_SENSING) {
    983                 // If we are currently sensing, it is time to move to locating.
    984                 synchronized (this) {
    985                     mNotMoving = true;
    986                     stepIdleStateLocked("s:stationary");
    987                 }
    988             } else if (mState == STATE_LOCATING) {
    989                 // If we are currently locating, note that we are not moving and step
    990                 // if we have located the position.
    991                 synchronized (this) {
    992                     mNotMoving = true;
    993                     if (mLocated) {
    994                         stepIdleStateLocked("s:stationary");
    995                     }
    996                 }
    997             }
    998         }
    999     }
   1000 
   1001     static final int MSG_WRITE_CONFIG = 1;
   1002     static final int MSG_REPORT_IDLE_ON = 2;
   1003     static final int MSG_REPORT_IDLE_ON_LIGHT = 3;
   1004     static final int MSG_REPORT_IDLE_OFF = 4;
   1005     static final int MSG_REPORT_ACTIVE = 5;
   1006     static final int MSG_TEMP_APP_WHITELIST_TIMEOUT = 6;
   1007     static final int MSG_REPORT_MAINTENANCE_ACTIVITY = 7;
   1008     static final int MSG_FINISH_IDLE_OP = 8;
   1009 
   1010     final class MyHandler extends Handler {
   1011         MyHandler(Looper looper) {
   1012             super(looper);
   1013         }
   1014 
   1015         @Override public void handleMessage(Message msg) {
   1016             if (DEBUG) Slog.d(TAG, "handleMessage(" + msg.what + ")");
   1017             switch (msg.what) {
   1018                 case MSG_WRITE_CONFIG: {
   1019                     handleWriteConfigFile();
   1020                 } break;
   1021                 case MSG_REPORT_IDLE_ON:
   1022                 case MSG_REPORT_IDLE_ON_LIGHT: {
   1023                     EventLogTags.writeDeviceIdleOnStart();
   1024                     final boolean deepChanged;
   1025                     final boolean lightChanged;
   1026                     if (msg.what == MSG_REPORT_IDLE_ON) {
   1027                         deepChanged = mLocalPowerManager.setDeviceIdleMode(true);
   1028                         lightChanged = mLocalPowerManager.setLightDeviceIdleMode(false);
   1029                     } else {
   1030                         deepChanged = mLocalPowerManager.setDeviceIdleMode(false);
   1031                         lightChanged = mLocalPowerManager.setLightDeviceIdleMode(true);
   1032                     }
   1033                     try {
   1034                         mNetworkPolicyManager.setDeviceIdleMode(true);
   1035                         mBatteryStats.noteDeviceIdleMode(msg.what == MSG_REPORT_IDLE_ON
   1036                                 ? BatteryStats.DEVICE_IDLE_MODE_DEEP
   1037                                 : BatteryStats.DEVICE_IDLE_MODE_LIGHT, null, Process.myUid());
   1038                     } catch (RemoteException e) {
   1039                     }
   1040                     if (deepChanged) {
   1041                         getContext().sendBroadcastAsUser(mIdleIntent, UserHandle.ALL);
   1042                     }
   1043                     if (lightChanged) {
   1044                         getContext().sendBroadcastAsUser(mLightIdleIntent, UserHandle.ALL);
   1045                     }
   1046                     EventLogTags.writeDeviceIdleOnComplete();
   1047                 } break;
   1048                 case MSG_REPORT_IDLE_OFF: {
   1049                     EventLogTags.writeDeviceIdleOffStart("unknown");
   1050                     final boolean deepChanged = mLocalPowerManager.setDeviceIdleMode(false);
   1051                     final boolean lightChanged = mLocalPowerManager.setLightDeviceIdleMode(false);
   1052                     try {
   1053                         mNetworkPolicyManager.setDeviceIdleMode(false);
   1054                         mBatteryStats.noteDeviceIdleMode(BatteryStats.DEVICE_IDLE_MODE_OFF,
   1055                                 null, Process.myUid());
   1056                     } catch (RemoteException e) {
   1057                     }
   1058                     if (deepChanged) {
   1059                         incActiveIdleOps();
   1060                         getContext().sendOrderedBroadcastAsUser(mIdleIntent, UserHandle.ALL,
   1061                                 null, mIdleStartedDoneReceiver, null, 0, null, null);
   1062                     }
   1063                     if (lightChanged) {
   1064                         incActiveIdleOps();
   1065                         getContext().sendOrderedBroadcastAsUser(mLightIdleIntent, UserHandle.ALL,
   1066                                 null, mIdleStartedDoneReceiver, null, 0, null, null);
   1067                     }
   1068                     // Always start with one active op for the message being sent here.
   1069                     // Now we are done!
   1070                     decActiveIdleOps();
   1071                     EventLogTags.writeDeviceIdleOffComplete();
   1072                 } break;
   1073                 case MSG_REPORT_ACTIVE: {
   1074                     String activeReason = (String)msg.obj;
   1075                     int activeUid = msg.arg1;
   1076                     EventLogTags.writeDeviceIdleOffStart(
   1077                             activeReason != null ? activeReason : "unknown");
   1078                     final boolean deepChanged = mLocalPowerManager.setDeviceIdleMode(false);
   1079                     final boolean lightChanged = mLocalPowerManager.setLightDeviceIdleMode(false);
   1080                     try {
   1081                         mNetworkPolicyManager.setDeviceIdleMode(false);
   1082                         mBatteryStats.noteDeviceIdleMode(BatteryStats.DEVICE_IDLE_MODE_OFF,
   1083                                 activeReason, activeUid);
   1084                     } catch (RemoteException e) {
   1085                     }
   1086                     if (deepChanged) {
   1087                         getContext().sendBroadcastAsUser(mIdleIntent, UserHandle.ALL);
   1088                     }
   1089                     if (lightChanged) {
   1090                         getContext().sendBroadcastAsUser(mLightIdleIntent, UserHandle.ALL);
   1091                     }
   1092                     EventLogTags.writeDeviceIdleOffComplete();
   1093                 } break;
   1094                 case MSG_TEMP_APP_WHITELIST_TIMEOUT: {
   1095                     int uid = msg.arg1;
   1096                     checkTempAppWhitelistTimeout(uid);
   1097                 } break;
   1098                 case MSG_REPORT_MAINTENANCE_ACTIVITY: {
   1099                     boolean active = (msg.arg1 == 1);
   1100                     final int size = mMaintenanceActivityListeners.beginBroadcast();
   1101                     try {
   1102                         for (int i = 0; i < size; i++) {
   1103                             try {
   1104                                 mMaintenanceActivityListeners.getBroadcastItem(i)
   1105                                         .onMaintenanceActivityChanged(active);
   1106                             } catch (RemoteException ignored) {
   1107                             }
   1108                         }
   1109                     } finally {
   1110                         mMaintenanceActivityListeners.finishBroadcast();
   1111                     }
   1112                 } break;
   1113                 case MSG_FINISH_IDLE_OP: {
   1114                     decActiveIdleOps();
   1115                 } break;
   1116             }
   1117         }
   1118     }
   1119 
   1120     final MyHandler mHandler;
   1121 
   1122     BinderService mBinderService;
   1123 
   1124     private final class BinderService extends IDeviceIdleController.Stub {
   1125         @Override public void addPowerSaveWhitelistApp(String name) {
   1126             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   1127                     null);
   1128             long ident = Binder.clearCallingIdentity();
   1129             try {
   1130                 addPowerSaveWhitelistAppInternal(name);
   1131             } finally {
   1132                 Binder.restoreCallingIdentity(ident);
   1133             }
   1134         }
   1135 
   1136         @Override public void removePowerSaveWhitelistApp(String name) {
   1137             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   1138                     null);
   1139             long ident = Binder.clearCallingIdentity();
   1140             try {
   1141                 removePowerSaveWhitelistAppInternal(name);
   1142             } finally {
   1143                 Binder.restoreCallingIdentity(ident);
   1144             }
   1145         }
   1146 
   1147         @Override public String[] getSystemPowerWhitelistExceptIdle() {
   1148             return getSystemPowerWhitelistExceptIdleInternal();
   1149         }
   1150 
   1151         @Override public String[] getSystemPowerWhitelist() {
   1152             return getSystemPowerWhitelistInternal();
   1153         }
   1154 
   1155         @Override public String[] getUserPowerWhitelist() {
   1156             return getUserPowerWhitelistInternal();
   1157         }
   1158 
   1159         @Override public String[] getFullPowerWhitelistExceptIdle() {
   1160             return getFullPowerWhitelistExceptIdleInternal();
   1161         }
   1162 
   1163         @Override public String[] getFullPowerWhitelist() {
   1164             return getFullPowerWhitelistInternal();
   1165         }
   1166 
   1167         @Override public int[] getAppIdWhitelistExceptIdle() {
   1168             return getAppIdWhitelistExceptIdleInternal();
   1169         }
   1170 
   1171         @Override public int[] getAppIdWhitelist() {
   1172             return getAppIdWhitelistInternal();
   1173         }
   1174 
   1175         @Override public int[] getAppIdUserWhitelist() {
   1176             return getAppIdUserWhitelistInternal();
   1177         }
   1178 
   1179         @Override public int[] getAppIdTempWhitelist() {
   1180             return getAppIdTempWhitelistInternal();
   1181         }
   1182 
   1183         @Override public boolean isPowerSaveWhitelistExceptIdleApp(String name) {
   1184             return isPowerSaveWhitelistExceptIdleAppInternal(name);
   1185         }
   1186 
   1187         @Override public boolean isPowerSaveWhitelistApp(String name) {
   1188             return isPowerSaveWhitelistAppInternal(name);
   1189         }
   1190 
   1191         @Override public void addPowerSaveTempWhitelistApp(String packageName, long duration,
   1192                 int userId, String reason) throws RemoteException {
   1193             addPowerSaveTempWhitelistAppChecked(packageName, duration, userId, reason);
   1194         }
   1195 
   1196         @Override public long addPowerSaveTempWhitelistAppForMms(String packageName,
   1197                 int userId, String reason) throws RemoteException {
   1198             long duration = mConstants.MMS_TEMP_APP_WHITELIST_DURATION;
   1199             addPowerSaveTempWhitelistAppChecked(packageName, duration, userId, reason);
   1200             return duration;
   1201         }
   1202 
   1203         @Override public long addPowerSaveTempWhitelistAppForSms(String packageName,
   1204                 int userId, String reason) throws RemoteException {
   1205             long duration = mConstants.SMS_TEMP_APP_WHITELIST_DURATION;
   1206             addPowerSaveTempWhitelistAppChecked(packageName, duration, userId, reason);
   1207             return duration;
   1208         }
   1209 
   1210         @Override public void exitIdle(String reason) {
   1211             getContext().enforceCallingOrSelfPermission(Manifest.permission.DEVICE_POWER,
   1212                     null);
   1213             long ident = Binder.clearCallingIdentity();
   1214             try {
   1215                 exitIdleInternal(reason);
   1216             } finally {
   1217                 Binder.restoreCallingIdentity(ident);
   1218             }
   1219         }
   1220 
   1221         @Override public boolean registerMaintenanceActivityListener(
   1222                 IMaintenanceActivityListener listener) {
   1223             return DeviceIdleController.this.registerMaintenanceActivityListener(listener);
   1224         }
   1225 
   1226         @Override public void unregisterMaintenanceActivityListener(
   1227                 IMaintenanceActivityListener listener) {
   1228             DeviceIdleController.this.unregisterMaintenanceActivityListener(listener);
   1229         }
   1230 
   1231         @Override protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
   1232             DeviceIdleController.this.dump(fd, pw, args);
   1233         }
   1234 
   1235         @Override public void onShellCommand(FileDescriptor in, FileDescriptor out,
   1236                 FileDescriptor err, String[] args, ResultReceiver resultReceiver) {
   1237             (new Shell()).exec(this, in, out, err, args, resultReceiver);
   1238         }
   1239     }
   1240 
   1241     public final class LocalService {
   1242         public void addPowerSaveTempWhitelistAppDirect(int appId, long duration, boolean sync,
   1243                 String reason) {
   1244             addPowerSaveTempWhitelistAppDirectInternal(0, appId, duration, sync, reason);
   1245         }
   1246 
   1247         public long getNotificationWhitelistDuration() {
   1248             return mConstants.NOTIFICATION_WHITELIST_DURATION;
   1249         }
   1250 
   1251         public void setNetworkPolicyTempWhitelistCallback(Runnable callback) {
   1252             setNetworkPolicyTempWhitelistCallbackInternal(callback);
   1253         }
   1254 
   1255         public void setJobsActive(boolean active) {
   1256             DeviceIdleController.this.setJobsActive(active);
   1257         }
   1258 
   1259         // Up-call from alarm manager.
   1260         public void setAlarmsActive(boolean active) {
   1261             DeviceIdleController.this.setAlarmsActive(active);
   1262         }
   1263 
   1264         /**
   1265          * Returns the array of app ids whitelisted by user. Take care not to
   1266          * modify this, as it is a reference to the original copy. But the reference
   1267          * can change when the list changes, so it needs to be re-acquired when
   1268          * {@link PowerManager#ACTION_POWER_SAVE_WHITELIST_CHANGED} is sent.
   1269          */
   1270         public int[] getPowerSaveWhitelistUserAppIds() {
   1271             return DeviceIdleController.this.getPowerSaveWhitelistUserAppIds();
   1272         }
   1273     }
   1274 
   1275     public DeviceIdleController(Context context) {
   1276         super(context);
   1277         mConfigFile = new AtomicFile(new File(getSystemDir(), "deviceidle.xml"));
   1278         mHandler = new MyHandler(BackgroundThread.getHandler().getLooper());
   1279     }
   1280 
   1281     int[] getPowerSaveWhitelistUserAppIds() {
   1282         synchronized (this) {
   1283             return mPowerSaveWhitelistUserAppIdArray;
   1284         }
   1285     }
   1286 
   1287     private static File getSystemDir() {
   1288         return new File(Environment.getDataDirectory(), "system");
   1289     }
   1290 
   1291     @Override
   1292     public void onStart() {
   1293         final PackageManager pm = getContext().getPackageManager();
   1294 
   1295         synchronized (this) {
   1296             mLightEnabled = mDeepEnabled = getContext().getResources().getBoolean(
   1297                     com.android.internal.R.bool.config_enableAutoPowerModes);
   1298             SystemConfig sysConfig = SystemConfig.getInstance();
   1299             ArraySet<String> allowPowerExceptIdle = sysConfig.getAllowInPowerSaveExceptIdle();
   1300             for (int i=0; i<allowPowerExceptIdle.size(); i++) {
   1301                 String pkg = allowPowerExceptIdle.valueAt(i);
   1302                 try {
   1303                     ApplicationInfo ai = pm.getApplicationInfo(pkg,
   1304                             PackageManager.MATCH_SYSTEM_ONLY);
   1305                     int appid = UserHandle.getAppId(ai.uid);
   1306                     mPowerSaveWhitelistAppsExceptIdle.put(ai.packageName, appid);
   1307                     mPowerSaveWhitelistSystemAppIdsExceptIdle.put(appid, true);
   1308                 } catch (PackageManager.NameNotFoundException e) {
   1309                 }
   1310             }
   1311             ArraySet<String> allowPower = sysConfig.getAllowInPowerSave();
   1312             for (int i=0; i<allowPower.size(); i++) {
   1313                 String pkg = allowPower.valueAt(i);
   1314                 try {
   1315                     ApplicationInfo ai = pm.getApplicationInfo(pkg,
   1316                             PackageManager.MATCH_SYSTEM_ONLY);
   1317                     int appid = UserHandle.getAppId(ai.uid);
   1318                     // These apps are on both the whitelist-except-idle as well
   1319                     // as the full whitelist, so they apply in all cases.
   1320                     mPowerSaveWhitelistAppsExceptIdle.put(ai.packageName, appid);
   1321                     mPowerSaveWhitelistSystemAppIdsExceptIdle.put(appid, true);
   1322                     mPowerSaveWhitelistApps.put(ai.packageName, appid);
   1323                     mPowerSaveWhitelistSystemAppIds.put(appid, true);
   1324                 } catch (PackageManager.NameNotFoundException e) {
   1325                 }
   1326             }
   1327 
   1328             mConstants = new Constants(mHandler, getContext().getContentResolver());
   1329 
   1330             readConfigFileLocked();
   1331             updateWhitelistAppIdsLocked();
   1332 
   1333             mNetworkConnected = true;
   1334             mScreenOn = true;
   1335             // Start out assuming we are charging.  If we aren't, we will at least get
   1336             // a battery update the next time the level drops.
   1337             mCharging = true;
   1338             mState = STATE_ACTIVE;
   1339             mLightState = LIGHT_STATE_ACTIVE;
   1340             mInactiveTimeout = mConstants.INACTIVE_TIMEOUT;
   1341         }
   1342 
   1343         mBinderService = new BinderService();
   1344         publishBinderService(Context.DEVICE_IDLE_CONTROLLER, mBinderService);
   1345         publishLocalService(LocalService.class, new LocalService());
   1346     }
   1347 
   1348     @Override
   1349     public void onBootPhase(int phase) {
   1350         if (phase == PHASE_SYSTEM_SERVICES_READY) {
   1351             synchronized (this) {
   1352                 mAlarmManager = (AlarmManager) getContext().getSystemService(Context.ALARM_SERVICE);
   1353                 mBatteryStats = BatteryStatsService.getService();
   1354                 mLocalPowerManager = getLocalService(PowerManagerInternal.class);
   1355                 mPowerManager = getContext().getSystemService(PowerManager.class);
   1356                 mActiveIdleWakeLock = mPowerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK,
   1357                         "deviceidle_maint");
   1358                 mActiveIdleWakeLock.setReferenceCounted(false);
   1359                 mConnectivityService = (ConnectivityService)ServiceManager.getService(
   1360                         Context.CONNECTIVITY_SERVICE);
   1361                 mLocalAlarmManager = getLocalService(AlarmManagerService.LocalService.class);
   1362                 mNetworkPolicyManager = INetworkPolicyManager.Stub.asInterface(
   1363                         ServiceManager.getService(Context.NETWORK_POLICY_SERVICE));
   1364                 mDisplayManager = (DisplayManager) getContext().getSystemService(
   1365                         Context.DISPLAY_SERVICE);
   1366                 mSensorManager = (SensorManager) getContext().getSystemService(Context.SENSOR_SERVICE);
   1367                 int sigMotionSensorId = getContext().getResources().getInteger(
   1368                         com.android.internal.R.integer.config_autoPowerModeAnyMotionSensor);
   1369                 if (sigMotionSensorId > 0) {
   1370                     mMotionSensor = mSensorManager.getDefaultSensor(sigMotionSensorId, true);
   1371                 }
   1372                 if (mMotionSensor == null && getContext().getResources().getBoolean(
   1373                         com.android.internal.R.bool.config_autoPowerModePreferWristTilt)) {
   1374                     mMotionSensor = mSensorManager.getDefaultSensor(
   1375                             Sensor.TYPE_WRIST_TILT_GESTURE, true);
   1376                 }
   1377                 if (mMotionSensor == null) {
   1378                     // As a last ditch, fall back to SMD.
   1379                     mMotionSensor = mSensorManager.getDefaultSensor(
   1380                             Sensor.TYPE_SIGNIFICANT_MOTION, true);
   1381                 }
   1382 
   1383                 if (getContext().getResources().getBoolean(
   1384                         com.android.internal.R.bool.config_autoPowerModePrefetchLocation)) {
   1385                     mLocationManager = (LocationManager) getContext().getSystemService(
   1386                             Context.LOCATION_SERVICE);
   1387                     mLocationRequest = new LocationRequest()
   1388                         .setQuality(LocationRequest.ACCURACY_FINE)
   1389                         .setInterval(0)
   1390                         .setFastestInterval(0)
   1391                         .setNumUpdates(1);
   1392                 }
   1393 
   1394                 float angleThreshold = getContext().getResources().getInteger(
   1395                         com.android.internal.R.integer.config_autoPowerModeThresholdAngle) / 100f;
   1396                 mAnyMotionDetector = new AnyMotionDetector(
   1397                         (PowerManager) getContext().getSystemService(Context.POWER_SERVICE),
   1398                         mHandler, mSensorManager, this, angleThreshold);
   1399 
   1400                 mIdleIntent = new Intent(PowerManager.ACTION_DEVICE_IDLE_MODE_CHANGED);
   1401                 mIdleIntent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY
   1402                         | Intent.FLAG_RECEIVER_FOREGROUND);
   1403                 mLightIdleIntent = new Intent(PowerManager.ACTION_LIGHT_DEVICE_IDLE_MODE_CHANGED);
   1404                 mLightIdleIntent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY
   1405                         | Intent.FLAG_RECEIVER_FOREGROUND);
   1406 
   1407                 IntentFilter filter = new IntentFilter();
   1408                 filter.addAction(Intent.ACTION_BATTERY_CHANGED);
   1409                 getContext().registerReceiver(mReceiver, filter);
   1410 
   1411                 filter = new IntentFilter();
   1412                 filter.addAction(Intent.ACTION_PACKAGE_REMOVED);
   1413                 filter.addDataScheme("package");
   1414                 getContext().registerReceiver(mReceiver, filter);
   1415 
   1416                 filter = new IntentFilter();
   1417                 filter.addAction(ConnectivityManager.CONNECTIVITY_ACTION);
   1418                 getContext().registerReceiver(mReceiver, filter);
   1419 
   1420                 mLocalPowerManager.setDeviceIdleWhitelist(mPowerSaveWhitelistAllAppIdArray);
   1421                 mLocalAlarmManager.setDeviceIdleUserWhitelist(mPowerSaveWhitelistUserAppIdArray);
   1422                 mDisplayManager.registerDisplayListener(mDisplayListener, null);
   1423                 updateDisplayLocked();
   1424             }
   1425             updateConnectivityState(null);
   1426         }
   1427     }
   1428 
   1429     public boolean addPowerSaveWhitelistAppInternal(String name) {
   1430         synchronized (this) {
   1431             try {
   1432                 ApplicationInfo ai = getContext().getPackageManager().getApplicationInfo(name,
   1433                         PackageManager.MATCH_UNINSTALLED_PACKAGES);
   1434                 if (mPowerSaveWhitelistUserApps.put(name, UserHandle.getAppId(ai.uid)) == null) {
   1435                     reportPowerSaveWhitelistChangedLocked();
   1436                     updateWhitelistAppIdsLocked();
   1437                     writeConfigFileLocked();
   1438                 }
   1439                 return true;
   1440             } catch (PackageManager.NameNotFoundException e) {
   1441                 return false;
   1442             }
   1443         }
   1444     }
   1445 
   1446     public boolean removePowerSaveWhitelistAppInternal(String name) {
   1447         synchronized (this) {
   1448             if (mPowerSaveWhitelistUserApps.remove(name) != null) {
   1449                 reportPowerSaveWhitelistChangedLocked();
   1450                 updateWhitelistAppIdsLocked();
   1451                 writeConfigFileLocked();
   1452                 return true;
   1453             }
   1454         }
   1455         return false;
   1456     }
   1457 
   1458     public boolean getPowerSaveWhitelistAppInternal(String name) {
   1459         synchronized (this) {
   1460             return mPowerSaveWhitelistUserApps.containsKey(name);
   1461         }
   1462     }
   1463 
   1464     public String[] getSystemPowerWhitelistExceptIdleInternal() {
   1465         synchronized (this) {
   1466             int size = mPowerSaveWhitelistAppsExceptIdle.size();
   1467             String[] apps = new String[size];
   1468             for (int i = 0; i < size; i++) {
   1469                 apps[i] = mPowerSaveWhitelistAppsExceptIdle.keyAt(i);
   1470             }
   1471             return apps;
   1472         }
   1473     }
   1474 
   1475     public String[] getSystemPowerWhitelistInternal() {
   1476         synchronized (this) {
   1477             int size = mPowerSaveWhitelistApps.size();
   1478             String[] apps = new String[size];
   1479             for (int i = 0; i < size; i++) {
   1480                 apps[i] = mPowerSaveWhitelistApps.keyAt(i);
   1481             }
   1482             return apps;
   1483         }
   1484     }
   1485 
   1486     public String[] getUserPowerWhitelistInternal() {
   1487         synchronized (this) {
   1488             int size = mPowerSaveWhitelistUserApps.size();
   1489             String[] apps = new String[size];
   1490             for (int i = 0; i < mPowerSaveWhitelistUserApps.size(); i++) {
   1491                 apps[i] = mPowerSaveWhitelistUserApps.keyAt(i);
   1492             }
   1493             return apps;
   1494         }
   1495     }
   1496 
   1497     public String[] getFullPowerWhitelistExceptIdleInternal() {
   1498         synchronized (this) {
   1499             int size = mPowerSaveWhitelistAppsExceptIdle.size() + mPowerSaveWhitelistUserApps.size();
   1500             String[] apps = new String[size];
   1501             int cur = 0;
   1502             for (int i = 0; i < mPowerSaveWhitelistAppsExceptIdle.size(); i++) {
   1503                 apps[cur] = mPowerSaveWhitelistAppsExceptIdle.keyAt(i);
   1504                 cur++;
   1505             }
   1506             for (int i = 0; i < mPowerSaveWhitelistUserApps.size(); i++) {
   1507                 apps[cur] = mPowerSaveWhitelistUserApps.keyAt(i);
   1508                 cur++;
   1509             }
   1510             return apps;
   1511         }
   1512     }
   1513 
   1514     public String[] getFullPowerWhitelistInternal() {
   1515         synchronized (this) {
   1516             int size = mPowerSaveWhitelistApps.size() + mPowerSaveWhitelistUserApps.size();
   1517             String[] apps = new String[size];
   1518             int cur = 0;
   1519             for (int i = 0; i < mPowerSaveWhitelistApps.size(); i++) {
   1520                 apps[cur] = mPowerSaveWhitelistApps.keyAt(i);
   1521                 cur++;
   1522             }
   1523             for (int i = 0; i < mPowerSaveWhitelistUserApps.size(); i++) {
   1524                 apps[cur] = mPowerSaveWhitelistUserApps.keyAt(i);
   1525                 cur++;
   1526             }
   1527             return apps;
   1528         }
   1529     }
   1530 
   1531     public boolean isPowerSaveWhitelistExceptIdleAppInternal(String packageName) {
   1532         synchronized (this) {
   1533             return mPowerSaveWhitelistAppsExceptIdle.containsKey(packageName)
   1534                     || mPowerSaveWhitelistUserApps.containsKey(packageName);
   1535         }
   1536     }
   1537 
   1538     public boolean isPowerSaveWhitelistAppInternal(String packageName) {
   1539         synchronized (this) {
   1540             return mPowerSaveWhitelistApps.containsKey(packageName)
   1541                     || mPowerSaveWhitelistUserApps.containsKey(packageName);
   1542         }
   1543     }
   1544 
   1545     public int[] getAppIdWhitelistExceptIdleInternal() {
   1546         synchronized (this) {
   1547             return mPowerSaveWhitelistExceptIdleAppIdArray;
   1548         }
   1549     }
   1550 
   1551     public int[] getAppIdWhitelistInternal() {
   1552         synchronized (this) {
   1553             return mPowerSaveWhitelistAllAppIdArray;
   1554         }
   1555     }
   1556 
   1557     public int[] getAppIdUserWhitelistInternal() {
   1558         synchronized (this) {
   1559             return mPowerSaveWhitelistUserAppIdArray;
   1560         }
   1561     }
   1562 
   1563     public int[] getAppIdTempWhitelistInternal() {
   1564         synchronized (this) {
   1565             return mTempWhitelistAppIdArray;
   1566         }
   1567     }
   1568 
   1569     void addPowerSaveTempWhitelistAppChecked(String packageName, long duration,
   1570             int userId, String reason) throws RemoteException {
   1571         getContext().enforceCallingPermission(
   1572                 Manifest.permission.CHANGE_DEVICE_IDLE_TEMP_WHITELIST,
   1573                 "No permission to change device idle whitelist");
   1574         final int callingUid = Binder.getCallingUid();
   1575         userId = ActivityManagerNative.getDefault().handleIncomingUser(
   1576                 Binder.getCallingPid(),
   1577                 callingUid,
   1578                 userId,
   1579                 /*allowAll=*/ false,
   1580                 /*requireFull=*/ false,
   1581                 "addPowerSaveTempWhitelistApp", null);
   1582         final long token = Binder.clearCallingIdentity();
   1583         try {
   1584             addPowerSaveTempWhitelistAppInternal(callingUid,
   1585                     packageName, duration, userId, true, reason);
   1586         } finally {
   1587             Binder.restoreCallingIdentity(token);
   1588         }
   1589     }
   1590 
   1591     /**
   1592      * Adds an app to the temporary whitelist and resets the endTime for granting the
   1593      * app an exemption to access network and acquire wakelocks.
   1594      */
   1595     void addPowerSaveTempWhitelistAppInternal(int callingUid, String packageName,
   1596             long duration, int userId, boolean sync, String reason) {
   1597         try {
   1598             int uid = getContext().getPackageManager().getPackageUidAsUser(packageName, userId);
   1599             int appId = UserHandle.getAppId(uid);
   1600             addPowerSaveTempWhitelistAppDirectInternal(callingUid, appId, duration, sync, reason);
   1601         } catch (NameNotFoundException e) {
   1602         }
   1603     }
   1604 
   1605     /**
   1606      * Adds an app to the temporary whitelist and resets the endTime for granting the
   1607      * app an exemption to access network and acquire wakelocks.
   1608      */
   1609     void addPowerSaveTempWhitelistAppDirectInternal(int callingUid, int appId,
   1610             long duration, boolean sync, String reason) {
   1611         final long timeNow = SystemClock.elapsedRealtime();
   1612         Runnable networkPolicyTempWhitelistCallback = null;
   1613         synchronized (this) {
   1614             int callingAppId = UserHandle.getAppId(callingUid);
   1615             if (callingAppId >= Process.FIRST_APPLICATION_UID) {
   1616                 if (!mPowerSaveWhitelistSystemAppIds.get(callingAppId)) {
   1617                     throw new SecurityException("Calling app " + UserHandle.formatUid(callingUid)
   1618                             + " is not on whitelist");
   1619                 }
   1620             }
   1621             duration = Math.min(duration, mConstants.MAX_TEMP_APP_WHITELIST_DURATION);
   1622             Pair<MutableLong, String> entry = mTempWhitelistAppIdEndTimes.get(appId);
   1623             final boolean newEntry = entry == null;
   1624             // Set the new end time
   1625             if (newEntry) {
   1626                 entry = new Pair<>(new MutableLong(0), reason);
   1627                 mTempWhitelistAppIdEndTimes.put(appId, entry);
   1628             }
   1629             entry.first.value = timeNow + duration;
   1630             if (DEBUG) {
   1631                 Slog.d(TAG, "Adding AppId " + appId + " to temp whitelist. New entry: " + newEntry);
   1632             }
   1633             if (newEntry) {
   1634                 // No pending timeout for the app id, post a delayed message
   1635                 try {
   1636                     mBatteryStats.noteEvent(BatteryStats.HistoryItem.EVENT_TEMP_WHITELIST_START,
   1637                             reason, appId);
   1638                 } catch (RemoteException e) {
   1639                 }
   1640                 postTempActiveTimeoutMessage(appId, duration);
   1641                 updateTempWhitelistAppIdsLocked();
   1642                 if (mNetworkPolicyTempWhitelistCallback != null) {
   1643                     if (!sync) {
   1644                         mHandler.post(mNetworkPolicyTempWhitelistCallback);
   1645                     } else {
   1646                         networkPolicyTempWhitelistCallback = mNetworkPolicyTempWhitelistCallback;
   1647                     }
   1648                 }
   1649                 reportTempWhitelistChangedLocked();
   1650             }
   1651         }
   1652         if (networkPolicyTempWhitelistCallback != null) {
   1653             networkPolicyTempWhitelistCallback.run();
   1654         }
   1655     }
   1656 
   1657     public void setNetworkPolicyTempWhitelistCallbackInternal(Runnable callback) {
   1658         synchronized (this) {
   1659             mNetworkPolicyTempWhitelistCallback = callback;
   1660         }
   1661     }
   1662 
   1663     private void postTempActiveTimeoutMessage(int uid, long delay) {
   1664         if (DEBUG) {
   1665             Slog.d(TAG, "postTempActiveTimeoutMessage: uid=" + uid + ", delay=" + delay);
   1666         }
   1667         mHandler.sendMessageDelayed(mHandler.obtainMessage(MSG_TEMP_APP_WHITELIST_TIMEOUT, uid, 0),
   1668                 delay);
   1669     }
   1670 
   1671     void checkTempAppWhitelistTimeout(int uid) {
   1672         final long timeNow = SystemClock.elapsedRealtime();
   1673         if (DEBUG) {
   1674             Slog.d(TAG, "checkTempAppWhitelistTimeout: uid=" + uid + ", timeNow=" + timeNow);
   1675         }
   1676         synchronized (this) {
   1677             Pair<MutableLong, String> entry = mTempWhitelistAppIdEndTimes.get(uid);
   1678             if (entry == null) {
   1679                 // Nothing to do
   1680                 return;
   1681             }
   1682             if (timeNow >= entry.first.value) {
   1683                 mTempWhitelistAppIdEndTimes.delete(uid);
   1684                 if (DEBUG) {
   1685                     Slog.d(TAG, "Removing UID " + uid + " from temp whitelist");
   1686                 }
   1687                 updateTempWhitelistAppIdsLocked();
   1688                 if (mNetworkPolicyTempWhitelistCallback != null) {
   1689                     mHandler.post(mNetworkPolicyTempWhitelistCallback);
   1690                 }
   1691                 reportTempWhitelistChangedLocked();
   1692                 try {
   1693                     mBatteryStats.noteEvent(BatteryStats.HistoryItem.EVENT_TEMP_WHITELIST_FINISH,
   1694                             entry.second, uid);
   1695                 } catch (RemoteException e) {
   1696                 }
   1697             } else {
   1698                 // Need more time
   1699                 if (DEBUG) {
   1700                     Slog.d(TAG, "Time to remove UID " + uid + ": " + entry.first.value);
   1701                 }
   1702                 postTempActiveTimeoutMessage(uid, entry.first.value - timeNow);
   1703             }
   1704         }
   1705     }
   1706 
   1707     public void exitIdleInternal(String reason) {
   1708         synchronized (this) {
   1709             becomeActiveLocked(reason, Binder.getCallingUid());
   1710         }
   1711     }
   1712 
   1713     void updateConnectivityState(Intent connIntent) {
   1714         ConnectivityService cm;
   1715         synchronized (this) {
   1716             cm = mConnectivityService;
   1717         }
   1718         if (cm == null) {
   1719             return;
   1720         }
   1721         // Note: can't call out to ConnectivityService with our lock held.
   1722         NetworkInfo ni = cm.getActiveNetworkInfo();
   1723         synchronized (this) {
   1724             boolean conn;
   1725             if (ni == null) {
   1726                 conn = false;
   1727             } else {
   1728                 if (connIntent == null) {
   1729                     conn = ni.isConnected();
   1730                 } else {
   1731                     final int networkType =
   1732                             connIntent.getIntExtra(ConnectivityManager.EXTRA_NETWORK_TYPE,
   1733                                     ConnectivityManager.TYPE_NONE);
   1734                     if (ni.getType() != networkType) {
   1735                         return;
   1736                     }
   1737                     conn = !connIntent.getBooleanExtra(ConnectivityManager.EXTRA_NO_CONNECTIVITY,
   1738                             false);
   1739                 }
   1740             }
   1741             if (conn != mNetworkConnected) {
   1742                 mNetworkConnected = conn;
   1743                 if (conn && mLightState == LIGHT_STATE_WAITING_FOR_NETWORK) {
   1744                     stepLightIdleStateLocked("network");
   1745                 }
   1746             }
   1747         }
   1748     }
   1749 
   1750     void updateDisplayLocked() {
   1751         mCurDisplay = mDisplayManager.getDisplay(Display.DEFAULT_DISPLAY);
   1752         // We consider any situation where the display is showing something to be it on,
   1753         // because if there is anything shown we are going to be updating it at some
   1754         // frequency so can't be allowed to go into deep sleeps.
   1755         boolean screenOn = mCurDisplay.getState() == Display.STATE_ON;
   1756         if (DEBUG) Slog.d(TAG, "updateDisplayLocked: screenOn=" + screenOn);
   1757         if (!screenOn && mScreenOn) {
   1758             mScreenOn = false;
   1759             if (!mForceIdle) {
   1760                 becomeInactiveIfAppropriateLocked();
   1761             }
   1762         } else if (screenOn) {
   1763             mScreenOn = true;
   1764             if (!mForceIdle) {
   1765                 becomeActiveLocked("screen", Process.myUid());
   1766             }
   1767         }
   1768     }
   1769 
   1770     void updateChargingLocked(boolean charging) {
   1771         if (DEBUG) Slog.i(TAG, "updateChargingLocked: charging=" + charging);
   1772         if (!charging && mCharging) {
   1773             mCharging = false;
   1774             if (!mForceIdle) {
   1775                 becomeInactiveIfAppropriateLocked();
   1776             }
   1777         } else if (charging) {
   1778             mCharging = charging;
   1779             if (!mForceIdle) {
   1780                 becomeActiveLocked("charging", Process.myUid());
   1781             }
   1782         }
   1783     }
   1784 
   1785     void scheduleReportActiveLocked(String activeReason, int activeUid) {
   1786         Message msg = mHandler.obtainMessage(MSG_REPORT_ACTIVE, activeUid, 0, activeReason);
   1787         mHandler.sendMessage(msg);
   1788     }
   1789 
   1790     void becomeActiveLocked(String activeReason, int activeUid) {
   1791         if (DEBUG) Slog.i(TAG, "becomeActiveLocked, reason = " + activeReason);
   1792         if (mState != STATE_ACTIVE || mLightState != STATE_ACTIVE) {
   1793             EventLogTags.writeDeviceIdle(STATE_ACTIVE, activeReason);
   1794             EventLogTags.writeDeviceIdleLight(LIGHT_STATE_ACTIVE, activeReason);
   1795             scheduleReportActiveLocked(activeReason, activeUid);
   1796             mState = STATE_ACTIVE;
   1797             mLightState = LIGHT_STATE_ACTIVE;
   1798             mInactiveTimeout = mConstants.INACTIVE_TIMEOUT;
   1799             mCurIdleBudget = 0;
   1800             mMaintenanceStartTime = 0;
   1801             resetIdleManagementLocked();
   1802             resetLightIdleManagementLocked();
   1803             addEvent(EVENT_NORMAL);
   1804         }
   1805     }
   1806 
   1807     void becomeInactiveIfAppropriateLocked() {
   1808         if (DEBUG) Slog.d(TAG, "becomeInactiveIfAppropriateLocked()");
   1809         if ((!mScreenOn && !mCharging) || mForceIdle) {
   1810             // Screen has turned off; we are now going to become inactive and start
   1811             // waiting to see if we will ultimately go idle.
   1812             if (mState == STATE_ACTIVE && mDeepEnabled) {
   1813                 mState = STATE_INACTIVE;
   1814                 if (DEBUG) Slog.d(TAG, "Moved from STATE_ACTIVE to STATE_INACTIVE");
   1815                 resetIdleManagementLocked();
   1816                 scheduleAlarmLocked(mInactiveTimeout, false);
   1817                 EventLogTags.writeDeviceIdle(mState, "no activity");
   1818             }
   1819             if (mLightState == LIGHT_STATE_ACTIVE && mLightEnabled) {
   1820                 mLightState = LIGHT_STATE_INACTIVE;
   1821                 if (DEBUG) Slog.d(TAG, "Moved from LIGHT_STATE_ACTIVE to LIGHT_STATE_INACTIVE");
   1822                 resetLightIdleManagementLocked();
   1823                 scheduleLightAlarmLocked(mConstants.LIGHT_IDLE_AFTER_INACTIVE_TIMEOUT);
   1824                 EventLogTags.writeDeviceIdleLight(mLightState, "no activity");
   1825             }
   1826         }
   1827     }
   1828 
   1829     void resetIdleManagementLocked() {
   1830         mNextIdlePendingDelay = 0;
   1831         mNextIdleDelay = 0;
   1832         mNextLightIdleDelay = 0;
   1833         cancelAlarmLocked();
   1834         cancelSensingTimeoutAlarmLocked();
   1835         cancelLocatingLocked();
   1836         stopMonitoringMotionLocked();
   1837         mAnyMotionDetector.stop();
   1838     }
   1839 
   1840     void resetLightIdleManagementLocked() {
   1841         cancelLightAlarmLocked();
   1842     }
   1843 
   1844     void exitForceIdleLocked() {
   1845         if (mForceIdle) {
   1846             mForceIdle = false;
   1847             if (mScreenOn || mCharging) {
   1848                 becomeActiveLocked("exit-force", Process.myUid());
   1849             }
   1850         }
   1851     }
   1852 
   1853     void stepLightIdleStateLocked(String reason) {
   1854         if (mLightState == LIGHT_STATE_OVERRIDE) {
   1855             // If we are already in deep device idle mode, then
   1856             // there is nothing left to do for light mode.
   1857             return;
   1858         }
   1859 
   1860         if (DEBUG) Slog.d(TAG, "stepLightIdleStateLocked: mLightState=" + mLightState);
   1861         EventLogTags.writeDeviceIdleLightStep();
   1862 
   1863         switch (mLightState) {
   1864             case LIGHT_STATE_INACTIVE:
   1865                 mCurIdleBudget = mConstants.LIGHT_IDLE_MAINTENANCE_MIN_BUDGET;
   1866                 // Reset the upcoming idle delays.
   1867                 mNextLightIdleDelay = mConstants.LIGHT_IDLE_TIMEOUT;
   1868                 mMaintenanceStartTime = 0;
   1869                 if (!isOpsInactiveLocked()) {
   1870                     // We have some active ops going on...  give them a chance to finish
   1871                     // before going in to our first idle.
   1872                     mLightState = LIGHT_STATE_PRE_IDLE;
   1873                     EventLogTags.writeDeviceIdleLight(mLightState, reason);
   1874                     scheduleLightAlarmLocked(mConstants.LIGHT_PRE_IDLE_TIMEOUT);
   1875                     break;
   1876                 }
   1877                 // Nothing active, fall through to immediately idle.
   1878             case LIGHT_STATE_PRE_IDLE:
   1879             case LIGHT_STATE_IDLE_MAINTENANCE:
   1880                 if (mMaintenanceStartTime != 0) {
   1881                     long duration = SystemClock.elapsedRealtime() - mMaintenanceStartTime;
   1882                     if (duration < mConstants.LIGHT_IDLE_MAINTENANCE_MIN_BUDGET) {
   1883                         // We didn't use up all of our minimum budget; add this to the reserve.
   1884                         mCurIdleBudget += (mConstants.LIGHT_IDLE_MAINTENANCE_MIN_BUDGET-duration);
   1885                     } else {
   1886                         // We used more than our minimum budget; this comes out of the reserve.
   1887                         mCurIdleBudget -= (duration-mConstants.LIGHT_IDLE_MAINTENANCE_MIN_BUDGET);
   1888                     }
   1889                 }
   1890                 mMaintenanceStartTime = 0;
   1891                 scheduleLightAlarmLocked(mNextLightIdleDelay);
   1892                 mNextLightIdleDelay = Math.min(mConstants.LIGHT_MAX_IDLE_TIMEOUT,
   1893                         (long)(mNextLightIdleDelay * mConstants.LIGHT_IDLE_FACTOR));
   1894                 if (mNextLightIdleDelay < mConstants.LIGHT_IDLE_TIMEOUT) {
   1895                     mNextLightIdleDelay = mConstants.LIGHT_IDLE_TIMEOUT;
   1896                 }
   1897                 if (DEBUG) Slog.d(TAG, "Moved to LIGHT_STATE_IDLE.");
   1898                 mLightState = LIGHT_STATE_IDLE;
   1899                 EventLogTags.writeDeviceIdleLight(mLightState, reason);
   1900                 addEvent(EVENT_LIGHT_IDLE);
   1901                 mHandler.sendEmptyMessage(MSG_REPORT_IDLE_ON_LIGHT);
   1902                 break;
   1903             case LIGHT_STATE_IDLE:
   1904             case LIGHT_STATE_WAITING_FOR_NETWORK:
   1905                 if (mNetworkConnected || mLightState == LIGHT_STATE_WAITING_FOR_NETWORK) {
   1906                     // We have been idling long enough, now it is time to do some work.
   1907                     mActiveIdleOpCount = 1;
   1908                     mActiveIdleWakeLock.acquire();
   1909                     mMaintenanceStartTime = SystemClock.elapsedRealtime();
   1910                     if (mCurIdleBudget < mConstants.LIGHT_IDLE_MAINTENANCE_MIN_BUDGET) {
   1911                         mCurIdleBudget = mConstants.LIGHT_IDLE_MAINTENANCE_MIN_BUDGET;
   1912                     } else if (mCurIdleBudget > mConstants.LIGHT_IDLE_MAINTENANCE_MAX_BUDGET) {
   1913                         mCurIdleBudget = mConstants.LIGHT_IDLE_MAINTENANCE_MAX_BUDGET;
   1914                     }
   1915                     scheduleLightAlarmLocked(mCurIdleBudget);
   1916                     if (DEBUG) Slog.d(TAG,
   1917                             "Moved from LIGHT_STATE_IDLE to LIGHT_STATE_IDLE_MAINTENANCE.");
   1918                     mLightState = LIGHT_STATE_IDLE_MAINTENANCE;
   1919                     EventLogTags.writeDeviceIdleLight(mLightState, reason);
   1920                     addEvent(EVENT_LIGHT_MAINTENANCE);
   1921                     mHandler.sendEmptyMessage(MSG_REPORT_IDLE_OFF);
   1922                 } else {
   1923                     // We'd like to do maintenance, but currently don't have network
   1924                     // connectivity...  let's try to wait until the network comes back.
   1925                     // We'll only wait for another full idle period, however, and then give up.
   1926                     scheduleLightAlarmLocked(mNextLightIdleDelay);
   1927                     if (DEBUG) Slog.d(TAG, "Moved to LIGHT_WAITING_FOR_NETWORK.");
   1928                     mLightState = LIGHT_STATE_WAITING_FOR_NETWORK;
   1929                     EventLogTags.writeDeviceIdleLight(mLightState, reason);
   1930                 }
   1931                 break;
   1932         }
   1933     }
   1934 
   1935     void stepIdleStateLocked(String reason) {
   1936         if (DEBUG) Slog.d(TAG, "stepIdleStateLocked: mState=" + mState);
   1937         EventLogTags.writeDeviceIdleStep();
   1938 
   1939         final long now = SystemClock.elapsedRealtime();
   1940         if ((now+mConstants.MIN_TIME_TO_ALARM) > mAlarmManager.getNextWakeFromIdleTime()) {
   1941             // Whoops, there is an upcoming alarm.  We don't actually want to go idle.
   1942             if (mState != STATE_ACTIVE) {
   1943                 becomeActiveLocked("alarm", Process.myUid());
   1944                 becomeInactiveIfAppropriateLocked();
   1945             }
   1946             return;
   1947         }
   1948 
   1949         switch (mState) {
   1950             case STATE_INACTIVE:
   1951                 // We have now been inactive long enough, it is time to start looking
   1952                 // for motion and sleep some more while doing so.
   1953                 startMonitoringMotionLocked();
   1954                 scheduleAlarmLocked(mConstants.IDLE_AFTER_INACTIVE_TIMEOUT, false);
   1955                 // Reset the upcoming idle delays.
   1956                 mNextIdlePendingDelay = mConstants.IDLE_PENDING_TIMEOUT;
   1957                 mNextIdleDelay = mConstants.IDLE_TIMEOUT;
   1958                 mState = STATE_IDLE_PENDING;
   1959                 if (DEBUG) Slog.d(TAG, "Moved from STATE_INACTIVE to STATE_IDLE_PENDING.");
   1960                 EventLogTags.writeDeviceIdle(mState, reason);
   1961                 break;
   1962             case STATE_IDLE_PENDING:
   1963                 mState = STATE_SENSING;
   1964                 if (DEBUG) Slog.d(TAG, "Moved from STATE_IDLE_PENDING to STATE_SENSING.");
   1965                 EventLogTags.writeDeviceIdle(mState, reason);
   1966                 scheduleSensingTimeoutAlarmLocked(mConstants.SENSING_TIMEOUT);
   1967                 cancelLocatingLocked();
   1968                 mNotMoving = false;
   1969                 mLocated = false;
   1970                 mLastGenericLocation = null;
   1971                 mLastGpsLocation = null;
   1972                 mAnyMotionDetector.checkForAnyMotion();
   1973                 break;
   1974             case STATE_SENSING:
   1975                 cancelSensingTimeoutAlarmLocked();
   1976                 mState = STATE_LOCATING;
   1977                 if (DEBUG) Slog.d(TAG, "Moved from STATE_SENSING to STATE_LOCATING.");
   1978                 EventLogTags.writeDeviceIdle(mState, reason);
   1979                 scheduleAlarmLocked(mConstants.LOCATING_TIMEOUT, false);
   1980                 if (mLocationManager != null
   1981                         && mLocationManager.getProvider(LocationManager.NETWORK_PROVIDER) != null) {
   1982                     mLocationManager.requestLocationUpdates(mLocationRequest,
   1983                             mGenericLocationListener, mHandler.getLooper());
   1984                     mLocating = true;
   1985                 } else {
   1986                     mHasNetworkLocation = false;
   1987                 }
   1988                 if (mLocationManager != null
   1989                         && mLocationManager.getProvider(LocationManager.GPS_PROVIDER) != null) {
   1990                     mHasGps = true;
   1991                     mLocationManager.requestLocationUpdates(LocationManager.GPS_PROVIDER, 1000, 5,
   1992                             mGpsLocationListener, mHandler.getLooper());
   1993                     mLocating = true;
   1994                 } else {
   1995                     mHasGps = false;
   1996                 }
   1997                 // If we have a location provider, we're all set, the listeners will move state
   1998                 // forward.
   1999                 if (mLocating) {
   2000                     break;
   2001                 }
   2002 
   2003                 // Otherwise, we have to move from locating into idle maintenance.
   2004             case STATE_LOCATING:
   2005                 cancelAlarmLocked();
   2006                 cancelLocatingLocked();
   2007                 mAnyMotionDetector.stop();
   2008 
   2009             case STATE_IDLE_MAINTENANCE:
   2010                 scheduleAlarmLocked(mNextIdleDelay, true);
   2011                 if (DEBUG) Slog.d(TAG, "Moved to STATE_IDLE. Next alarm in " + mNextIdleDelay +
   2012                         " ms.");
   2013                 mNextIdleDelay = (long)(mNextIdleDelay * mConstants.IDLE_FACTOR);
   2014                 if (DEBUG) Slog.d(TAG, "Setting mNextIdleDelay = " + mNextIdleDelay);
   2015                 mNextIdleDelay = Math.min(mNextIdleDelay, mConstants.MAX_IDLE_TIMEOUT);
   2016                 if (mNextIdleDelay < mConstants.IDLE_TIMEOUT) {
   2017                     mNextIdleDelay = mConstants.IDLE_TIMEOUT;
   2018                 }
   2019                 mState = STATE_IDLE;
   2020                 if (mLightState != LIGHT_STATE_OVERRIDE) {
   2021                     mLightState = LIGHT_STATE_OVERRIDE;
   2022                     cancelLightAlarmLocked();
   2023                 }
   2024                 EventLogTags.writeDeviceIdle(mState, reason);
   2025                 addEvent(EVENT_DEEP_IDLE);
   2026                 mHandler.sendEmptyMessage(MSG_REPORT_IDLE_ON);
   2027                 break;
   2028             case STATE_IDLE:
   2029                 // We have been idling long enough, now it is time to do some work.
   2030                 mActiveIdleOpCount = 1;
   2031                 mActiveIdleWakeLock.acquire();
   2032                 scheduleAlarmLocked(mNextIdlePendingDelay, false);
   2033                 if (DEBUG) Slog.d(TAG, "Moved from STATE_IDLE to STATE_IDLE_MAINTENANCE. " +
   2034                         "Next alarm in " + mNextIdlePendingDelay + " ms.");
   2035                 mMaintenanceStartTime = SystemClock.elapsedRealtime();
   2036                 mNextIdlePendingDelay = Math.min(mConstants.MAX_IDLE_PENDING_TIMEOUT,
   2037                         (long)(mNextIdlePendingDelay * mConstants.IDLE_PENDING_FACTOR));
   2038                 if (mNextIdlePendingDelay < mConstants.IDLE_PENDING_TIMEOUT) {
   2039                     mNextIdlePendingDelay = mConstants.IDLE_PENDING_TIMEOUT;
   2040                 }
   2041                 mState = STATE_IDLE_MAINTENANCE;
   2042                 EventLogTags.writeDeviceIdle(mState, reason);
   2043                 addEvent(EVENT_DEEP_MAINTENANCE);
   2044                 mHandler.sendEmptyMessage(MSG_REPORT_IDLE_OFF);
   2045                 break;
   2046         }
   2047     }
   2048 
   2049     void incActiveIdleOps() {
   2050         synchronized (this) {
   2051             mActiveIdleOpCount++;
   2052         }
   2053     }
   2054 
   2055     void decActiveIdleOps() {
   2056         synchronized (this) {
   2057             mActiveIdleOpCount--;
   2058             if (mActiveIdleOpCount <= 0) {
   2059                 exitMaintenanceEarlyIfNeededLocked();
   2060                 mActiveIdleWakeLock.release();
   2061             }
   2062         }
   2063     }
   2064 
   2065     void setJobsActive(boolean active) {
   2066         synchronized (this) {
   2067             mJobsActive = active;
   2068             reportMaintenanceActivityIfNeededLocked();
   2069             if (!active) {
   2070                 exitMaintenanceEarlyIfNeededLocked();
   2071             }
   2072         }
   2073     }
   2074 
   2075     void setAlarmsActive(boolean active) {
   2076         synchronized (this) {
   2077             mAlarmsActive = active;
   2078             if (!active) {
   2079                 exitMaintenanceEarlyIfNeededLocked();
   2080             }
   2081         }
   2082     }
   2083 
   2084     boolean registerMaintenanceActivityListener(IMaintenanceActivityListener listener) {
   2085         synchronized (this) {
   2086             mMaintenanceActivityListeners.register(listener);
   2087             return mReportedMaintenanceActivity;
   2088         }
   2089     }
   2090 
   2091     void unregisterMaintenanceActivityListener(IMaintenanceActivityListener listener) {
   2092         synchronized (this) {
   2093             mMaintenanceActivityListeners.unregister(listener);
   2094         }
   2095     }
   2096 
   2097     void reportMaintenanceActivityIfNeededLocked() {
   2098         boolean active = mJobsActive;
   2099         if (active == mReportedMaintenanceActivity) {
   2100             return;
   2101         }
   2102         mReportedMaintenanceActivity = active;
   2103         Message msg = mHandler.obtainMessage(MSG_REPORT_MAINTENANCE_ACTIVITY,
   2104                 mReportedMaintenanceActivity ? 1 : 0, 0);
   2105         mHandler.sendMessage(msg);
   2106     }
   2107 
   2108     boolean isOpsInactiveLocked() {
   2109         return mActiveIdleOpCount <= 0 && !mJobsActive && !mAlarmsActive;
   2110     }
   2111 
   2112     void exitMaintenanceEarlyIfNeededLocked() {
   2113         if (mState == STATE_IDLE_MAINTENANCE || mLightState == LIGHT_STATE_IDLE_MAINTENANCE
   2114                 || mLightState == LIGHT_STATE_PRE_IDLE) {
   2115             if (isOpsInactiveLocked()) {
   2116                 final long now = SystemClock.elapsedRealtime();
   2117                 if (DEBUG) {
   2118                     StringBuilder sb = new StringBuilder();
   2119                     sb.append("Exit: start=");
   2120                     TimeUtils.formatDuration(mMaintenanceStartTime, sb);
   2121                     sb.append(" now=");
   2122                     TimeUtils.formatDuration(now, sb);
   2123                     Slog.d(TAG, sb.toString());
   2124                 }
   2125                 if (mState == STATE_IDLE_MAINTENANCE) {
   2126                     stepIdleStateLocked("s:early");
   2127                 } else if (mLightState == LIGHT_STATE_PRE_IDLE) {
   2128                     stepLightIdleStateLocked("s:predone");
   2129                 } else {
   2130                     stepLightIdleStateLocked("s:early");
   2131                 }
   2132             }
   2133         }
   2134     }
   2135 
   2136     void motionLocked() {
   2137         if (DEBUG) Slog.d(TAG, "motionLocked()");
   2138         // The motion sensor will have been disabled at this point
   2139         handleMotionDetectedLocked(mConstants.MOTION_INACTIVE_TIMEOUT, "motion");
   2140     }
   2141 
   2142     void handleMotionDetectedLocked(long timeout, String type) {
   2143         // The device is not yet active, so we want to go back to the pending idle
   2144         // state to wait again for no motion.  Note that we only monitor for motion
   2145         // after moving out of the inactive state, so no need to worry about that.
   2146         boolean becomeInactive = false;
   2147         if (mState != STATE_ACTIVE) {
   2148             scheduleReportActiveLocked(type, Process.myUid());
   2149             mState = STATE_ACTIVE;
   2150             mInactiveTimeout = timeout;
   2151             mCurIdleBudget = 0;
   2152             mMaintenanceStartTime = 0;
   2153             EventLogTags.writeDeviceIdle(mState, type);
   2154             addEvent(EVENT_NORMAL);
   2155             becomeInactive = true;
   2156         }
   2157         if (mLightState == LIGHT_STATE_OVERRIDE) {
   2158             // We went out of light idle mode because we had started deep idle mode...  let's
   2159             // now go back and reset things so we resume light idling if appropriate.
   2160             mLightState = STATE_ACTIVE;
   2161             EventLogTags.writeDeviceIdleLight(mLightState, type);
   2162             becomeInactive = true;
   2163         }
   2164         if (becomeInactive) {
   2165             becomeInactiveIfAppropriateLocked();
   2166         }
   2167     }
   2168 
   2169     void receivedGenericLocationLocked(Location location) {
   2170         if (mState != STATE_LOCATING) {
   2171             cancelLocatingLocked();
   2172             return;
   2173         }
   2174         if (DEBUG) Slog.d(TAG, "Generic location: " + location);
   2175         mLastGenericLocation = new Location(location);
   2176         if (location.getAccuracy() > mConstants.LOCATION_ACCURACY && mHasGps) {
   2177             return;
   2178         }
   2179         mLocated = true;
   2180         if (mNotMoving) {
   2181             stepIdleStateLocked("s:location");
   2182         }
   2183     }
   2184 
   2185     void receivedGpsLocationLocked(Location location) {
   2186         if (mState != STATE_LOCATING) {
   2187             cancelLocatingLocked();
   2188             return;
   2189         }
   2190         if (DEBUG) Slog.d(TAG, "GPS location: " + location);
   2191         mLastGpsLocation = new Location(location);
   2192         if (location.getAccuracy() > mConstants.LOCATION_ACCURACY) {
   2193             return;
   2194         }
   2195         mLocated = true;
   2196         if (mNotMoving) {
   2197             stepIdleStateLocked("s:gps");
   2198         }
   2199     }
   2200 
   2201     void startMonitoringMotionLocked() {
   2202         if (DEBUG) Slog.d(TAG, "startMonitoringMotionLocked()");
   2203         if (mMotionSensor != null && !mMotionListener.active) {
   2204             mMotionListener.registerLocked();
   2205         }
   2206     }
   2207 
   2208     void stopMonitoringMotionLocked() {
   2209         if (DEBUG) Slog.d(TAG, "stopMonitoringMotionLocked()");
   2210         if (mMotionSensor != null && mMotionListener.active) {
   2211             mMotionListener.unregisterLocked();
   2212         }
   2213     }
   2214 
   2215     void cancelAlarmLocked() {
   2216         if (mNextAlarmTime != 0) {
   2217             mNextAlarmTime = 0;
   2218             mAlarmManager.cancel(mDeepAlarmListener);
   2219         }
   2220     }
   2221 
   2222     void cancelLightAlarmLocked() {
   2223         if (mNextLightAlarmTime != 0) {
   2224             mNextLightAlarmTime = 0;
   2225             mAlarmManager.cancel(mLightAlarmListener);
   2226         }
   2227     }
   2228 
   2229     void cancelLocatingLocked() {
   2230         if (mLocating) {
   2231             mLocationManager.removeUpdates(mGenericLocationListener);
   2232             mLocationManager.removeUpdates(mGpsLocationListener);
   2233             mLocating = false;
   2234         }
   2235     }
   2236 
   2237     void cancelSensingTimeoutAlarmLocked() {
   2238         if (mNextSensingTimeoutAlarmTime != 0) {
   2239             mNextSensingTimeoutAlarmTime = 0;
   2240             mAlarmManager.cancel(mSensingTimeoutAlarmListener);
   2241         }
   2242     }
   2243 
   2244     void scheduleAlarmLocked(long delay, boolean idleUntil) {
   2245         if (DEBUG) Slog.d(TAG, "scheduleAlarmLocked(" + delay + ", " + idleUntil + ")");
   2246         if (mMotionSensor == null) {
   2247             // If there is no motion sensor on this device, then we won't schedule
   2248             // alarms, because we can't determine if the device is not moving.  This effectively
   2249             // turns off normal execution of device idling, although it is still possible to
   2250             // manually poke it by pretending like the alarm is going off.
   2251             return;
   2252         }
   2253         mNextAlarmTime = SystemClock.elapsedRealtime() + delay;
   2254         if (idleUntil) {
   2255             mAlarmManager.setIdleUntil(AlarmManager.ELAPSED_REALTIME_WAKEUP,
   2256                     mNextAlarmTime, "DeviceIdleController.deep", mDeepAlarmListener, mHandler);
   2257         } else {
   2258             mAlarmManager.set(AlarmManager.ELAPSED_REALTIME_WAKEUP,
   2259                     mNextAlarmTime, "DeviceIdleController.deep", mDeepAlarmListener, mHandler);
   2260         }
   2261     }
   2262 
   2263     void scheduleLightAlarmLocked(long delay) {
   2264         if (DEBUG) Slog.d(TAG, "scheduleLightAlarmLocked(" + delay + ")");
   2265         mNextLightAlarmTime = SystemClock.elapsedRealtime() + delay;
   2266         mAlarmManager.set(AlarmManager.ELAPSED_REALTIME_WAKEUP,
   2267                 mNextLightAlarmTime, "DeviceIdleController.light", mLightAlarmListener, mHandler);
   2268     }
   2269 
   2270     void scheduleSensingTimeoutAlarmLocked(long delay) {
   2271         if (DEBUG) Slog.d(TAG, "scheduleSensingAlarmLocked(" + delay + ")");
   2272         mNextSensingTimeoutAlarmTime = SystemClock.elapsedRealtime() + delay;
   2273         mAlarmManager.set(AlarmManager.ELAPSED_REALTIME_WAKEUP, mNextSensingTimeoutAlarmTime,
   2274             "DeviceIdleController.sensing", mSensingTimeoutAlarmListener, mHandler);
   2275     }
   2276 
   2277     private static int[] buildAppIdArray(ArrayMap<String, Integer> systemApps,
   2278             ArrayMap<String, Integer> userApps, SparseBooleanArray outAppIds) {
   2279         outAppIds.clear();
   2280         if (systemApps != null) {
   2281             for (int i = 0; i < systemApps.size(); i++) {
   2282                 outAppIds.put(systemApps.valueAt(i), true);
   2283             }
   2284         }
   2285         if (userApps != null) {
   2286             for (int i = 0; i < userApps.size(); i++) {
   2287                 outAppIds.put(userApps.valueAt(i), true);
   2288             }
   2289         }
   2290         int size = outAppIds.size();
   2291         int[] appids = new int[size];
   2292         for (int i = 0; i < size; i++) {
   2293             appids[i] = outAppIds.keyAt(i);
   2294         }
   2295         return appids;
   2296     }
   2297 
   2298     private void updateWhitelistAppIdsLocked() {
   2299         mPowerSaveWhitelistExceptIdleAppIdArray = buildAppIdArray(mPowerSaveWhitelistAppsExceptIdle,
   2300                 mPowerSaveWhitelistUserApps, mPowerSaveWhitelistExceptIdleAppIds);
   2301         mPowerSaveWhitelistAllAppIdArray = buildAppIdArray(mPowerSaveWhitelistApps,
   2302                 mPowerSaveWhitelistUserApps, mPowerSaveWhitelistAllAppIds);
   2303         mPowerSaveWhitelistUserAppIdArray = buildAppIdArray(null,
   2304                 mPowerSaveWhitelistUserApps, mPowerSaveWhitelistUserAppIds);
   2305         if (mLocalPowerManager != null) {
   2306             if (DEBUG) {
   2307                 Slog.d(TAG, "Setting wakelock whitelist to "
   2308                         + Arrays.toString(mPowerSaveWhitelistAllAppIdArray));
   2309             }
   2310             mLocalPowerManager.setDeviceIdleWhitelist(mPowerSaveWhitelistAllAppIdArray);
   2311         }
   2312         if (mLocalAlarmManager != null) {
   2313             if (DEBUG) {
   2314                 Slog.d(TAG, "Setting alarm whitelist to "
   2315                         + Arrays.toString(mPowerSaveWhitelistUserAppIdArray));
   2316             }
   2317             mLocalAlarmManager.setDeviceIdleUserWhitelist(mPowerSaveWhitelistUserAppIdArray);
   2318         }
   2319     }
   2320 
   2321     private void updateTempWhitelistAppIdsLocked() {
   2322         final int size = mTempWhitelistAppIdEndTimes.size();
   2323         if (mTempWhitelistAppIdArray.length != size) {
   2324             mTempWhitelistAppIdArray = new int[size];
   2325         }
   2326         for (int i = 0; i < size; i++) {
   2327             mTempWhitelistAppIdArray[i] = mTempWhitelistAppIdEndTimes.keyAt(i);
   2328         }
   2329         if (mLocalPowerManager != null) {
   2330             if (DEBUG) {
   2331                 Slog.d(TAG, "Setting wakelock temp whitelist to "
   2332                         + Arrays.toString(mTempWhitelistAppIdArray));
   2333             }
   2334             mLocalPowerManager.setDeviceIdleTempWhitelist(mTempWhitelistAppIdArray);
   2335         }
   2336     }
   2337 
   2338     private void reportPowerSaveWhitelistChangedLocked() {
   2339         Intent intent = new Intent(PowerManager.ACTION_POWER_SAVE_WHITELIST_CHANGED);
   2340         intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY);
   2341         getContext().sendBroadcastAsUser(intent, UserHandle.SYSTEM);
   2342     }
   2343 
   2344     private void reportTempWhitelistChangedLocked() {
   2345         Intent intent = new Intent(PowerManager.ACTION_POWER_SAVE_TEMP_WHITELIST_CHANGED);
   2346         intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY);
   2347         getContext().sendBroadcastAsUser(intent, UserHandle.SYSTEM);
   2348     }
   2349 
   2350     void readConfigFileLocked() {
   2351         if (DEBUG) Slog.d(TAG, "Reading config from " + mConfigFile.getBaseFile());
   2352         mPowerSaveWhitelistUserApps.clear();
   2353         FileInputStream stream;
   2354         try {
   2355             stream = mConfigFile.openRead();
   2356         } catch (FileNotFoundException e) {
   2357             return;
   2358         }
   2359         try {
   2360             XmlPullParser parser = Xml.newPullParser();
   2361             parser.setInput(stream, StandardCharsets.UTF_8.name());
   2362             readConfigFileLocked(parser);
   2363         } catch (XmlPullParserException e) {
   2364         } finally {
   2365             try {
   2366                 stream.close();
   2367             } catch (IOException e) {
   2368             }
   2369         }
   2370     }
   2371 
   2372     private void readConfigFileLocked(XmlPullParser parser) {
   2373         final PackageManager pm = getContext().getPackageManager();
   2374 
   2375         try {
   2376             int type;
   2377             while ((type = parser.next()) != XmlPullParser.START_TAG
   2378                     && type != XmlPullParser.END_DOCUMENT) {
   2379                 ;
   2380             }
   2381 
   2382             if (type != XmlPullParser.START_TAG) {
   2383                 throw new IllegalStateException("no start tag found");
   2384             }
   2385 
   2386             int outerDepth = parser.getDepth();
   2387             while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
   2388                     && (type != XmlPullParser.END_TAG || parser.getDepth() > outerDepth)) {
   2389                 if (type == XmlPullParser.END_TAG || type == XmlPullParser.TEXT) {
   2390                     continue;
   2391                 }
   2392 
   2393                 String tagName = parser.getName();
   2394                 if (tagName.equals("wl")) {
   2395                     String name = parser.getAttributeValue(null, "n");
   2396                     if (name != null) {
   2397                         try {
   2398                             ApplicationInfo ai = pm.getApplicationInfo(name,
   2399                                     PackageManager.MATCH_UNINSTALLED_PACKAGES);
   2400                             mPowerSaveWhitelistUserApps.put(ai.packageName,
   2401                                     UserHandle.getAppId(ai.uid));
   2402                         } catch (PackageManager.NameNotFoundException e) {
   2403                         }
   2404                     }
   2405                 } else {
   2406                     Slog.w(TAG, "Unknown element under <config>: "
   2407                             + parser.getName());
   2408                     XmlUtils.skipCurrentTag(parser);
   2409                 }
   2410             }
   2411 
   2412         } catch (IllegalStateException e) {
   2413             Slog.w(TAG, "Failed parsing config " + e);
   2414         } catch (NullPointerException e) {
   2415             Slog.w(TAG, "Failed parsing config " + e);
   2416         } catch (NumberFormatException e) {
   2417             Slog.w(TAG, "Failed parsing config " + e);
   2418         } catch (XmlPullParserException e) {
   2419             Slog.w(TAG, "Failed parsing config " + e);
   2420         } catch (IOException e) {
   2421             Slog.w(TAG, "Failed parsing config " + e);
   2422         } catch (IndexOutOfBoundsException e) {
   2423             Slog.w(TAG, "Failed parsing config " + e);
   2424         }
   2425     }
   2426 
   2427     void writeConfigFileLocked() {
   2428         mHandler.removeMessages(MSG_WRITE_CONFIG);
   2429         mHandler.sendEmptyMessageDelayed(MSG_WRITE_CONFIG, 5000);
   2430     }
   2431 
   2432     void handleWriteConfigFile() {
   2433         final ByteArrayOutputStream memStream = new ByteArrayOutputStream();
   2434 
   2435         try {
   2436             synchronized (this) {
   2437                 XmlSerializer out = new FastXmlSerializer();
   2438                 out.setOutput(memStream, StandardCharsets.UTF_8.name());
   2439                 writeConfigFileLocked(out);
   2440             }
   2441         } catch (IOException e) {
   2442         }
   2443 
   2444         synchronized (mConfigFile) {
   2445             FileOutputStream stream = null;
   2446             try {
   2447                 stream = mConfigFile.startWrite();
   2448                 memStream.writeTo(stream);
   2449                 stream.flush();
   2450                 FileUtils.sync(stream);
   2451                 stream.close();
   2452                 mConfigFile.finishWrite(stream);
   2453             } catch (IOException e) {
   2454                 Slog.w(TAG, "Error writing config file", e);
   2455                 mConfigFile.failWrite(stream);
   2456             }
   2457         }
   2458     }
   2459 
   2460     void writeConfigFileLocked(XmlSerializer out) throws IOException {
   2461         out.startDocument(null, true);
   2462         out.startTag(null, "config");
   2463         for (int i=0; i<mPowerSaveWhitelistUserApps.size(); i++) {
   2464             String name = mPowerSaveWhitelistUserApps.keyAt(i);
   2465             out.startTag(null, "wl");
   2466             out.attribute(null, "n", name);
   2467             out.endTag(null, "wl");
   2468         }
   2469         out.endTag(null, "config");
   2470         out.endDocument();
   2471     }
   2472 
   2473     static void dumpHelp(PrintWriter pw) {
   2474         pw.println("Device idle controller (deviceidle) commands:");
   2475         pw.println("  help");
   2476         pw.println("    Print this help text.");
   2477         pw.println("  step [light|deep]");
   2478         pw.println("    Immediately step to next state, without waiting for alarm.");
   2479         pw.println("  force-idle [light|deep]");
   2480         pw.println("    Force directly into idle mode, regardless of other device state.");
   2481         pw.println("  force-inactive");
   2482         pw.println("    Force to be inactive, ready to freely step idle states.");
   2483         pw.println("  unforce");
   2484         pw.println("    Resume normal functioning after force-idle or force-inactive.");
   2485         pw.println("  get [light|deep|force|screen|charging|network]");
   2486         pw.println("    Retrieve the current given state.");
   2487         pw.println("  disable [light|deep|all]");
   2488         pw.println("    Completely disable device idle mode.");
   2489         pw.println("  enable [light|deep|all]");
   2490         pw.println("    Re-enable device idle mode after it had previously been disabled.");
   2491         pw.println("  enabled [light|deep|all]");
   2492         pw.println("    Print 1 if device idle mode is currently enabled, else 0.");
   2493         pw.println("  whitelist");
   2494         pw.println("    Print currently whitelisted apps.");
   2495         pw.println("  whitelist [package ...]");
   2496         pw.println("    Add (prefix with +) or remove (prefix with -) packages.");
   2497         pw.println("  tempwhitelist");
   2498         pw.println("    Print packages that are temporarily whitelisted.");
   2499         pw.println("  tempwhitelist [-u] [package ..]");
   2500         pw.println("    Temporarily place packages in whitelist for 10 seconds.");
   2501     }
   2502 
   2503     class Shell extends ShellCommand {
   2504         int userId = UserHandle.USER_SYSTEM;
   2505 
   2506         @Override
   2507         public int onCommand(String cmd) {
   2508             return onShellCommand(this, cmd);
   2509         }
   2510 
   2511         @Override
   2512         public void onHelp() {
   2513             PrintWriter pw = getOutPrintWriter();
   2514             dumpHelp(pw);
   2515         }
   2516     }
   2517 
   2518     int onShellCommand(Shell shell, String cmd) {
   2519         PrintWriter pw = shell.getOutPrintWriter();
   2520         if ("step".equals(cmd)) {
   2521             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   2522                     null);
   2523             synchronized (this) {
   2524                 long token = Binder.clearCallingIdentity();
   2525                 String arg = shell.getNextArg();
   2526                 try {
   2527                     if (arg == null || "deep".equals(arg)) {
   2528                         stepIdleStateLocked("s:shell");
   2529                         pw.print("Stepped to deep: ");
   2530                         pw.println(stateToString(mState));
   2531                     } else if ("light".equals(arg)) {
   2532                         stepLightIdleStateLocked("s:shell");
   2533                         pw.print("Stepped to light: "); pw.println(lightStateToString(mLightState));
   2534                     } else {
   2535                         pw.println("Unknown idle mode: " + arg);
   2536                     }
   2537                 } finally {
   2538                     Binder.restoreCallingIdentity(token);
   2539                 }
   2540             }
   2541         } else if ("force-idle".equals(cmd)) {
   2542             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   2543                     null);
   2544             synchronized (this) {
   2545                 long token = Binder.clearCallingIdentity();
   2546                 String arg = shell.getNextArg();
   2547                 try {
   2548                     if (arg == null || "deep".equals(arg)) {
   2549                         if (!mDeepEnabled) {
   2550                             pw.println("Unable to go deep idle; not enabled");
   2551                             return -1;
   2552                         }
   2553                         mForceIdle = true;
   2554                         becomeInactiveIfAppropriateLocked();
   2555                         int curState = mState;
   2556                         while (curState != STATE_IDLE) {
   2557                             stepIdleStateLocked("s:shell");
   2558                             if (curState == mState) {
   2559                                 pw.print("Unable to go deep idle; stopped at ");
   2560                                 pw.println(stateToString(mState));
   2561                                 exitForceIdleLocked();
   2562                                 return -1;
   2563                             }
   2564                             curState = mState;
   2565                         }
   2566                         pw.println("Now forced in to deep idle mode");
   2567                     } else if ("light".equals(arg)) {
   2568                         mForceIdle = true;
   2569                         becomeInactiveIfAppropriateLocked();
   2570                         int curLightState = mLightState;
   2571                         while (curLightState != LIGHT_STATE_IDLE) {
   2572                             stepIdleStateLocked("s:shell");
   2573                             if (curLightState == mLightState) {
   2574                                 pw.print("Unable to go light idle; stopped at ");
   2575                                 pw.println(lightStateToString(mLightState));
   2576                                 exitForceIdleLocked();
   2577                                 return -1;
   2578                             }
   2579                             curLightState = mLightState;
   2580                         }
   2581                         pw.println("Now forced in to light idle mode");
   2582                     } else {
   2583                         pw.println("Unknown idle mode: " + arg);
   2584                     }
   2585                 } finally {
   2586                     Binder.restoreCallingIdentity(token);
   2587                 }
   2588             }
   2589         } else if ("force-inactive".equals(cmd)) {
   2590             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   2591                     null);
   2592             synchronized (this) {
   2593                 long token = Binder.clearCallingIdentity();
   2594                 try {
   2595                     mForceIdle = true;
   2596                     becomeInactiveIfAppropriateLocked();
   2597                     pw.print("Light state: ");
   2598                     pw.print(lightStateToString(mLightState));
   2599                     pw.print(", deep state: ");
   2600                     pw.println(stateToString(mState));
   2601                 } finally {
   2602                     Binder.restoreCallingIdentity(token);
   2603                 }
   2604             }
   2605         } else if ("unforce".equals(cmd)) {
   2606             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   2607                     null);
   2608             synchronized (this) {
   2609                 long token = Binder.clearCallingIdentity();
   2610                 try {
   2611                     exitForceIdleLocked();
   2612                     pw.print("Light state: ");
   2613                     pw.print(lightStateToString(mLightState));
   2614                     pw.print(", deep state: ");
   2615                     pw.println(stateToString(mState));
   2616                 } finally {
   2617                     Binder.restoreCallingIdentity(token);
   2618                 }
   2619             }
   2620         } else if ("get".equals(cmd)) {
   2621             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   2622                     null);
   2623             synchronized (this) {
   2624                 String arg = shell.getNextArg();
   2625                 if (arg != null) {
   2626                     long token = Binder.clearCallingIdentity();
   2627                     try {
   2628                         switch (arg) {
   2629                             case "light": pw.println(lightStateToString(mLightState)); break;
   2630                             case "deep": pw.println(stateToString(mState)); break;
   2631                             case "force": pw.println(mForceIdle); break;
   2632                             case "screen": pw.println(mScreenOn); break;
   2633                             case "charging": pw.println(mCharging); break;
   2634                             case "network": pw.println(mNetworkConnected); break;
   2635                             default: pw.println("Unknown get option: " + arg); break;
   2636                         }
   2637                     } finally {
   2638                         Binder.restoreCallingIdentity(token);
   2639                     }
   2640                 } else {
   2641                     pw.println("Argument required");
   2642                 }
   2643             }
   2644         } else if ("disable".equals(cmd)) {
   2645             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   2646                     null);
   2647             synchronized (this) {
   2648                 long token = Binder.clearCallingIdentity();
   2649                 String arg = shell.getNextArg();
   2650                 try {
   2651                     boolean becomeActive = false;
   2652                     boolean valid = false;
   2653                     if (arg == null || "deep".equals(arg) || "all".equals(arg)) {
   2654                         valid = true;
   2655                         if (mDeepEnabled) {
   2656                             mDeepEnabled = false;
   2657                             becomeActive = true;
   2658                             pw.println("Deep idle mode disabled");
   2659                         }
   2660                     }
   2661                     if (arg == null || "light".equals(arg) || "all".equals(arg)) {
   2662                         valid = true;
   2663                         if (mLightEnabled) {
   2664                             mLightEnabled = false;
   2665                             becomeActive = true;
   2666                             pw.println("Light idle mode disabled");
   2667                         }
   2668                     }
   2669                     if (becomeActive) {
   2670                         becomeActiveLocked((arg == null ? "all" : arg) + "-disabled",
   2671                                 Process.myUid());
   2672                     }
   2673                     if (!valid) {
   2674                         pw.println("Unknown idle mode: " + arg);
   2675                     }
   2676                 } finally {
   2677                     Binder.restoreCallingIdentity(token);
   2678                 }
   2679             }
   2680         } else if ("enable".equals(cmd)) {
   2681             getContext().enforceCallingOrSelfPermission(android.Manifest.permission.DEVICE_POWER,
   2682                     null);
   2683             synchronized (this) {
   2684                 long token = Binder.clearCallingIdentity();
   2685                 String arg = shell.getNextArg();
   2686                 try {
   2687                     boolean becomeInactive = false;
   2688                     boolean valid = false;
   2689                     if (arg == null || "deep".equals(arg) || "all".equals(arg)) {
   2690                         valid = true;
   2691                         if (!mDeepEnabled) {
   2692                             mDeepEnabled = true;
   2693                             becomeInactive = true;
   2694                             pw.println("Deep idle mode enabled");
   2695                         }
   2696                     }
   2697                     if (arg == null || "light".equals(arg) || "all".equals(arg)) {
   2698                         valid = true;
   2699                         if (!mLightEnabled) {
   2700                             mLightEnabled = true;
   2701                             becomeInactive = true;
   2702                             pw.println("Light idle mode enable");
   2703                         }
   2704                     }
   2705                     if (becomeInactive) {
   2706                         becomeInactiveIfAppropriateLocked();
   2707                     }
   2708                     if (!valid) {
   2709                         pw.println("Unknown idle mode: " + arg);
   2710                     }
   2711                 } finally {
   2712                     Binder.restoreCallingIdentity(token);
   2713                 }
   2714             }
   2715         } else if ("enabled".equals(cmd)) {
   2716             synchronized (this) {
   2717                 String arg = shell.getNextArg();
   2718                 if (arg == null || "all".equals(arg)) {
   2719                     pw.println(mDeepEnabled && mLightEnabled ? "1" : 0);
   2720                 } else if ("deep".equals(arg)) {
   2721                     pw.println(mDeepEnabled ? "1" : 0);
   2722                 } else if ("light".equals(arg)) {
   2723                     pw.println(mLightEnabled ? "1" : 0);
   2724                 } else {
   2725                     pw.println("Unknown idle mode: " + arg);
   2726                 }
   2727             }
   2728         } else if ("whitelist".equals(cmd)) {
   2729             long token = Binder.clearCallingIdentity();
   2730             try {
   2731                 String arg = shell.getNextArg();
   2732                 if (arg != null) {
   2733                     getContext().enforceCallingOrSelfPermission(
   2734                             android.Manifest.permission.DEVICE_POWER, null);
   2735                     do {
   2736                         if (arg.length() < 1 || (arg.charAt(0) != '-'
   2737                                 && arg.charAt(0) != '+' && arg.charAt(0) != '=')) {
   2738                             pw.println("Package must be prefixed with +, -, or =: " + arg);
   2739                             return -1;
   2740                         }
   2741                         char op = arg.charAt(0);
   2742                         String pkg = arg.substring(1);
   2743                         if (op == '+') {
   2744                             if (addPowerSaveWhitelistAppInternal(pkg)) {
   2745                                 pw.println("Added: " + pkg);
   2746                             } else {
   2747                                 pw.println("Unknown package: " + pkg);
   2748                             }
   2749                         } else if (op == '-') {
   2750                             if (removePowerSaveWhitelistAppInternal(pkg)) {
   2751                                 pw.println("Removed: " + pkg);
   2752                             }
   2753                         } else {
   2754                             pw.println(getPowerSaveWhitelistAppInternal(pkg));
   2755                         }
   2756                     } while ((arg=shell.getNextArg()) != null);
   2757                 } else {
   2758                     synchronized (this) {
   2759                         for (int j=0; j<mPowerSaveWhitelistAppsExceptIdle.size(); j++) {
   2760                             pw.print("system-excidle,");
   2761                             pw.print(mPowerSaveWhitelistAppsExceptIdle.keyAt(j));
   2762                             pw.print(",");
   2763                             pw.println(mPowerSaveWhitelistAppsExceptIdle.valueAt(j));
   2764                         }
   2765                         for (int j=0; j<mPowerSaveWhitelistApps.size(); j++) {
   2766                             pw.print("system,");
   2767                             pw.print(mPowerSaveWhitelistApps.keyAt(j));
   2768                             pw.print(",");
   2769                             pw.println(mPowerSaveWhitelistApps.valueAt(j));
   2770                         }
   2771                         for (int j=0; j<mPowerSaveWhitelistUserApps.size(); j++) {
   2772                             pw.print("user,");
   2773                             pw.print(mPowerSaveWhitelistUserApps.keyAt(j));
   2774                             pw.print(",");
   2775                             pw.println(mPowerSaveWhitelistUserApps.valueAt(j));
   2776                         }
   2777                     }
   2778                 }
   2779             } finally {
   2780                 Binder.restoreCallingIdentity(token);
   2781             }
   2782         } else if ("tempwhitelist".equals(cmd)) {
   2783             String opt;
   2784             while ((opt=shell.getNextOption()) != null) {
   2785                 if ("-u".equals(opt)) {
   2786                     opt = shell.getNextArg();
   2787                     if (opt == null) {
   2788                         pw.println("-u requires a user number");
   2789                         return -1;
   2790                     }
   2791                     shell.userId = Integer.parseInt(opt);
   2792                 }
   2793             }
   2794             String arg = shell.getNextArg();
   2795             if (arg != null) {
   2796                 try {
   2797                     addPowerSaveTempWhitelistAppChecked(arg, 10000L, shell.userId, "shell");
   2798                 } catch (RemoteException re) {
   2799                     pw.println("Failed: " + re);
   2800                 }
   2801             } else {
   2802                 dumpTempWhitelistSchedule(pw, false);
   2803             }
   2804         } else {
   2805             return shell.handleDefaultCommands(cmd);
   2806         }
   2807         return 0;
   2808     }
   2809 
   2810     void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
   2811         if (getContext().checkCallingOrSelfPermission(android.Manifest.permission.DUMP)
   2812                 != PackageManager.PERMISSION_GRANTED) {
   2813             pw.println("Permission Denial: can't dump DeviceIdleController from from pid="
   2814                     + Binder.getCallingPid() + ", uid=" + Binder.getCallingUid()
   2815                     + " without permission " + android.Manifest.permission.DUMP);
   2816             return;
   2817         }
   2818 
   2819         if (args != null) {
   2820             int userId = UserHandle.USER_SYSTEM;
   2821             for (int i=0; i<args.length; i++) {
   2822                 String arg = args[i];
   2823                 if ("-h".equals(arg)) {
   2824                     dumpHelp(pw);
   2825                     return;
   2826                 } else if ("-u".equals(arg)) {
   2827                     i++;
   2828                     if (i < args.length) {
   2829                         arg = args[i];
   2830                         userId = Integer.parseInt(arg);
   2831                     }
   2832                 } else if ("-a".equals(arg)) {
   2833                     // Ignore, we always dump all.
   2834                 } else if (arg.length() > 0 && arg.charAt(0) == '-'){
   2835                     pw.println("Unknown option: " + arg);
   2836                     return;
   2837                 } else {
   2838                     Shell shell = new Shell();
   2839                     shell.userId = userId;
   2840                     String[] newArgs = new String[args.length-i];
   2841                     System.arraycopy(args, i, newArgs, 0, args.length-i);
   2842                     shell.exec(mBinderService, null, fd, null, newArgs, new ResultReceiver(null));
   2843                     return;
   2844                 }
   2845             }
   2846         }
   2847 
   2848         synchronized (this) {
   2849             mConstants.dump(pw);
   2850 
   2851             if (mEventCmds[0] != EVENT_NULL) {
   2852                 pw.println("  Idling history:");
   2853                 long now = SystemClock.elapsedRealtime();
   2854                 for (int i=EVENT_BUFFER_SIZE-1; i>=0; i--) {
   2855                     int cmd = mEventCmds[i];
   2856                     if (cmd == EVENT_NULL) {
   2857                         continue;
   2858                     }
   2859                     String label;
   2860                     switch (mEventCmds[i]) {
   2861                         case EVENT_NORMAL:              label = "     normal"; break;
   2862                         case EVENT_LIGHT_IDLE:          label = " light-idle"; break;
   2863                         case EVENT_LIGHT_MAINTENANCE:   label = "light-maint"; break;
   2864                         case EVENT_DEEP_IDLE:           label = "  deep-idle"; break;
   2865                         case EVENT_DEEP_MAINTENANCE:    label = " deep-maint"; break;
   2866                         default:                        label = "         ??"; break;
   2867                     }
   2868                     pw.print("    ");
   2869                     pw.print(label);
   2870                     pw.print(": ");
   2871                     TimeUtils.formatDuration(mEventTimes[i], now, pw);;
   2872                     pw.println();
   2873                 }
   2874             }
   2875 
   2876             int size = mPowerSaveWhitelistAppsExceptIdle.size();
   2877             if (size > 0) {
   2878                 pw.println("  Whitelist (except idle) system apps:");
   2879                 for (int i = 0; i < size; i++) {
   2880                     pw.print("    ");
   2881                     pw.println(mPowerSaveWhitelistAppsExceptIdle.keyAt(i));
   2882                 }
   2883             }
   2884             size = mPowerSaveWhitelistApps.size();
   2885             if (size > 0) {
   2886                 pw.println("  Whitelist system apps:");
   2887                 for (int i = 0; i < size; i++) {
   2888                     pw.print("    ");
   2889                     pw.println(mPowerSaveWhitelistApps.keyAt(i));
   2890                 }
   2891             }
   2892             size = mPowerSaveWhitelistUserApps.size();
   2893             if (size > 0) {
   2894                 pw.println("  Whitelist user apps:");
   2895                 for (int i = 0; i < size; i++) {
   2896                     pw.print("    ");
   2897                     pw.println(mPowerSaveWhitelistUserApps.keyAt(i));
   2898                 }
   2899             }
   2900             size = mPowerSaveWhitelistExceptIdleAppIds.size();
   2901             if (size > 0) {
   2902                 pw.println("  Whitelist (except idle) all app ids:");
   2903                 for (int i = 0; i < size; i++) {
   2904                     pw.print("    ");
   2905                     pw.print(mPowerSaveWhitelistExceptIdleAppIds.keyAt(i));
   2906                     pw.println();
   2907                 }
   2908             }
   2909             size = mPowerSaveWhitelistUserAppIds.size();
   2910             if (size > 0) {
   2911                 pw.println("  Whitelist user app ids:");
   2912                 for (int i = 0; i < size; i++) {
   2913                     pw.print("    ");
   2914                     pw.print(mPowerSaveWhitelistUserAppIds.keyAt(i));
   2915                     pw.println();
   2916                 }
   2917             }
   2918             size = mPowerSaveWhitelistAllAppIds.size();
   2919             if (size > 0) {
   2920                 pw.println("  Whitelist all app ids:");
   2921                 for (int i = 0; i < size; i++) {
   2922                     pw.print("    ");
   2923                     pw.print(mPowerSaveWhitelistAllAppIds.keyAt(i));
   2924                     pw.println();
   2925                 }
   2926             }
   2927             dumpTempWhitelistSchedule(pw, true);
   2928 
   2929             size = mTempWhitelistAppIdArray != null ? mTempWhitelistAppIdArray.length : 0;
   2930             if (size > 0) {
   2931                 pw.println("  Temp whitelist app ids:");
   2932                 for (int i = 0; i < size; i++) {
   2933                     pw.print("    ");
   2934                     pw.print(mTempWhitelistAppIdArray[i]);
   2935                     pw.println();
   2936                 }
   2937             }
   2938 
   2939             pw.print("  mLightEnabled="); pw.print(mLightEnabled);
   2940             pw.print("  mDeepEnabled="); pw.println(mDeepEnabled);
   2941             pw.print("  mForceIdle="); pw.println(mForceIdle);
   2942             pw.print("  mMotionSensor="); pw.println(mMotionSensor);
   2943             pw.print("  mCurDisplay="); pw.println(mCurDisplay);
   2944             pw.print("  mScreenOn="); pw.println(mScreenOn);
   2945             pw.print("  mNetworkConnected="); pw.println(mNetworkConnected);
   2946             pw.print("  mCharging="); pw.println(mCharging);
   2947             pw.print("  mMotionActive="); pw.println(mMotionListener.active);
   2948             pw.print("  mNotMoving="); pw.println(mNotMoving);
   2949             pw.print("  mLocating="); pw.print(mLocating); pw.print(" mHasGps=");
   2950                     pw.print(mHasGps); pw.print(" mHasNetwork=");
   2951                     pw.print(mHasNetworkLocation); pw.print(" mLocated="); pw.println(mLocated);
   2952             if (mLastGenericLocation != null) {
   2953                 pw.print("  mLastGenericLocation="); pw.println(mLastGenericLocation);
   2954             }
   2955             if (mLastGpsLocation != null) {
   2956                 pw.print("  mLastGpsLocation="); pw.println(mLastGpsLocation);
   2957             }
   2958             pw.print("  mState="); pw.print(stateToString(mState));
   2959             pw.print(" mLightState=");
   2960             pw.println(lightStateToString(mLightState));
   2961             pw.print("  mInactiveTimeout="); TimeUtils.formatDuration(mInactiveTimeout, pw);
   2962             pw.println();
   2963             if (mActiveIdleOpCount != 0) {
   2964                 pw.print("  mActiveIdleOpCount="); pw.println(mActiveIdleOpCount);
   2965             }
   2966             if (mNextAlarmTime != 0) {
   2967                 pw.print("  mNextAlarmTime=");
   2968                 TimeUtils.formatDuration(mNextAlarmTime, SystemClock.elapsedRealtime(), pw);
   2969                 pw.println();
   2970             }
   2971             if (mNextIdlePendingDelay != 0) {
   2972                 pw.print("  mNextIdlePendingDelay=");
   2973                 TimeUtils.formatDuration(mNextIdlePendingDelay, pw);
   2974                 pw.println();
   2975             }
   2976             if (mNextIdleDelay != 0) {
   2977                 pw.print("  mNextIdleDelay=");
   2978                 TimeUtils.formatDuration(mNextIdleDelay, pw);
   2979                 pw.println();
   2980             }
   2981             if (mNextLightIdleDelay != 0) {
   2982                 pw.print("  mNextIdleDelay=");
   2983                 TimeUtils.formatDuration(mNextLightIdleDelay, pw);
   2984                 pw.println();
   2985             }
   2986             if (mNextLightAlarmTime != 0) {
   2987                 pw.print("  mNextLightAlarmTime=");
   2988                 TimeUtils.formatDuration(mNextLightAlarmTime, SystemClock.elapsedRealtime(), pw);
   2989                 pw.println();
   2990             }
   2991             if (mCurIdleBudget != 0) {
   2992                 pw.print("  mCurIdleBudget=");
   2993                 TimeUtils.formatDuration(mCurIdleBudget, pw);
   2994                 pw.println();
   2995             }
   2996             if (mMaintenanceStartTime != 0) {
   2997                 pw.print("  mMaintenanceStartTime=");
   2998                 TimeUtils.formatDuration(mMaintenanceStartTime, SystemClock.elapsedRealtime(), pw);
   2999                 pw.println();
   3000             }
   3001             if (mJobsActive) {
   3002                 pw.print("  mJobsActive="); pw.println(mJobsActive);
   3003             }
   3004             if (mAlarmsActive) {
   3005                 pw.print("  mAlarmsActive="); pw.println(mAlarmsActive);
   3006             }
   3007         }
   3008     }
   3009 
   3010     void dumpTempWhitelistSchedule(PrintWriter pw, boolean printTitle) {
   3011         final int size = mTempWhitelistAppIdEndTimes.size();
   3012         if (size > 0) {
   3013             String prefix = "";
   3014             if (printTitle) {
   3015                 pw.println("  Temp whitelist schedule:");
   3016                 prefix = "    ";
   3017             }
   3018             final long timeNow = SystemClock.elapsedRealtime();
   3019             for (int i = 0; i < size; i++) {
   3020                 pw.print(prefix);
   3021                 pw.print("UID=");
   3022                 pw.print(mTempWhitelistAppIdEndTimes.keyAt(i));
   3023                 pw.print(": ");
   3024                 Pair<MutableLong, String> entry = mTempWhitelistAppIdEndTimes.valueAt(i);
   3025                 TimeUtils.formatDuration(entry.first.value, timeNow, pw);
   3026                 pw.print(" - ");
   3027                 pw.println(entry.second);
   3028             }
   3029         }
   3030     }
   3031  }
   3032