/* * Copyright (C) 2009 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.settings.fuelgauge; import static android.os.BatteryStats.NETWORK_MOBILE_RX_BYTES; import static android.os.BatteryStats.NETWORK_MOBILE_TX_BYTES; import static android.os.BatteryStats.NETWORK_WIFI_RX_BYTES; import static android.os.BatteryStats.NETWORK_WIFI_TX_BYTES; import android.app.Activity; import android.content.Context; import android.content.pm.UserInfo; import android.graphics.drawable.Drawable; import android.hardware.Sensor; import android.hardware.SensorManager; import android.os.BatteryStats; import android.os.BatteryStats.Uid; import android.os.Bundle; import android.os.Handler; import android.os.Parcel; import android.os.Process; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemClock; import android.os.UserHandle; import android.os.UserManager; import android.preference.PreferenceActivity; import android.telephony.SignalStrength; import android.util.Log; import android.util.SparseArray; import com.android.internal.app.IBatteryStats; import com.android.internal.os.BatteryStatsImpl; import com.android.internal.os.PowerProfile; import com.android.internal.util.FastPrintWriter; import com.android.settings.R; import com.android.settings.fuelgauge.PowerUsageDetail.DrainType; import com.android.settings.users.UserUtils; import java.io.PrintWriter; import java.io.StringWriter; import java.io.Writer; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.Map; /** * A helper class for retrieving the power usage information for all applications and services. * * The caller must initialize this class as soon as activity object is ready to use (for example, in * onAttach() for Fragment), call create() in onCreate() and call destroy() in onDestroy(). */ public class BatteryStatsHelper { private static final boolean DEBUG = false; private static final String TAG = BatteryStatsHelper.class.getSimpleName(); private static BatteryStatsImpl sStatsXfer; private IBatteryStats mBatteryInfo; private UserManager mUm; private BatteryStatsImpl mStats; private PowerProfile mPowerProfile; private final List mUsageList = new ArrayList(); private final List mWifiSippers = new ArrayList(); private final List mBluetoothSippers = new ArrayList(); private final SparseArray> mUserSippers = new SparseArray>(); private final SparseArray mUserPower = new SparseArray(); private int mStatsType = BatteryStats.STATS_SINCE_CHARGED; private long mStatsPeriod = 0; private double mMaxPower = 1; private double mTotalPower; private double mWifiPower; private double mBluetoothPower; // How much the apps together have left WIFI running. private long mAppWifiRunning; /** Queue for fetching name and icon for an application */ private ArrayList mRequestQueue = new ArrayList(); private Activity mActivity; private Handler mHandler; private class NameAndIconLoader extends Thread { private boolean mAbort = false; public NameAndIconLoader() { super("BatteryUsage Icon Loader"); } public void abort() { mAbort = true; } @Override public void run() { while (true) { BatterySipper bs; synchronized (mRequestQueue) { if (mRequestQueue.isEmpty() || mAbort) { mHandler.sendEmptyMessage(MSG_REPORT_FULLY_DRAWN); return; } bs = mRequestQueue.remove(0); } bs.loadNameAndIcon(); } } } private NameAndIconLoader mRequestThread; public BatteryStatsHelper(Activity activity, Handler handler) { mActivity = activity; mHandler = handler; } /** Clears the current stats and forces recreating for future use. */ public void clearStats() { mStats = null; } public BatteryStatsImpl getStats() { if (mStats == null) { load(); } return mStats; } public PowerProfile getPowerProfile() { return mPowerProfile; } public void create(Bundle icicle) { if (icicle != null) { mStats = sStatsXfer; } mBatteryInfo = IBatteryStats.Stub.asInterface( ServiceManager.getService(BatteryStats.SERVICE_NAME)); mUm = (UserManager) mActivity.getSystemService(Context.USER_SERVICE); mPowerProfile = new PowerProfile(mActivity); } public void pause() { if (mRequestThread != null) { mRequestThread.abort(); } } public void destroy() { if (mActivity.isChangingConfigurations()) { sStatsXfer = mStats; } else { BatterySipper.sUidCache.clear(); } } public void startBatteryDetailPage( PreferenceActivity caller, BatterySipper sipper, boolean showLocationButton) { // Initialize mStats if necessary. getStats(); Bundle args = new Bundle(); args.putString(PowerUsageDetail.EXTRA_TITLE, sipper.name); args.putInt(PowerUsageDetail.EXTRA_PERCENT, (int) Math.ceil(sipper.getSortValue() * 100 / mTotalPower)); args.putInt(PowerUsageDetail.EXTRA_GAUGE, (int) Math.ceil(sipper.getSortValue() * 100 / mMaxPower)); args.putLong(PowerUsageDetail.EXTRA_USAGE_DURATION, mStatsPeriod); args.putString(PowerUsageDetail.EXTRA_ICON_PACKAGE, sipper.defaultPackageName); args.putInt(PowerUsageDetail.EXTRA_ICON_ID, sipper.iconId); args.putDouble(PowerUsageDetail.EXTRA_NO_COVERAGE, sipper.noCoveragePercent); if (sipper.uidObj != null) { args.putInt(PowerUsageDetail.EXTRA_UID, sipper.uidObj.getUid()); } args.putSerializable(PowerUsageDetail.EXTRA_DRAIN_TYPE, sipper.drainType); args.putBoolean(PowerUsageDetail.EXTRA_SHOW_LOCATION_BUTTON, showLocationButton); int[] types; double[] values; switch (sipper.drainType) { case APP: case USER: { Uid uid = sipper.uidObj; types = new int[] { R.string.usage_type_cpu, R.string.usage_type_cpu_foreground, R.string.usage_type_wake_lock, R.string.usage_type_gps, R.string.usage_type_wifi_running, R.string.usage_type_data_recv, R.string.usage_type_data_send, R.string.usage_type_data_wifi_recv, R.string.usage_type_data_wifi_send, R.string.usage_type_audio, R.string.usage_type_video, }; values = new double[] { sipper.cpuTime, sipper.cpuFgTime, sipper.wakeLockTime, sipper.gpsTime, sipper.wifiRunningTime, sipper.mobileRxBytes, sipper.mobileTxBytes, sipper.wifiRxBytes, sipper.wifiTxBytes, 0, 0 }; if (sipper.drainType == DrainType.APP) { Writer result = new StringWriter(); PrintWriter printWriter = new FastPrintWriter(result, false, 1024); mStats.dumpLocked(printWriter, "", mStatsType, uid.getUid()); printWriter.flush(); args.putString(PowerUsageDetail.EXTRA_REPORT_DETAILS, result.toString()); result = new StringWriter(); printWriter = new FastPrintWriter(result, false, 1024); mStats.dumpCheckinLocked(printWriter, mStatsType, uid.getUid()); printWriter.flush(); args.putString(PowerUsageDetail.EXTRA_REPORT_CHECKIN_DETAILS, result.toString()); } } break; case CELL: { types = new int[] { R.string.usage_type_on_time, R.string.usage_type_no_coverage }; values = new double[] { sipper.usageTime, sipper.noCoveragePercent }; } break; case WIFI: { types = new int[] { R.string.usage_type_wifi_running, R.string.usage_type_cpu, R.string.usage_type_cpu_foreground, R.string.usage_type_wake_lock, R.string.usage_type_data_recv, R.string.usage_type_data_send, R.string.usage_type_data_wifi_recv, R.string.usage_type_data_wifi_send, }; values = new double[] { sipper.usageTime, sipper.cpuTime, sipper.cpuFgTime, sipper.wakeLockTime, sipper.mobileRxBytes, sipper.mobileTxBytes, sipper.wifiRxBytes, sipper.wifiTxBytes, }; } break; case BLUETOOTH: { types = new int[] { R.string.usage_type_on_time, R.string.usage_type_cpu, R.string.usage_type_cpu_foreground, R.string.usage_type_wake_lock, R.string.usage_type_data_recv, R.string.usage_type_data_send, R.string.usage_type_data_wifi_recv, R.string.usage_type_data_wifi_send, }; values = new double[] { sipper.usageTime, sipper.cpuTime, sipper.cpuFgTime, sipper.wakeLockTime, sipper.mobileRxBytes, sipper.mobileTxBytes, sipper.wifiRxBytes, sipper.wifiTxBytes, }; } break; default: { types = new int[] { R.string.usage_type_on_time }; values = new double[] { sipper.usageTime }; } } args.putIntArray(PowerUsageDetail.EXTRA_DETAIL_TYPES, types); args.putDoubleArray(PowerUsageDetail.EXTRA_DETAIL_VALUES, values); caller.startPreferencePanel(PowerUsageDetail.class.getName(), args, R.string.details_title, null, null, 0); } /** * Refreshes the power usage list. * @param includeZeroConsumption whether includes those applications which have consumed very * little power up till now. */ public void refreshStats(boolean includeZeroConsumption) { // Initialize mStats if necessary. getStats(); mMaxPower = 0; mTotalPower = 0; mWifiPower = 0; mBluetoothPower = 0; mAppWifiRunning = 0; mUsageList.clear(); mWifiSippers.clear(); mBluetoothSippers.clear(); mUserSippers.clear(); mUserPower.clear(); processAppUsage(includeZeroConsumption); processMiscUsage(); Collections.sort(mUsageList); if (mHandler != null) { synchronized (mRequestQueue) { if (!mRequestQueue.isEmpty()) { if (mRequestThread != null) { mRequestThread.abort(); } mRequestThread = new NameAndIconLoader(); mRequestThread.setPriority(Thread.MIN_PRIORITY); mRequestThread.start(); mRequestQueue.notify(); } } } } private void processAppUsage(boolean includeZeroConsumption) { SensorManager sensorManager = (SensorManager) mActivity.getSystemService( Context.SENSOR_SERVICE); final int which = mStatsType; final int speedSteps = mPowerProfile.getNumSpeedSteps(); final double[] powerCpuNormal = new double[speedSteps]; final long[] cpuSpeedStepTimes = new long[speedSteps]; for (int p = 0; p < speedSteps; p++) { powerCpuNormal[p] = mPowerProfile.getAveragePower(PowerProfile.POWER_CPU_ACTIVE, p); } final double mobilePowerPerByte = getMobilePowerPerByte(); final double wifiPowerPerByte = getWifiPowerPerByte(); long uSecTime = mStats.computeBatteryRealtime(SystemClock.elapsedRealtime() * 1000, which); long appWakelockTime = 0; BatterySipper osApp = null; mStatsPeriod = uSecTime; SparseArray uidStats = mStats.getUidStats(); final int NU = uidStats.size(); for (int iu = 0; iu < NU; iu++) { Uid u = uidStats.valueAt(iu); double p; // in mAs double power = 0; // in mAs double highestDrain = 0; String packageWithHighestDrain = null; //mUsageList.add(new AppUsage(u.getUid(), new double[] {power})); Map processStats = u.getProcessStats(); long cpuTime = 0; long cpuFgTime = 0; long wakelockTime = 0; long gpsTime = 0; if (DEBUG) Log.i(TAG, "UID " + u.getUid()); if (processStats.size() > 0) { // Process CPU time for (Map.Entry ent : processStats.entrySet()) { Uid.Proc ps = ent.getValue(); final long userTime = ps.getUserTime(which); final long systemTime = ps.getSystemTime(which); final long foregroundTime = ps.getForegroundTime(which); cpuFgTime += foregroundTime * 10; // convert to millis final long tmpCpuTime = (userTime + systemTime) * 10; // convert to millis int totalTimeAtSpeeds = 0; // Get the total first for (int step = 0; step < speedSteps; step++) { cpuSpeedStepTimes[step] = ps.getTimeAtCpuSpeedStep(step, which); totalTimeAtSpeeds += cpuSpeedStepTimes[step]; } if (totalTimeAtSpeeds == 0) totalTimeAtSpeeds = 1; // Then compute the ratio of time spent at each speed double processPower = 0; for (int step = 0; step < speedSteps; step++) { double ratio = (double) cpuSpeedStepTimes[step] / totalTimeAtSpeeds; processPower += ratio * tmpCpuTime * powerCpuNormal[step]; } cpuTime += tmpCpuTime; if (DEBUG && processPower != 0) { Log.i(TAG, String.format("process %s, cpu power=%.2f", ent.getKey(), processPower / 1000)); } power += processPower; if (packageWithHighestDrain == null || packageWithHighestDrain.startsWith("*")) { highestDrain = processPower; packageWithHighestDrain = ent.getKey(); } else if (highestDrain < processPower && !ent.getKey().startsWith("*")) { highestDrain = processPower; packageWithHighestDrain = ent.getKey(); } } } if (cpuFgTime > cpuTime) { if (DEBUG && cpuFgTime > cpuTime + 10000) { Log.i(TAG, "WARNING! Cputime is more than 10 seconds behind Foreground time"); } cpuTime = cpuFgTime; // Statistics may not have been gathered yet. } power /= 1000; if (DEBUG && power != 0) Log.i(TAG, String.format("total cpu power=%.2f", power)); // Process wake lock usage Map wakelockStats = u.getWakelockStats(); for (Map.Entry wakelockEntry : wakelockStats.entrySet()) { Uid.Wakelock wakelock = wakelockEntry.getValue(); // Only care about partial wake locks since full wake locks // are canceled when the user turns the screen off. BatteryStats.Timer timer = wakelock.getWakeTime(BatteryStats.WAKE_TYPE_PARTIAL); if (timer != null) { wakelockTime += timer.getTotalTimeLocked(uSecTime, which); } } wakelockTime /= 1000; // convert to millis appWakelockTime += wakelockTime; // Add cost of holding a wake lock p = (wakelockTime * mPowerProfile.getAveragePower(PowerProfile.POWER_CPU_AWAKE)) / 1000; power += p; if (DEBUG && p != 0) Log.i(TAG, String.format("wakelock power=%.2f", p)); // Add cost of mobile traffic final long mobileRx = u.getNetworkActivityCount(NETWORK_MOBILE_RX_BYTES, mStatsType); final long mobileTx = u.getNetworkActivityCount(NETWORK_MOBILE_TX_BYTES, mStatsType); p = (mobileRx + mobileTx) * mobilePowerPerByte; power += p; if (DEBUG && p != 0) Log.i(TAG, String.format("mobile power=%.2f", p)); // Add cost of wifi traffic final long wifiRx = u.getNetworkActivityCount(NETWORK_WIFI_RX_BYTES, mStatsType); final long wifiTx = u.getNetworkActivityCount(NETWORK_WIFI_TX_BYTES, mStatsType); p = (wifiRx + wifiTx) * wifiPowerPerByte; power += p; if (DEBUG && p != 0) Log.i(TAG, String.format("wifi power=%.2f", p)); // Add cost of keeping WIFI running. long wifiRunningTimeMs = u.getWifiRunningTime(uSecTime, which) / 1000; mAppWifiRunning += wifiRunningTimeMs; p = (wifiRunningTimeMs * mPowerProfile.getAveragePower(PowerProfile.POWER_WIFI_ON)) / 1000; power += p; if (DEBUG && p != 0) Log.i(TAG, String.format("wifi running power=%.2f", p)); // Add cost of WIFI scans long wifiScanTimeMs = u.getWifiScanTime(uSecTime, which) / 1000; p = (wifiScanTimeMs * mPowerProfile.getAveragePower(PowerProfile.POWER_WIFI_SCAN)) / 1000; power += p; if (DEBUG && p != 0) Log.i(TAG, String.format("wifi scanning power=%.2f", p)); for (int bin = 0; bin < BatteryStats.Uid.NUM_WIFI_BATCHED_SCAN_BINS; bin++) { long batchScanTimeMs = u.getWifiBatchedScanTime(bin, uSecTime, which) / 1000; p = (batchScanTimeMs * mPowerProfile.getAveragePower(PowerProfile.POWER_WIFI_BATCHED_SCAN, bin)); power += p; if (DEBUG && p != 0) { Log.i(TAG, String.format("wifi batched scanning lvl %d = %.2f", bin, p)); } } // Process Sensor usage Map sensorStats = u.getSensorStats(); for (Map.Entry sensorEntry : sensorStats.entrySet()) { Uid.Sensor sensor = sensorEntry.getValue(); int sensorHandle = sensor.getHandle(); BatteryStats.Timer timer = sensor.getSensorTime(); long sensorTime = timer.getTotalTimeLocked(uSecTime, which) / 1000; double multiplier = 0; switch (sensorHandle) { case Uid.Sensor.GPS: multiplier = mPowerProfile.getAveragePower(PowerProfile.POWER_GPS_ON); gpsTime = sensorTime; break; default: List sensorList = sensorManager.getSensorList( android.hardware.Sensor.TYPE_ALL); for (android.hardware.Sensor s : sensorList) { if (s.getHandle() == sensorHandle) { multiplier = s.getPower(); break; } } } p = (multiplier * sensorTime) / 1000; power += p; if (DEBUG && p != 0) { Log.i(TAG, String.format("sensor %s power=%.2f", sensor.toString(), p)); } } if (DEBUG) Log.i(TAG, String.format("UID %d total power=%.2f", u.getUid(), power)); // Add the app to the list if it is consuming power boolean isOtherUser = false; final int userId = UserHandle.getUserId(u.getUid()); if (power != 0 || includeZeroConsumption || u.getUid() == 0) { BatterySipper app = new BatterySipper(mActivity, mRequestQueue, mHandler, packageWithHighestDrain, DrainType.APP, 0, u, new double[] {power}); app.cpuTime = cpuTime; app.gpsTime = gpsTime; app.wifiRunningTime = wifiRunningTimeMs; app.cpuFgTime = cpuFgTime; app.wakeLockTime = wakelockTime; app.mobileRxBytes = mobileRx; app.mobileTxBytes = mobileTx; app.wifiRxBytes = wifiRx; app.wifiTxBytes = wifiTx; if (u.getUid() == Process.WIFI_UID) { mWifiSippers.add(app); } else if (u.getUid() == Process.BLUETOOTH_UID) { mBluetoothSippers.add(app); } else if (userId != UserHandle.myUserId() && UserHandle.getAppId(u.getUid()) >= Process.FIRST_APPLICATION_UID) { isOtherUser = true; List list = mUserSippers.get(userId); if (list == null) { list = new ArrayList(); mUserSippers.put(userId, list); } list.add(app); } else { mUsageList.add(app); } if (u.getUid() == 0) { osApp = app; } } if (power != 0 || includeZeroConsumption) { if (u.getUid() == Process.WIFI_UID) { mWifiPower += power; } else if (u.getUid() == Process.BLUETOOTH_UID) { mBluetoothPower += power; } else if (isOtherUser) { Double userPower = mUserPower.get(userId); if (userPower == null) { userPower = power; } else { userPower += power; } mUserPower.put(userId, userPower); } else { if (power > mMaxPower) mMaxPower = power; mTotalPower += power; } } } // The device has probably been awake for longer than the screen on // time and application wake lock time would account for. Assign // this remainder to the OS, if possible. if (osApp != null) { long wakeTimeMillis = mStats.computeBatteryUptime( SystemClock.uptimeMillis() * 1000, which) / 1000; wakeTimeMillis -= appWakelockTime + (mStats.getScreenOnTime( SystemClock.elapsedRealtime(), which) / 1000); if (wakeTimeMillis > 0) { double power = (wakeTimeMillis * mPowerProfile.getAveragePower(PowerProfile.POWER_CPU_AWAKE)) / 1000; if (DEBUG) Log.i(TAG, "OS wakeLockTime " + wakeTimeMillis + " power " + power); osApp.wakeLockTime += wakeTimeMillis; osApp.value += power; osApp.values[0] += power; if (osApp.value > mMaxPower) mMaxPower = osApp.value; mTotalPower += power; } } } private void addPhoneUsage(long uSecNow) { long phoneOnTimeMs = mStats.getPhoneOnTime(uSecNow, mStatsType) / 1000; double phoneOnPower = mPowerProfile.getAveragePower(PowerProfile.POWER_RADIO_ACTIVE) * phoneOnTimeMs / 1000; addEntry(mActivity.getString(R.string.power_phone), DrainType.PHONE, phoneOnTimeMs, R.drawable.ic_settings_voice_calls, phoneOnPower); } private void addScreenUsage(long uSecNow) { double power = 0; long screenOnTimeMs = mStats.getScreenOnTime(uSecNow, mStatsType) / 1000; power += screenOnTimeMs * mPowerProfile.getAveragePower(PowerProfile.POWER_SCREEN_ON); final double screenFullPower = mPowerProfile.getAveragePower(PowerProfile.POWER_SCREEN_FULL); for (int i = 0; i < BatteryStats.NUM_SCREEN_BRIGHTNESS_BINS; i++) { double screenBinPower = screenFullPower * (i + 0.5f) / BatteryStats.NUM_SCREEN_BRIGHTNESS_BINS; long brightnessTime = mStats.getScreenBrightnessTime(i, uSecNow, mStatsType) / 1000; power += screenBinPower * brightnessTime; if (DEBUG) { Log.i(TAG, "Screen bin power = " + (int) screenBinPower + ", time = " + brightnessTime); } } power /= 1000; // To seconds addEntry(mActivity.getString(R.string.power_screen), DrainType.SCREEN, screenOnTimeMs, R.drawable.ic_settings_display, power); } private void addRadioUsage(long uSecNow) { double power = 0; final int BINS = SignalStrength.NUM_SIGNAL_STRENGTH_BINS; long signalTimeMs = 0; for (int i = 0; i < BINS; i++) { long strengthTimeMs = mStats.getPhoneSignalStrengthTime(i, uSecNow, mStatsType) / 1000; power += strengthTimeMs / 1000 * mPowerProfile.getAveragePower(PowerProfile.POWER_RADIO_ON, i); signalTimeMs += strengthTimeMs; } long scanningTimeMs = mStats.getPhoneSignalScanningTime(uSecNow, mStatsType) / 1000; power += scanningTimeMs / 1000 * mPowerProfile.getAveragePower( PowerProfile.POWER_RADIO_SCANNING); BatterySipper bs = addEntry(mActivity.getString(R.string.power_cell), DrainType.CELL, signalTimeMs, R.drawable.ic_settings_cell_standby, power); if (signalTimeMs != 0) { bs.noCoveragePercent = mStats.getPhoneSignalStrengthTime(0, uSecNow, mStatsType) / 1000 * 100.0 / signalTimeMs; } } private void aggregateSippers(BatterySipper bs, List from, String tag) { for (int i=0; i sippers = mUserSippers.valueAt(i); UserInfo info = mUm.getUserInfo(userId); Drawable icon; String name; if (info != null) { icon = UserUtils.getUserIcon(mActivity, mUm, info, mActivity.getResources()); name = info != null ? info.name : null; if (name == null) { name = Integer.toString(info.id); } name = mActivity.getResources().getString( R.string.running_process_item_user_label, name); } else { icon = null; name = mActivity.getResources().getString( R.string.running_process_item_removed_user_label); } Double userPower = mUserPower.get(userId); double power = (userPower != null) ? userPower : 0.0; BatterySipper bs = addEntry(name, DrainType.USER, 0, 0, power); bs.icon = icon; aggregateSippers(bs, sippers, "User"); } } /** * Return estimated power (in mAs) of sending a byte with the mobile radio. */ private double getMobilePowerPerByte() { final long MOBILE_BPS = 200000; // TODO: Extract average bit rates from system final double MOBILE_POWER = mPowerProfile.getAveragePower(PowerProfile.POWER_RADIO_ACTIVE) / 3600; final long mobileRx = mStats.getNetworkActivityCount(NETWORK_MOBILE_RX_BYTES, mStatsType); final long mobileTx = mStats.getNetworkActivityCount(NETWORK_MOBILE_TX_BYTES, mStatsType); final long mobileData = mobileRx + mobileTx; final long radioDataUptimeMs = mStats.getRadioDataUptime() / 1000; final long mobileBps = radioDataUptimeMs != 0 ? mobileData * 8 * 1000 / radioDataUptimeMs : MOBILE_BPS; return MOBILE_POWER / (mobileBps / 8); } /** * Return estimated power (in mAs) of sending a byte with the Wi-Fi radio. */ private double getWifiPowerPerByte() { final long WIFI_BPS = 1000000; // TODO: Extract average bit rates from system final double WIFI_POWER = mPowerProfile.getAveragePower(PowerProfile.POWER_WIFI_ACTIVE) / 3600; return WIFI_POWER / (WIFI_BPS / 8); } private void processMiscUsage() { final int which = mStatsType; long uSecTime = SystemClock.elapsedRealtime() * 1000; final long uSecNow = mStats.computeBatteryRealtime(uSecTime, which); final long timeSinceUnplugged = uSecNow; if (DEBUG) { Log.i(TAG, "Uptime since last unplugged = " + (timeSinceUnplugged / 1000)); } addUserUsage(); addPhoneUsage(uSecNow); addScreenUsage(uSecNow); addWiFiUsage(uSecNow); addBluetoothUsage(uSecNow); addIdleUsage(uSecNow); // Not including cellular idle power // Don't compute radio usage if it's a wifi-only device if (!com.android.settings.Utils.isWifiOnly(mActivity)) { addRadioUsage(uSecNow); } } private BatterySipper addEntry(String label, DrainType drainType, long time, int iconId, double power) { if (power > mMaxPower) mMaxPower = power; mTotalPower += power; BatterySipper bs = new BatterySipper(mActivity, mRequestQueue, mHandler, label, drainType, iconId, null, new double[] {power}); bs.usageTime = time; bs.iconId = iconId; mUsageList.add(bs); return bs; } public List getUsageList() { return mUsageList; } static final int MSG_UPDATE_NAME_ICON = 1; static final int MSG_REPORT_FULLY_DRAWN = 2; public double getMaxPower() { return mMaxPower; } public double getTotalPower() { return mTotalPower; } private void load() { try { byte[] data = mBatteryInfo.getStatistics(); Parcel parcel = Parcel.obtain(); parcel.unmarshall(data, 0, data.length); parcel.setDataPosition(0); mStats = com.android.internal.os.BatteryStatsImpl.CREATOR .createFromParcel(parcel); mStats.distributeWorkLocked(BatteryStats.STATS_SINCE_CHARGED); } catch (RemoteException e) { Log.e(TAG, "RemoteException:", e); } } }