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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the
* License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
package com.android.settings.fuelgauge;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.res.Resources;
import android.os.AsyncTask;
import android.os.BatteryManager;
import android.os.BatteryStats.HistoryItem;
import android.os.BatteryStatsManager;
import android.os.BatteryUsageStats;
import android.os.SystemClock;
import android.text.format.Formatter;
import android.util.Log;
import android.util.SparseIntArray;
import androidx.annotation.NonNull;
import androidx.annotation.Nullable;
import androidx.annotation.WorkerThread;
import com.android.internal.os.BatteryStatsHistoryIterator;
import com.android.settings.R;
import com.android.settings.Utils;
import com.android.settings.overlay.FeatureFactory;
import com.android.settings.widget.UsageView;
import com.android.settingslib.fuelgauge.Estimate;
import com.android.settingslib.fuelgauge.EstimateKt;
import com.android.settingslib.utils.PowerUtil;
import com.android.settingslib.utils.StringUtil;
public class BatteryInfo {
private static final String TAG = "BatteryInfo";
public CharSequence chargeLabel;
public CharSequence remainingLabel;
public int batteryLevel;
public int batteryStatus;
public int pluggedStatus;
public boolean discharging = true;
public boolean isBatteryDefender;
public long remainingTimeUs = 0;
public long averageTimeToDischarge = EstimateKt.AVERAGE_TIME_TO_DISCHARGE_UNKNOWN;
public String batteryPercentString;
public String statusLabel;
public String suggestionLabel;
private boolean mCharging;
private BatteryUsageStats mBatteryUsageStats;
private static final String LOG_TAG = "BatteryInfo";
private long timePeriod;
public interface Callback {
void onBatteryInfoLoaded(BatteryInfo info);
}
public void bindHistory(final UsageView view, BatteryDataParser... parsers) {
final Context context = view.getContext();
BatteryDataParser parser = new BatteryDataParser() {
SparseIntArray points = new SparseIntArray();
long startTime;
int lastTime = -1;
byte lastLevel;
@Override
public void onParsingStarted(long startTime, long endTime) {
this.startTime = startTime;
timePeriod = endTime - startTime;
view.clearPaths();
// Initially configure the graph for history only.
view.configureGraph((int) timePeriod, 100);
}
@Override
public void onDataPoint(long time, HistoryItem record) {
lastTime = (int) time;
lastLevel = record.batteryLevel;
points.put(lastTime, lastLevel);
}
@Override
public void onDataGap() {
if (points.size() > 1) {
view.addPath(points);
}
points.clear();
}
@Override
public void onParsingDone() {
onDataGap();
// Add projection if we have an estimate.
if (remainingTimeUs != 0) {
PowerUsageFeatureProvider provider = FeatureFactory.getFactory(context)
.getPowerUsageFeatureProvider(context);
if (!mCharging && provider.isEnhancedBatteryPredictionEnabled(context)) {
points = provider.getEnhancedBatteryPredictionCurve(context, startTime);
} else {
// Linear extrapolation.
if (lastTime >= 0) {
points.put(lastTime, lastLevel);
points.put((int) (timePeriod +
PowerUtil.convertUsToMs(remainingTimeUs)),
mCharging ? 100 : 0);
}
}
}
// If we have a projection, reconfigure the graph to show it.
if (points != null && points.size() > 0) {
int maxTime = points.keyAt(points.size() - 1);
view.configureGraph(maxTime, 100);
view.addProjectedPath(points);
}
}
};
BatteryDataParser[] parserList = new BatteryDataParser[parsers.length + 1];
for (int i = 0; i < parsers.length; i++) {
parserList[i] = parsers[i];
}
parserList[parsers.length] = parser;
parseBatteryHistory(parserList);
String timeString = context.getString(R.string.charge_length_format,
Formatter.formatShortElapsedTime(context, timePeriod));
String remaining = "";
if (remainingTimeUs != 0) {
remaining = context.getString(R.string.remaining_length_format,
Formatter.formatShortElapsedTime(context, remainingTimeUs / 1000));
}
view.setBottomLabels(new CharSequence[]{timeString, remaining});
}
public static void getBatteryInfo(final Context context, final Callback callback,
boolean shortString) {
BatteryInfo.getBatteryInfo(context, callback, /* batteryUsageStats */ null, shortString);
}
public static void getBatteryInfo(final Context context, final Callback callback,
@Nullable final BatteryUsageStats batteryUsageStats,
boolean shortString) {
new AsyncTask<Void, Void, BatteryInfo>() {
@Override
protected BatteryInfo doInBackground(Void... params) {
boolean shouldCloseBatteryUsageStats = false;
BatteryUsageStats stats;
if (batteryUsageStats != null) {
stats = batteryUsageStats;
} else {
try {
stats = context.getSystemService(BatteryStatsManager.class)
.getBatteryUsageStats();
shouldCloseBatteryUsageStats = true;
} catch (RuntimeException e) {
Log.e(TAG, "getBatteryInfo() from getBatteryUsageStats()", e);
// Use default BatteryUsageStats.
stats = new BatteryUsageStats.Builder(new String[0]).build();
}
}
final BatteryInfo batteryInfo =
getBatteryInfo(context, stats, shortString);
if (shouldCloseBatteryUsageStats) {
try {
stats.close();
} catch (Exception e) {
Log.e(TAG, "BatteryUsageStats.close() failed", e);
}
}
return batteryInfo;
}
@Override
protected void onPostExecute(BatteryInfo batteryInfo) {
final long startTime = System.currentTimeMillis();
callback.onBatteryInfoLoaded(batteryInfo);
BatteryUtils.logRuntime(LOG_TAG, "time for callback", startTime);
}
}.executeOnExecutor(AsyncTask.THREAD_POOL_EXECUTOR);
}
/**
* Creates a BatteryInfo based on BatteryUsageStats
*/
@WorkerThread
public static BatteryInfo getBatteryInfo(final Context context,
@NonNull final BatteryUsageStats batteryUsageStats, boolean shortString) {
final long batteryStatsTime = System.currentTimeMillis();
BatteryUtils.logRuntime(LOG_TAG, "time for getStats", batteryStatsTime);
final long startTime = System.currentTimeMillis();
PowerUsageFeatureProvider provider =
FeatureFactory.getFactory(context).getPowerUsageFeatureProvider(context);
final long elapsedRealtimeUs =
PowerUtil.convertMsToUs(SystemClock.elapsedRealtime());
final Intent batteryBroadcast = context.registerReceiver(null,
new IntentFilter(Intent.ACTION_BATTERY_CHANGED));
// 0 means we are discharging, anything else means charging
final boolean discharging =
batteryBroadcast.getIntExtra(BatteryManager.EXTRA_PLUGGED, -1) == 0;
if (discharging && provider != null
&& provider.isEnhancedBatteryPredictionEnabled(context)) {
Estimate estimate = provider.getEnhancedBatteryPrediction(context);
if (estimate != null) {
Estimate.storeCachedEstimate(context, estimate);
BatteryUtils
.logRuntime(LOG_TAG, "time for enhanced BatteryInfo", startTime);
return BatteryInfo.getBatteryInfo(context, batteryBroadcast, batteryUsageStats,
estimate, elapsedRealtimeUs, shortString);
}
}
final long prediction = discharging ? batteryUsageStats.getBatteryTimeRemainingMs() : 0;
final Estimate estimate = new Estimate(
prediction,
false, /* isBasedOnUsage */
EstimateKt.AVERAGE_TIME_TO_DISCHARGE_UNKNOWN);
BatteryUtils.logRuntime(LOG_TAG, "time for regular BatteryInfo", startTime);
return BatteryInfo.getBatteryInfo(context, batteryBroadcast, batteryUsageStats,
estimate, elapsedRealtimeUs, shortString);
}
@WorkerThread
public static BatteryInfo getBatteryInfoOld(Context context, Intent batteryBroadcast,
BatteryUsageStats batteryUsageStats, long elapsedRealtimeUs, boolean shortString) {
Estimate estimate = new Estimate(
batteryUsageStats.getBatteryTimeRemainingMs(),
false,
EstimateKt.AVERAGE_TIME_TO_DISCHARGE_UNKNOWN);
return getBatteryInfo(context, batteryBroadcast, batteryUsageStats, estimate,
elapsedRealtimeUs, shortString);
}
@WorkerThread
public static BatteryInfo getBatteryInfo(Context context, Intent batteryBroadcast,
@NonNull BatteryUsageStats batteryUsageStats, Estimate estimate,
long elapsedRealtimeUs, boolean shortString) {
final long startTime = System.currentTimeMillis();
final boolean isCompactStatus = context.getResources().getBoolean(
com.android.settings.R.bool.config_use_compact_battery_status);
BatteryInfo info = new BatteryInfo();
info.mBatteryUsageStats = batteryUsageStats;
info.batteryLevel = Utils.getBatteryLevel(batteryBroadcast);
info.batteryPercentString = Utils.formatPercentage(info.batteryLevel);
info.pluggedStatus = batteryBroadcast.getIntExtra(BatteryManager.EXTRA_PLUGGED, 0);
info.mCharging = info.pluggedStatus != 0;
info.averageTimeToDischarge = estimate.getAverageDischargeTime();
info.isBatteryDefender = batteryBroadcast.getIntExtra(
BatteryManager.EXTRA_CHARGING_STATUS, BatteryManager.CHARGING_POLICY_DEFAULT)
== BatteryManager.CHARGING_POLICY_ADAPTIVE_LONGLIFE;
info.statusLabel = Utils.getBatteryStatus(context, batteryBroadcast, isCompactStatus);
info.batteryStatus = batteryBroadcast.getIntExtra(
BatteryManager.EXTRA_STATUS, BatteryManager.BATTERY_STATUS_UNKNOWN);
if (!info.mCharging) {
updateBatteryInfoDischarging(context, shortString, estimate, info);
} else {
updateBatteryInfoCharging(context, batteryBroadcast, batteryUsageStats,
info, isCompactStatus);
}
BatteryUtils.logRuntime(LOG_TAG, "time for getBatteryInfo", startTime);
return info;
}
private static void updateBatteryInfoCharging(Context context, Intent batteryBroadcast,
BatteryUsageStats stats, BatteryInfo info, boolean compactStatus) {
final Resources resources = context.getResources();
final long chargeTimeMs = stats.getChargeTimeRemainingMs();
final int status = batteryBroadcast.getIntExtra(BatteryManager.EXTRA_STATUS,
BatteryManager.BATTERY_STATUS_UNKNOWN);
info.discharging = false;
info.suggestionLabel = null;
int dockDefenderMode = BatteryUtils.getCurrentDockDefenderMode(context, info);
if ((info.isBatteryDefender && status != BatteryManager.BATTERY_STATUS_FULL
&& dockDefenderMode == BatteryUtils.DockDefenderMode.DISABLED)
|| dockDefenderMode == BatteryUtils.DockDefenderMode.ACTIVE) {
// Battery defender active, battery charging paused
info.remainingLabel = null;
int chargingLimitedResId = R.string.power_charging_limited;
info.chargeLabel = context.getString(chargingLimitedResId, info.batteryPercentString);
} else if ((chargeTimeMs > 0 && status != BatteryManager.BATTERY_STATUS_FULL
&& dockDefenderMode == BatteryUtils.DockDefenderMode.DISABLED)
|| dockDefenderMode == BatteryUtils.DockDefenderMode.TEMPORARILY_BYPASSED) {
// Battery is charging to full
info.remainingTimeUs = PowerUtil.convertMsToUs(chargeTimeMs);
final CharSequence timeString = StringUtil.formatElapsedTime(context,
(double) PowerUtil.convertUsToMs(info.remainingTimeUs), false /* withSeconds */,
true /* collapseTimeUnit */);
int resId = R.string.power_charging_duration;
info.remainingLabel = chargeTimeMs <= 0 ? null : context.getString(
R.string.power_remaining_charging_duration_only, timeString);
info.chargeLabel = chargeTimeMs <= 0 ? info.batteryPercentString
: context.getString(resId, info.batteryPercentString, timeString);
} else if (dockDefenderMode == BatteryUtils.DockDefenderMode.FUTURE_BYPASS) {
// Dock defender will be triggered in the future, charging will be optimized.
info.chargeLabel = context.getString(R.string.power_charging_future_paused,
info.batteryPercentString);
} else {
final String chargeStatusLabel = Utils.getBatteryStatus(context, batteryBroadcast,
compactStatus);
info.remainingLabel = null;
info.chargeLabel = info.batteryLevel == 100 ? info.batteryPercentString :
resources.getString(R.string.power_charging, info.batteryPercentString,
chargeStatusLabel);
}
}
private static void updateBatteryInfoDischarging(Context context, boolean shortString,
Estimate estimate, BatteryInfo info) {
final long drainTimeUs = PowerUtil.convertMsToUs(estimate.getEstimateMillis());
if (drainTimeUs > 0) {
info.remainingTimeUs = drainTimeUs;
info.remainingLabel = PowerUtil.getBatteryRemainingShortStringFormatted(
context,
PowerUtil.convertUsToMs(drainTimeUs)
);
info.chargeLabel = info.remainingLabel;
info.suggestionLabel = PowerUtil.getBatteryTipStringFormatted(
context, PowerUtil.convertUsToMs(drainTimeUs));
} else {
info.remainingLabel = null;
info.suggestionLabel = null;
info.chargeLabel = info.batteryPercentString;
}
}
public interface BatteryDataParser {
void onParsingStarted(long startTime, long endTime);
void onDataPoint(long time, HistoryItem record);
void onDataGap();
void onParsingDone();
}
/**
* Iterates over battery history included in the BatteryUsageStats that this object
* was initialized with.
*/
public void parseBatteryHistory(BatteryDataParser... parsers) {
long startWalltime = 0;
long endWalltime = 0;
long historyStart = 0;
long historyEnd = 0;
long curWalltime = startWalltime;
long lastWallTime = 0;
long lastRealtime = 0;
int lastInteresting = 0;
int pos = 0;
boolean first = true;
final BatteryStatsHistoryIterator iterator1 =
mBatteryUsageStats.iterateBatteryStatsHistory();
HistoryItem rec;
while ((rec = iterator1.next()) != null) {
pos++;
if (first) {
first = false;
historyStart = rec.time;
}
if (rec.cmd == HistoryItem.CMD_CURRENT_TIME
|| rec.cmd == HistoryItem.CMD_RESET) {
// If there is a ridiculously large jump in time, then we won't be
// able to create a good chart with that data, so just ignore the
// times we got before and pretend like our data extends back from
// the time we have now.
// Also, if we are getting a time change and we are less than 5 minutes
// since the start of the history real time, then also use this new
// time to compute the base time, since whatever time we had before is
// pretty much just noise.
if (rec.currentTime > (lastWallTime + (180 * 24 * 60 * 60 * 1000L))
|| rec.time < (historyStart + (5 * 60 * 1000L))) {
startWalltime = 0;
}
lastWallTime = rec.currentTime;
lastRealtime = rec.time;
if (startWalltime == 0) {
startWalltime = lastWallTime - (lastRealtime - historyStart);
}
}
if (rec.isDeltaData()) {
lastInteresting = pos;
historyEnd = rec.time;
}
}
endWalltime = lastWallTime + historyEnd - lastRealtime;
int i = 0;
final int N = lastInteresting;
for (int j = 0; j < parsers.length; j++) {
parsers[j].onParsingStarted(startWalltime, endWalltime);
}
if (endWalltime > startWalltime) {
final BatteryStatsHistoryIterator iterator2 =
mBatteryUsageStats.iterateBatteryStatsHistory();
while ((rec = iterator2.next()) != null && i < N) {
if (rec.isDeltaData()) {
curWalltime += rec.time - lastRealtime;
lastRealtime = rec.time;
long x = (curWalltime - startWalltime);
if (x < 0) {
x = 0;
}
for (int j = 0; j < parsers.length; j++) {
parsers[j].onDataPoint(x, rec);
}
} else {
long lastWalltime = curWalltime;
if (rec.cmd == HistoryItem.CMD_CURRENT_TIME
|| rec.cmd == HistoryItem.CMD_RESET) {
if (rec.currentTime >= startWalltime) {
curWalltime = rec.currentTime;
} else {
curWalltime = startWalltime + (rec.time - historyStart);
}
lastRealtime = rec.time;
}
if (rec.cmd != HistoryItem.CMD_OVERFLOW
&& (rec.cmd != HistoryItem.CMD_CURRENT_TIME
|| Math.abs(lastWalltime - curWalltime) > (60 * 60 * 1000))) {
for (int j = 0; j < parsers.length; j++) {
parsers[j].onDataGap();
}
}
}
i++;
}
}
for (int j = 0; j < parsers.length; j++) {
parsers[j].onParsingDone();
}
}
}