Android PowerManagerService省电模式策略控制

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时间:2022-12-26
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目录

前言

初识Android PowerManagerService省电模式 让我们省电模式的概念有了初步的认识,

Android PowerManagerService 打开省电模式 对打开省电模式的代码进行了分析。

有了前面两篇文章的基础,现在我们开始分析如何控制省电模式策略,请读者务必仔细。

本文涉及的文件如下:

  • frameworks/base/services/core/java/com/android/server/power/batterysaver/BatterySaverPolicy.java
  • frameworks/base/services/core/java/com/android/server/power/batterysaver/BatterySaverController.java

监听策略改变

// BatterySaverPolicy.java

    public void systemReady() {
        ConcurrentUtils.wtfIfLockHeld(TAG, mLock);

        // 1. 监听 Global 数据
        // 当数据改变,回调 onChange()
        mContentResolver.registerContentObserver(Settings.Global.getUriFor(
                Settings.Global.BATTERY_SAVER_CONSTANTS), false, this);
        mContentResolver.registerContentObserver(Settings.Global.getUriFor(
                Settings.Global.BATTERY_SAVER_DEVICE_SPECIFIC_CONSTANTS), false, this);

        // 无障碍模式相关
        final AccessibilityManager acm = mContext.getSystemService(AccessibilityManager.class);
        acm.addAccessibilityStateChangeListener(enabled -> mAccessibilityEnabled.update(enabled));
        mAccessibilityEnabled.initialize(acm.isEnabled());

        // 车载相关
        UiModeManager uiModeManager = mContext.getSystemService(UiModeManager.class);
        uiModeManager.addOnProjectionStateChangedListener(UiModeManager.PROJECTION_TYPE_AUTOMOTIVE,
                mContext.getMainExecutor(), mOnProjectionStateChangedListener);
        mAutomotiveProjectionActive.initialize(
                uiModeManager.getActiveProjectionTypes() != UiModeManager.PROJECTION_TYPE_NONE);

        // 2. 监听 Config 表中,命名空间DeviceConfig.NAMESPACE_BATTERY_SAVER下的所有数据
        // 当数据改变时,回调 onPropertiesChanged()
        DeviceConfig.addOnPropertiesChangedListener(DeviceConfig.NAMESPACE_BATTERY_SAVER,
                mContext.getMainExecutor(), this);

        // 3. 读取 Config 表中,命名空间DeviceConfig.NAMESPACE_BATTERY_SAVER下的所有数据
        mLastDeviceConfigProperties =
                DeviceConfig.getProperties(DeviceConfig.NAMESPACE_BATTERY_SAVER);

        // 4. 获取 Global 表中的数据,并执行更新操作
        onChange(true, null);
    }

前两步是监听数据,只不过回调的方式不同,但是最终都是根据数据更新省电模式策略,然后通知监听者。

因此本文只分析其中一个回调 onChange(),而另外一个回调 onPropertiesChanged() 请读者自行分析。

DeviceConfig 就是获取 SettingsProvider 中 Config 表中的数据,这些数据的 KEY 以命名空间开头,然后把所有这些数据封装成一个 DeviceConfig.Properties 对象。

后两步,是主动获取一次数据,然后主动触发一次 onChange() 回调。

// BatterySaverPolicy.java

    public void onChange(boolean selfChange, Uri uri) {
        refreshSettings();
    }
    private void refreshSettings() {
        synchronized (mLock) {
            // 1. 获取与设备无关的省电模式策略
            // 例如,vibration_disabled=true,adjust_brightness_factor=0.5
            final String setting = getGlobalSetting(Settings.Global.BATTERY_SAVER_CONSTANTS);

            // 2. 获取与设备相关的省电模式策略
            // 格式为, cpufreq-i=core-number:frequency/...,cpufreq-n=core-number:frequency/...
            String deviceSpecificSetting = getGlobalSetting(
                    Settings.Global.BATTERY_SAVER_DEVICE_SPECIFIC_CONSTANTS);

            // 保存与设备相关的省电模式策略的KEY值
            mDeviceSpecificSettingsSource =
                    Settings.Global.BATTERY_SAVER_DEVICE_SPECIFIC_CONSTANTS;

            // 3. 如果与设备相关的省电策略为空,那么加载 framework-res 的 config.xml 中的配置 config_batterySaverDeviceSpecificConfig
            if (TextUtils.isEmpty(deviceSpecificSetting) || "null".equals(deviceSpecificSetting)) {
                // 配置默认也为空
                deviceSpecificSetting =
                        mContext.getString(getDeviceSpecificConfigResId());
                // 表示是从配置文件中配置的
                mDeviceSpecificSettingsSource = "(overlay)";
            }


            // 4. 更新策略
            if (!updateConstantsLocked(setting, deviceSpecificSetting)) {
                // 没有变化,就不去执行后面的通知监听者的操作
                return;
            }
        }

        // 5. 如果策略改变,通知监听者
        maybeNotifyListenersOfPolicyChange();
    }

Settings.Global.BATTERY_SAVER_CONSTANTS 保存的是与设备无关的省电策略。例如,这个字段的值可以为 vibration_disabled=true,adjust_brightness_factor=0.5,不同的策略通过逗号进行分隔。从名字可以猜测出,前一个省电策略表示关闭振动,后一个省电策略表示屏幕亮度降低一半。

什么叫与设备无关策略?如果这个省电策略不会因设备不同而不同的话,那这个策略就是与设备无关,反之就是与设备有关策略。

Settings.Global.BATTERY_SAVER_DEVICE_SPECIFIC_CONSTANTS 保存的是与设备相关的省点策略,目前只保存 CPU 限频策略。 这个字段的值可能为 cpufreq-i=core-number:frequency,cpufreq-n=core-number:frequency,其中 cpufreq-i 表示交互状态下的CPU限频策略,cpufreq-n 表示非交互状态下的CPU限频策略,core-number 表示 CPU 编号,frequency 表示需要限制的频率。交互状态和非交互状态的限频策略以逗号进行分隔。

当然,在省电模式下,不一定只限制一个CPU的频率,我们可以使用 / 来分隔不同的 CPU 限频策略,例如 cpufreq-i=core-number:frequency/core-number:frequency/core-number:frequency.

通常,亮屏状态下为交互模式,灭屏状态下为非交互模式。

从第三步中可以看出,可以在 framework-res 模块的 config.xml 中配置 CPU 限频策略。记住这里,不要看完了我一系列的省电模式的文章,最终连 CPU 限频策略还不会配置哦!

第四步,会根据这些数据来更新省电模式策略。并且,如果省电模式策略改变了,那么还会执行第五步,通知监听者。

下面,重点分析第四步和第五步。

更新策略

现在,假设 Settings.Global.BATTERY_SAVER_CONSTANTS 和 Settings.Global.BATTERY_SAVER_DEVICE_SPECIFIC_CONSTANTS 保存的数据改变了,那么会调用 updateConstantsLocked() 更新省电模式策略

// BatterySaverPolicy.java

    boolean updateConstantsLocked(String setting, String deviceSpecificSetting) {
        // 如果是null,返回""
        setting = TextUtils.emptyIfNull(setting);
        deviceSpecificSetting = TextUtils.emptyIfNull(deviceSpecificSetting);
        // 没有变化,直接返回
        if (setting.equals(mSettings)
                && deviceSpecificSetting.equals(mDeviceSpecificSettings)) {
            return false;
        }
        // 1. 保存设置
        mSettings = setting;
        mDeviceSpecificSettings = deviceSpecificSetting;
        // 2. 根据配置,创建新的策略
        Poilcy p = Policy.fromSettings(setting, deviceSpecificSetting, mLastDeviceConfigProperties, null, DEFAULT_FULL_POLICY);

        // 3. 更新默认的省电模式策略
        boolean changed = maybeUpdateDefaultFullPolicy(p);

        // 忽略 adaptive battery save 功能
        mDefaultAdaptivePolicy = Policy.fromSettings("", "",
                mLastDeviceConfigProperties, KEY_SUFFIX_ADAPTIVE, DEFAULT_ADAPTIVE_POLICY);
        if (mPolicyLevel == POLICY_LEVEL_ADAPTIVE
                && !mAdaptivePolicy.equals(mDefaultAdaptivePolicy)) {
            // adaptive policy changed
            changed = true;
        }
        mAdaptivePolicy = mDefaultAdaptivePolicy;

        // 4. 更新有效的省电模式策略
        updatePolicyDependenciesLocked();

        // 5. 返回状态,表示省电模式策略是否改变
        return changed;
    }

第二步,根据配置的数据创建一个策略,注意最后一个参数 DEFAULT_FULL_POLICY,它表示默认的省电模式策略

// BatterySaverPolicy.java

        private static Policy fromSettings(String settings, String deviceSpecificSettings,
                DeviceConfig.Properties properties, String configSuffix, Policy defaultPolicy) {
            // 以逗号为分隔符解析字符串
            final KeyValueListParser parser = new KeyValueListParser(',');
            configSuffix = TextUtils.emptyIfNull(configSuffix);

            // 1. 首先解析设备相关的策略参数
            try {
                parser.setString(deviceSpecificSettings == null ? "" : deviceSpecificSettings);
            } catch (IllegalArgumentException e) {
                Slog.wtf(TAG, "Bad device specific battery saver constants: "
                        + deviceSpecificSettings);
            }
            // 读取的值的格式为 core-number:frequency/core-number:frequency/...
            final String cpuFreqInteractive = parser.getString(KEY_CPU_FREQ_INTERACTIVE, "");
            final String cpuFreqNoninteractive = parser.getString(KEY_CPU_FREQ_NONINTERACTIVE, "");


            // 2. 再解析设备无关的策略参数
            try {
                parser.setString(settings == null ? "" : settings);
            } catch (IllegalArgumentException e) {
                Slog.wtf(TAG, "Bad battery saver constants: " + settings);
            }

            // 策略参数取值的优先级为: Settings > DeviceConfig > 默认省电策略
            final float adjustBrightnessFactor = parser.getFloat(KEY_ADJUST_BRIGHTNESS_FACTOR,
                    properties.getFloat(KEY_ADJUST_BRIGHTNESS_FACTOR + configSuffix,
                            defaultPolicy.adjustBrightnessFactor));
            final boolean advertiseIsEnabled = parser.getBoolean(KEY_ADVERTISE_IS_ENABLED,
                    properties.getBoolean(KEY_ADVERTISE_IS_ENABLED + configSuffix,
                            defaultPolicy.advertiseIsEnabled));
            final boolean deferFullBackup = parser.getBoolean(KEY_DEFER_FULL_BACKUP,
                    properties.getBoolean(KEY_DEFER_FULL_BACKUP + configSuffix,
                            defaultPolicy.deferFullBackup));
            final boolean deferKeyValueBackup = parser.getBoolean(KEY_DEFER_KEYVALUE_BACKUP,
                    properties.getBoolean(KEY_DEFER_KEYVALUE_BACKUP + configSuffix,
                            defaultPolicy.deferKeyValueBackup));
            final boolean disableAnimation = parser.getBoolean(KEY_DISABLE_ANIMATION,
                    properties.getBoolean(KEY_DISABLE_ANIMATION + configSuffix,
                            defaultPolicy.disableAnimation));
            final boolean disableAod = parser.getBoolean(KEY_DISABLE_AOD,
                    properties.getBoolean(KEY_DISABLE_AOD + configSuffix,
                            defaultPolicy.disableAod));
            final boolean disableLaunchBoost = parser.getBoolean(KEY_DISABLE_LAUNCH_BOOST,
                    properties.getBoolean(KEY_DISABLE_LAUNCH_BOOST + configSuffix,
                            defaultPolicy.disableLaunchBoost));
            final boolean disableOptionalSensors = parser.getBoolean(KEY_DISABLE_OPTIONAL_SENSORS,
                    properties.getBoolean(KEY_DISABLE_OPTIONAL_SENSORS + configSuffix,
                            defaultPolicy.disableOptionalSensors));
            final boolean disableVibrationConfig = parser.getBoolean(KEY_DISABLE_VIBRATION,
                    properties.getBoolean(KEY_DISABLE_VIBRATION + configSuffix,
                            defaultPolicy.disableVibration));
            final boolean enableBrightnessAdjustment = parser.getBoolean(
                    KEY_ENABLE_BRIGHTNESS_ADJUSTMENT,
                    properties.getBoolean(KEY_ENABLE_BRIGHTNESS_ADJUSTMENT + configSuffix,
                            defaultPolicy.enableAdjustBrightness));
            final boolean enableDataSaver = parser.getBoolean(KEY_ENABLE_DATASAVER,
                    properties.getBoolean(KEY_ENABLE_DATASAVER + configSuffix,
                            defaultPolicy.enableDataSaver));
            final boolean enableFirewall = parser.getBoolean(KEY_ENABLE_FIREWALL,
                    properties.getBoolean(KEY_ENABLE_FIREWALL + configSuffix,
                            defaultPolicy.enableFirewall));
            final boolean enableNightMode = parser.getBoolean(KEY_ENABLE_NIGHT_MODE,
                    properties.getBoolean(KEY_ENABLE_NIGHT_MODE + configSuffix,
                            defaultPolicy.enableNightMode));
            final boolean enableQuickDoze = parser.getBoolean(KEY_ENABLE_QUICK_DOZE,
                    properties.getBoolean(KEY_ENABLE_QUICK_DOZE + configSuffix,
                            defaultPolicy.enableQuickDoze));
            final boolean forceAllAppsStandby = parser.getBoolean(KEY_FORCE_ALL_APPS_STANDBY,
                    properties.getBoolean(KEY_FORCE_ALL_APPS_STANDBY + configSuffix,
                            defaultPolicy.forceAllAppsStandby));
            final boolean forceBackgroundCheck = parser.getBoolean(KEY_FORCE_BACKGROUND_CHECK,
                    properties.getBoolean(KEY_FORCE_BACKGROUND_CHECK + configSuffix,
                            defaultPolicy.forceBackgroundCheck));
            final int locationMode = parser.getInt(KEY_LOCATION_MODE,
                    properties.getInt(KEY_LOCATION_MODE + configSuffix,
                            defaultPolicy.locationMode));
            final int soundTriggerMode = parser.getInt(KEY_SOUNDTRIGGER_MODE,
                    properties.getInt(KEY_SOUNDTRIGGER_MODE + configSuffix,
                            defaultPolicy.soundTriggerMode));

            // 3. 创建一个新的策略
            return new Policy(
                    adjustBrightnessFactor,
                    advertiseIsEnabled,
                    (new CpuFrequencies()).parseString(cpuFreqInteractive),
                    (new CpuFrequencies()).parseString(cpuFreqNoninteractive),
                    deferFullBackup,
                    deferKeyValueBackup,
                    disableAnimation,
                    disableAod,
                    disableLaunchBoost,
                    disableOptionalSensors,
                    /* disableVibration */
                    disableVibrationConfig,
                    enableBrightnessAdjustment,
                    enableDataSaver,
                    enableFirewall,
                    enableNightMode,
                    enableQuickDoze,
                    forceAllAppsStandby,
                    forceBackgroundCheck,
                    locationMode,
                    soundTriggerMode
            );
        }

与设备相关的省电策略,也就是 CPU 限频策略,如果空缺,也不会被任何配置取代。

与设备无关的省电策略,如果某一项空缺,会依次被 DeviceConfig 和 默认的省电策略 DEFAULT_FULL_POLICY 取代。

最终通过解析的数据,创建一个策略 Policy 对象。

新的策略已经创建出来,之后调用 maybeUpdateDefaultFullPolicy() 更新默认的省电策略。

// BatterySaverPolicy.java

    private boolean maybeUpdateDefaultFullPolicy(Policy p) {
        boolean fullPolicyChanged = false;
        if (!mDefaultFullPolicy.equals(p)) {
            // mFullPolicy 会被 setFullPolicyLocked() 修改
            // 如果 mFullPolicy 与 mDefaultFullPolicy 不同, 那么表示 mFullPolicy 被覆盖
            // 如果相同,表示没有被覆盖
            boolean isDefaultFullPolicyOverridden = !mDefaultFullPolicy.equals(mFullPolicy);
            if (!isDefaultFullPolicyOverridden) {
                // mFullPolicy 没有被覆盖,就要同步进行更新
                mFullPolicy = p;
                // 现在处于省电模式中,需要通知监听者
                fullPolicyChanged = (mPolicyLevel == POLICY_LEVEL_FULL);
            }
            // 更新默认的省电模式策略
            mDefaultFullPolicy = p;
        }

        return fullPolicyChanged;
    }

mDefaultFullPolicy 代表的就是默认的省电策略,这里会更新它,但是同时,如果 mFullPolicy 没有被 setFullPolicyLocked() 修改(源码设计中称之为 overridden),那么也会同步更新它。

现在默认的省点策略已经更新,但是要应用的最终策略还不是它,需要调用 updatePolicyDependenciesLocked() 来根据情况,更新一个有效的省点策略

// BatterySaverPolicy.java
    private void updatePolicyDependenciesLocked() {
        final Policy rawPolicy = getCurrentRawPolicyLocked();
        final int locationMode;
        invalidatePowerSaveModeCaches();
        if (mAutomotiveProjectionActive.get()
                && rawPolicy.locationMode != PowerManager.LOCATION_MODE_NO_CHANGE
                && rawPolicy.locationMode != PowerManager.LOCATION_MODE_FOREGROUND_ONLY) {
            // If car projection is enabled, ensure that navigation works.
            locationMode = PowerManager.LOCATION_MODE_FOREGROUND_ONLY;
        } else {
            locationMode = rawPolicy.locationMode;
        }
        mEffectivePolicyRaw = new Policy(
                rawPolicy.adjustBrightnessFactor,
                rawPolicy.advertiseIsEnabled,
                rawPolicy.cpuFrequenciesForInteractive,
                rawPolicy.cpuFrequenciesForNoninteractive,
                rawPolicy.deferFullBackup,
                rawPolicy.deferKeyValueBackup,
                rawPolicy.disableAnimation,
                rawPolicy.disableAod,
                rawPolicy.disableLaunchBoost,
                rawPolicy.disableOptionalSensors,
                // Don't disable vibration when accessibility is on.
                rawPolicy.disableVibration && !mAccessibilityEnabled.get(),
                rawPolicy.enableAdjustBrightness,
                rawPolicy.enableDataSaver,
                rawPolicy.enableFirewall,
                // Don't force night mode when car projection is enabled.
                rawPolicy.enableNightMode && !mAutomotiveProjectionActive.get(),
                rawPolicy.enableQuickDoze,
                rawPolicy.forceAllAppsStandby,
                rawPolicy.forceBackgroundCheck,
                locationMode,
                rawPolicy.soundTriggerMode
        );
        // ...
    }

很简单,根据是否是车载项目,以及是否打开无障碍模式,更新有效的省电模式策略 mEffectivePolicyRaw

通知监听者

现在省电策略已经更新完毕,如果策略改变了,那么需要通知监听者

// BatterySaverPolicy.java

    private void maybeNotifyListenersOfPolicyChange() {
        final BatterySaverPolicyListener[] listeners;
        synchronized (mLock) {
            if (mPolicyLevel == POLICY_LEVEL_OFF) {
                // 省电模式没有打开
                return;
            }
            // Don't call out to listeners with the lock held.
            listeners = mListeners.toArray(new BatterySaverPolicyListener[mListeners.size()]);
        }

        mHandler.post(() -> {
            for (BatterySaverPolicyListener listener : listeners) {
                // 通知监听者
                listener.onBatterySaverPolicyChanged(this);
            }
        });
    }

目前,省电策略的监听者只有一个 BatterySaverController

// BatterySaverController.java

    public void onBatterySaverPolicyChanged(BatterySaverPolicy policy) {
        if (!isPolicyEnabled()) {
            return; // No need to send it if not enabled.
        }
        mHandler.postStateChanged(/*sendBroadcast=*/ true, REASON_POLICY_CHANGED);
    }

最终会调用 handleBatterySaverStateChanged()

// BatterySaverController.java

    void handleBatterySaverStateChanged(boolean sendBroadcast, int reason) {
        final LowPowerModeListener[] listeners;
        final boolean enabled;
        final boolean isInteractive = getPowerManager().isInteractive();
        final ArrayMap<String, String> fileValues;
        synchronized (mLock) {
            enabled = getFullEnabledLocked() || getAdaptiveEnabledLocked();

            mFullPreviouslyEnabled = getFullEnabledLocked();
            mAdaptivePreviouslyEnabled = getAdaptiveEnabledLocked();

            listeners = mListeners.toArray(new LowPowerModeListener[0]);

            mIsInteractive = isInteractive;

            // 1. 获取CPU限频策略
            if (enabled) {
                fileValues = mBatterySaverPolicy.getFileValues(isInteractive);
            } else {
                fileValues = null;
            }
        }

        final PowerManagerInternal pmi = LocalServices.getService(PowerManagerInternal.class);
        if (pmi != null) {
            pmi.setPowerMode(Mode.LOW_POWER, isEnabled());
        }

        updateBatterySavingStats();

        // 2. 应用CPU限频策略
        if (ArrayUtils.isEmpty(fileValues)) {
            // 如果策略为空,那肯定是关闭了省电模式,此时需要恢复正常的CPU频率
            mFileUpdater.restoreDefault();
        } else {
            // 策略不为空,首先保存节点中原本的值到 /data/system/battery-saver/default-values.xml,然后向节点写值
            mFileUpdater.writeFiles(fileValues);
        }

        if (sendBroadcast) {
            // 3. 发送广播
            Intent intent = new Intent(PowerManager.ACTION_POWER_SAVE_MODE_CHANGED);
            intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY);
            mContext.sendBroadcastAsUser(intent, UserHandle.ALL);

            // Send the broadcast to a manifest-registered receiver that is specified in the config.
            if (getPowerSaveModeChangedListenerPackage().isPresent()) {
                intent = new Intent(PowerManager.ACTION_POWER_SAVE_MODE_CHANGED)
                        .setPackage(getPowerSaveModeChangedListenerPackage().get())
                        .addFlags(Intent.FLAG_RECEIVER_INCLUDE_BACKGROUND
                                | Intent.FLAG_RECEIVER_FOREGROUND);
                mContext.sendBroadcastAsUser(intent, UserHandle.ALL);
            }

            // Send internal version that requires signature permission.
            intent = new Intent(PowerManager.ACTION_POWER_SAVE_MODE_CHANGED_INTERNAL);
            intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY);
            mContext.sendBroadcastAsUser(intent, UserHandle.ALL,
                    Manifest.permission.DEVICE_POWER);

            // 4. 通知监听者,省电策略已经改变
            for (LowPowerModeListener listener : listeners) {
                final PowerSaveState result =
                        mBatterySaverPolicy.getBatterySaverPolicy(listener.getServiceType());
                listener.onLowPowerModeChanged(result);
            }
        }
    }

这段代码,我只分析如何应用省电策略。

第一步,是获取 CPU 限频策略,以一个 Map 表示,其中 KEY 为 CPU 限频的节点路径,VALUE 为被限制的频率。

然后第二步是应用这个 CPU 限频策略,其实就是向节点写值。 不过在写值之前,会先保存节点中原本的值到 /data/system/battery-saver/default-values.xml 文件中,这个文件的作用是,当关闭省电模式,会恢复 CPU 原本的频率。

最后,通知监听者,策略已经改变,你们需要做相应的适配。这些监听者都是系统服务,例如WindowManagerService 就是一个监听者,它会根据省电模式策略,决定是否关闭动画,关键代码如下:

                case NEW_ANIMATOR_SCALE: {
                    // 省电模式下,scale 为 0
                    float scale = getCurrentAnimatorScale();
                    // 关闭 system_server 进程的动画
                    ValueAnimator.setDurationScale(scale);
                    Session session = (Session)msg.obj;
                    if (session != null) {
                        try {
                            session.mCallback.onAnimatorScaleChanged(scale);
                        } catch (RemoteException e) {
                        }
                    } else {
                        ArrayList<IWindowSessionCallback> callbacks
                                = new ArrayList<IWindowSessionCallback>();
                        synchronized (mGlobalLock) {
                            for (int i=0; i<mSessions.size(); i++) {
                                callbacks.add(mSessions.valueAt(i).mCallback);
                            }

                        }
                        for (int i=0; i<callbacks.size(); i++) {
                            try {
                                // 关闭 app 进程的动画
                                callbacks.get(i).onAnimatorScaleChanged(scale);
                            } catch (RemoteException e) {
                            }
                        }
                    }
                    break;
                }

如何配置策略

看完了策略控制的源码分析,总结下如何控制策略

  • 修改 Settings.Global.BATTERY_SAVER_CONSTANTS 字段值,可以设置的字参考注释文档,或者参考源码的解析部分。例如 vibration_disabled=true,adjust_brightness_factor=0.5
  • 修改 Settings.Global.BATTERY_SAVER_DEVICE_SPECIFIC_CONSTANTS字段值,但是这个只能修改 CPU 限频策略。例如 cpufreq-i=0:1804810/1:1804900,cpufreq-n=0:1804700/1:1804600
  • 可以通过 framework-res 的 config.xml 的config_batterySaverDeviceSpecificConfig 配置默认的 CPU 限频策略。但是这个会被 Settings.Global.BATTERY_SAVER_DEVICE_SPECIFIC_CONSTANTS 覆盖,在有值的情况下。

结束

省电模式的文章,到此就结束了。本来我还准备分析省电模式影响的功能,但是由于影响的功能有点多,但是我又无法精通所有的功能,因此我就不献丑了去分析了。

在工作中,如果你熟悉的某个功能模块,例如 WindowManagerService,它受省电模式影响,我相信,如果你看完我的文章,应该能自行分析受影响的功能。

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