// Copyright 2013 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef BASE_POWER_MONITOR_POWER_MONITOR_H_ #define BASE_POWER_MONITOR_POWER_MONITOR_H_ #include #include "base/base_export.h" #include "base/no_destructor.h" #include "base/observer_list_threadsafe.h" #include "base/power_monitor/power_observer.h" #include "base/time/time.h" #include "build/build_config.h" namespace base { class PowerMonitorSource; // A class used to monitor the power state change and notify the observers about // the change event. The threading model of this class is as follows: // Once initialized, it is threadsafe. However, the client must ensure that // initialization happens before any other methods are invoked, including // IsInitialized(). IsInitialized() exists only as a convenience for detection // of test contexts where the PowerMonitor global is never created. class BASE_EXPORT PowerMonitor { public: // Initializes global PowerMonitor state. Takes ownership of |source|, which // will be leaked on process teardown. May only be called once. Not threadsafe // - no other PowerMonitor methods may be called on any thread while calling // Initialize(). |source| must not be nullptr. static void Initialize(std::unique_ptr source); PowerMonitor(const PowerMonitor&) = delete; PowerMonitor& operator=(const PowerMonitor&) = delete; // Returns true if Initialize() has been called. Safe to call on any thread, // but must not be called while Initialize() or ShutdownForTesting() is being // invoked. static bool IsInitialized(); // Add and remove an observer. // Can be called from any thread. |observer| is notified on the sequence // from which it was registered. // Must not be called from within a notification callback. // // It is safe to add observers before the PowerMonitor is initialized. It is // safe to remove an observer even if it was not added as an observer. static void AddPowerSuspendObserver(PowerSuspendObserver* observer); static void RemovePowerSuspendObserver(PowerSuspendObserver* observer); static void AddPowerStateObserver(PowerStateObserver* observer); static void RemovePowerStateObserver(PowerStateObserver* observer); static void AddPowerThermalObserver(PowerThermalObserver* observer); static void RemovePowerThermalObserver(PowerThermalObserver* observer); // Atomically add a PowerSuspendObserver and read the current power suspended // state. This variant must be used to avoid race between adding an observer // and reading the power state. The following code would be racy: // AddOPowerSuspendbserver(...); // if (PowerMonitor::IsSystemSuspended()) { ... } // // Returns true if the system is currently suspended. static bool AddPowerSuspendObserverAndReturnSuspendedState( PowerSuspendObserver* observer); // Returns true if the system is on-battery. static bool AddPowerStateObserverAndReturnOnBatteryState( PowerStateObserver* observer); // Returns the power thermal state. static PowerThermalObserver::DeviceThermalState AddPowerStateObserverAndReturnPowerThermalState( PowerThermalObserver* observer); // Is the computer currently on battery power. May only be called if the // PowerMonitor has been initialized. static bool IsOnBatteryPower(); // Returns the time of the last system resume. If no system suspend/resume was // observed, returns an empty time. If the system is currently suspended, // returns TimeTicks::Max(). static TimeTicks GetLastSystemResumeTime(); // Read the current DeviceThermalState if known. Can be called on any thread. // May only be called if the PowerMonitor has been initialized. static PowerThermalObserver::DeviceThermalState GetCurrentThermalState(); // Update the result of thermal state. static void SetCurrentThermalState( PowerThermalObserver::DeviceThermalState state); #if BUILDFLAG(IS_ANDROID) // Read and return the current remaining battery capacity (microampere-hours). // Only supported with a device power source (i.e. not in child processes in // Chrome) and on devices with Android >= Lollipop as well as a power supply // that supports this counter. Returns 0 if unsupported. static int GetRemainingBatteryCapacity(); #endif // BUILDFLAG(IS_ANDROID) // Uninitializes the PowerMonitor. Should be called at the end of any unit // test that mocks out the PowerMonitor, to avoid affecting subsequent tests. // There must be no live observers when invoked. Safe to call even if the // PowerMonitor hasn't been initialized. static void ShutdownForTesting(); private: friend class PowerMonitorSource; friend class base::NoDestructor; PowerMonitor(); ~PowerMonitor(); static PowerMonitorSource* Source(); static void NotifyPowerStateChange(bool on_battery_power); static void NotifySuspend(); static void NotifyResume(); static void NotifyThermalStateChange( PowerThermalObserver::DeviceThermalState new_state); static void NotifySpeedLimitChange(int speed_limit); static PowerMonitor* GetInstance(); bool is_system_suspended_ GUARDED_BY(is_system_suspended_lock_) = false; Lock is_system_suspended_lock_; TimeTicks last_system_resume_time_ GUARDED_BY(is_system_suspended_lock_); bool on_battery_power_ GUARDED_BY(on_battery_power_lock_) = false; Lock on_battery_power_lock_; PowerThermalObserver::DeviceThermalState power_thermal_state_ GUARDED_BY(power_thermal_state_lock_) = PowerThermalObserver::DeviceThermalState::kUnknown; int speed_limit_ GUARDED_BY(power_thermal_state_lock_) = PowerThermalObserver::kSpeedLimitMax; Lock power_thermal_state_lock_; scoped_refptr> power_state_observers_; scoped_refptr> power_suspend_observers_; scoped_refptr> thermal_state_observers_; std::unique_ptr source_; }; } // namespace base #endif // BASE_POWER_MONITOR_POWER_MONITOR_H_