// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "chromeos/dbus/power_manager_client.h" #include #include "base/bind.h" #include "base/callback.h" #include "base/command_line.h" #include "base/format_macros.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/message_loop/message_loop.h" #include "base/observer_list.h" #include "base/strings/stringprintf.h" #include "base/threading/platform_thread.h" #include "base/time/time.h" #include "base/timer/timer.h" #include "chromeos/chromeos_switches.h" #include "chromeos/dbus/power_manager/input_event.pb.h" #include "chromeos/dbus/power_manager/peripheral_battery_status.pb.h" #include "chromeos/dbus/power_manager/policy.pb.h" #include "chromeos/dbus/power_manager/power_supply_properties.pb.h" #include "chromeos/dbus/power_manager/suspend.pb.h" #include "dbus/bus.h" #include "dbus/message.h" #include "dbus/object_path.h" #include "dbus/object_proxy.h" namespace chromeos { // Maximum amount of time that the power manager will wait for Chrome to // say that it's ready for the system to be suspended, in milliseconds. const int kSuspendDelayTimeoutMs = 5000; // Human-readable description of Chrome's suspend delay. const char kSuspendDelayDescription[] = "chrome"; // The PowerManagerClient implementation used in production. class PowerManagerClientImpl : public PowerManagerClient { public: PowerManagerClientImpl() : origin_thread_id_(base::PlatformThread::CurrentId()), power_manager_proxy_(NULL), suspend_delay_id_(-1), has_suspend_delay_id_(false), pending_suspend_id_(-1), suspend_is_pending_(false), num_pending_suspend_readiness_callbacks_(0), last_is_projecting_(false), weak_ptr_factory_(this) {} virtual ~PowerManagerClientImpl() { // Here we should unregister suspend notifications from powerd, // however: // - The lifetime of the PowerManagerClientImpl can extend past that of // the objectproxy, // - power_manager can already detect that the client is gone and // unregister our suspend delay. } // PowerManagerClient overrides: virtual void AddObserver(Observer* observer) OVERRIDE { CHECK(observer); // http://crbug.com/119976 observers_.AddObserver(observer); } virtual void RemoveObserver(Observer* observer) OVERRIDE { observers_.RemoveObserver(observer); } virtual bool HasObserver(Observer* observer) OVERRIDE { return observers_.HasObserver(observer); } virtual void DecreaseScreenBrightness(bool allow_off) OVERRIDE { dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kDecreaseScreenBrightness); dbus::MessageWriter writer(&method_call); writer.AppendBool(allow_off); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } virtual void IncreaseScreenBrightness() OVERRIDE { SimpleMethodCallToPowerManager(power_manager::kIncreaseScreenBrightness); } virtual void DecreaseKeyboardBrightness() OVERRIDE { SimpleMethodCallToPowerManager(power_manager::kDecreaseKeyboardBrightness); } virtual void IncreaseKeyboardBrightness() OVERRIDE { SimpleMethodCallToPowerManager(power_manager::kIncreaseKeyboardBrightness); } virtual void SetScreenBrightnessPercent(double percent, bool gradual) OVERRIDE { dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kSetScreenBrightnessPercent); dbus::MessageWriter writer(&method_call); writer.AppendDouble(percent); writer.AppendInt32( gradual ? power_manager::kBrightnessTransitionGradual : power_manager::kBrightnessTransitionInstant); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } virtual void GetScreenBrightnessPercent( const GetScreenBrightnessPercentCallback& callback) OVERRIDE { dbus::MethodCall method_call(power_manager::kPowerManagerInterface, power_manager::kGetScreenBrightnessPercent); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&PowerManagerClientImpl::OnGetScreenBrightnessPercent, weak_ptr_factory_.GetWeakPtr(), callback)); } virtual void RequestStatusUpdate() OVERRIDE { dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kGetPowerSupplyPropertiesMethod); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&PowerManagerClientImpl::OnGetPowerSupplyPropertiesMethod, weak_ptr_factory_.GetWeakPtr())); } virtual void RequestRestart() OVERRIDE { SimpleMethodCallToPowerManager(power_manager::kRequestRestartMethod); }; virtual void RequestShutdown() OVERRIDE { SimpleMethodCallToPowerManager(power_manager::kRequestShutdownMethod); } virtual void RequestIdleNotification(int64 threshold) OVERRIDE { dbus::MethodCall method_call(power_manager::kPowerManagerInterface, power_manager::kRequestIdleNotification); dbus::MessageWriter writer(&method_call); writer.AppendInt64(threshold); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } virtual void NotifyUserActivity( power_manager::UserActivityType type) OVERRIDE { dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kHandleUserActivityMethod); dbus::MessageWriter writer(&method_call); writer.AppendInt32(type); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } virtual void NotifyVideoActivity(bool is_fullscreen) OVERRIDE { dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kHandleVideoActivityMethod); dbus::MessageWriter writer(&method_call); writer.AppendBool(is_fullscreen); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } virtual void SetPolicy( const power_manager::PowerManagementPolicy& policy) OVERRIDE { dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kSetPolicyMethod); dbus::MessageWriter writer(&method_call); if (!writer.AppendProtoAsArrayOfBytes(policy)) { LOG(ERROR) << "Error calling " << power_manager::kSetPolicyMethod; return; } power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } virtual void SetIsProjecting(bool is_projecting) OVERRIDE { dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kSetIsProjectingMethod); dbus::MessageWriter writer(&method_call); writer.AppendBool(is_projecting); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); last_is_projecting_ = is_projecting; } virtual base::Closure GetSuspendReadinessCallback() OVERRIDE { DCHECK(OnOriginThread()); DCHECK(suspend_is_pending_); num_pending_suspend_readiness_callbacks_++; return base::Bind(&PowerManagerClientImpl::HandleObserverSuspendReadiness, weak_ptr_factory_.GetWeakPtr(), pending_suspend_id_); } protected: virtual void Init(dbus::Bus* bus) OVERRIDE { power_manager_proxy_ = bus->GetObjectProxy( power_manager::kPowerManagerServiceName, dbus::ObjectPath(power_manager::kPowerManagerServicePath)); power_manager_proxy_->SetNameOwnerChangedCallback( base::Bind(&PowerManagerClientImpl::NameOwnerChangedReceived, weak_ptr_factory_.GetWeakPtr())); // Monitor the D-Bus signal for brightness changes. Only the power // manager knows the actual brightness level. We don't cache the // brightness level in Chrome as it'll make things less reliable. power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kBrightnessChangedSignal, base::Bind(&PowerManagerClientImpl::BrightnessChangedReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kPeripheralBatteryStatusSignal, base::Bind(&PowerManagerClientImpl::PeripheralBatteryStatusReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kPowerSupplyPollSignal, base::Bind(&PowerManagerClientImpl::PowerSupplyPollReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kIdleNotifySignal, base::Bind(&PowerManagerClientImpl::IdleNotifySignalReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kInputEventSignal, base::Bind(&PowerManagerClientImpl::InputEventReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kSuspendStateChangedSignal, base::Bind(&PowerManagerClientImpl::SuspendStateChangedReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kSuspendImminentSignal, base::Bind( &PowerManagerClientImpl::SuspendImminentReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kIdleActionImminentSignal, base::Bind( &PowerManagerClientImpl::IdleActionImminentReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); power_manager_proxy_->ConnectToSignal( power_manager::kPowerManagerInterface, power_manager::kIdleActionDeferredSignal, base::Bind( &PowerManagerClientImpl::IdleActionDeferredReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&PowerManagerClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); RegisterSuspendDelay(); } private: // Returns true if the current thread is the origin thread. bool OnOriginThread() { return base::PlatformThread::CurrentId() == origin_thread_id_; } // Called when a dbus signal is initially connected. void SignalConnected(const std::string& interface_name, const std::string& signal_name, bool success) { LOG_IF(WARNING, !success) << "Failed to connect to signal " << signal_name << "."; } // Make a method call to power manager with no arguments and no response. void SimpleMethodCallToPowerManager(const std::string& method_name) { dbus::MethodCall method_call(power_manager::kPowerManagerInterface, method_name); power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void NameOwnerChangedReceived(dbus::Signal* signal) { VLOG(1) << "Power manager restarted"; RegisterSuspendDelay(); SetIsProjecting(last_is_projecting_); FOR_EACH_OBSERVER(Observer, observers_, PowerManagerRestarted()); } void BrightnessChangedReceived(dbus::Signal* signal) { dbus::MessageReader reader(signal); int32 brightness_level = 0; bool user_initiated = 0; if (!(reader.PopInt32(&brightness_level) && reader.PopBool(&user_initiated))) { LOG(ERROR) << "Brightness changed signal had incorrect parameters: " << signal->ToString(); return; } VLOG(1) << "Brightness changed to " << brightness_level << ": user initiated " << user_initiated; FOR_EACH_OBSERVER(Observer, observers_, BrightnessChanged(brightness_level, user_initiated)); } void PeripheralBatteryStatusReceived(dbus::Signal* signal) { dbus::MessageReader reader(signal); power_manager::PeripheralBatteryStatus protobuf_status; if (!reader.PopArrayOfBytesAsProto(&protobuf_status)) { LOG(ERROR) << "Unable to decode protocol buffer from " << power_manager::kPeripheralBatteryStatusSignal << " signal"; return; } std::string path = protobuf_status.path(); std::string name = protobuf_status.name(); int level = protobuf_status.has_level() ? protobuf_status.level() : -1; VLOG(1) << "Device battery status received " << level << " for " << name << " at " << path; FOR_EACH_OBSERVER(Observer, observers_, PeripheralBatteryStatusReceived(path, name, level)); } void PowerSupplyPollReceived(dbus::Signal* signal) { VLOG(1) << "Received power supply poll signal."; dbus::MessageReader reader(signal); power_manager::PowerSupplyProperties protobuf; if (reader.PopArrayOfBytesAsProto(&protobuf)) { FOR_EACH_OBSERVER(Observer, observers_, PowerChanged(protobuf)); } else { LOG(ERROR) << "Unable to decode " << power_manager::kPowerSupplyPollSignal << "signal"; } } void OnGetPowerSupplyPropertiesMethod(dbus::Response* response) { if (!response) { LOG(ERROR) << "Error calling " << power_manager::kGetPowerSupplyPropertiesMethod; return; } dbus::MessageReader reader(response); power_manager::PowerSupplyProperties protobuf; if (reader.PopArrayOfBytesAsProto(&protobuf)) { FOR_EACH_OBSERVER(Observer, observers_, PowerChanged(protobuf)); } else { LOG(ERROR) << "Unable to decode " << power_manager::kGetPowerSupplyPropertiesMethod << " response"; } } void OnGetScreenBrightnessPercent( const GetScreenBrightnessPercentCallback& callback, dbus::Response* response) { if (!response) { LOG(ERROR) << "Error calling " << power_manager::kGetScreenBrightnessPercent; return; } dbus::MessageReader reader(response); double percent = 0.0; if (!reader.PopDouble(&percent)) LOG(ERROR) << "Error reading response from powerd: " << response->ToString(); callback.Run(percent); } void OnRegisterSuspendDelayReply(dbus::Response* response) { if (!response) { LOG(ERROR) << "Error calling " << power_manager::kRegisterSuspendDelayMethod; return; } dbus::MessageReader reader(response); power_manager::RegisterSuspendDelayReply protobuf; if (!reader.PopArrayOfBytesAsProto(&protobuf)) { LOG(ERROR) << "Unable to parse reply from " << power_manager::kRegisterSuspendDelayMethod; return; } suspend_delay_id_ = protobuf.delay_id(); has_suspend_delay_id_ = true; VLOG(1) << "Registered suspend delay " << suspend_delay_id_; } void IdleNotifySignalReceived(dbus::Signal* signal) { dbus::MessageReader reader(signal); int64 threshold = 0; if (!reader.PopInt64(&threshold)) { LOG(ERROR) << "Idle Notify signal had incorrect parameters: " << signal->ToString(); return; } DCHECK_GT(threshold, 0); VLOG(1) << "Idle Notify: " << threshold; FOR_EACH_OBSERVER(Observer, observers_, IdleNotify(threshold)); } void SuspendImminentReceived(dbus::Signal* signal) { if (!has_suspend_delay_id_) { LOG(ERROR) << "Received unrequested " << power_manager::kSuspendImminentSignal << " signal"; return; } dbus::MessageReader reader(signal); power_manager::SuspendImminent protobuf_imminent; if (!reader.PopArrayOfBytesAsProto(&protobuf_imminent)) { LOG(ERROR) << "Unable to decode protocol buffer from " << power_manager::kSuspendImminentSignal << " signal"; return; } if (suspend_is_pending_) { LOG(WARNING) << "Got " << power_manager::kSuspendImminentSignal << " signal about pending suspend attempt " << protobuf_imminent.suspend_id() << " while still waiting " << "on attempt " << pending_suspend_id_; } pending_suspend_id_ = protobuf_imminent.suspend_id(); suspend_is_pending_ = true; num_pending_suspend_readiness_callbacks_ = 0; FOR_EACH_OBSERVER(Observer, observers_, SuspendImminent()); MaybeReportSuspendReadiness(); } void IdleActionImminentReceived(dbus::Signal* signal) { FOR_EACH_OBSERVER(Observer, observers_, IdleActionImminent()); } void IdleActionDeferredReceived(dbus::Signal* signal) { FOR_EACH_OBSERVER(Observer, observers_, IdleActionDeferred()); } void InputEventReceived(dbus::Signal* signal) { dbus::MessageReader reader(signal); power_manager::InputEvent proto; if (!reader.PopArrayOfBytesAsProto(&proto)) { LOG(ERROR) << "Unable to decode protocol buffer from " << power_manager::kInputEventSignal << " signal"; return; } base::TimeTicks timestamp = base::TimeTicks::FromInternalValue(proto.timestamp()); VLOG(1) << "Got " << power_manager::kInputEventSignal << " signal:" << " type=" << proto.type() << " timestamp=" << proto.timestamp(); switch (proto.type()) { case power_manager::InputEvent_Type_POWER_BUTTON_DOWN: case power_manager::InputEvent_Type_POWER_BUTTON_UP: { bool down = (proto.type() == power_manager::InputEvent_Type_POWER_BUTTON_DOWN); FOR_EACH_OBSERVER(PowerManagerClient::Observer, observers_, PowerButtonEventReceived(down, timestamp)); break; } case power_manager::InputEvent_Type_LID_OPEN: case power_manager::InputEvent_Type_LID_CLOSED: { bool open = (proto.type() == power_manager::InputEvent_Type_LID_OPEN); FOR_EACH_OBSERVER(PowerManagerClient::Observer, observers_, LidEventReceived(open, timestamp)); break; } } } void SuspendStateChangedReceived(dbus::Signal* signal) { dbus::MessageReader reader(signal); power_manager::SuspendState proto; if (!reader.PopArrayOfBytesAsProto(&proto)) { LOG(ERROR) << "Unable to decode protocol buffer from " << power_manager::kSuspendStateChangedSignal << " signal"; return; } VLOG(1) << "Got " << power_manager::kSuspendStateChangedSignal << " signal:" << " type=" << proto.type() << " wall_time=" << proto.wall_time(); base::Time wall_time = base::Time::FromInternalValue(proto.wall_time()); switch (proto.type()) { case power_manager::SuspendState_Type_SUSPEND_TO_MEMORY: last_suspend_wall_time_ = wall_time; break; case power_manager::SuspendState_Type_RESUME: FOR_EACH_OBSERVER( PowerManagerClient::Observer, observers_, SystemResumed(wall_time - last_suspend_wall_time_)); break; } } // Registers a suspend delay with the power manager. This is usually // only called at startup, but if the power manager restarts, we need to // create a new delay. void RegisterSuspendDelay() { // Throw out any old delay that was registered. suspend_delay_id_ = -1; has_suspend_delay_id_ = false; dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kRegisterSuspendDelayMethod); dbus::MessageWriter writer(&method_call); power_manager::RegisterSuspendDelayRequest protobuf_request; base::TimeDelta timeout = base::TimeDelta::FromMilliseconds(kSuspendDelayTimeoutMs); protobuf_request.set_timeout(timeout.ToInternalValue()); protobuf_request.set_description(kSuspendDelayDescription); if (!writer.AppendProtoAsArrayOfBytes(protobuf_request)) { LOG(ERROR) << "Error constructing message for " << power_manager::kRegisterSuspendDelayMethod; return; } power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind( &PowerManagerClientImpl::OnRegisterSuspendDelayReply, weak_ptr_factory_.GetWeakPtr())); } // Records the fact that an observer has finished doing asynchronous work // that was blocking a pending suspend attempt and possibly reports // suspend readiness to powerd. Called by callbacks returned via // GetSuspendReadinessCallback(). void HandleObserverSuspendReadiness(int32 suspend_id) { DCHECK(OnOriginThread()); if (!suspend_is_pending_ || suspend_id != pending_suspend_id_) return; num_pending_suspend_readiness_callbacks_--; MaybeReportSuspendReadiness(); } // Reports suspend readiness to powerd if no observers are still holding // suspend readiness callbacks. void MaybeReportSuspendReadiness() { if (!suspend_is_pending_ || num_pending_suspend_readiness_callbacks_ > 0) return; dbus::MethodCall method_call( power_manager::kPowerManagerInterface, power_manager::kHandleSuspendReadinessMethod); dbus::MessageWriter writer(&method_call); power_manager::SuspendReadinessInfo protobuf_request; protobuf_request.set_delay_id(suspend_delay_id_); protobuf_request.set_suspend_id(pending_suspend_id_); pending_suspend_id_ = -1; suspend_is_pending_ = false; if (!writer.AppendProtoAsArrayOfBytes(protobuf_request)) { LOG(ERROR) << "Error constructing message for " << power_manager::kHandleSuspendReadinessMethod; return; } power_manager_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } // Origin thread (i.e. the UI thread in production). base::PlatformThreadId origin_thread_id_; dbus::ObjectProxy* power_manager_proxy_; ObserverList observers_; // The delay_id_ obtained from the RegisterSuspendDelay request. int32 suspend_delay_id_; bool has_suspend_delay_id_; // powerd-supplied ID corresponding to an imminent suspend attempt that is // currently being delayed. int32 pending_suspend_id_; bool suspend_is_pending_; // Number of callbacks that have been returned by // GetSuspendReadinessCallback() during the currently-pending suspend // attempt but have not yet been called. int num_pending_suspend_readiness_callbacks_; // Wall time from the latest signal telling us that the system was about to // suspend to memory. base::Time last_suspend_wall_time_; // Last state passed to SetIsProjecting(). bool last_is_projecting_; // Note: This should remain the last member so it'll be destroyed and // invalidate its weak pointers before any other members are destroyed. base::WeakPtrFactory weak_ptr_factory_; DISALLOW_COPY_AND_ASSIGN(PowerManagerClientImpl); }; // The PowerManagerClient implementation used on Linux desktop, // which does nothing. class PowerManagerClientStubImpl : public PowerManagerClient { public: PowerManagerClientStubImpl() : discharging_(true), battery_percentage_(40), brightness_(50.0), pause_count_(2), cycle_count_(0), weak_ptr_factory_(this) {} virtual ~PowerManagerClientStubImpl() {} // PowerManagerClient overrides virtual void Init(dbus::Bus* bus) OVERRIDE { if (CommandLine::ForCurrentProcess()->HasSwitch( chromeos::switches::kEnableStubInteractive)) { const int kStatusUpdateMs = 1000; update_timer_.Start(FROM_HERE, base::TimeDelta::FromMilliseconds(kStatusUpdateMs), this, &PowerManagerClientStubImpl::UpdateStatus); } } virtual void AddObserver(Observer* observer) OVERRIDE { observers_.AddObserver(observer); } virtual void RemoveObserver(Observer* observer) OVERRIDE { observers_.RemoveObserver(observer); } virtual bool HasObserver(Observer* observer) OVERRIDE { return observers_.HasObserver(observer); } virtual void DecreaseScreenBrightness(bool allow_off) OVERRIDE { VLOG(1) << "Requested to descrease screen brightness"; SetBrightness(brightness_ - 5.0, true); } virtual void IncreaseScreenBrightness() OVERRIDE { VLOG(1) << "Requested to increase screen brightness"; SetBrightness(brightness_ + 5.0, true); } virtual void SetScreenBrightnessPercent(double percent, bool gradual) OVERRIDE { VLOG(1) << "Requested to set screen brightness to " << percent << "% " << (gradual ? "gradually" : "instantaneously"); SetBrightness(percent, false); } virtual void GetScreenBrightnessPercent( const GetScreenBrightnessPercentCallback& callback) OVERRIDE { callback.Run(brightness_); } virtual void DecreaseKeyboardBrightness() OVERRIDE { VLOG(1) << "Requested to descrease keyboard brightness"; } virtual void IncreaseKeyboardBrightness() OVERRIDE { VLOG(1) << "Requested to increase keyboard brightness"; } virtual void RequestStatusUpdate() OVERRIDE { base::MessageLoop::current()->PostTask(FROM_HERE, base::Bind(&PowerManagerClientStubImpl::UpdateStatus, weak_ptr_factory_.GetWeakPtr())); } virtual void RequestRestart() OVERRIDE {} virtual void RequestShutdown() OVERRIDE {} virtual void RequestIdleNotification(int64 threshold) OVERRIDE { base::MessageLoop::current()->PostDelayedTask( FROM_HERE, base::Bind(&PowerManagerClientStubImpl::TriggerIdleNotify, weak_ptr_factory_.GetWeakPtr(), threshold), base::TimeDelta::FromMilliseconds(threshold)); } virtual void NotifyUserActivity( power_manager::UserActivityType type) OVERRIDE {} virtual void NotifyVideoActivity(bool is_fullscreen) OVERRIDE {} virtual void SetPolicy( const power_manager::PowerManagementPolicy& policy) OVERRIDE {} virtual void SetIsProjecting(bool is_projecting) OVERRIDE {} virtual base::Closure GetSuspendReadinessCallback() OVERRIDE { return base::Closure(); } private: void UpdateStatus() { if (pause_count_ > 0) { pause_count_--; if (pause_count_ == 2) discharging_ = !discharging_; } else { if (discharging_) battery_percentage_ -= (battery_percentage_ <= 10 ? 1 : 10); else battery_percentage_ += (battery_percentage_ >= 10 ? 10 : 1); battery_percentage_ = std::min(std::max(battery_percentage_, 0), 100); // We pause at 0 and 100% so that it's easier to check those conditions. if (battery_percentage_ == 0 || battery_percentage_ == 100) { pause_count_ = 4; if (battery_percentage_ == 100) cycle_count_ = (cycle_count_ + 1) % 3; } } const int kSecondsToEmptyFullBattery = 3 * 60 * 60; // 3 hours. int64 remaining_battery_time = std::max(1, battery_percentage_ * kSecondsToEmptyFullBattery / 100); props_.Clear(); switch (cycle_count_) { case 0: // Say that the system is charging with AC connected and // discharging without any charger connected. props_.set_external_power(discharging_ ? power_manager::PowerSupplyProperties_ExternalPower_DISCONNECTED : power_manager::PowerSupplyProperties_ExternalPower_AC); break; case 1: // Say that the system is both charging and discharging on USB // (i.e. a low-power charger). props_.set_external_power( power_manager::PowerSupplyProperties_ExternalPower_USB); break; case 2: // Say that the system is both charging and discharging on AC. props_.set_external_power( power_manager::PowerSupplyProperties_ExternalPower_AC); break; default: NOTREACHED() << "Unhandled cycle " << cycle_count_; } if (battery_percentage_ == 100 && !discharging_) { props_.set_battery_state( power_manager::PowerSupplyProperties_BatteryState_FULL); } else if (!discharging_) { props_.set_battery_state( power_manager::PowerSupplyProperties_BatteryState_CHARGING); props_.set_battery_time_to_full_sec(std::max(static_cast(1), kSecondsToEmptyFullBattery - remaining_battery_time)); } else { props_.set_battery_state( power_manager::PowerSupplyProperties_BatteryState_DISCHARGING); props_.set_battery_time_to_empty_sec(remaining_battery_time); } props_.set_battery_percent(battery_percentage_); props_.set_is_calculating_battery_time(pause_count_ > 1); FOR_EACH_OBSERVER(Observer, observers_, PowerChanged(props_)); } void SetBrightness(double percent, bool user_initiated) { brightness_ = std::min(std::max(0.0, percent), 100.0); int brightness_level = static_cast(brightness_); FOR_EACH_OBSERVER(Observer, observers_, BrightnessChanged(brightness_level, user_initiated)); } void TriggerIdleNotify(int64 threshold) { FOR_EACH_OBSERVER(Observer, observers_, IdleNotify(threshold)); } bool discharging_; int battery_percentage_; double brightness_; int pause_count_; int cycle_count_; ObserverList observers_; base::RepeatingTimer update_timer_; power_manager::PowerSupplyProperties props_; // Note: This should remain the last member so it'll be destroyed and // invalidate its weak pointers before any other members are destroyed. base::WeakPtrFactory weak_ptr_factory_; }; PowerManagerClient::PowerManagerClient() { } PowerManagerClient::~PowerManagerClient() { } // static PowerManagerClient* PowerManagerClient::Create( DBusClientImplementationType type) { if (type == REAL_DBUS_CLIENT_IMPLEMENTATION) return new PowerManagerClientImpl(); DCHECK_EQ(STUB_DBUS_CLIENT_IMPLEMENTATION, type); return new PowerManagerClientStubImpl(); } } // namespace chromeos