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chromium / chromium / src / a34e151bce4bdf56031c13941408e292815241ca / . / chromeos / dbus / power_manager_client.cc
blob: 89d6113fd844dfc4ca2e8846b4781c4364e18d2e [file] [log] [blame]
// 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 <algorithm>
#include "base/bind.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/power_monitor/power_monitor_device_source.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_split.h"
#include "base/strings/stringprintf.h"
#include "base/threading/platform_thread.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 "components/device_event_log/device_event_log.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),
dark_suspend_delay_id_(-1),
has_dark_suspend_delay_id_(false),
pending_suspend_id_(-1),
suspend_is_pending_(false),
suspending_from_dark_resume_(false),
num_pending_suspend_readiness_callbacks_(0),
last_is_projecting_(false),
weak_ptr_factory_(this) {}
~PowerManagerClientImpl() override {
// 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:
void AddObserver(Observer* observer) override {
CHECK(observer); // http://crbug.com/119976
observers_.AddObserver(observer);
}
void RemoveObserver(Observer* observer) override {
observers_.RemoveObserver(observer);
}
bool HasObserver(const Observer* observer) const override {
return observers_.HasObserver(observer);
}
void SetRenderProcessManagerDelegate(
base::WeakPtr<RenderProcessManagerDelegate> delegate) override {
DCHECK(!render_process_manager_delegate_)
<< "There can be only one! ...RenderProcessManagerDelegate";
render_process_manager_delegate_ = delegate;
}
void DecreaseScreenBrightness(bool allow_off) override {
dbus::MethodCall method_call(
power_manager::kPowerManagerInterface,
power_manager::kDecreaseScreenBrightnessMethod);
dbus::MessageWriter writer(&method_call);
writer.AppendBool(allow_off);
power_manager_proxy_->CallMethod(
&method_call,
dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
dbus::ObjectProxy::EmptyResponseCallback());
}
void IncreaseScreenBrightness() override {
SimpleMethodCallToPowerManager(
power_manager::kIncreaseScreenBrightnessMethod);
}
void DecreaseKeyboardBrightness() override {
SimpleMethodCallToPowerManager(
power_manager::kDecreaseKeyboardBrightnessMethod);
}
void IncreaseKeyboardBrightness() override {
SimpleMethodCallToPowerManager(
power_manager::kIncreaseKeyboardBrightnessMethod);
}
void SetScreenBrightnessPercent(double percent, bool gradual) override {
dbus::MethodCall method_call(
power_manager::kPowerManagerInterface,
power_manager::kSetScreenBrightnessPercentMethod);
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());
}
void GetScreenBrightnessPercent(
const GetScreenBrightnessPercentCallback& callback) override {
dbus::MethodCall method_call(
power_manager::kPowerManagerInterface,
power_manager::kGetScreenBrightnessPercentMethod);
power_manager_proxy_->CallMethod(
&method_call,
dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
base::Bind(&PowerManagerClientImpl::OnGetScreenBrightnessPercent,
weak_ptr_factory_.GetWeakPtr(), callback));
}
void RequestStatusUpdate() override {
POWER_LOG(USER) << "RequestStatusUpdate";
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()));
}
void RequestSuspend() override {
POWER_LOG(USER) << "RequestSuspend";
SimpleMethodCallToPowerManager(power_manager::kRequestSuspendMethod);
}
void RequestRestart() override {
POWER_LOG(USER) << "RequestRestart";
SimpleMethodCallToPowerManager(power_manager::kRequestRestartMethod);
}
void RequestShutdown() override {
POWER_LOG(USER) << "RequestShutdown";
SimpleMethodCallToPowerManager(power_manager::kRequestShutdownMethod);
}
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());
}
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());
}
void SetPolicy(const power_manager::PowerManagementPolicy& policy) override {
POWER_LOG(USER) << "SetPolicy";
dbus::MethodCall method_call(
power_manager::kPowerManagerInterface,
power_manager::kSetPolicyMethod);
dbus::MessageWriter writer(&method_call);
if (!writer.AppendProtoAsArrayOfBytes(policy)) {
POWER_LOG(ERROR) << "Error calling " << power_manager::kSetPolicyMethod;
return;
}
power_manager_proxy_->CallMethod(
&method_call,
dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
dbus::ObjectProxy::EmptyResponseCallback());
}
void SetIsProjecting(bool is_projecting) override {
POWER_LOG(USER) << "SetIsProjecting";
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;
}
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_,
suspending_from_dark_resume_);
}
int GetNumPendingSuspendReadinessCallbacks() override {
return num_pending_suspend_readiness_callbacks_;
}
protected:
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::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::kSuspendImminentSignal,
base::Bind(
&PowerManagerClientImpl::HandleSuspendImminent,
weak_ptr_factory_.GetWeakPtr(), false),
base::Bind(&PowerManagerClientImpl::SignalConnected,
weak_ptr_factory_.GetWeakPtr()));
power_manager_proxy_->ConnectToSignal(
power_manager::kPowerManagerInterface,
power_manager::kSuspendDoneSignal,
base::Bind(&PowerManagerClientImpl::SuspendDoneReceived,
weak_ptr_factory_.GetWeakPtr()),
base::Bind(&PowerManagerClientImpl::SignalConnected,
weak_ptr_factory_.GetWeakPtr()));
power_manager_proxy_->ConnectToSignal(
power_manager::kPowerManagerInterface,
power_manager::kDarkSuspendImminentSignal,
base::Bind(
&PowerManagerClientImpl::HandleSuspendImminent,
weak_ptr_factory_.GetWeakPtr(), true),
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()));
RegisterSuspendDelays();
}
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) {
if (!success)
POWER_LOG(ERROR) << "Failed to connect to signal " << signal_name << ".";
}
// Makes 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(const std::string& old_owner,
const std::string& new_owner) {
POWER_LOG(EVENT) << "Power manager restarted. Old owner: "
<< (old_owner.empty() ? "[none]" : old_owner.c_str())
<< " New owner: "
<< (new_owner.empty() ? "[none]" : new_owner.c_str());
suspend_is_pending_ = false;
pending_suspend_id_ = -1;
suspending_from_dark_resume_ = false;
if (!new_owner.empty()) {
POWER_LOG(EVENT) << "Sending initial state to power manager";
RegisterSuspendDelays();
SetIsProjecting(last_is_projecting_);
FOR_EACH_OBSERVER(Observer, observers_, PowerManagerRestarted());
}
}
void BrightnessChangedReceived(dbus::Signal* signal) {
dbus::MessageReader reader(signal);
int32_t brightness_level = 0;
bool user_initiated = 0;
if (!(reader.PopInt32(&brightness_level) &&
reader.PopBool(&user_initiated))) {
POWER_LOG(ERROR) << "Brightness changed signal had incorrect parameters: "
<< signal->ToString();
return;
}
POWER_LOG(DEBUG) << "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)) {
POWER_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;
POWER_LOG(DEBUG) << "Device battery status received " << level << " for "
<< name << " at " << path;
FOR_EACH_OBSERVER(Observer, observers_,
PeripheralBatteryStatusReceived(path, name, level));
}
void PowerSupplyPollReceived(dbus::Signal* signal) {
POWER_LOG(DEBUG) << "Received power supply poll signal.";
dbus::MessageReader reader(signal);
power_manager::PowerSupplyProperties protobuf;
if (reader.PopArrayOfBytesAsProto(&protobuf)) {
HandlePowerSupplyProperties(protobuf);
} else {
POWER_LOG(ERROR) << "Unable to decode "
<< power_manager::kPowerSupplyPollSignal << " signal";
}
}
void OnGetPowerSupplyPropertiesMethod(dbus::Response* response) {
if (!response) {
POWER_LOG(ERROR) << "Error calling "
<< power_manager::kGetPowerSupplyPropertiesMethod;
return;
}
dbus::MessageReader reader(response);
power_manager::PowerSupplyProperties protobuf;
if (reader.PopArrayOfBytesAsProto(&protobuf)) {
HandlePowerSupplyProperties(protobuf);
} else {
POWER_LOG(ERROR) << "Unable to decode "
<< power_manager::kGetPowerSupplyPropertiesMethod
<< " response";
}
}
void OnGetScreenBrightnessPercent(
const GetScreenBrightnessPercentCallback& callback,
dbus::Response* response) {
if (!response) {
POWER_LOG(ERROR) << "Error calling "
<< power_manager::kGetScreenBrightnessPercentMethod;
return;
}
dbus::MessageReader reader(response);
double percent = 0.0;
if (!reader.PopDouble(&percent))
POWER_LOG(ERROR) << "Error reading response from powerd: "
<< response->ToString();
callback.Run(percent);
}
void HandlePowerSupplyProperties(
const power_manager::PowerSupplyProperties& proto) {
FOR_EACH_OBSERVER(Observer, observers_, PowerChanged(proto));
const bool on_battery = proto.external_power() ==
power_manager::PowerSupplyProperties_ExternalPower_DISCONNECTED;
base::PowerMonitorDeviceSource::SetPowerSource(on_battery);
}
void HandleRegisterSuspendDelayReply(bool dark_suspend,
const std::string& method_name,
dbus::Response* response) {
if (!response) {
POWER_LOG(ERROR) << "Error calling " << method_name;
return;
}
dbus::MessageReader reader(response);
power_manager::RegisterSuspendDelayReply protobuf;
if (!reader.PopArrayOfBytesAsProto(&protobuf)) {
POWER_LOG(ERROR) << "Unable to parse reply from " << method_name;
return;
}
if (dark_suspend) {
dark_suspend_delay_id_ = protobuf.delay_id();
has_dark_suspend_delay_id_ = true;
POWER_LOG(EVENT) << "Registered dark suspend delay "
<< dark_suspend_delay_id_;
} else {
suspend_delay_id_ = protobuf.delay_id();
has_suspend_delay_id_ = true;
POWER_LOG(EVENT) << "Registered suspend delay " << suspend_delay_id_;
}
}
void HandleSuspendImminent(bool in_dark_resume, dbus::Signal* signal) {
std::string signal_name = signal->GetMember();
if ((in_dark_resume && !has_dark_suspend_delay_id_) ||
(!in_dark_resume && !has_suspend_delay_id_)) {
POWER_LOG(ERROR) << "Received unrequested " << signal_name << " signal";
return;
}
dbus::MessageReader reader(signal);
power_manager::SuspendImminent proto;
if (!reader.PopArrayOfBytesAsProto(&proto)) {
POWER_LOG(ERROR) << "Unable to decode protocol buffer from "
<< signal_name << " signal";
return;
}
POWER_LOG(EVENT) << "Got " << signal_name
<< " signal announcing suspend attempt "
<< proto.suspend_id();
// If a previous suspend is pending from the same state we are currently in
// (fully powered on or in dark resume), then something's gone a little
// wonky.
if (suspend_is_pending_ && suspending_from_dark_resume_ == in_dark_resume) {
POWER_LOG(ERROR) << "Got " << signal_name
<< " signal about pending suspend attempt "
<< proto.suspend_id()
<< " while still waiting on attempt "
<< pending_suspend_id_;
}
pending_suspend_id_ = proto.suspend_id();
suspend_is_pending_ = true;
suspending_from_dark_resume_ = in_dark_resume;
num_pending_suspend_readiness_callbacks_ = 0;
if (suspending_from_dark_resume_)
FOR_EACH_OBSERVER(Observer, observers_, DarkSuspendImminent());
else
FOR_EACH_OBSERVER(Observer, observers_, SuspendImminent());
base::PowerMonitorDeviceSource::HandleSystemSuspending();
MaybeReportSuspendReadiness();
}
void SuspendDoneReceived(dbus::Signal* signal) {
dbus::MessageReader reader(signal);
power_manager::SuspendDone proto;
if (!reader.PopArrayOfBytesAsProto(&proto)) {
POWER_LOG(ERROR) << "Unable to decode protocol buffer from "
<< power_manager::kSuspendDoneSignal << " signal";
return;
}
const base::TimeDelta duration =
base::TimeDelta::FromInternalValue(proto.suspend_duration());
POWER_LOG(EVENT) << "Got " << power_manager::kSuspendDoneSignal
<< " signal:"
<< " suspend_id=" << proto.suspend_id()
<< " duration=" << duration.InSeconds() << " sec";
if (render_process_manager_delegate_)
render_process_manager_delegate_->SuspendDone();
FOR_EACH_OBSERVER(
PowerManagerClient::Observer, observers_, SuspendDone(duration));
base::PowerMonitorDeviceSource::HandleSystemResumed();
}
void IdleActionImminentReceived(dbus::Signal* signal) {
dbus::MessageReader reader(signal);
power_manager::IdleActionImminent proto;
if (!reader.PopArrayOfBytesAsProto(&proto)) {
POWER_LOG(ERROR) << "Unable to decode protocol buffer from "
<< power_manager::kIdleActionImminentSignal << " signal";
return;
}
FOR_EACH_OBSERVER(Observer, observers_,
IdleActionImminent(base::TimeDelta::FromInternalValue(
proto.time_until_idle_action())));
}
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)) {
POWER_LOG(ERROR) << "Unable to decode protocol buffer from "
<< power_manager::kInputEventSignal << " signal";
return;
}
base::TimeTicks timestamp =
base::TimeTicks::FromInternalValue(proto.timestamp());
POWER_LOG(USER) << "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: {
const bool down =
(proto.type() == power_manager::InputEvent_Type_POWER_BUTTON_DOWN);
FOR_EACH_OBSERVER(PowerManagerClient::Observer, observers_,
PowerButtonEventReceived(down, timestamp));
// Tell powerd that Chrome has handled power button presses.
if (down) {
dbus::MethodCall method_call(
power_manager::kPowerManagerInterface,
power_manager::kHandlePowerButtonAcknowledgmentMethod);
dbus::MessageWriter writer(&method_call);
writer.AppendInt64(proto.timestamp());
power_manager_proxy_->CallMethod(
&method_call,
dbus::ObjectProxy::TIMEOUT_USE_DEFAULT,
dbus::ObjectProxy::EmptyResponseCallback());
}
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 RegisterSuspendDelayImpl(
const std::string& method_name,
const power_manager::RegisterSuspendDelayRequest& protobuf_request,
dbus::ObjectProxy::ResponseCallback callback) {
dbus::MethodCall method_call(
power_manager::kPowerManagerInterface, method_name);
dbus::MessageWriter writer(&method_call);
if (!writer.AppendProtoAsArrayOfBytes(protobuf_request)) {
POWER_LOG(ERROR) << "Error constructing message for " << method_name;
return;
}
power_manager_proxy_->CallMethod(
&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, callback);
}
// Registers suspend delays with the power manager. This is usually only
// called at startup, but if the power manager restarts, we need to create new
// delays.
void RegisterSuspendDelays() {
// Throw out any old delay that was registered.
suspend_delay_id_ = -1;
has_suspend_delay_id_ = false;
dark_suspend_delay_id_ = -1;
has_dark_suspend_delay_id_ = false;
power_manager::RegisterSuspendDelayRequest protobuf_request;
base::TimeDelta timeout =
base::TimeDelta::FromMilliseconds(kSuspendDelayTimeoutMs);
protobuf_request.set_timeout(timeout.ToInternalValue());
protobuf_request.set_description(kSuspendDelayDescription);
RegisterSuspendDelayImpl(
power_manager::kRegisterSuspendDelayMethod,
protobuf_request,
base::Bind(&PowerManagerClientImpl::HandleRegisterSuspendDelayReply,
weak_ptr_factory_.GetWeakPtr(), false,
power_manager::kRegisterSuspendDelayMethod));
RegisterSuspendDelayImpl(
power_manager::kRegisterDarkSuspendDelayMethod,
protobuf_request,
base::Bind(&PowerManagerClientImpl::HandleRegisterSuspendDelayReply,
weak_ptr_factory_.GetWeakPtr(), true,
power_manager::kRegisterDarkSuspendDelayMethod));
}
// 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_t suspend_id, bool in_dark_resume) {
DCHECK(OnOriginThread());
if (!suspend_is_pending_ || suspend_id != pending_suspend_id_ ||
in_dark_resume != suspending_from_dark_resume_)
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;
std::string method_name;
int32_t delay_id = -1;
if (suspending_from_dark_resume_) {
method_name = power_manager::kHandleDarkSuspendReadinessMethod;
delay_id = dark_suspend_delay_id_;
} else {
method_name = power_manager::kHandleSuspendReadinessMethod;
delay_id = suspend_delay_id_;
}
if (render_process_manager_delegate_ && !suspending_from_dark_resume_)
render_process_manager_delegate_->SuspendImminent();
dbus::MethodCall method_call(
power_manager::kPowerManagerInterface, method_name);
dbus::MessageWriter writer(&method_call);
POWER_LOG(EVENT) << "Announcing readiness of suspend delay " << delay_id
<< " for suspend attempt " << pending_suspend_id_;
power_manager::SuspendReadinessInfo protobuf_request;
protobuf_request.set_delay_id(delay_id);
protobuf_request.set_suspend_id(pending_suspend_id_);
pending_suspend_id_ = -1;
suspend_is_pending_ = false;
if (!writer.AppendProtoAsArrayOfBytes(protobuf_request)) {
POWER_LOG(ERROR) << "Error constructing message for " << method_name;
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<Observer> observers_;
// The delay_id_ obtained from the RegisterSuspendDelay request.
int32_t suspend_delay_id_;
bool has_suspend_delay_id_;
// The delay_id_ obtained from the RegisterDarkSuspendDelay request.
int32_t dark_suspend_delay_id_;
bool has_dark_suspend_delay_id_;
// powerd-supplied ID corresponding to an imminent suspend attempt that is
// currently being delayed.
int32_t pending_suspend_id_;
bool suspend_is_pending_;
// Set to true when the suspend currently being delayed was triggered during a
// dark resume. Since |pending_suspend_id_| and |suspend_is_pending_| are
// both shared by normal and dark suspends, |suspending_from_dark_resume_|
// helps distinguish the context within which these variables are being used.
bool suspending_from_dark_resume_;
// 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_;
// Last state passed to SetIsProjecting().
bool last_is_projecting_;
// The delegate used to manage the power consumption of Chrome's renderer
// processes.
base::WeakPtr<RenderProcessManagerDelegate> render_process_manager_delegate_;
// 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<PowerManagerClientImpl> 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),
num_pending_suspend_readiness_callbacks_(0),
weak_ptr_factory_(this) {}
~PowerManagerClientStubImpl() override {}
int num_pending_suspend_readiness_callbacks() const {
return num_pending_suspend_readiness_callbacks_;
}
// PowerManagerClient overrides:
void Init(dbus::Bus* bus) override {
ParseCommandLineSwitch();
if (power_cycle_delay_ != base::TimeDelta()) {
update_timer_.Start(FROM_HERE,
power_cycle_delay_,
this,
&PowerManagerClientStubImpl::UpdateStatus);
}
}
void AddObserver(Observer* observer) override {
observers_.AddObserver(observer);
}
void RemoveObserver(Observer* observer) override {
observers_.RemoveObserver(observer);
}
bool HasObserver(const Observer* observer) const override {
return observers_.HasObserver(observer);
}
void SetRenderProcessManagerDelegate(
base::WeakPtr<RenderProcessManagerDelegate> delegate) override {}
void DecreaseScreenBrightness(bool allow_off) override {
POWER_LOG(USER) << "Requested to descrease screen brightness";
SetBrightness(brightness_ - 5.0, true);
}
void IncreaseScreenBrightness() override {
POWER_LOG(USER) << "Requested to increase screen brightness";
SetBrightness(brightness_ + 5.0, true);
}
void SetScreenBrightnessPercent(double percent, bool gradual) override {
POWER_LOG(USER) << "Requested to set screen brightness to " << percent
<< "% " << (gradual ? "gradually" : "instantaneously");
SetBrightness(percent, false);
}
void GetScreenBrightnessPercent(
const GetScreenBrightnessPercentCallback& callback) override {
POWER_LOG(USER) << "Requested to get screen brightness";
callback.Run(brightness_);
}
void DecreaseKeyboardBrightness() override {
POWER_LOG(USER) << "Requested to descrease keyboard brightness";
}
void IncreaseKeyboardBrightness() override {
POWER_LOG(USER) << "Requested to increase keyboard brightness";
}
void RequestStatusUpdate() override {
POWER_LOG(USER) << "Requested status update";
base::MessageLoop::current()->PostTask(
FROM_HERE, base::Bind(&PowerManagerClientStubImpl::UpdateStatus,
weak_ptr_factory_.GetWeakPtr()));
}
void RequestSuspend() override {}
void RequestRestart() override {}
void RequestShutdown() override {}
void NotifyUserActivity(power_manager::UserActivityType type) override {}
void NotifyVideoActivity(bool is_fullscreen) override {}
void SetPolicy(const power_manager::PowerManagementPolicy& policy) override {}
void SetIsProjecting(bool is_projecting) override {}
base::Closure GetSuspendReadinessCallback() override {
num_pending_suspend_readiness_callbacks_++;
return base::Bind(&PowerManagerClientStubImpl::HandleSuspendReadiness,
weak_ptr_factory_.GetWeakPtr());
}
int GetNumPendingSuspendReadinessCallbacks() override {
return num_pending_suspend_readiness_callbacks_;
}
private:
void HandleSuspendReadiness() {
num_pending_suspend_readiness_callbacks_--;
}
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<int64>(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<int>(brightness_);
FOR_EACH_OBSERVER(Observer, observers_,
BrightnessChanged(brightness_level, user_initiated));
}
void ParseCommandLineSwitch() {
base::CommandLine* command_line = base::CommandLine::ForCurrentProcess();
if (!command_line || !command_line->HasSwitch(switches::kPowerStub))
return;
std::string option_str =
command_line->GetSwitchValueASCII(switches::kPowerStub);
base::StringPairs string_pairs;
base::SplitStringIntoKeyValuePairs(option_str, '=', ',', &string_pairs);
for (base::StringPairs::iterator iter = string_pairs.begin();
iter != string_pairs.end(); ++iter) {
ParseOption((*iter).first, (*iter).second);
}
}
void ParseOption(const std::string& arg0, const std::string& arg1) {
if (arg0 == "cycle" || arg0 == "interactive") {
int seconds = 1;
if (!arg1.empty())
base::StringToInt(arg1, &seconds);
power_cycle_delay_ = base::TimeDelta::FromSeconds(seconds);
}
}
base::TimeDelta power_cycle_delay_; // Time over which to cycle power state
bool discharging_;
int battery_percentage_;
double brightness_;
int pause_count_;
int cycle_count_;
ObserverList<Observer> observers_;
base::RepeatingTimer<PowerManagerClientStubImpl> update_timer_;
power_manager::PowerSupplyProperties props_;
// Number of callbacks returned by GetSuspendReadinessCallback() but not yet
// invoked.
int num_pending_suspend_readiness_callbacks_;
// 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<PowerManagerClientStubImpl> 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