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chromium / chromium / chromium / 5b0874e7d87040fce31a6f862f1636d010025368 / . / chromeos / audio / cras_audio_handler.cc
blob: 1714b8552d8f1a65f89a048aa571d098d3622dda [file] [log] [blame]
// Copyright (c) 2013 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/audio/cras_audio_handler.h"
#include <algorithm>
#include <cmath>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/logging.h"
#include "chromeos/audio/audio_devices_pref_handler.h"
#include "chromeos/audio/audio_devices_pref_handler_stub.h"
#include "chromeos/dbus/dbus_thread_manager.h"
using std::max;
using std::min;
namespace chromeos {
namespace {
// Default value for unmuting, as a percent in the range [0, 100].
// Used when sound is unmuted, but volume was less than kMuteThresholdPercent.
const int kDefaultUnmuteVolumePercent = 4;
// Volume value which should be considered as muted in range [0, 100].
const int kMuteThresholdPercent = 1;
static CrasAudioHandler* g_cras_audio_handler = NULL;
bool IsSameAudioDevice(const AudioDevice& a, const AudioDevice& b) {
return a.id == b.id && a.is_input == b.is_input && a.type == b.type
&& a.device_name == b.device_name;
}
} // namespace
CrasAudioHandler::AudioObserver::AudioObserver() {
}
CrasAudioHandler::AudioObserver::~AudioObserver() {
}
void CrasAudioHandler::AudioObserver::OnOutputVolumeChanged() {
}
void CrasAudioHandler::AudioObserver::OnInputGainChanged() {
}
void CrasAudioHandler::AudioObserver::OnOutputMuteChanged() {
}
void CrasAudioHandler::AudioObserver::OnInputMuteChanged() {
}
void CrasAudioHandler::AudioObserver::OnAudioNodesChanged() {
}
void CrasAudioHandler::AudioObserver::OnActiveOutputNodeChanged() {
}
void CrasAudioHandler::AudioObserver::OnActiveInputNodeChanged() {
}
// static
void CrasAudioHandler::Initialize(
scoped_refptr<AudioDevicesPrefHandler> audio_pref_handler) {
CHECK(!g_cras_audio_handler);
g_cras_audio_handler = new CrasAudioHandler(audio_pref_handler);
}
// static
void CrasAudioHandler::InitializeForTesting() {
CHECK(!g_cras_audio_handler);
CrasAudioHandler::Initialize(new AudioDevicesPrefHandlerStub());
}
// static
void CrasAudioHandler::Shutdown() {
CHECK(g_cras_audio_handler);
delete g_cras_audio_handler;
g_cras_audio_handler = NULL;
}
// static
bool CrasAudioHandler::IsInitialized() {
return g_cras_audio_handler != NULL;
}
// static
CrasAudioHandler* CrasAudioHandler::Get() {
CHECK(g_cras_audio_handler)
<< "CrasAudioHandler::Get() called before Initialize().";
return g_cras_audio_handler;
}
void CrasAudioHandler::AddAudioObserver(AudioObserver* observer) {
observers_.AddObserver(observer);
}
void CrasAudioHandler::RemoveAudioObserver(AudioObserver* observer) {
observers_.RemoveObserver(observer);
}
bool CrasAudioHandler::IsOutputMuted() {
return output_mute_on_;
}
bool CrasAudioHandler::IsOutputMutedForDevice(uint64 device_id) {
const AudioDevice* device = GetDeviceFromId(device_id);
if (!device)
return false;
DCHECK(!device->is_input);
return audio_pref_handler_->GetMuteValue(*device);
}
bool CrasAudioHandler::IsOutputVolumeBelowDefaultMuteLevel() {
return output_volume_ <= kMuteThresholdPercent;
}
bool CrasAudioHandler::IsInputMuted() {
return input_mute_on_;
}
bool CrasAudioHandler::IsInputMutedForDevice(uint64 device_id) {
const AudioDevice* device = GetDeviceFromId(device_id);
if (!device)
return false;
DCHECK(device->is_input);
// We don't record input mute state for each device in the prefs,
// for any non-active input device, we assume mute is off.
if (device->id == active_input_node_id_)
return input_mute_on_;
return false;
}
int CrasAudioHandler::GetOutputDefaultVolumeMuteThreshold() {
return kMuteThresholdPercent;
}
int CrasAudioHandler::GetOutputVolumePercent() {
return output_volume_;
}
int CrasAudioHandler::GetOutputVolumePercentForDevice(uint64 device_id) {
if (device_id == active_output_node_id_) {
return output_volume_;
} else {
const AudioDevice* device = GetDeviceFromId(device_id);
return static_cast<int>(audio_pref_handler_->GetOutputVolumeValue(device));
}
}
int CrasAudioHandler::GetInputGainPercent() {
return input_gain_;
}
int CrasAudioHandler::GetInputGainPercentForDevice(uint64 device_id) {
if (device_id == active_input_node_id_) {
return input_gain_;
} else {
const AudioDevice* device = GetDeviceFromId(device_id);
return static_cast<int>(audio_pref_handler_->GetInputGainValue(device));
}
}
uint64 CrasAudioHandler::GetActiveOutputNode() const {
return active_output_node_id_;
}
uint64 CrasAudioHandler::GetActiveInputNode() const {
return active_input_node_id_;
}
void CrasAudioHandler::GetAudioDevices(AudioDeviceList* device_list) const {
device_list->clear();
for (AudioDeviceMap::const_iterator it = audio_devices_.begin();
it != audio_devices_.end(); ++it)
device_list->push_back(it->second);
}
bool CrasAudioHandler::GetActiveOutputDevice(AudioDevice* device) const {
const AudioDevice* active_device = GetDeviceFromId(active_output_node_id_);
if (!active_device || !device)
return false;
*device = *active_device;
return true;
}
bool CrasAudioHandler::has_alternative_input() const {
return has_alternative_input_;
}
bool CrasAudioHandler::has_alternative_output() const {
return has_alternative_output_;
}
void CrasAudioHandler::SetOutputVolumePercent(int volume_percent) {
volume_percent = min(max(volume_percent, 0), 100);
if (volume_percent <= kMuteThresholdPercent)
volume_percent = 0;
output_volume_ = volume_percent;
if (const AudioDevice* device = GetDeviceFromId(active_output_node_id_))
audio_pref_handler_->SetVolumeGainValue(*device, output_volume_);
SetOutputNodeVolume(active_output_node_id_, output_volume_);
FOR_EACH_OBSERVER(AudioObserver, observers_, OnOutputVolumeChanged());
}
// TODO: Rename the 'Percent' to something more meaningful.
void CrasAudioHandler::SetInputGainPercent(int gain_percent) {
// NOTE: We do not sanitize input gain values since the range is completely
// dependent on the device.
input_gain_ = gain_percent;
if (const AudioDevice* device = GetDeviceFromId(active_input_node_id_))
audio_pref_handler_->SetVolumeGainValue(*device, input_gain_);
SetInputNodeGain(active_input_node_id_, input_gain_);
FOR_EACH_OBSERVER(AudioObserver, observers_, OnInputGainChanged());
}
void CrasAudioHandler::AdjustOutputVolumeByPercent(int adjust_by_percent) {
SetOutputVolumePercent(output_volume_ + adjust_by_percent);
}
void CrasAudioHandler::SetOutputMute(bool mute_on) {
if (!SetOutputMuteInternal(mute_on))
return;
if (const AudioDevice* device = GetDeviceFromId(active_output_node_id_)) {
DCHECK(!device->is_input);
audio_pref_handler_->SetMuteValue(*device, output_mute_on_);
}
FOR_EACH_OBSERVER(AudioObserver, observers_, OnOutputMuteChanged());
}
void CrasAudioHandler::AdjustOutputVolumeToAudibleLevel() {
if (output_volume_ <= kMuteThresholdPercent) {
// Avoid the situation when sound has been unmuted, but the volume
// is set to a very low value, so user still can't hear any sound.
SetOutputVolumePercent(kDefaultUnmuteVolumePercent);
}
}
void CrasAudioHandler::SetInputMute(bool mute_on) {
if (!SetInputMuteInternal(mute_on))
return;
FOR_EACH_OBSERVER(AudioObserver, observers_, OnInputMuteChanged());
}
void CrasAudioHandler::SetActiveOutputNode(uint64 node_id) {
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->
SetActiveOutputNode(node_id);
FOR_EACH_OBSERVER(AudioObserver, observers_, OnActiveOutputNodeChanged());
}
void CrasAudioHandler::SetActiveInputNode(uint64 node_id) {
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->
SetActiveInputNode(node_id);
FOR_EACH_OBSERVER(AudioObserver, observers_, OnActiveInputNodeChanged());
}
void CrasAudioHandler::SetVolumeGainPercentForDevice(uint64 device_id,
int value) {
if (device_id == active_output_node_id_) {
SetOutputVolumePercent(value);
return;
} else if (device_id == active_input_node_id_) {
SetInputGainPercent(value);
return;
}
if (const AudioDevice* device = GetDeviceFromId(device_id)) {
if (!device->is_input) {
value = min(max(value, 0), 100);
if (value <= kMuteThresholdPercent)
value = 0;
}
audio_pref_handler_->SetVolumeGainValue(*device, value);
}
}
void CrasAudioHandler::SetMuteForDevice(uint64 device_id, bool mute_on) {
if (device_id == active_output_node_id_) {
SetOutputMute(mute_on);
return;
} else if (device_id == active_input_node_id_) {
VLOG(1) << "SetMuteForDevice sets active input device id="
<< "0x" << std::hex << device_id << " mute=" << mute_on;
SetInputMute(mute_on);
return;
}
const AudioDevice* device = GetDeviceFromId(device_id);
// Input device's mute state is not recorded in the pref. crbug.com/365050.
if (device && !device->is_input)
audio_pref_handler_->SetMuteValue(*device, mute_on);
}
void CrasAudioHandler::LogErrors() {
log_errors_ = true;
}
CrasAudioHandler::CrasAudioHandler(
scoped_refptr<AudioDevicesPrefHandler> audio_pref_handler)
: audio_pref_handler_(audio_pref_handler),
weak_ptr_factory_(this),
output_mute_on_(false),
input_mute_on_(false),
output_volume_(0),
input_gain_(0),
active_output_node_id_(0),
active_input_node_id_(0),
has_alternative_input_(false),
has_alternative_output_(false),
output_mute_locked_(false),
input_mute_locked_(false),
log_errors_(false) {
if (!audio_pref_handler.get())
return;
// If the DBusThreadManager or the CrasAudioClient aren't available, there
// isn't much we can do. This should only happen when running tests.
if (!chromeos::DBusThreadManager::IsInitialized() ||
!chromeos::DBusThreadManager::Get() ||
!chromeos::DBusThreadManager::Get()->GetCrasAudioClient())
return;
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->AddObserver(this);
audio_pref_handler_->AddAudioPrefObserver(this);
if (chromeos::DBusThreadManager::Get()->GetSessionManagerClient()) {
chromeos::DBusThreadManager::Get()->GetSessionManagerClient()->
AddObserver(this);
}
InitializeAudioState();
}
CrasAudioHandler::~CrasAudioHandler() {
if (!chromeos::DBusThreadManager::IsInitialized() ||
!chromeos::DBusThreadManager::Get() ||
!chromeos::DBusThreadManager::Get()->GetCrasAudioClient())
return;
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->
RemoveObserver(this);
chromeos::DBusThreadManager::Get()->GetSessionManagerClient()->
RemoveObserver(this);
if (audio_pref_handler_.get())
audio_pref_handler_->RemoveAudioPrefObserver(this);
audio_pref_handler_ = NULL;
}
void CrasAudioHandler::AudioClientRestarted() {
// Make sure the logging is enabled in case cras server
// restarts after crashing.
LogErrors();
InitializeAudioState();
}
void CrasAudioHandler::NodesChanged() {
// Refresh audio nodes data.
GetNodes();
}
void CrasAudioHandler::ActiveOutputNodeChanged(uint64 node_id) {
if (active_output_node_id_ == node_id)
return;
// Active audio output device should always be changed by chrome.
// During system boot, cras may change active input to unknown device 0x1,
// we don't need to log it, since it is not an valid device.
if (GetDeviceFromId(node_id)) {
LOG_IF(WARNING, log_errors_)
<< "Active output node changed unexpectedly by system node_id="
<< "0x" << std::hex << node_id;
}
}
void CrasAudioHandler::ActiveInputNodeChanged(uint64 node_id) {
if (active_input_node_id_ == node_id)
return;
// Active audio input device should always be changed by chrome.
// During system boot, cras may change active input to unknown device 0x2,
// we don't need to log it, since it is not an valid device.
if (GetDeviceFromId(node_id)) {
LOG_IF(WARNING, log_errors_)
<< "Active input node changed unexpectedly by system node_id="
<< "0x" << std::hex << node_id;
}
}
void CrasAudioHandler::OnAudioPolicyPrefChanged() {
ApplyAudioPolicy();
}
void CrasAudioHandler::EmitLoginPromptVisibleCalled() {
// Enable logging after cras server is started, which will be after
// EmitLoginPromptVisible.
LogErrors();
}
const AudioDevice* CrasAudioHandler::GetDeviceFromId(uint64 device_id) const {
AudioDeviceMap::const_iterator it = audio_devices_.find(device_id);
if (it == audio_devices_.end())
return NULL;
return &(it->second);
}
void CrasAudioHandler::SetupAudioInputState() {
// Set the initial audio state to the ones read from audio prefs.
const AudioDevice* device = GetDeviceFromId(active_input_node_id_);
if (!device) {
LOG_IF(ERROR, log_errors_)
<< "Can't set up audio state for unknown input device id ="
<< "0x" << std::hex << active_input_node_id_;
return;
}
input_gain_ = audio_pref_handler_->GetInputGainValue(device);
VLOG(1) << "SetupAudioInputState for active device id="
<< "0x" << std::hex << device->id << " mute=" << input_mute_on_;
SetInputMuteInternal(input_mute_on_);
// TODO(rkc,jennyz): Set input gain once we decide on how to store
// the gain values since the range and step are both device specific.
}
void CrasAudioHandler::SetupAudioOutputState() {
const AudioDevice* device = GetDeviceFromId(active_output_node_id_);
if (!device) {
LOG_IF(ERROR, log_errors_)
<< "Can't set up audio state for unknown output device id ="
<< "0x" << std::hex << active_output_node_id_;
return;
}
DCHECK(!device->is_input);
output_mute_on_ = audio_pref_handler_->GetMuteValue(*device);
output_volume_ = audio_pref_handler_->GetOutputVolumeValue(device);
SetOutputMuteInternal(output_mute_on_);
SetOutputNodeVolume(active_output_node_id_, output_volume_);
}
void CrasAudioHandler::InitializeAudioState() {
ApplyAudioPolicy();
GetNodes();
}
void CrasAudioHandler::ApplyAudioPolicy() {
output_mute_locked_ = false;
if (!audio_pref_handler_->GetAudioOutputAllowedValue()) {
// Mute the device, but do not update the preference.
SetOutputMuteInternal(true);
output_mute_locked_ = true;
} else {
// Restore the mute state.
const AudioDevice* device = GetDeviceFromId(active_output_node_id_);
if (device)
SetOutputMuteInternal(audio_pref_handler_->GetMuteValue(*device));
}
input_mute_locked_ = false;
if (audio_pref_handler_->GetAudioCaptureAllowedValue()) {
VLOG(1) << "Audio input allowed by policy, sets input id="
<< "0x" << std::hex << active_input_node_id_ << " mute=false";
SetInputMuteInternal(false);
} else {
VLOG(0) << "Audio input NOT allowed by policy, sets input id="
<< "0x" << std::hex << active_input_node_id_ << " mute=true";
SetInputMuteInternal(true);
input_mute_locked_ = true;
}
}
void CrasAudioHandler::SetOutputNodeVolume(uint64 node_id, int volume) {
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->
SetOutputNodeVolume(node_id, volume);
}
bool CrasAudioHandler::SetOutputMuteInternal(bool mute_on) {
if (output_mute_locked_)
return false;
output_mute_on_ = mute_on;
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->
SetOutputUserMute(mute_on);
return true;
}
void CrasAudioHandler::SetInputNodeGain(uint64 node_id, int gain) {
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->
SetInputNodeGain(node_id, gain);
}
bool CrasAudioHandler::SetInputMuteInternal(bool mute_on) {
if (input_mute_locked_)
return false;
VLOG(1) << "SetInputMuteInternal sets active input device id="
<< "0x" << std::hex << active_input_node_id_ << " mute=" << mute_on;
input_mute_on_ = mute_on;
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->
SetInputMute(mute_on);
return true;
}
void CrasAudioHandler::GetNodes() {
chromeos::DBusThreadManager::Get()->GetCrasAudioClient()->GetNodes(
base::Bind(&CrasAudioHandler::HandleGetNodes,
weak_ptr_factory_.GetWeakPtr()),
base::Bind(&CrasAudioHandler::HandleGetNodesError,
weak_ptr_factory_.GetWeakPtr()));
}
bool CrasAudioHandler::ChangeActiveDevice(const AudioDevice& new_active_device,
uint64* current_active_node_id) {
// If the device we want to switch to is already the current active device,
// do nothing.
if (new_active_device.active &&
new_active_device.id == *current_active_node_id) {
return false;
}
// Reset all other input or output devices' active status. The active audio
// device from the previous user session can be remembered by cras, but not
// in chrome. see crbug.com/273271.
for (AudioDeviceMap::iterator it = audio_devices_.begin();
it != audio_devices_.end(); ++it) {
if (it->second.is_input == new_active_device.is_input &&
it->second.id != new_active_device.id)
it->second.active = false;
}
// Set the current active input/output device to the new_active_device.
*current_active_node_id = new_active_device.id;
audio_devices_[*current_active_node_id].active = true;
return true;
}
bool CrasAudioHandler::NonActiveDeviceUnplugged(
size_t old_devices_size,
size_t new_devices_size,
uint64 current_active_node) {
return (new_devices_size < old_devices_size &&
GetDeviceFromId(current_active_node));
}
void CrasAudioHandler::SwitchToDevice(const AudioDevice& device) {
if (device.is_input) {
if (!ChangeActiveDevice(device, &active_input_node_id_))
return;
SetupAudioInputState();
SetActiveInputNode(active_input_node_id_);
} else {
if (!ChangeActiveDevice(device, &active_output_node_id_))
return;
SetupAudioOutputState();
SetActiveOutputNode(active_output_node_id_);
}
}
bool CrasAudioHandler::HasDeviceChange(const AudioNodeList& new_nodes,
bool is_input) {
size_t num_old_devices = 0;
size_t num_new_devices = 0;
for (AudioDeviceMap::const_iterator it = audio_devices_.begin();
it != audio_devices_.end(); ++it) {
if (is_input == it->second.is_input)
++num_old_devices;
}
for (AudioNodeList::const_iterator it = new_nodes.begin();
it != new_nodes.end(); ++it) {
if (is_input == it->is_input) {
++num_new_devices;
// Look to see if the new device not in the old device list.
AudioDevice device(*it);
if (FoundNewDevice(device))
return true;
}
}
return num_old_devices != num_new_devices;
}
bool CrasAudioHandler::FoundNewDevice(const AudioDevice& device) {
const AudioDevice* device_found = GetDeviceFromId(device.id);
if (!device_found)
return true;
if (!IsSameAudioDevice(device, *device_found)) {
LOG(WARNING) << "Different Audio devices with same id:"
<< " new device: " << device.ToString()
<< " old device: " << device_found->ToString();
return true;
}
return false;
}
// Sanitize the audio node data. When a device is plugged in or unplugged, there
// should be only one NodesChanged signal from cras. However, we've observed
// the case that multiple NodesChanged signals being sent from cras. After the
// first NodesChanged being processed, chrome sets the active node properly.
// However, the NodesChanged received after the first one, can return stale
// nodes data in GetNodes call, the staled nodes data does not reflect the
// latest active node state. Since active audio node should only be set by
// chrome, the inconsistent data from cras could be the result of stale data
// described above and sanitized.
AudioDevice CrasAudioHandler::GetSanitizedAudioDevice(const AudioNode& node) {
AudioDevice device(node);
if (device.is_input) {
if (device.active && device.id != active_input_node_id_) {
LOG(WARNING) << "Stale audio device data, should not be active: "
<< " device = " << device.ToString()
<< " current active input node id = 0x" << std::hex
<< active_input_node_id_;
device.active = false;
} else if (device.id == active_input_node_id_ && !device.active) {
LOG(WARNING) << "Stale audio device data, should be active:"
<< " device = " << device.ToString()
<< " current active input node id = 0x" << std::hex
<< active_input_node_id_;
device.active = true;
}
} else {
if (device.active && device.id != active_output_node_id_) {
LOG(WARNING) << "Stale audio device data, should not be active: "
<< " device = " << device.ToString()
<< " current active output node id = 0x" << std::hex
<< active_output_node_id_;
device.active = false;
} else if (device.id == active_output_node_id_ && !device.active) {
LOG(WARNING) << "Stale audio device data, should be active:"
<< " device = " << device.ToString()
<< " current active output node id = 0x" << std::hex
<< active_output_node_id_;
device.active = true;
}
}
return device;
}
void CrasAudioHandler::UpdateDevicesAndSwitchActive(
const AudioNodeList& nodes) {
size_t old_audio_devices_size = audio_devices_.size();
bool output_devices_changed = HasDeviceChange(nodes, false);
bool input_devices_changed = HasDeviceChange(nodes, true);
audio_devices_.clear();
has_alternative_input_ = false;
has_alternative_output_ = false;
while (!input_devices_pq_.empty())
input_devices_pq_.pop();
while (!output_devices_pq_.empty())
output_devices_pq_.pop();
for (size_t i = 0; i < nodes.size(); ++i) {
AudioDevice device = GetSanitizedAudioDevice(nodes[i]);
audio_devices_[device.id] = device;
if (!has_alternative_input_ &&
device.is_input &&
device.type != AUDIO_TYPE_INTERNAL_MIC) {
has_alternative_input_ = true;
} else if (!has_alternative_output_ &&
!device.is_input &&
device.type != AUDIO_TYPE_INTERNAL_SPEAKER) {
has_alternative_output_ = true;
}
if (device.is_input)
input_devices_pq_.push(device);
else
output_devices_pq_.push(device);
}
// If audio nodes change is caused by unplugging some non-active audio
// devices, the previously set active audio device will stay active.
// Otherwise, switch to a new active audio device according to their priority.
if (input_devices_changed &&
!NonActiveDeviceUnplugged(old_audio_devices_size,
audio_devices_.size(),
active_input_node_id_) &&
!input_devices_pq_.empty())
SwitchToDevice(input_devices_pq_.top());
if (output_devices_changed &&
!NonActiveDeviceUnplugged(old_audio_devices_size,
audio_devices_.size(),
active_output_node_id_) &&
!output_devices_pq_.empty()) {
SwitchToDevice(output_devices_pq_.top());
}
}
void CrasAudioHandler::HandleGetNodes(const chromeos::AudioNodeList& node_list,
bool success) {
if (!success) {
LOG_IF(ERROR, log_errors_) << "Failed to retrieve audio nodes data";
return;
}
UpdateDevicesAndSwitchActive(node_list);
FOR_EACH_OBSERVER(AudioObserver, observers_, OnAudioNodesChanged());
}
void CrasAudioHandler::HandleGetNodesError(const std::string& error_name,
const std::string& error_msg) {
LOG_IF(ERROR, log_errors_) << "Failed to call GetNodes: "
<< error_name << ": " << error_msg;
}
} // namespace chromeos