chromeos/audio/cras_audio_handler.h - chromium/src - Git at Google

 // 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.

 #ifndef CHROMEOS_AUDIO_CRAS_AUDIO_HANDLER_H_
 #define CHROMEOS_AUDIO_CRAS_AUDIO_HANDLER_H_

 #include <stddef.h>
 #include <stdint.h>
 #include <queue>

 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/weak_ptr.h"
 #include "base/observer_list.h"
 #include "base/timer/timer.h"
 #include "chromeos/audio/audio_device.h"
 #include "chromeos/audio/audio_devices_pref_handler.h"
 #include "chromeos/audio/audio_pref_observer.h"
 #include "chromeos/dbus/audio_node.h"
 #include "chromeos/dbus/cras_audio_client.h"
 #include "chromeos/dbus/session_manager_client.h"
 #include "chromeos/dbus/volume_state.h"

 class PrefRegistrySimple;
 class PrefService;

 namespace chromeos {

 class AudioDevicesPrefHandler;

 class CHROMEOS_EXPORT CrasAudioHandler : public CrasAudioClient::Observer,
                                          public AudioPrefObserver,
                                          public SessionManagerClient::Observer {
  public:
   typedef std::priority_queue<AudioDevice,
                               std::vector<AudioDevice>,
                               AudioDeviceCompare> AudioDevicePriorityQueue;
   typedef std::vector<uint64_t> NodeIdList;

   class AudioObserver {
    public:
     // Called when an active output volume changed.
     virtual void OnOutputNodeVolumeChanged(uint64_t node_id, int volume);

     // Called when output mute state changed.
     // |mute_on|: True if output is muted.
     // |system_adjust|: True if the mute state is adjusted by the system
     // automatically(i.e. not by user). UI should reflect the system's mute
     // state, but it should not be too loud, e.g., the volume pop up window
     // should not be triggered.
     virtual void OnOutputMuteChanged(bool mute_on, bool system_adjust);

     // Called when active input node's gain changed.
     virtual void OnInputNodeGainChanged(uint64_t node_id, int gain);

     // Called when input mute state changed.
     virtual void OnInputMuteChanged(bool mute_on);

     // Called when audio nodes changed.
     virtual void OnAudioNodesChanged();

     // Called when active audio node changed.
     virtual void OnActiveOutputNodeChanged();

     // Called when active audio input node changed.
     virtual void OnActiveInputNodeChanged();

     // Called when output channel remixing changed.
     virtual void OnOuputChannelRemixingChanged(bool mono_on);

    protected:
     AudioObserver();
     virtual ~AudioObserver();
     DISALLOW_COPY_AND_ASSIGN(AudioObserver);
   };

   enum DeviceActivateType {
     ACTIVATE_BY_PRIORITY = 0,
     ACTIVATE_BY_USER,
     ACTIVATE_BY_RESTORE_PREVIOUS_STATE,
   };

   // Sets the global instance. Must be called before any calls to Get().
   static void Initialize(
       scoped_refptr<AudioDevicesPrefHandler> audio_pref_handler);

   // Sets the global instance for testing.
   static void InitializeForTesting();

   // Destroys the global instance.
   static void Shutdown();

   // Returns true if the global instance is initialized.
   static bool IsInitialized();

   // Gets the global instance. Initialize must be called first.
   static CrasAudioHandler* Get();

   // Adds an audio observer.
   virtual void AddAudioObserver(AudioObserver* observer);

   // Removes an audio observer.
   virtual void RemoveAudioObserver(AudioObserver* observer);

   // Returns true if keyboard mic exists.
   virtual bool HasKeyboardMic();

   // Returns true if audio output is muted for the system.
   virtual bool IsOutputMuted();

   // Returns true if audio output is muted for a device.
   virtual bool IsOutputMutedForDevice(uint64_t device_id);

   // Returns true if audio input is muted.
   virtual bool IsInputMuted();

   // Returns true if audio input is muted for a device.
   virtual bool IsInputMutedForDevice(uint64_t device_id);

   // Returns true if the output volume is below the default mute volume level.
   virtual bool IsOutputVolumeBelowDefaultMuteLevel();

   // Returns volume level in 0-100% range at which the volume should be muted.
   virtual int GetOutputDefaultVolumeMuteThreshold();

   // Gets volume level in 0-100% range (0 being pure silence) for the current
   // active node.
   virtual int GetOutputVolumePercent();

   // Gets volume level in 0-100% range (0 being pure silence) for a device.
   virtual int GetOutputVolumePercentForDevice(uint64_t device_id);

   // Gets gain level in 0-100% range (0 being pure silence) for the current
   // active node.
   virtual int GetInputGainPercent();

   // Gets volume level in 0-100% range (0 being pure silence) for a device.
   virtual int GetInputGainPercentForDevice(uint64_t device_id);

   // Returns node_id of the primary active output node.
   virtual uint64_t GetPrimaryActiveOutputNode() const;

   // Returns the node_id of the primary active input node.
   virtual uint64_t GetPrimaryActiveInputNode() const;

   // Gets the audio devices back in |device_list|.
   // This call can be invoked from I/O thread or UI thread because
   // it does not need to access CrasAudioClient on DBus.
   virtual void GetAudioDevices(AudioDeviceList* device_list) const;

   virtual bool GetPrimaryActiveOutputDevice(AudioDevice* device) const;

   // Whether there is alternative input/output audio device.
   virtual bool has_alternative_input() const;
   virtual bool has_alternative_output() const;

   // Sets all active output devices' volume level to |volume_percent|, whose
   // range is from 0-100%.
   virtual void SetOutputVolumePercent(int volume_percent);

   // Sets all active input devices' gain level to |gain_percent|, whose range is
   // from 0-100%.
   virtual void SetInputGainPercent(int gain_percent);

   // Adjusts all active output devices' volume up (positive percentage) or down
   // (negative percentage).
   virtual void AdjustOutputVolumeByPercent(int adjust_by_percent);

   // Adjusts all active output devices' volume to a minimum audible level if it
   // is too low.
   virtual void AdjustOutputVolumeToAudibleLevel();

   // Mutes or unmutes audio output device.
   virtual void SetOutputMute(bool mute_on);

   // Mutes or unmutes audio input device.
   virtual void SetInputMute(bool mute_on);

   // Switches active audio device to |device|. |activate_by| indicates why
   // the device is switched to active: by user's manual choice, by priority,
   // or by restoring to its previous active state.
   virtual void SwitchToDevice(const AudioDevice& device,
                               bool notify,
                               DeviceActivateType activate_by);

   // Sets volume/gain level for a device.
   virtual void SetVolumeGainPercentForDevice(uint64_t device_id, int value);

   // Sets the mute for device.
   virtual void SetMuteForDevice(uint64_t device_id, bool mute_on);

   // Activates or deactivates keyboard mic if there's one.
   virtual void SetKeyboardMicActive(bool active);

   // Changes the active nodes to the nodes specified by |new_active_ids|.
   // The caller can pass in the "complete" active node list of either input
   // nodes, or output nodes, or both. If only input nodes are passed in,
   // it will only change the input nodes' active status, output nodes will NOT
   // be changed; similarly for the case if only output nodes are passed.
   // If the nodes specified in |new_active_ids| are already active, they will
   // remain active. Otherwise, the old active nodes will be de-activated before
   // we activate the new nodes with the same type(input/output).
   virtual void ChangeActiveNodes(const NodeIdList& new_active_ids);

   // Swaps the left and right channel of the internal speaker.
   // Swap the left and right channel if |swap| is true; otherwise, swap the left
   // and right channel back to the normal mode.
   // If the feature is not supported on the device, nothing happens.
   virtual void SwapInternalSpeakerLeftRightChannel(bool swap);

   // Accessibility audio setting: sets the output mono or not.
   virtual void SetOutputMono(bool mono_on);

   // Returns true if output mono is enabled.
   virtual bool IsOutputMonoEnabled() const;

   // Enables error logging.
   virtual void LogErrors();

   // If necessary, sets the starting point for re-discovering the active HDMI
   // output device caused by device entering/exiting docking mode, HDMI display
   // changing resolution, or chromeos device suspend/resume. If
   // |force_rediscovering| is true, it will force to set the starting point for
   // re-discovering the active HDMI output device again if it has been in the
   // middle of rediscovering the HDMI active output device.
   virtual void SetActiveHDMIOutoutRediscoveringIfNecessary(
       bool force_rediscovering);

   virtual const AudioDevice* GetDeviceFromId(uint64_t device_id) const;

  protected:
   explicit CrasAudioHandler(
       scoped_refptr<AudioDevicesPrefHandler> audio_pref_handler);
   ~CrasAudioHandler() override;

  private:
   friend class CrasAudioHandlerTest;

   // CrasAudioClient::Observer overrides.
   void AudioClientRestarted() override;
   void NodesChanged() override;
   void ActiveOutputNodeChanged(uint64_t node_id) override;
   void ActiveInputNodeChanged(uint64_t node_id) override;
   void OutputNodeVolumeChanged(uint64_t node_id, int volume) override;

   // AudioPrefObserver overrides.
   void OnAudioPolicyPrefChanged() override;

   // SessionManagerClient::Observer overrides.
   void EmitLoginPromptVisibleCalled() override;

   // Sets the |active_device| to be active.
   // If |notify|, notifies Active*NodeChange.
   // Saves device active states in prefs. |activate_by| indicates how
   // the device was activated.
   void SetActiveDevice(const AudioDevice& active_device,
                        bool notify,
                        DeviceActivateType activate_by);

   // Saves |device|'s state in pref. If |active| is true, |activate_by|
   // indicates how |device| is activated.
   void SaveDeviceState(const AudioDevice& device,
                        bool active,
                        DeviceActivateType activate_by);

   // Sets up the audio device state based on audio policy and audio settings
   // saved in prefs.
   void SetupAudioInputState();
   void SetupAudioOutputState();

   // Sets up the additional active audio node's state.
   void SetupAdditionalActiveAudioNodeState(uint64_t node_id);

   const AudioDevice* GetDeviceFromStableDeviceId(
       uint64_t stable_device_id) const;
   const AudioDevice* GetKeyboardMic() const;

   // Initializes audio state, which should only be called when CrasAudioHandler
   // is created or cras audio client is restarted.
   void InitializeAudioState();

   void InitializeAudioAfterCrasServiceAvailable(bool service_is_available);

   // Applies the audio muting policies whenever the user logs in or policy
   // change notification is received.
   void ApplyAudioPolicy();

   // Sets output volume of |node_id| to |volume|.
   void SetOutputNodeVolume(uint64_t node_id, int volume);

   void SetOutputNodeVolumePercent(uint64_t node_id, int volume_percent);

   // Sets output mute state to |mute_on| internally, returns true if output mute
   // is set.
   bool SetOutputMuteInternal(bool mute_on);

   // Sets input gain of |node_id| to |gain|.
   void SetInputNodeGain(uint64_t node_id, int gain);

   void SetInputNodeGainPercent(uint64_t node_id, int gain_percent);

   // Sets input mute state to |mute_on| internally.
   void SetInputMuteInternal(bool mute_on);

   // Calling dbus to get nodes data.
   void GetNodes();

   // Updates the current audio nodes list and switches the active device
   // if needed.
   void UpdateDevicesAndSwitchActive(const AudioNodeList& nodes);

   // Returns true if the current active device is changed to
   // |new_active_device|.
   bool ChangeActiveDevice(const AudioDevice& new_active_device);

   // Returns true if there are any device changes for input or output
   // specified by |is_input|, by comparing |audio_devices_| with |new_nodes|.
   // Passes the new nodes discovered in *|new_discovered|.
   // *|device_removed| indicates if any devices have been removed.
   // *|active_device_removed| indicates if the current active device has been
   // removed.
   bool HasDeviceChange(const AudioNodeList& new_nodes,
                        bool is_input,
                        AudioDevicePriorityQueue* new_discovered,
                        bool* device_removed,
                        bool* active_device_removed);

   // Handles dbus callback for GetNodes.
   void HandleGetNodes(const chromeos::AudioNodeList& node_list, bool success);

   // Handles the dbus error callback.
   void HandleGetNodesError(const std::string& error_name,
                            const std::string& error_msg);

   // Adds an active node.
   // If there is no active node, |node_id| will be switched to become the
   // primary active node. Otherwise, it will be added as an additional active
   // node.
   void AddActiveNode(uint64_t node_id, bool notify);

   // Adds |node_id| into additional active nodes.
   void AddAdditionalActiveNode(uint64_t node_id, bool notify);

   // Removes |node_id| from additional active nodes.
   void RemoveActiveNodeInternal(uint64_t node_id, bool notify);

   void UpdateAudioAfterHDMIRediscoverGracePeriod();

   bool IsHDMIPrimaryOutputDevice() const;

   void StartHDMIRediscoverGracePeriod();

   bool hdmi_rediscovering() const { return hdmi_rediscovering_; }

   void SetHDMIRediscoverGracePeriodForTesting(int duration_in_ms);

   enum DeviceStatus {
     OLD_DEVICE,
     NEW_DEVICE,
     CHANGED_DEVICE,
   };

   // Checks if |device| is a newly discovered, changed, or existing device for
   // the nodes sent from NodesChanged signal.
   DeviceStatus CheckDeviceStatus(const AudioDevice& device);

   void NotifyActiveNodeChanged(bool is_input);

   // Returns true if it retrieves an active audio device from user preference
   // among the current |audio_devices_|.
   bool GetActiveDeviceFromUserPref(bool is_input, AudioDevice* device);

   // Handles either input or output device changes, specified by |is_input|.
   void HandleAudioDeviceChange(bool is_input,
                                const AudioDevicePriorityQueue& devices_pq,
                                const AudioDevicePriorityQueue& hotplug_nodes,
                                bool has_device_change,
                                bool has_device_removed,
                                bool active_device_removed);

   // Handles non-hotplug nodes change cases.
   void HandleNonHotplugNodesChange(
       bool is_input,
       const AudioDevicePriorityQueue& hotplug_nodes,
       bool has_device_change,
       bool has_device_removed,
       bool active_device_removed);

   // Handles the regular user hotplug case.
   void HandleHotPlugDevice(
       const AudioDevice& hotplug_device,
       const AudioDevicePriorityQueue& device_priority_queue);

   void SwitchToTopPriorityDevice(bool is_input);

   // Switch to previous active device if it is found, otherwise, switch
   // to the top priority device.
   void SwitchToPreviousActiveDeviceIfAvailable(bool is_input);

   scoped_refptr<AudioDevicesPrefHandler> audio_pref_handler_;
   base::ObserverList<AudioObserver> observers_;

   // Audio data and state.
   AudioDeviceMap audio_devices_;

   AudioDevicePriorityQueue input_devices_pq_;
   AudioDevicePriorityQueue output_devices_pq_;

   bool output_mute_on_;
   bool input_mute_on_;
   int output_volume_;
   int input_gain_;
   uint64_t active_output_node_id_;
   uint64_t active_input_node_id_;
   bool has_alternative_input_;
   bool has_alternative_output_;

   bool output_mute_locked_;

   // Audio output channel counts.
   int32_t output_channels_;
   bool output_mono_on_;

   // Failures are not logged at startup, since CRAS may not be running yet.
   bool log_errors_;

   // Timer for HDMI re-discovering grace period.
   base::OneShotTimer hdmi_rediscover_timer_;
   int hdmi_rediscover_grace_period_duration_in_ms_;
   bool hdmi_rediscovering_;

   bool cras_service_available_ = false;

   base::WeakPtrFactory<CrasAudioHandler> weak_ptr_factory_;

   DISALLOW_COPY_AND_ASSIGN(CrasAudioHandler);
 };

 }  // namespace chromeos

 #endif  // CHROMEOS_AUDIO_CRAS_AUDIO_HANDLER_H_
	// 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.

	#ifndef CHROMEOS_AUDIO_CRAS_AUDIO_HANDLER_H_
	#define CHROMEOS_AUDIO_CRAS_AUDIO_HANDLER_H_

	#include <stddef.h>
	#include <stdint.h>
	#include <queue>

	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/weak_ptr.h"
	#include "base/observer_list.h"
	#include "base/timer/timer.h"
	#include "chromeos/audio/audio_device.h"
	#include "chromeos/audio/audio_devices_pref_handler.h"
	#include "chromeos/audio/audio_pref_observer.h"
	#include "chromeos/dbus/audio_node.h"
	#include "chromeos/dbus/cras_audio_client.h"
	#include "chromeos/dbus/session_manager_client.h"
	#include "chromeos/dbus/volume_state.h"

	class PrefRegistrySimple;
	class PrefService;

	namespace chromeos {

	class AudioDevicesPrefHandler;

	class CHROMEOS_EXPORT CrasAudioHandler : public CrasAudioClient::Observer,
	public AudioPrefObserver,
	public SessionManagerClient::Observer {
	public:
	typedef std::priority_queue<AudioDevice,
	std::vector<AudioDevice>,
	AudioDeviceCompare> AudioDevicePriorityQueue;
	typedef std::vector<uint64_t> NodeIdList;

	class AudioObserver {
	public:
	// Called when an active output volume changed.
	virtual void OnOutputNodeVolumeChanged(uint64_t node_id, int volume);

	// Called when output mute state changed.
	// \|mute_on\|: True if output is muted.
	// \|system_adjust\|: True if the mute state is adjusted by the system
	// automatically(i.e. not by user). UI should reflect the system's mute
	// state, but it should not be too loud, e.g., the volume pop up window
	// should not be triggered.
	virtual void OnOutputMuteChanged(bool mute_on, bool system_adjust);

	// Called when active input node's gain changed.
	virtual void OnInputNodeGainChanged(uint64_t node_id, int gain);

	// Called when input mute state changed.
	virtual void OnInputMuteChanged(bool mute_on);

	// Called when audio nodes changed.
	virtual void OnAudioNodesChanged();

	// Called when active audio node changed.
	virtual void OnActiveOutputNodeChanged();

	// Called when active audio input node changed.
	virtual void OnActiveInputNodeChanged();

	// Called when output channel remixing changed.
	virtual void OnOuputChannelRemixingChanged(bool mono_on);

	protected:
	AudioObserver();
	virtual ~AudioObserver();
	DISALLOW_COPY_AND_ASSIGN(AudioObserver);
	};

	enum DeviceActivateType {
	ACTIVATE_BY_PRIORITY = 0,
	ACTIVATE_BY_USER,
	ACTIVATE_BY_RESTORE_PREVIOUS_STATE,
	};

	// Sets the global instance. Must be called before any calls to Get().
	static void Initialize(
	scoped_refptr<AudioDevicesPrefHandler> audio_pref_handler);

	// Sets the global instance for testing.
	static void InitializeForTesting();

	// Destroys the global instance.
	static void Shutdown();

	// Returns true if the global instance is initialized.
	static bool IsInitialized();

	// Gets the global instance. Initialize must be called first.
	static CrasAudioHandler* Get();

	// Adds an audio observer.
	virtual void AddAudioObserver(AudioObserver* observer);

	// Removes an audio observer.
	virtual void RemoveAudioObserver(AudioObserver* observer);

	// Returns true if keyboard mic exists.
	virtual bool HasKeyboardMic();

	// Returns true if audio output is muted for the system.
	virtual bool IsOutputMuted();

	// Returns true if audio output is muted for a device.
	virtual bool IsOutputMutedForDevice(uint64_t device_id);

	// Returns true if audio input is muted.
	virtual bool IsInputMuted();

	// Returns true if audio input is muted for a device.
	virtual bool IsInputMutedForDevice(uint64_t device_id);

	// Returns true if the output volume is below the default mute volume level.
	virtual bool IsOutputVolumeBelowDefaultMuteLevel();

	// Returns volume level in 0-100% range at which the volume should be muted.
	virtual int GetOutputDefaultVolumeMuteThreshold();

	// Gets volume level in 0-100% range (0 being pure silence) for the current
	// active node.
	virtual int GetOutputVolumePercent();

	// Gets volume level in 0-100% range (0 being pure silence) for a device.
	virtual int GetOutputVolumePercentForDevice(uint64_t device_id);

	// Gets gain level in 0-100% range (0 being pure silence) for the current
	// active node.
	virtual int GetInputGainPercent();

	// Gets volume level in 0-100% range (0 being pure silence) for a device.
	virtual int GetInputGainPercentForDevice(uint64_t device_id);

	// Returns node_id of the primary active output node.
	virtual uint64_t GetPrimaryActiveOutputNode() const;

	// Returns the node_id of the primary active input node.
	virtual uint64_t GetPrimaryActiveInputNode() const;

	// Gets the audio devices back in \|device_list\|.
	// This call can be invoked from I/O thread or UI thread because
	// it does not need to access CrasAudioClient on DBus.
	virtual void GetAudioDevices(AudioDeviceList* device_list) const;

	virtual bool GetPrimaryActiveOutputDevice(AudioDevice* device) const;

	// Whether there is alternative input/output audio device.
	virtual bool has_alternative_input() const;
	virtual bool has_alternative_output() const;

	// Sets all active output devices' volume level to \|volume_percent\|, whose
	// range is from 0-100%.
	virtual void SetOutputVolumePercent(int volume_percent);

	// Sets all active input devices' gain level to \|gain_percent\|, whose range is
	// from 0-100%.
	virtual void SetInputGainPercent(int gain_percent);

	// Adjusts all active output devices' volume up (positive percentage) or down
	// (negative percentage).
	virtual void AdjustOutputVolumeByPercent(int adjust_by_percent);

	// Adjusts all active output devices' volume to a minimum audible level if it
	// is too low.
	virtual void AdjustOutputVolumeToAudibleLevel();

	// Mutes or unmutes audio output device.
	virtual void SetOutputMute(bool mute_on);

	// Mutes or unmutes audio input device.
	virtual void SetInputMute(bool mute_on);

	// Switches active audio device to \|device\|. \|activate_by\| indicates why
	// the device is switched to active: by user's manual choice, by priority,
	// or by restoring to its previous active state.
	virtual void SwitchToDevice(const AudioDevice& device,
	bool notify,
	DeviceActivateType activate_by);

	// Sets volume/gain level for a device.
	virtual void SetVolumeGainPercentForDevice(uint64_t device_id, int value);

	// Sets the mute for device.
	virtual void SetMuteForDevice(uint64_t device_id, bool mute_on);

	// Activates or deactivates keyboard mic if there's one.
	virtual void SetKeyboardMicActive(bool active);

	// Changes the active nodes to the nodes specified by \|new_active_ids\|.
	// The caller can pass in the "complete" active node list of either input
	// nodes, or output nodes, or both. If only input nodes are passed in,
	// it will only change the input nodes' active status, output nodes will NOT
	// be changed; similarly for the case if only output nodes are passed.
	// If the nodes specified in \|new_active_ids\| are already active, they will
	// remain active. Otherwise, the old active nodes will be de-activated before
	// we activate the new nodes with the same type(input/output).
	virtual void ChangeActiveNodes(const NodeIdList& new_active_ids);

	// Swaps the left and right channel of the internal speaker.
	// Swap the left and right channel if \|swap\| is true; otherwise, swap the left
	// and right channel back to the normal mode.
	// If the feature is not supported on the device, nothing happens.
	virtual void SwapInternalSpeakerLeftRightChannel(bool swap);

	// Accessibility audio setting: sets the output mono or not.
	virtual void SetOutputMono(bool mono_on);

	// Returns true if output mono is enabled.
	virtual bool IsOutputMonoEnabled() const;

	// Enables error logging.
	virtual void LogErrors();

	// If necessary, sets the starting point for re-discovering the active HDMI
	// output device caused by device entering/exiting docking mode, HDMI display
	// changing resolution, or chromeos device suspend/resume. If
	// \|force_rediscovering\| is true, it will force to set the starting point for
	// re-discovering the active HDMI output device again if it has been in the
	// middle of rediscovering the HDMI active output device.
	virtual void SetActiveHDMIOutoutRediscoveringIfNecessary(
	bool force_rediscovering);

	virtual const AudioDevice* GetDeviceFromId(uint64_t device_id) const;

	protected:
	explicit CrasAudioHandler(
	scoped_refptr<AudioDevicesPrefHandler> audio_pref_handler);
	~CrasAudioHandler() override;

	private:
	friend class CrasAudioHandlerTest;

	// CrasAudioClient::Observer overrides.
	void AudioClientRestarted() override;
	void NodesChanged() override;
	void ActiveOutputNodeChanged(uint64_t node_id) override;
	void ActiveInputNodeChanged(uint64_t node_id) override;
	void OutputNodeVolumeChanged(uint64_t node_id, int volume) override;

	// AudioPrefObserver overrides.
	void OnAudioPolicyPrefChanged() override;

	// SessionManagerClient::Observer overrides.
	void EmitLoginPromptVisibleCalled() override;

	// Sets the \|active_device\| to be active.
	// If \|notify\|, notifies Active*NodeChange.
	// Saves device active states in prefs. \|activate_by\| indicates how
	// the device was activated.
	void SetActiveDevice(const AudioDevice& active_device,
	bool notify,
	DeviceActivateType activate_by);

	// Saves \|device\|'s state in pref. If \|active\| is true, \|activate_by\|
	// indicates how \|device\| is activated.
	void SaveDeviceState(const AudioDevice& device,
	bool active,
	DeviceActivateType activate_by);

	// Sets up the audio device state based on audio policy and audio settings
	// saved in prefs.
	void SetupAudioInputState();
	void SetupAudioOutputState();

	// Sets up the additional active audio node's state.
	void SetupAdditionalActiveAudioNodeState(uint64_t node_id);

	const AudioDevice* GetDeviceFromStableDeviceId(
	uint64_t stable_device_id) const;
	const AudioDevice* GetKeyboardMic() const;

	// Initializes audio state, which should only be called when CrasAudioHandler
	// is created or cras audio client is restarted.
	void InitializeAudioState();

	void InitializeAudioAfterCrasServiceAvailable(bool service_is_available);

	// Applies the audio muting policies whenever the user logs in or policy
	// change notification is received.
	void ApplyAudioPolicy();

	// Sets output volume of \|node_id\| to \|volume\|.
	void SetOutputNodeVolume(uint64_t node_id, int volume);

	void SetOutputNodeVolumePercent(uint64_t node_id, int volume_percent);

	// Sets output mute state to \|mute_on\| internally, returns true if output mute
	// is set.
	bool SetOutputMuteInternal(bool mute_on);

	// Sets input gain of \|node_id\| to \|gain\|.
	void SetInputNodeGain(uint64_t node_id, int gain);

	void SetInputNodeGainPercent(uint64_t node_id, int gain_percent);

	// Sets input mute state to \|mute_on\| internally.
	void SetInputMuteInternal(bool mute_on);

	// Calling dbus to get nodes data.
	void GetNodes();

	// Updates the current audio nodes list and switches the active device
	// if needed.
	void UpdateDevicesAndSwitchActive(const AudioNodeList& nodes);

	// Returns true if the current active device is changed to
	// \|new_active_device\|.
	bool ChangeActiveDevice(const AudioDevice& new_active_device);

	// Returns true if there are any device changes for input or output
	// specified by \|is_input\|, by comparing \|audio_devices_\| with \|new_nodes\|.
	// Passes the new nodes discovered in *\|new_discovered\|.
	// *\|device_removed\| indicates if any devices have been removed.
	// *\|active_device_removed\| indicates if the current active device has been
	// removed.
	bool HasDeviceChange(const AudioNodeList& new_nodes,
	bool is_input,
	AudioDevicePriorityQueue* new_discovered,
	bool* device_removed,
	bool* active_device_removed);

	// Handles dbus callback for GetNodes.
	void HandleGetNodes(const chromeos::AudioNodeList& node_list, bool success);

	// Handles the dbus error callback.
	void HandleGetNodesError(const std::string& error_name,
	const std::string& error_msg);

	// Adds an active node.
	// If there is no active node, \|node_id\| will be switched to become the
	// primary active node. Otherwise, it will be added as an additional active
	// node.
	void AddActiveNode(uint64_t node_id, bool notify);

	// Adds \|node_id\| into additional active nodes.
	void AddAdditionalActiveNode(uint64_t node_id, bool notify);

	// Removes \|node_id\| from additional active nodes.
	void RemoveActiveNodeInternal(uint64_t node_id, bool notify);

	void UpdateAudioAfterHDMIRediscoverGracePeriod();

	bool IsHDMIPrimaryOutputDevice() const;

	void StartHDMIRediscoverGracePeriod();

	bool hdmi_rediscovering() const { return hdmi_rediscovering_; }

	void SetHDMIRediscoverGracePeriodForTesting(int duration_in_ms);

	enum DeviceStatus {
	OLD_DEVICE,
	NEW_DEVICE,
	CHANGED_DEVICE,
	};

	// Checks if \|device\| is a newly discovered, changed, or existing device for
	// the nodes sent from NodesChanged signal.
	DeviceStatus CheckDeviceStatus(const AudioDevice& device);

	void NotifyActiveNodeChanged(bool is_input);

	// Returns true if it retrieves an active audio device from user preference
	// among the current \|audio_devices_\|.
	bool GetActiveDeviceFromUserPref(bool is_input, AudioDevice* device);

	// Handles either input or output device changes, specified by \|is_input\|.
	void HandleAudioDeviceChange(bool is_input,
	const AudioDevicePriorityQueue& devices_pq,
	const AudioDevicePriorityQueue& hotplug_nodes,
	bool has_device_change,
	bool has_device_removed,
	bool active_device_removed);

	// Handles non-hotplug nodes change cases.
	void HandleNonHotplugNodesChange(
	bool is_input,
	const AudioDevicePriorityQueue& hotplug_nodes,
	bool has_device_change,
	bool has_device_removed,
	bool active_device_removed);

	// Handles the regular user hotplug case.
	void HandleHotPlugDevice(
	const AudioDevice& hotplug_device,
	const AudioDevicePriorityQueue& device_priority_queue);

	void SwitchToTopPriorityDevice(bool is_input);

	// Switch to previous active device if it is found, otherwise, switch
	// to the top priority device.
	void SwitchToPreviousActiveDeviceIfAvailable(bool is_input);

	scoped_refptr<AudioDevicesPrefHandler> audio_pref_handler_;
	base::ObserverList<AudioObserver> observers_;

	// Audio data and state.
	AudioDeviceMap audio_devices_;

	AudioDevicePriorityQueue input_devices_pq_;
	AudioDevicePriorityQueue output_devices_pq_;

	bool output_mute_on_;
	bool input_mute_on_;
	int output_volume_;
	int input_gain_;
	uint64_t active_output_node_id_;
	uint64_t active_input_node_id_;
	bool has_alternative_input_;
	bool has_alternative_output_;

	bool output_mute_locked_;

	// Audio output channel counts.
	int32_t output_channels_;
	bool output_mono_on_;

	// Failures are not logged at startup, since CRAS may not be running yet.
	bool log_errors_;

	// Timer for HDMI re-discovering grace period.
	base::OneShotTimer hdmi_rediscover_timer_;
	int hdmi_rediscover_grace_period_duration_in_ms_;
	bool hdmi_rediscovering_;

	bool cras_service_available_ = false;

	base::WeakPtrFactory<CrasAudioHandler> weak_ptr_factory_;

	DISALLOW_COPY_AND_ASSIGN(CrasAudioHandler);
	};

	} // namespace chromeos

	#endif // CHROMEOS_AUDIO_CRAS_AUDIO_HANDLER_H_