ui/display/manager/display_configurator.h - chromium/src - Git at Google

 // Copyright 2014 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 UI_DISPLAY_MANAGER_DISPLAY_CONFIGURATOR_H_
 #define UI_DISPLAY_MANAGER_DISPLAY_CONFIGURATOR_H_

 #include <stdint.h>

 #include <memory>
 #include <string>
 #include <vector>

 #include "base/containers/flat_map.h"
 #include "base/containers/queue.h"
 #include "base/macros.h"
 #include "base/memory/weak_ptr.h"
 #include "base/observer_list.h"
 #include "base/optional.h"
 #include "base/timer/timer.h"
 #include "third_party/cros_system_api/dbus/service_constants.h"
 #include "ui/display/manager/display_manager_export.h"
 #include "ui/display/types/display_constants.h"
 #include "ui/display/types/native_display_observer.h"
 #include "ui/display/util/display_util.h"
 #include "ui/events/platform_event.h"
 #include "ui/gfx/geometry/size.h"

 namespace gfx {
 class Size;
 }

 namespace display {
 struct GammaRampRGBEntry;
 class DisplayLayoutManager;
 class DisplayMode;
 class DisplaySnapshot;
 class ManagedDisplayMode;
 class NativeDisplayDelegate;
 class UpdateDisplayConfigurationTask;

 namespace test {
 class DisplayManagerTestApi;
 }

 // This class interacts directly with the system display configurator.
 class DISPLAY_MANAGER_EXPORT DisplayConfigurator
     : public NativeDisplayObserver {
  public:
   using ConfigurationCallback = base::Callback<void(bool /* success */)>;

   // |connection_mask| is a DisplayConnectionType bitmask, and |protection_mask|
   // is a ContentProtectionMethod bitmask.
   using QueryContentProtectionCallback = base::OnceCallback<
       void(bool success, uint32_t connection_mask, uint32_t protection_mask)>;
   using ApplyContentProtectionCallback = base::OnceCallback<void(bool success)>;

   using DisplayControlCallback = base::OnceCallback<void(bool success)>;

   using DisplayStateList = std::vector<DisplaySnapshot*>;

   using ContentProtections =
       base::flat_map<int64_t /* display_id */, uint32_t /* protection_mask */>;

   // Though only run once, a task must outlive its asynchronous operations, so
   // cannot be a OnceCallback.
   struct ContentProtectionTask {
     enum class Status { KILLED, FAILURE, SUCCESS };

     virtual ~ContentProtectionTask() = default;
     virtual void Run() = 0;
   };

   class Observer {
    public:
     virtual ~Observer() {}

     // Called after the display mode has been changed. |display| contains the
     // just-applied configuration. Note that the X server is no longer grabbed
     // when this method is called, so the actual configuration could've changed
     // already.
     virtual void OnDisplayModeChanged(const DisplayStateList& displays) {}

     // Called after a display mode change attempt failed. |displays| contains
     // displays that are detected when failed.
     // |failed_new_state| is the new state which the system failed to enter.
     virtual void OnDisplayModeChangeFailed(
         const DisplayStateList& displays,
         MultipleDisplayState failed_new_state) {}

     // Called after the power state has been changed. |power_state| contains
     // the just-applied power state.
     virtual void OnPowerStateChanged(chromeos::DisplayPowerState power_state) {}
   };

   // Interface for classes that make decisions about which display state
   // should be used.
   class StateController {
    public:
     virtual ~StateController() {}

     // Called when displays are detected.
     virtual MultipleDisplayState GetStateForDisplayIds(
         const DisplayConfigurator::DisplayStateList& outputs) = 0;

     virtual bool GetSelectedModeForDisplayId(
         int64_t display_id,
         ManagedDisplayMode* out_mode) const = 0;
   };

   // Interface for classes that implement software based mirroring.
   class SoftwareMirroringController {
    public:
     virtual ~SoftwareMirroringController() {}

     // Called when the hardware mirroring failed.
     virtual void SetSoftwareMirroring(bool enabled) = 0;

     // Returns true when software mirroring mode is requested, but it does
     // not guarantee that the mode is active.
     virtual bool SoftwareMirroringEnabled() const = 0;

     // Returns true if hardware mirroring should not be used. (e.g. In mixed
     // mirror mode, the API caller specifies the mirroring source and
     // destination displays which do not exist in hardware mirroring.)
     virtual bool IsSoftwareMirroringEnforced() const = 0;
   };

   // Helper class used by tests.
   class TestApi {
    public:
     explicit TestApi(DisplayConfigurator* configurator)
         : configurator_(configurator) {}
     ~TestApi() {}

     // If |configure_timer_| is started, stops the timer, runs
     // ConfigureDisplays(), and returns true; returns false otherwise.
     bool TriggerConfigureTimeout() WARN_UNUSED_RESULT;

     // Gets the current delay of the |configure_timer_| if it's running, or zero
     // time delta otherwise.
     base::TimeDelta GetConfigureDelay() const;

    private:
     DisplayConfigurator* configurator_;  // not owned

     DISALLOW_COPY_AND_ASSIGN(TestApi);
   };

   // Flags that can be passed to SetDisplayPower().
   static const int kSetDisplayPowerNoFlags;
   // Configure displays even if the passed-in state matches |power_state_|.
   static const int kSetDisplayPowerForceProbe;
   // Do not change the state if multiple displays are connected or if the
   // only connected display is external.
   static const int kSetDisplayPowerOnlyIfSingleInternalDisplay;

   // Gap between screens so cursor at bottom of active display doesn't
   // partially appear on top of inactive display. Higher numbers guard
   // against larger cursors, but also waste more memory.
   // For simplicity, this is hard-coded to avoid the complexity of always
   // determining the DPI of the screen and rationalizing which screen we
   // need to use for the DPI calculation.
   // See crbug.com/130188 for initial discussion.
   static const int kVerticalGap = 60;

   // The delay to perform configuration after RRNotify. See the comment for
   // |configure_timer_|.
   static const int kConfigureDelayMs = 1000;

   // The delay to perform configuration after waking up from suspend when in
   // multi display mode. Should be bigger than |kConfigureDelayMs|. Generally
   // big enough for external displays to be detected and added.
   // crbug.com/614624.
   static const int kResumeConfigureMultiDisplayDelayMs = 2000;

   // Returns the mode within |display| that matches the given size with highest
   // refresh rate. Returns None if no matching display was found.
   static const DisplayMode* FindDisplayModeMatchingSize(
       const DisplaySnapshot& display,
       const gfx::Size& size);

   DisplayConfigurator();
   ~DisplayConfigurator() override;

   MultipleDisplayState display_state() const { return current_display_state_; }
   const std::vector<DisplaySnapshot*>& cached_displays() const {
     return cached_displays_;
   }
   void set_state_controller(StateController* controller) {
     state_controller_ = controller;
   }
   void set_mirroring_controller(SoftwareMirroringController* controller) {
     mirroring_controller_ = controller;
   }
   void set_configure_display(bool configure_display) {
     configure_display_ = configure_display;
   }
   bool has_unassociated_display() const { return has_unassociated_display_; }
   chromeos::DisplayPowerState current_power_state() const {
     return current_power_state_;
   }

   // Called when an external process no longer needs to control the display
   // and Chrome can take control.
   void TakeControl(DisplayControlCallback callback);

   // Called when an external process needs to control the display and thus
   // Chrome should relinquish it.
   void RelinquishControl(DisplayControlCallback callback);

   // Replaces |native_display_delegate_| with the delegate passed in and sets
   // |configure_display_| to true. Should be called before Init().
   void SetDelegateForTesting(
       std::unique_ptr<NativeDisplayDelegate> display_delegate);

   // Called asynchronously with the initial |power_state| loaded from prefs.
   // This may be called after ForceInitialConfigure triggers a call to
   // OnConfigured(), in which case UpdatePowerState() will be called with the
   // correct initial value. Does nothing if |requested_power_state_| is set,
   // e.g. via SetDisplayPower().
   void SetInitialDisplayPower(chromeos::DisplayPowerState power_state);

   // Initialize the display power state to DISPLAY_POWER_ALL_ON
   void InitializeDisplayPowerState();

   // Initialization, must be called right after constructor.
   // |is_panel_fitting_enabled| indicates hardware panel fitting support.
   void Init(std::unique_ptr<NativeDisplayDelegate> delegate,
             bool is_panel_fitting_enabled);

   // Does initial configuration of displays during startup.
   void ForceInitialConfigure();

   // Stop handling display configuration events/requests.
   void PrepareForExit();

   // Called when powerd notifies us that some set of displays should be turned
   // on or off.  This requires enabling or disabling the CRTC associated with
   // the display(s) in question so that the low power state is engaged.
   // |flags| contains bitwise-or-ed kSetDisplayPower* values. After the
   // configuration finishes |callback| is called with the status of the
   // operation.
   void SetDisplayPower(chromeos::DisplayPowerState power_state,
                        int flags,
                        const ConfigurationCallback& callback);

   // Force switching the display mode to |new_state|. Returns false if
   // switching failed (possibly because |new_state| is invalid for the
   // current set of connected displays).
   void SetDisplayMode(MultipleDisplayState new_state);

   // NativeDisplayDelegate::Observer overrides:
   void OnConfigurationChanged() override;
   void OnDisplaySnapshotsInvalidated() override;

   void AddObserver(Observer* observer);
   void RemoveObserver(Observer* observer);

   // Sets all the displays into pre-suspend mode; usually this means
   // configure them for their resume state. This allows faster resume on
   // machines where display configuration is slow. On completion of the display
   // configuration |callback| is executed synchronously or asynchronously.
   void SuspendDisplays(const ConfigurationCallback& callback);

   // Reprobes displays to handle changes made while the system was
   // suspended.
   void ResumeDisplays();

   using ContentProtectionClientId = base::Optional<uint64_t>;

   ContentProtectionClientId RegisterContentProtectionClient();
   void UnregisterContentProtectionClient(ContentProtectionClientId client_id);

   void QueryContentProtection(ContentProtectionClientId client_id,
                               int64_t display_id,
                               QueryContentProtectionCallback callback);
   // |protection_mask| is a ContentProtectionMethod bitmask.
   void ApplyContentProtection(ContentProtectionClientId client_id,
                               int64_t display_id,
                               uint32_t protection_mask,
                               ApplyContentProtectionCallback callback);

   // Returns true if there is at least one display on.
   bool IsDisplayOn() const;

   // Sets the given 3x3 |color_matrix| on the display with |display_id|.
   // This doesn't affect gamma or degamma. It returns true if the color matrix
   // was sent to the GPU process successfully.
   bool SetColorMatrix(int64_t display_id,
                       const std::vector<float>& color_matrix);

   // Sets the given |gamma_lut| and |degamma_lut| on the display with
   // |display_id|.
   bool SetGammaCorrection(int64_t display_id,
                           const std::vector<GammaRampRGBEntry>& degamma_lut,
                           const std::vector<GammaRampRGBEntry>& gamma_lut);

   // Returns the requested power state if set or the default power state.
   chromeos::DisplayPowerState GetRequestedPowerState() const;

   void reset_requested_power_state_for_test() {
     requested_power_state_ = base::nullopt;
   }

   base::Optional<chromeos::DisplayPowerState> GetRequestedPowerStateForTest()
       const {
     return requested_power_state_;
   }

  private:
   friend class test::DisplayManagerTestApi;

   class DisplayLayoutManagerImpl;

   bool configurator_disabled() const {
     return !configure_display_ || display_externally_controlled_;
   }

   const DisplaySnapshot* GetDisplay(int64_t display_id) const;

   // Updates |pending_*| members and applies the passed-in state. |callback| is
   // invoked (perhaps synchronously) on completion.
   void SetDisplayPowerInternal(chromeos::DisplayPowerState power_state,
                                int flags,
                                const ConfigurationCallback& callback);

   // Configures displays. Invoked by |configure_timer_|.
   void ConfigureDisplays();

   // Notifies observers about an attempted state change.
   void NotifyDisplayStateObservers(bool success,
                                    MultipleDisplayState attempted_state);

   // Notifies observers about a power state change.
   void NotifyPowerStateObservers();

   // Returns the display state that should be used with |cached_displays_| while
   // in |power_state|.
   MultipleDisplayState ChooseDisplayState(
       chromeos::DisplayPowerState power_state) const;

   // If |configuration_task_| isn't initialized, initializes it and starts the
   // configuration task.
   void RunPendingConfiguration();

   // Callback for |configuration_taks_|. When the configuration process finishes
   // this is called with the result (|success|) and the updated display state.
   void OnConfigured(bool success,
                     const std::vector<DisplaySnapshot*>& displays,
                     const std::vector<DisplaySnapshot*>& unassociated_displays,
                     MultipleDisplayState new_display_state,
                     chromeos::DisplayPowerState new_power_state);

   // Updates the current and pending power state and notifies observers.
   void UpdatePowerState(chromeos::DisplayPowerState new_power_state);

   // Helps in identifying if a configuration task needs to be scheduled.
   // Return true if any of the |requested_*| parameters have been updated. False
   // otherwise.
   bool ShouldRunConfigurationTask() const;

   // Helper functions which will call the callbacks in
   // |in_progress_configuration_callbacks_| and
   // |queued_configuration_callbacks_| and clear the lists after. |success| is
   // the configuration status used when calling the callbacks.
   void CallAndClearInProgressCallbacks(bool success);
   void CallAndClearQueuedCallbacks(bool success);

   // Content protection callbacks called by the tasks when they finish. These
   // are responsible for destroying the task, replying to the caller that made
   // the task and starting the a new content protection task if one is queued.
   void OnContentProtectionQueried(QueryContentProtectionCallback callback,
                                   ContentProtectionClientId client_id,
                                   int64_t display_id,
                                   ContentProtectionTask::Status status,
                                   uint32_t connection_mask,
                                   uint32_t protection_mask);
   void OnContentProtectionApplied(ApplyContentProtectionCallback callback,
                                   ContentProtectionClientId client_id,
                                   ContentProtectionTask::Status status);

   // Returns content protections for |client_id|, or nullptr if invalid.
   ContentProtections* GetContentProtections(
       ContentProtectionClientId client_id);

   // Returns cumulative content protections given all client requests.
   ContentProtections AggregateContentProtections() const;

   void QueueContentProtectionTask(std::unique_ptr<ContentProtectionTask> task);
   void DequeueContentProtectionTask();

   // Callbacks used to signal when the native platform has released/taken
   // display control.
   void OnDisplayControlTaken(DisplayControlCallback callback, bool success);
   void OnDisplayControlRelinquished(DisplayControlCallback callback,
                                     bool success);

   // Helper function that sends the actual command.
   // |callback| is called upon completion of the relinquish command.
   // |success| is the result from calling SetDisplayPowerInternal() in
   // RelinquishDisplay().
   void SendRelinquishDisplayControl(DisplayControlCallback callback,
                                     bool success);

   StateController* state_controller_;
   SoftwareMirroringController* mirroring_controller_;
   std::unique_ptr<NativeDisplayDelegate> native_display_delegate_;

   // Used to enable modes which rely on panel fitting.
   bool is_panel_fitting_enabled_;

   // This is detected by the constructor to determine whether or not we should
   // be enabled. If this flag is set to false, any attempts to change the
   // display configuration will immediately fail without changing the state.
   bool configure_display_;

   // Current configuration state.
   MultipleDisplayState current_display_state_;
   chromeos::DisplayPowerState current_power_state_;

   // Pending requests. These values are used when triggering the next display
   // configuration.
   //
   // Stores the user requested state or INVALID if nothing was requested.
   MultipleDisplayState requested_display_state_;

   // Stores the requested power state.
   base::Optional<chromeos::DisplayPowerState> requested_power_state_;

   // The power state used by RunPendingConfiguration(). May be
   // |requested_power_state_| or DISPLAY_POWER_ALL_OFF for suspend.
   chromeos::DisplayPowerState pending_power_state_;

   // True if |pending_power_state_| has been changed.
   bool has_pending_power_state_;

   // Bitwise-or value of the |kSetDisplayPower*| flags defined above.
   int pending_power_flags_;

   // List of callbacks from callers waiting for the display configuration to
   // start/finish. Note these callbacks belong to the pending request, not a
   // request currently active.
   std::vector<ConfigurationCallback> queued_configuration_callbacks_;

   // List of callbacks belonging to the currently running display configuration
   // task.
   std::vector<ConfigurationCallback> in_progress_configuration_callbacks_;

   // True if the caller wants to force the display configuration process.
   bool force_configure_;

   // Most-recently-used display configuration. Note that the actual
   // configuration changes asynchronously.
   DisplayStateList cached_displays_;

   base::ObserverList<Observer>::Unchecked observers_;

   // The timer to delay configuring displays. This is used to aggregate multiple
   // display configuration events when they are reported in short time spans.
   base::OneShotTimer configure_timer_;

   uint64_t next_content_protection_client_id_ = 0;

   // Content protections requested by each client.
   base::flat_map<uint64_t, ContentProtections> content_protection_requests_;

   // Pending tasks to query or apply content protection.
   base::queue<std::unique_ptr<ContentProtectionTask>> content_protection_tasks_;

   // Display controlled by an external entity.
   bool display_externally_controlled_;

   // True if a TakeControl or RelinquishControl has been called but the response
   // hasn't arrived yet.
   bool display_control_changing_;

   // Whether the displays are currently suspended.
   bool displays_suspended_;

   std::unique_ptr<DisplayLayoutManager> layout_manager_;

   std::unique_ptr<UpdateDisplayConfigurationTask> configuration_task_;

   // Indicates whether there is any connected display having no associated crtc.
   // This can be caused by crtc shortage. When it is true, the corresponding
   // notification will be created to inform user.
   bool has_unassociated_display_;

   // This must be the last variable.
   base::WeakPtrFactory<DisplayConfigurator> weak_ptr_factory_;

   DISALLOW_COPY_AND_ASSIGN(DisplayConfigurator);
 };

 }  // namespace display

 #endif  // UI_DISPLAY_MANAGER_DISPLAY_CONFIGURATOR_H_
	// Copyright 2014 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 UI_DISPLAY_MANAGER_DISPLAY_CONFIGURATOR_H_
	#define UI_DISPLAY_MANAGER_DISPLAY_CONFIGURATOR_H_

	#include <stdint.h>

	#include <memory>
	#include <string>
	#include <vector>

	#include "base/containers/flat_map.h"
	#include "base/containers/queue.h"
	#include "base/macros.h"
	#include "base/memory/weak_ptr.h"
	#include "base/observer_list.h"
	#include "base/optional.h"
	#include "base/timer/timer.h"
	#include "third_party/cros_system_api/dbus/service_constants.h"
	#include "ui/display/manager/display_manager_export.h"
	#include "ui/display/types/display_constants.h"
	#include "ui/display/types/native_display_observer.h"
	#include "ui/display/util/display_util.h"
	#include "ui/events/platform_event.h"
	#include "ui/gfx/geometry/size.h"

	namespace gfx {
	class Size;
	}

	namespace display {
	struct GammaRampRGBEntry;
	class DisplayLayoutManager;
	class DisplayMode;
	class DisplaySnapshot;
	class ManagedDisplayMode;
	class NativeDisplayDelegate;
	class UpdateDisplayConfigurationTask;

	namespace test {
	class DisplayManagerTestApi;
	}

	// This class interacts directly with the system display configurator.
	class DISPLAY_MANAGER_EXPORT DisplayConfigurator
	: public NativeDisplayObserver {
	public:
	using ConfigurationCallback = base::Callback<void(bool /* success */)>;

	// \|connection_mask\| is a DisplayConnectionType bitmask, and \|protection_mask\|
	// is a ContentProtectionMethod bitmask.
	using QueryContentProtectionCallback = base::OnceCallback<
	void(bool success, uint32_t connection_mask, uint32_t protection_mask)>;
	using ApplyContentProtectionCallback = base::OnceCallback<void(bool success)>;

	using DisplayControlCallback = base::OnceCallback<void(bool success)>;

	using DisplayStateList = std::vector<DisplaySnapshot*>;

	using ContentProtections =
	base::flat_map<int64_t /* display_id /, uint32_t / protection_mask */>;

	// Though only run once, a task must outlive its asynchronous operations, so
	// cannot be a OnceCallback.
	struct ContentProtectionTask {
	enum class Status { KILLED, FAILURE, SUCCESS };

	virtual ~ContentProtectionTask() = default;
	virtual void Run() = 0;
	};

	class Observer {
	public:
	virtual ~Observer() {}

	// Called after the display mode has been changed. \|display\| contains the
	// just-applied configuration. Note that the X server is no longer grabbed
	// when this method is called, so the actual configuration could've changed
	// already.
	virtual void OnDisplayModeChanged(const DisplayStateList& displays) {}

	// Called after a display mode change attempt failed. \|displays\| contains
	// displays that are detected when failed.
	// \|failed_new_state\| is the new state which the system failed to enter.
	virtual void OnDisplayModeChangeFailed(
	const DisplayStateList& displays,
	MultipleDisplayState failed_new_state) {}

	// Called after the power state has been changed. \|power_state\| contains
	// the just-applied power state.
	virtual void OnPowerStateChanged(chromeos::DisplayPowerState power_state) {}
	};

	// Interface for classes that make decisions about which display state
	// should be used.
	class StateController {
	public:
	virtual ~StateController() {}

	// Called when displays are detected.
	virtual MultipleDisplayState GetStateForDisplayIds(
	const DisplayConfigurator::DisplayStateList& outputs) = 0;

	virtual bool GetSelectedModeForDisplayId(
	int64_t display_id,
	ManagedDisplayMode* out_mode) const = 0;
	};

	// Interface for classes that implement software based mirroring.
	class SoftwareMirroringController {
	public:
	virtual ~SoftwareMirroringController() {}

	// Called when the hardware mirroring failed.
	virtual void SetSoftwareMirroring(bool enabled) = 0;

	// Returns true when software mirroring mode is requested, but it does
	// not guarantee that the mode is active.
	virtual bool SoftwareMirroringEnabled() const = 0;

	// Returns true if hardware mirroring should not be used. (e.g. In mixed
	// mirror mode, the API caller specifies the mirroring source and
	// destination displays which do not exist in hardware mirroring.)
	virtual bool IsSoftwareMirroringEnforced() const = 0;
	};

	// Helper class used by tests.
	class TestApi {
	public:
	explicit TestApi(DisplayConfigurator* configurator)
	: configurator_(configurator) {}
	~TestApi() {}

	// If \|configure_timer_\| is started, stops the timer, runs
	// ConfigureDisplays(), and returns true; returns false otherwise.
	bool TriggerConfigureTimeout() WARN_UNUSED_RESULT;

	// Gets the current delay of the \|configure_timer_\| if it's running, or zero
	// time delta otherwise.
	base::TimeDelta GetConfigureDelay() const;

	private:
	DisplayConfigurator* configurator_; // not owned

	DISALLOW_COPY_AND_ASSIGN(TestApi);
	};

	// Flags that can be passed to SetDisplayPower().
	static const int kSetDisplayPowerNoFlags;
	// Configure displays even if the passed-in state matches \|power_state_\|.
	static const int kSetDisplayPowerForceProbe;
	// Do not change the state if multiple displays are connected or if the
	// only connected display is external.
	static const int kSetDisplayPowerOnlyIfSingleInternalDisplay;

	// Gap between screens so cursor at bottom of active display doesn't
	// partially appear on top of inactive display. Higher numbers guard
	// against larger cursors, but also waste more memory.
	// For simplicity, this is hard-coded to avoid the complexity of always
	// determining the DPI of the screen and rationalizing which screen we
	// need to use for the DPI calculation.
	// See crbug.com/130188 for initial discussion.
	static const int kVerticalGap = 60;

	// The delay to perform configuration after RRNotify. See the comment for
	// \|configure_timer_\|.
	static const int kConfigureDelayMs = 1000;

	// The delay to perform configuration after waking up from suspend when in
	// multi display mode. Should be bigger than \|kConfigureDelayMs\|. Generally
	// big enough for external displays to be detected and added.
	// crbug.com/614624.
	static const int kResumeConfigureMultiDisplayDelayMs = 2000;

	// Returns the mode within \|display\| that matches the given size with highest
	// refresh rate. Returns None if no matching display was found.
	static const DisplayMode* FindDisplayModeMatchingSize(
	const DisplaySnapshot& display,
	const gfx::Size& size);

	DisplayConfigurator();
	~DisplayConfigurator() override;

	MultipleDisplayState display_state() const { return current_display_state_; }
	const std::vector<DisplaySnapshot*>& cached_displays() const {
	return cached_displays_;
	}
	void set_state_controller(StateController* controller) {
	state_controller_ = controller;
	}
	void set_mirroring_controller(SoftwareMirroringController* controller) {
	mirroring_controller_ = controller;
	}
	void set_configure_display(bool configure_display) {
	configure_display_ = configure_display;
	}
	bool has_unassociated_display() const { return has_unassociated_display_; }
	chromeos::DisplayPowerState current_power_state() const {
	return current_power_state_;
	}

	// Called when an external process no longer needs to control the display
	// and Chrome can take control.
	void TakeControl(DisplayControlCallback callback);

	// Called when an external process needs to control the display and thus
	// Chrome should relinquish it.
	void RelinquishControl(DisplayControlCallback callback);

	// Replaces \|native_display_delegate_\| with the delegate passed in and sets
	// \|configure_display_\| to true. Should be called before Init().
	void SetDelegateForTesting(
	std::unique_ptr<NativeDisplayDelegate> display_delegate);

	// Called asynchronously with the initial \|power_state\| loaded from prefs.
	// This may be called after ForceInitialConfigure triggers a call to
	// OnConfigured(), in which case UpdatePowerState() will be called with the
	// correct initial value. Does nothing if \|requested_power_state_\| is set,
	// e.g. via SetDisplayPower().
	void SetInitialDisplayPower(chromeos::DisplayPowerState power_state);

	// Initialize the display power state to DISPLAY_POWER_ALL_ON
	void InitializeDisplayPowerState();

	// Initialization, must be called right after constructor.
	// \|is_panel_fitting_enabled\| indicates hardware panel fitting support.
	void Init(std::unique_ptr<NativeDisplayDelegate> delegate,
	bool is_panel_fitting_enabled);

	// Does initial configuration of displays during startup.
	void ForceInitialConfigure();

	// Stop handling display configuration events/requests.
	void PrepareForExit();

	// Called when powerd notifies us that some set of displays should be turned
	// on or off. This requires enabling or disabling the CRTC associated with
	// the display(s) in question so that the low power state is engaged.
	// \|flags\| contains bitwise-or-ed kSetDisplayPower* values. After the
	// configuration finishes \|callback\| is called with the status of the
	// operation.
	void SetDisplayPower(chromeos::DisplayPowerState power_state,
	int flags,
	const ConfigurationCallback& callback);

	// Force switching the display mode to \|new_state\|. Returns false if
	// switching failed (possibly because \|new_state\| is invalid for the
	// current set of connected displays).
	void SetDisplayMode(MultipleDisplayState new_state);

	// NativeDisplayDelegate::Observer overrides:
	void OnConfigurationChanged() override;
	void OnDisplaySnapshotsInvalidated() override;

	void AddObserver(Observer* observer);
	void RemoveObserver(Observer* observer);

	// Sets all the displays into pre-suspend mode; usually this means
	// configure them for their resume state. This allows faster resume on
	// machines where display configuration is slow. On completion of the display
	// configuration \|callback\| is executed synchronously or asynchronously.
	void SuspendDisplays(const ConfigurationCallback& callback);

	// Reprobes displays to handle changes made while the system was
	// suspended.
	void ResumeDisplays();

	using ContentProtectionClientId = base::Optional<uint64_t>;

	ContentProtectionClientId RegisterContentProtectionClient();
	void UnregisterContentProtectionClient(ContentProtectionClientId client_id);

	void QueryContentProtection(ContentProtectionClientId client_id,
	int64_t display_id,
	QueryContentProtectionCallback callback);
	// \|protection_mask\| is a ContentProtectionMethod bitmask.
	void ApplyContentProtection(ContentProtectionClientId client_id,
	int64_t display_id,
	uint32_t protection_mask,
	ApplyContentProtectionCallback callback);

	// Returns true if there is at least one display on.
	bool IsDisplayOn() const;

	// Sets the given 3x3 \|color_matrix\| on the display with \|display_id\|.
	// This doesn't affect gamma or degamma. It returns true if the color matrix
	// was sent to the GPU process successfully.
	bool SetColorMatrix(int64_t display_id,
	const std::vector<float>& color_matrix);

	// Sets the given \|gamma_lut\| and \|degamma_lut\| on the display with
	// \|display_id\|.
	bool SetGammaCorrection(int64_t display_id,
	const std::vector<GammaRampRGBEntry>& degamma_lut,
	const std::vector<GammaRampRGBEntry>& gamma_lut);

	// Returns the requested power state if set or the default power state.
	chromeos::DisplayPowerState GetRequestedPowerState() const;

	void reset_requested_power_state_for_test() {
	requested_power_state_ = base::nullopt;
	}

	base::Optional<chromeos::DisplayPowerState> GetRequestedPowerStateForTest()
	const {
	return requested_power_state_;
	}

	private:
	friend class test::DisplayManagerTestApi;

	class DisplayLayoutManagerImpl;

	bool configurator_disabled() const {
	return !configure_display_ \|\| display_externally_controlled_;
	}

	const DisplaySnapshot* GetDisplay(int64_t display_id) const;

	// Updates \|pending_*\| members and applies the passed-in state. \|callback\| is
	// invoked (perhaps synchronously) on completion.
	void SetDisplayPowerInternal(chromeos::DisplayPowerState power_state,
	int flags,
	const ConfigurationCallback& callback);

	// Configures displays. Invoked by \|configure_timer_\|.
	void ConfigureDisplays();

	// Notifies observers about an attempted state change.
	void NotifyDisplayStateObservers(bool success,
	MultipleDisplayState attempted_state);

	// Notifies observers about a power state change.
	void NotifyPowerStateObservers();

	// Returns the display state that should be used with \|cached_displays_\| while
	// in \|power_state\|.
	MultipleDisplayState ChooseDisplayState(
	chromeos::DisplayPowerState power_state) const;

	// If \|configuration_task_\| isn't initialized, initializes it and starts the
	// configuration task.
	void RunPendingConfiguration();

	// Callback for \|configuration_taks_\|. When the configuration process finishes
	// this is called with the result (\|success\|) and the updated display state.
	void OnConfigured(bool success,
	const std::vector<DisplaySnapshot*>& displays,
	const std::vector<DisplaySnapshot*>& unassociated_displays,
	MultipleDisplayState new_display_state,
	chromeos::DisplayPowerState new_power_state);

	// Updates the current and pending power state and notifies observers.
	void UpdatePowerState(chromeos::DisplayPowerState new_power_state);

	// Helps in identifying if a configuration task needs to be scheduled.
	// Return true if any of the \|requested_*\| parameters have been updated. False
	// otherwise.
	bool ShouldRunConfigurationTask() const;

	// Helper functions which will call the callbacks in
	// \|in_progress_configuration_callbacks_\| and
	// \|queued_configuration_callbacks_\| and clear the lists after. \|success\| is
	// the configuration status used when calling the callbacks.
	void CallAndClearInProgressCallbacks(bool success);
	void CallAndClearQueuedCallbacks(bool success);

	// Content protection callbacks called by the tasks when they finish. These
	// are responsible for destroying the task, replying to the caller that made
	// the task and starting the a new content protection task if one is queued.
	void OnContentProtectionQueried(QueryContentProtectionCallback callback,
	ContentProtectionClientId client_id,
	int64_t display_id,
	ContentProtectionTask::Status status,
	uint32_t connection_mask,
	uint32_t protection_mask);
	void OnContentProtectionApplied(ApplyContentProtectionCallback callback,
	ContentProtectionClientId client_id,
	ContentProtectionTask::Status status);

	// Returns content protections for \|client_id\|, or nullptr if invalid.
	ContentProtections* GetContentProtections(
	ContentProtectionClientId client_id);

	// Returns cumulative content protections given all client requests.
	ContentProtections AggregateContentProtections() const;

	void QueueContentProtectionTask(std::unique_ptr<ContentProtectionTask> task);
	void DequeueContentProtectionTask();

	// Callbacks used to signal when the native platform has released/taken
	// display control.
	void OnDisplayControlTaken(DisplayControlCallback callback, bool success);
	void OnDisplayControlRelinquished(DisplayControlCallback callback,
	bool success);

	// Helper function that sends the actual command.
	// \|callback\| is called upon completion of the relinquish command.
	// \|success\| is the result from calling SetDisplayPowerInternal() in
	// RelinquishDisplay().
	void SendRelinquishDisplayControl(DisplayControlCallback callback,
	bool success);

	StateController* state_controller_;
	SoftwareMirroringController* mirroring_controller_;
	std::unique_ptr<NativeDisplayDelegate> native_display_delegate_;

	// Used to enable modes which rely on panel fitting.
	bool is_panel_fitting_enabled_;

	// This is detected by the constructor to determine whether or not we should
	// be enabled. If this flag is set to false, any attempts to change the
	// display configuration will immediately fail without changing the state.
	bool configure_display_;

	// Current configuration state.
	MultipleDisplayState current_display_state_;
	chromeos::DisplayPowerState current_power_state_;

	// Pending requests. These values are used when triggering the next display
	// configuration.
	//
	// Stores the user requested state or INVALID if nothing was requested.
	MultipleDisplayState requested_display_state_;

	// Stores the requested power state.
	base::Optional<chromeos::DisplayPowerState> requested_power_state_;

	// The power state used by RunPendingConfiguration(). May be
	// \|requested_power_state_\| or DISPLAY_POWER_ALL_OFF for suspend.
	chromeos::DisplayPowerState pending_power_state_;

	// True if \|pending_power_state_\| has been changed.
	bool has_pending_power_state_;

	// Bitwise-or value of the \|kSetDisplayPower*\| flags defined above.
	int pending_power_flags_;

	// List of callbacks from callers waiting for the display configuration to
	// start/finish. Note these callbacks belong to the pending request, not a
	// request currently active.
	std::vector<ConfigurationCallback> queued_configuration_callbacks_;

	// List of callbacks belonging to the currently running display configuration
	// task.
	std::vector<ConfigurationCallback> in_progress_configuration_callbacks_;

	// True if the caller wants to force the display configuration process.
	bool force_configure_;

	// Most-recently-used display configuration. Note that the actual
	// configuration changes asynchronously.
	DisplayStateList cached_displays_;

	base::ObserverList<Observer>::Unchecked observers_;

	// The timer to delay configuring displays. This is used to aggregate multiple
	// display configuration events when they are reported in short time spans.
	base::OneShotTimer configure_timer_;

	uint64_t next_content_protection_client_id_ = 0;

	// Content protections requested by each client.
	base::flat_map<uint64_t, ContentProtections> content_protection_requests_;

	// Pending tasks to query or apply content protection.
	base::queue<std::unique_ptr<ContentProtectionTask>> content_protection_tasks_;

	// Display controlled by an external entity.
	bool display_externally_controlled_;

	// True if a TakeControl or RelinquishControl has been called but the response
	// hasn't arrived yet.
	bool display_control_changing_;

	// Whether the displays are currently suspended.
	bool displays_suspended_;

	std::unique_ptr<DisplayLayoutManager> layout_manager_;

	std::unique_ptr<UpdateDisplayConfigurationTask> configuration_task_;

	// Indicates whether there is any connected display having no associated crtc.
	// This can be caused by crtc shortage. When it is true, the corresponding
	// notification will be created to inform user.
	bool has_unassociated_display_;

	// This must be the last variable.
	base::WeakPtrFactory<DisplayConfigurator> weak_ptr_factory_;

	DISALLOW_COPY_AND_ASSIGN(DisplayConfigurator);
	};

	} // namespace display

	#endif // UI_DISPLAY_MANAGER_DISPLAY_CONFIGURATOR_H_