// 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 #include #include #include #include #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/manager/query_content_protection_task.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 NativeDisplayDelegate; class UpdateDisplayConfigurationTask; // This class interacts directly with the system display configurator. class DISPLAY_MANAGER_EXPORT DisplayConfigurator : public NativeDisplayObserver { public: enum : uint64_t { INVALID_CLIENT_ID = 0, }; using ConfigurationCallback = base::Callback; using SetProtectionCallback = base::Callback; // link_mask: The type of connected display links, which is a bitmask of // DisplayConnectionType values. // protection_mask: The desired protection methods, which is a bitmask of the // ContentProtectionMethod values. using QueryProtectionCallback = base::Callback; using DisplayControlCallback = base::OnceCallback; using DisplayStateList = std::vector; // Mapping a display_id to a protection request bitmask. using ContentProtections = std::map; 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; // Queries the resolution (|size|) in pixels to select display mode for the // given display id. virtual bool GetResolutionForDisplayId(int64_t display_id, gfx::Size* size) 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& 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; } 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 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); // Initialization, must be called right after constructor. // |is_panel_fitting_enabled| indicates hardware panel fitting support. void Init(std::unique_ptr 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(); // Registers a client for display protection and requests a client id. Returns // 0 if requesting failed. uint64_t RegisterContentProtectionClient(); // Unregisters the client. void UnregisterContentProtectionClient(uint64_t client_id); // Queries link status and protection status. |callback| is used to respond // to the query. void QueryContentProtectionStatus(uint64_t client_id, int64_t display_id, const QueryProtectionCallback& callback); // Requests the desired protection methods. // |protection_mask| is the desired protection methods, which is a bitmask // of the ContentProtectionMethod values. // Returns true when the protection request has been made. void SetContentProtection(uint64_t client_id, int64_t display_id, uint32_t protection_mask, const SetProtectionCallback& 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& 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& degamma_lut, const std::vector& gamma_lut); // Returns the requested power state if set or the default power state. chromeos::DisplayPowerState GetRequestedPowerState() const; void set_is_multi_mirroring_enabled_for_test(bool enabled) { is_multi_mirroring_enabled_ = enabled; } void reset_requested_power_state_for_test() { requested_power_state_ = base::nullopt; } private: class DisplayLayoutManagerImpl; // Mapping a client to its protection request. using ProtectionRequests = std::map; // 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; // Applies display protections according to requests. bool ApplyProtections(const ContentProtections& requests); // 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& 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( uint64_t client_id, int64_t display_id, QueryContentProtectionTask::Response response); void OnSetContentProtectionCompleted(uint64_t client_id, int64_t display_id, uint32_t desired_method_mask, bool success); void OnContentProtectionClientUnregistered(bool success); // 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 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 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 queued_configuration_callbacks_; // List of callbacks belonging to the currently running display configuration // task. std::vector in_progress_configuration_callbacks_; base::queue content_protection_tasks_; base::queue query_protection_callbacks_; base::queue set_protection_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 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_; // Id for next display protection client. uint64_t next_display_protection_client_id_; // Display protection requests of each client. ProtectionRequests client_protection_requests_; // 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 layout_manager_; std::unique_ptr configuration_task_; bool is_multi_mirroring_enabled_; // This must be the last variable. base::WeakPtrFactory weak_ptr_factory_; DISALLOW_COPY_AND_ASSIGN(DisplayConfigurator); }; } // namespace display #endif // UI_DISPLAY_MANAGER_DISPLAY_CONFIGURATOR_H_