// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef UI_DISPLAY_MANAGER_DISPLAY_MANAGER_H_ #define UI_DISPLAY_MANAGER_DISPLAY_MANAGER_H_ #include #include #include #include #include #include #include #include "base/callback.h" #include "base/compiler_specific.h" #include "base/gtest_prod_util.h" #include "base/logging.h" #include "base/macros.h" #include "base/memory/ref_counted.h" #include "base/memory/weak_ptr.h" #include "base/observer_list.h" #include "ui/display/display.h" #include "ui/display/display_layout.h" #include "ui/display/display_observer.h" #include "ui/display/manager/display_manager_export.h" #include "ui/display/manager/display_manager_utilities.h" #include "ui/display/manager/managed_display_info.h" #include "ui/display/mojo/dev_display_controller.mojom.h" #include "ui/display/types/display_constants.h" #include "ui/display/unified_desktop_utils.h" #if defined(OS_CHROMEOS) #include "base/cancelable_callback.h" #include "base/optional.h" #include "ui/display/manager/display_configurator.h" #include "ui/display/manager/touch_device_manager.h" #endif namespace gfx { class Insets; class Rect; } namespace display { class DisplayLayoutStore; class DisplayObserver; class Screen; namespace test { class DisplayManagerTestApi; } // DisplayManager maintains the current display configurations, // and notifies observers when configuration changes. class DISPLAY_MANAGER_EXPORT DisplayManager #if defined(OS_CHROMEOS) : public DisplayConfigurator::SoftwareMirroringController #endif { public: class DISPLAY_MANAGER_EXPORT Delegate { public: virtual ~Delegate() {} // Create or updates the mirroring window with |display_info_list|. virtual void CreateOrUpdateMirroringDisplay( const DisplayInfoList& display_info_list) = 0; // Closes the mirror window if not necessary. virtual void CloseMirroringDisplayIfNotNecessary() = 0; // Called before and after the display configuration changes. When // |clear_focus| is true, the implementation should deactivate the active // window and set the focus window to NULL. virtual void PreDisplayConfigurationChange(bool clear_focus) = 0; virtual void PostDisplayConfigurationChange() = 0; #if defined(OS_CHROMEOS) // Get the DisplayConfigurator. virtual DisplayConfigurator* display_configurator() = 0; #endif }; // How secondary displays will be used. // 1) EXTENDED mode extends the desktop onto additional displays, creating one // root window for each display. Each display has a shelf and status tray, // and each user window is only rendered on a single display. // 2) MIRRORING mode copies the content of the primary display to the second // display via software mirroring. This only supports 2 displays for now. // 3) UNIFIED mode creates a virtual desktop with a *single* root window that // spans multiple physical displays via software mirroring. The primary // physical display has a shelf and status tray, and user windows may // render spanning across multiple displays. // // WARNING: These values are persisted to logs. Entries should not be // renumbered and numeric values should never be reused. enum MultiDisplayMode { EXTENDED = 0, MIRRORING = 1, UNIFIED = 2, // Always keep this the last item. MULTI_DISPLAY_MODE_LAST = UNIFIED, }; explicit DisplayManager(std::unique_ptr screen); #if defined(OS_CHROMEOS) ~DisplayManager() override; #else ~DisplayManager(); #endif DisplayLayoutStore* layout_store() { return layout_store_.get(); } void set_delegate(Delegate* delegate) { delegate_ = delegate; } // When set to true, the DisplayManager calls OnDisplayMetricsChanged even if // the display's bounds didn't change. Used to swap primary display. void set_force_bounds_changed(bool force_bounds_changed) { force_bounds_changed_ = force_bounds_changed; } void set_configure_displays(bool configure_displays) { configure_displays_ = configure_displays; } void set_internal_display_has_accelerometer(bool has_accelerometer) { internal_display_has_accelerometer_ = has_accelerometer; } // Returns the display id of the first display in the outupt list. int64_t first_display_id() const { return first_display_id_; } #if defined(OS_CHROMEOS) TouchDeviceManager* touch_device_manager() const { return touch_device_manager_.get(); } #endif bool is_multi_mirroring_enabled() const { return is_multi_mirroring_enabled_; } const UnifiedDesktopLayoutMatrix& current_unified_desktop_matrix() const { return current_unified_desktop_matrix_; } // Sets controller used to add/remove fake displays. If this is set then // AddRemoveDisplay() will delegate out to |dev_display_controller_| instead // of adding/removing a ManagedDisplayInfo. void SetDevDisplayController(mojom::DevDisplayControllerPtr controller); // Initializes displays using command line flag. Returns false if no command // line flag was provided. bool InitFromCommandLine(); // Initialize default display. void InitDefaultDisplay(); // Update the internal display's display info. void UpdateInternalDisplay(const ManagedDisplayInfo& display_info); // Initializes font related params that depends on display configuration. void RefreshFontParams(); // Returns the display layout used for current displays. const DisplayLayout& GetCurrentDisplayLayout() const; // Returns the actual display layout after it has been resolved and applied. const DisplayLayout& GetCurrentResolvedDisplayLayout() const; // Returns the current display list. DisplayIdList GetCurrentDisplayIdList() const; // Sets the layout for the current display pair. The |layout| specifies the // locaion of the displays relative to their parents. void SetLayoutForCurrentDisplays(std::unique_ptr layout); // Returns display for given |display_id|. const Display& GetDisplayForId(int64_t display_id) const; // Checks the validity of given |display_id|. bool IsDisplayIdValid(int64_t display_id) const; // Finds the display that contains |point| in screeen coordinates. Returns // invalid display if there is no display that can satisfy the condition. const Display& FindDisplayContainingPoint( const gfx::Point& point_in_screen) const; // Sets the work area's |insets| to the display given by |display_id|. bool UpdateWorkAreaOfDisplay(int64_t display_id, const gfx::Insets& insets); // Registers the overscan insets for the display of the specified ID. Note // that the insets size should be specified in DIP size. It also triggers the // display's bounds change. void SetOverscanInsets(int64_t display_id, const gfx::Insets& insets_in_dip); // Sets the display's rotation for the given |source|. The new |rotation| will // also become active. void SetDisplayRotation(int64_t display_id, Display::Rotation rotation, Display::RotationSource source); // Resets the UI scale of the display with |display_id| to the one defined in // the default mode. bool ResetDisplayToDefaultMode(int64_t display_id); // Sets the external display's configuration, including resolution change, // ui-scale change, and device scale factor change. Returns true if it changes // the display resolution so that the caller needs to show a notification in // case the new resolution actually doesn't work. bool SetDisplayMode(int64_t display_id, const ManagedDisplayMode& display_mode); // Register per display properties. // |overscan_insets| is null if the display has no custom overscan insets. // |touch_calibration_data| is null if the display has no touch calibration // associated data. // |ui_scale| will be negative if this is not the first boot with display zoom // mode enabled. void RegisterDisplayProperty(int64_t display_id, Display::Rotation rotation, float ui_scale, const gfx::Insets* overscan_insets, const gfx::Size& resolution_in_pixels, float device_scale_factor, float display_zoom_factor); // Register stored rotation properties for the internal display. void RegisterDisplayRotationProperties(bool rotation_lock, Display::Rotation rotation); // Returns the stored rotation lock preference if it has been loaded, // otherwise false. bool registered_internal_display_rotation_lock() const { return registered_internal_display_rotation_lock_; } // Returns the stored rotation preference for the internal display if it has // been loaded, otherwise |Display::Rotate_0|. Display::Rotation registered_internal_display_rotation() const { return registered_internal_display_rotation_; } // Fills in the display |mode| currently in use in |display_id| if found, // returning true in that case, otherwise false. bool GetActiveModeForDisplayId(int64_t display_id, ManagedDisplayMode* mode) const; // Returns true and fills in the display's selected |mode| if found, or false. bool GetSelectedModeForDisplayId(int64_t display_id, ManagedDisplayMode* mode) const; // Sets the selected mode of |display_id| to |display_mode| if it's a // supported mode. This doesn't trigger reconfiguration or observers // notifications. This is suitable to be used from within an observer // notification to prevent reentrance to UpdateDisplaysWith(). void SetSelectedModeForDisplayId(int64_t display_id, const ManagedDisplayMode& display_mode); // Tells if the virtual resolution feature is enabled. bool IsDisplayUIScalingEnabled() const; // Returns the current overscan insets for the specified |display_id|. // Returns an empty insets (0, 0, 0, 0) if no insets are specified for the // display. gfx::Insets GetOverscanInsets(int64_t display_id) const; // Called when display configuration has changed. The new display // configurations is passed as a vector of Display object, which contains each // display's new infomration. void OnNativeDisplaysChanged( const std::vector& display_info_list); // Updates the internal display data and notifies observers about the changes. void UpdateDisplaysWith( const std::vector& display_info_list); // Updates current displays using current |display_info_|. void UpdateDisplays(); // Returns the display at |index|. The display at 0 is no longer considered // "primary". const Display& GetDisplayAt(size_t index) const; const Display& GetPrimaryDisplayCandidate() const; // Returns the logical number of displays. This returns 1 when displays are // mirrored. size_t GetNumDisplays() const; // Returns only the currently active displays. This list does not include the // displays that will be removed if |UpdateDisplaysWith| is currently // executing. // See https://crbug.com/632755 const Displays& active_only_display_list() const { return is_updating_display_list_ ? active_only_display_list_ : active_display_list(); } const Displays& active_display_list() const { return active_display_list_; } // Returns true if the display specified by |display_id| is currently // connected and active. (mirroring display isn't active, for example). bool IsActiveDisplayId(int64_t display_id) const; // Returns the number of connected displays. This returns 2 when displays are // mirrored. size_t num_connected_displays() const { return num_connected_displays_; } // Returns true if either software or hardware mirror mode is active. bool IsInMirrorMode() const; // Returns true if software mirror mode is active. Note that when // SoftwareMirroringEnabled() returns true, it only means software mirroring // mode is requested, but it does not guarantee that the mode is active. The // mode will be active after UpdateDisplaysWith() is called. bool IsInSoftwareMirrorMode() const; // Returns true if hardware mirror mode is active. bool IsInHardwareMirrorMode() const; int64_t mirroring_source_id() const { return mirroring_source_id_; } // Returns a list of mirroring destination display ids. DisplayIdList GetMirroringDestinationDisplayIdList() const; const Displays& software_mirroring_display_list() const { return software_mirroring_display_list_; } // Used in test to prevent previous mirror modes affecting current mode. void set_disable_restoring_mirror_mode_for_test(bool disabled) { disable_restoring_mirror_mode_for_test_ = disabled; } const std::set& external_display_mirror_info() const { return external_display_mirror_info_; } void set_external_display_mirror_info( const std::set& external_display_mirror_info) { external_display_mirror_info_ = external_display_mirror_info; } const base::Optional& mixed_mirror_mode_params() const { return mixed_mirror_mode_params_; } // Set mixed mirror mode parameters. The parameters will be used to restore // mixed mirror mode in the next display configuration. (Use SetMirrorMode() // to immediately switch to mixed mirror mode.) void set_mixed_mirror_mode_params( const base::Optional mixed_params) { mixed_mirror_mode_params_ = mixed_params; } void dec_screen_capture_active_counter() { DCHECK_GT(screen_capture_active_counter_, 0); screen_capture_active_counter_--; } void inc_screen_capture_active_counter() { ++screen_capture_active_counter_; } bool screen_capture_is_active() const { return screen_capture_active_counter_ > 0; } // Remove mirroring source and destination displays, so that they will be // updated when UpdateDisplaysWith() is called. void ClearMirroringSourceAndDestination(); // Sets/gets if the unified desktop feature is enabled. void SetUnifiedDesktopEnabled(bool enabled); bool unified_desktop_enabled() const { return unified_desktop_enabled_; } // Returns true if it's in unified desktop mode. bool IsInUnifiedMode() const; // Sets the Unified Desktop layout using the given |matrix| and sets the // current mode to Unified Desktop. void SetUnifiedDesktopMatrix(const UnifiedDesktopLayoutMatrix& matrix); // In Unified Desktop mode, we consider the first mirroring display to be the // primary. It's also the top-left display in the layout matrix, and it's // where the shelf is placed. // This returns nullptr if we're not in unified desktop mode. const Display* GetPrimaryMirroringDisplayForUnifiedDesktop() const; // Returns the index of the row in the Unified Mode layout matrix which // contains the display with |display_id|. int GetMirroringDisplayRowIndexInUnifiedMatrix(int64_t display_id) const; // Returns the maximum display height of the row with |row_index| in the // Unified Mode layout matrix. int GetUnifiedDesktopRowMaxHeight(int row_index) const; // Returns the display used for software mirrroring. Returns invalid display // if not found. const Display GetMirroringDisplayById(int64_t id) const; // Retuns the display info associated with |display_id|. const ManagedDisplayInfo& GetDisplayInfo(int64_t display_id) const; // Returns the human-readable name for the display |id|. std::string GetDisplayNameForId(int64_t id) const; // Returns the display id that is capable of UI scaling. On device, this // returns internal display's ID if its device scale factor is 2, or invalid // ID if such internal display doesn't exist. On linux desktop, this returns // the first display ID. int64_t GetDisplayIdForUIScaling() const; // Returns true if mirror mode should be set on for the specified displays. bool ShouldSetMirrorModeOn(const DisplayIdList& id_list); // Change the mirror mode. |mixed_params| will be ignored if mirror mode is // off or normal. When mirror mode is off, display mode will be set to default // mode (either extended mode or unified desktop mode). When mirror mode is // normal, the default source display will be mirrored to all other displays. // When mirror mode is mixed, the specified source display will be mirrored to // the specified destination displays and all other connected displays will be // extended. void SetMirrorMode(MirrorMode mode, const base::Optional& mixed_params); // Used to emulate display change when run in a desktop environment instead // of on a device. void AddRemoveDisplay(); void ToggleDisplayScaleFactor(); // SoftwareMirroringController override: #if defined(OS_CHROMEOS) void SetSoftwareMirroring(bool enabled) override; bool SoftwareMirroringEnabled() const override; bool IsSoftwareMirroringEnforced() const override; void SetTouchCalibrationData( int64_t display_id, const TouchCalibrationData::CalibrationPointPairQuad& point_pair_quad, const gfx::Size& display_bounds, const TouchDeviceIdentifier& touch_device_identifier); void ClearTouchCalibrationData( int64_t display_id, base::Optional touch_device_identifier); void UpdateZoomFactor(int64_t display_id, float zoom_factor); #endif // Sets/gets default multi display mode. void SetDefaultMultiDisplayModeForCurrentDisplays(MultiDisplayMode mode); MultiDisplayMode current_default_multi_display_mode() const { return current_default_multi_display_mode_; } // Sets multi display mode. void SetMultiDisplayMode(MultiDisplayMode mode); // Reconfigure display configuration using the same physical display. // TODO(oshima): Refactor and move this impl to |SetDefaultMultiDisplayMode|. void ReconfigureDisplays(); // Update the bounds of the display given by |display_id|. bool UpdateDisplayBounds(int64_t display_id, const gfx::Rect& new_bounds); // Creates mirror window asynchronously if the software mirror mode is // enabled. void CreateMirrorWindowAsyncIfAny(); // A unit test may change the internal display id (which never happens on a // real device). This will update the mode list for internal display for this // test scenario. void UpdateInternalManagedDisplayModeListForTest(); // Zoom the internal display. bool ZoomInternalDisplay(bool up); // Zooms the display identified by |display_id| by increasing or decreasing // its zoom factor value by 1 unit. Zooming in will have no effect on the // display if it is already at its maximum zoom. Vice versa for zooming out. bool ZoomDisplay(int64_t display_id, bool up); // Reset the internal display zoom. void ResetInternalDisplayZoom(); // Resets the zoom value to 1 for the display identified by |display_id|. void ResetDisplayZoom(int64_t display_id); // Notifies observers of display configuration changes. void NotifyMetricsChanged(const Display& display, uint32_t metrics); void NotifyDisplayAdded(const Display& display); void NotifyDisplayRemoved(const Display& display); // Delegated from the Screen implementation. void AddObserver(DisplayObserver* observer); void RemoveObserver(DisplayObserver* observer); // Returns a Display object for a secondary display if it exists or returns // invalid display if there is no secondary display. TODO(rjkroege): Display // swapping is an obsolete feature pre-dating multi-display support so remove // it. const Display& GetSecondaryDisplay() const; private: friend class test::DisplayManagerTestApi; // See description above |notify_depth_| for details. class BeginEndNotifier { public: explicit BeginEndNotifier(DisplayManager* display_manager); ~BeginEndNotifier(); private: DisplayManager* display_manager_; DISALLOW_COPY_AND_ASSIGN(BeginEndNotifier); }; void set_change_display_upon_host_resize(bool value) { change_display_upon_host_resize_ = value; } // Creates software mirroring display related information. The display used to // mirror the content is removed from the |display_info_list|. void CreateSoftwareMirroringDisplayInfo(DisplayInfoList* display_info_list); // Same as above but for Unified Desktop. void CreateUnifiedDesktopDisplayInfo(DisplayInfoList* display_info_list); Display* FindDisplayForId(int64_t id); // Add the mirror display's display info if the software based mirroring is in // use. This should only be called before UpdateDisplaysWith(). void AddMirrorDisplayInfoIfAny(DisplayInfoList* display_info_list); // Inserts and update the ManagedDisplayInfo according to the overscan state. // Note that The ManagedDisplayInfo stored in the |internal_display_info_| can // be different from |new_info| (due to overscan state), so you must use // |GetDisplayInfo| to get the correct ManagedDisplayInfo for a display. void InsertAndUpdateDisplayInfo(const ManagedDisplayInfo& new_info); // Creates a display object from the ManagedDisplayInfo for // |display_id|. Display CreateDisplayFromDisplayInfoById(int64_t display_id); // Creates a display object from the ManagedDisplayInfo for |display_id| for // mirroring. The size of the display will be scaled using |scale| with the // offset using |origin|. Display CreateMirroringDisplayFromDisplayInfoById(int64_t display_id, const gfx::Point& origin, float scale); // Updates the bounds of all non-primary displays in |display_list| and append // the indices of displays updated to |updated_indices|. When the size of // |display_list| equals 2, the bounds are updated using the layout registered // for the display pair. For more than 2 displays, the bounds are updated // using horizontal layout. void UpdateNonPrimaryDisplayBoundsForLayout( Displays* display_list, std::vector* updated_indices); void CreateMirrorWindowIfAny(); void RunPendingTasksForTest(); // Applies the |layout| and updates the bounds of displays in |display_list|. // |updated_ids| contains the ids for displays whose bounds have changed. void ApplyDisplayLayout(DisplayLayout* layout, Displays* display_list, std::vector* updated_ids); // Update the info used to restore mirror mode. void UpdateInfoForRestoringMirrorMode(); Delegate* delegate_ = nullptr; // not owned. // When set to true, DisplayManager will use DisplayConfigurator to configure // displays. By default, this is set to true when running on device and false // when running off device. bool configure_displays_ = false; std::unique_ptr screen_; std::unique_ptr layout_store_; std::unique_ptr current_resolved_layout_; // The matrix that's used to layout the displays in Unified Desktop mode. UnifiedDesktopLayoutMatrix current_unified_desktop_matrix_; std::map mirroring_display_id_to_unified_matrix_row_; std::vector unified_display_rows_heights_; int64_t first_display_id_ = kInvalidDisplayId; // List of current active displays. Displays active_display_list_; // This list does not include the displays that will be removed if // |UpdateDisplaysWith| is under execution. // See https://crbug.com/632755 Displays active_only_display_list_; // True if active_display_list is being modified and has displays that are not // presently active. // See https://crbug.com/632755 bool is_updating_display_list_ = false; size_t num_connected_displays_ = 0; bool force_bounds_changed_ = false; // The mapping from the display ID to its internal data. std::map display_info_; // Selected display modes for displays. Key is the displays' ID. std::map display_modes_; // When set to true, the host window's resize event updates the display's // size. This is set to true when running on desktop environment (for // debugging) so that resizing the host window will update the display // properly. This is set to false on device as well as during the unit tests. bool change_display_upon_host_resize_ = false; MultiDisplayMode multi_display_mode_ = EXTENDED; MultiDisplayMode current_default_multi_display_mode_ = EXTENDED; // This is used in two distinct ways: // 1. The source display id when software mirroring is active. // 2. There's no source and destination display in hardware mirroring, so we // treat the first mirroring display id as source id when hardware mirroring // is active. int64_t mirroring_source_id_ = kInvalidDisplayId; // This is used in two distinct ways: // 1. when software mirroring is active this contains the destination // displays. // 2. when unified mode is enabled this is the set of physical displays. Displays software_mirroring_display_list_; // There's no source and destination display in hardware mirroring, so we // treat the first mirroring display as source and store its id in // |mirroring_source_id_| and treat the rest of mirroring displays as // destination and store their ids in this list. DisplayIdList hardware_mirroring_display_id_list_; // Stores external displays that were in mirror mode before. std::set external_display_mirror_info_; // True if mirror mode should not be restored. Only used in test. bool disable_restoring_mirror_mode_for_test_ = false; // Cached mirror mode for metrics changed notification. bool mirror_mode_for_metrics_ = false; // User preference for rotation lock of the internal display. bool registered_internal_display_rotation_lock_ = false; // User preference for the rotation of the internal display. Display::Rotation registered_internal_display_rotation_ = Display::ROTATE_0; bool unified_desktop_enabled_ = false; bool internal_display_has_accelerometer_ = false; // Set during screen capture to enable software compositing of mouse cursor, // this is a counter to enable multiple active sessions at once. int screen_capture_active_counter_ = 0; base::Closure created_mirror_window_; base::ObserverList observers_; display::mojom::DevDisplayControllerPtr dev_display_controller_; // Not empty if mixed mirror mode should be turned on (the specified source // display is mirrored to the specified destination displays). Empty if mixed // mirror mode is disabled. base::Optional mixed_mirror_mode_params_; // This is incremented whenever a BeginEndNotifier is created and decremented // when destroyed. BeginEndNotifier uses this to track when it should call // OnWillProcessDisplayChanges() and OnDidProcessDisplayChanges(). int notify_depth_ = 0; #if defined(OS_CHROMEOS) std::unique_ptr touch_device_manager_; // A cancelable callback to trigger sending UMA metrics when display zoom is // updated. The reason we need a cancelable callback is because we dont want // to record UMA metrics for changes to the display zoom that are temporary. // Temporary changes may include things like the user trying out different // zoom levels before making the final decision. base::CancelableCallback on_display_zoom_modify_timeout_; #endif // Whether mirroring across multiple displays is enabled. bool is_multi_mirroring_enabled_; base::WeakPtrFactory weak_ptr_factory_; DISALLOW_COPY_AND_ASSIGN(DisplayManager); }; } // namespace display #endif // UI_DISPLAY_MANAGER_DISPLAY_MANAGER_H_