/* KWin - the KDE window manager This file is part of the KDE project. SPDX-FileCopyrightText: 2013 Martin Gräßlin SPDX-FileCopyrightText: 2018 Roman Gilg SPDX-FileCopyrightText: 2019 Vlad Zahorodnii SPDX-License-Identifier: GPL-2.0-or-later */ #pragma once #include "config-kwin.h" #include "core/inputdevice.h" #include #include #include #include #include #include #include class KGlobalAccelInterface; class QAction; class QKeySequence; class QMouseEvent; class QKeyEvent; class QWheelEvent; namespace KWin { class IdleDetector; class Window; class GlobalShortcutsManager; class InputEventFilter; class InputEventSpy; class KeyboardInputRedirection; class PointerInputRedirection; class TabletInputRedirection; class TouchInputRedirection; class WindowSelectorFilter; struct SwitchEvent; class TabletEvent; class MouseEvent; struct WheelEvent; class KeyEvent; struct TabletToolButtonEvent; struct TabletPadButtonEvent; struct TabletPadStripEvent; struct TabletPadRingEvent; namespace Decoration { class DecoratedClientImpl; } class InputBackend; class InputDevice; /** * @brief This class is responsible for redirecting incoming input to the surface which currently * has input or send enter/leave events. * * In addition input is intercepted before passed to the surfaces to have KWin internal areas * getting input first (e.g. screen edges) and filter the input event out if we currently have * a full input grab. */ class KWIN_EXPORT InputRedirection : public QObject { Q_OBJECT public: ~InputRedirection() override; void init(); /** * @return const QPointF& The current global pointer position */ QPointF globalPointer() const; Qt::MouseButtons qtButtonStates() const; Qt::KeyboardModifiers keyboardModifiers() const; Qt::KeyboardModifiers modifiersRelevantForGlobalShortcuts() const; void registerPointerShortcut(Qt::KeyboardModifiers modifiers, Qt::MouseButton pointerButtons, QAction *action); void registerAxisShortcut(Qt::KeyboardModifiers modifiers, PointerAxisDirection axis, QAction *action); void registerTouchpadSwipeShortcut(SwipeDirection direction, uint32_t fingerCount, QAction *onUp, std::function progressCallback = {}); void registerTouchpadPinchShortcut(PinchDirection direction, uint32_t fingerCount, QAction *onUp, std::function progressCallback = {}); void registerTouchscreenSwipeShortcut(SwipeDirection direction, uint32_t fingerCount, QAction *action, std::function progressCallback = {}); void forceRegisterTouchscreenSwipeShortcut(SwipeDirection direction, uint32_t fingerCount, QAction *action, std::function progressCallback = {}); void registerGlobalAccel(KGlobalAccelInterface *interface); bool supportsPointerWarping() const; void warpPointer(const QPointF &pos); void installInputEventFilter(InputEventFilter *filter); void uninstallInputEventFilter(InputEventFilter *filter); /** * Installs the @p spy for spying on events. */ void installInputEventSpy(InputEventSpy *spy); /** * Uninstalls the @p spy. This happens automatically when deleting an InputEventSpy. */ void uninstallInputEventSpy(InputEventSpy *spy); void simulateUserActivity(); void addIdleDetector(IdleDetector *detector); void removeIdleDetector(IdleDetector *detector); QList idleInhibitors() const; void addIdleInhibitor(Window *inhibitor); void removeIdleInhibitor(Window *inhibitor); Window *findToplevel(const QPointF &pos); GlobalShortcutsManager *shortcuts() const { return m_shortcuts; } /** * Sends an event through all InputFilters. * The method @p function is invoked on each input filter. Processing is stopped if * a filter returns @c true for @p function. * * The signature of the function should be equivalent to the following: * @code * bool function(const InputEventFilter *spy); * @endcode * * The intended usage is to std::bind the method to invoke on the filter with all arguments * bind. */ template void processFilters(UnaryPredicate function) { for (const auto filter : std::as_const(m_filters)) { if (function(filter)) { return; } } } /** * Sends an event through all input event spies. * The @p function is invoked on each InputEventSpy. * * The UnaryFunction is defined like the UnaryFunction of std::for_each. * The signature of the function should be equivalent to the following: * @code * void function(const InputEventSpy *spy); * @endcode * * The intended usage is to std::bind the method to invoke on the spies with all arguments * bind. */ template void processSpies(UnaryFunction function) { std::for_each(m_spies.constBegin(), m_spies.constEnd(), function); } KeyboardInputRedirection *keyboard() const { return m_keyboard; } PointerInputRedirection *pointer() const { return m_pointer; } TabletInputRedirection *tablet() const { return m_tablet; } TouchInputRedirection *touch() const { return m_touch; } /** * Specifies which was the device that triggered the last input event */ void setLastInputHandler(QObject *device); QObject *lastInputHandler() const; QList devices() const; bool hasAlphaNumericKeyboard(); bool hasPointer() const; bool hasTouch() const; bool hasTabletModeSwitch(); void startInteractiveWindowSelection(std::function callback, const QByteArray &cursorName); void startInteractivePositionSelection(std::function callback); bool isSelectingWindow() const; void enableOrDisableTouchpads(bool enable); void toggleTouchpads(); void enableTouchpads(); void disableTouchpads(); void addInputDevice(InputDevice *device); void removeInputDevice(InputDevice *device); void addInputBackend(std::unique_ptr &&inputBackend); Q_SIGNALS: void deviceAdded(InputDevice *device); void deviceRemoved(InputDevice *device); /** * @brief Emitted when the global pointer position changed * * @param pos The new global pointer position. */ void globalPointerChanged(const QPointF &pos); /** * @brief Emitted when the state of a pointer button changed. * * @param button The button which changed * @param state The new button state */ void pointerButtonStateChanged(uint32_t button, InputDevice::PointerButtonState state); /** * @brief Emitted when a pointer axis changed * * @param axis The axis on which the even occurred * @param delta The delta of the event. */ void pointerAxisChanged(InputDevice::PointerAxis axis, qreal delta); /** * @brief Emitted when the modifiers changes. * * Only emitted for the mask which is provided by Qt::KeyboardModifiers, if other modifiers * change signal is not emitted * * @param newMods The new modifiers state * @param oldMods The previous modifiers state */ void keyboardModifiersChanged(Qt::KeyboardModifiers newMods, Qt::KeyboardModifiers oldMods); /** * @brief Emitted when the state of a key changed. * * @param keyCode The keycode of the key which changed * @param state The new key state */ void keyStateChanged(quint32 keyCode, InputDevice::KeyboardKeyState state); void hasKeyboardChanged(bool set); void hasAlphaNumericKeyboardChanged(bool set); void hasPointerChanged(bool set); void hasTouchChanged(bool set); void hasTabletModeSwitchChanged(bool set); private Q_SLOTS: void handleInputConfigChanged(const KConfigGroup &group); void updateScreens(); private: void setupInputBackends(); void setupTouchpadShortcuts(); void setupWorkspace(); void setupInputFilters(); void updateLeds(LEDs leds); void updateAvailableInputDevices(); KeyboardInputRedirection *m_keyboard; PointerInputRedirection *m_pointer; TabletInputRedirection *m_tablet; TouchInputRedirection *m_touch; QObject *m_lastInputDevice = nullptr; GlobalShortcutsManager *m_shortcuts; std::vector> m_inputBackends; QList m_inputDevices; QList m_idleDetectors; QList m_idleInhibitors; std::unique_ptr m_windowSelector; QList m_filters; QList m_spies; KConfigWatcher::Ptr m_inputConfigWatcher; std::unique_ptr m_virtualTerminalFilter; std::unique_ptr m_dragAndDropFilter; #if KWIN_BUILD_SCREENLOCKER std::unique_ptr m_lockscreenFilter; #endif std::unique_ptr m_screenEdgeFilter; std::unique_ptr m_tabboxFilter; std::unique_ptr m_globalShortcutFilter; std::unique_ptr m_effectsFilter; std::unique_ptr m_interactiveMoveResizeFilter; std::unique_ptr m_popupFilter; std::unique_ptr m_decorationFilter; std::unique_ptr m_windowActionFilter; std::unique_ptr m_internalWindowFilter; std::unique_ptr m_inputKeyboardFilter; std::unique_ptr m_forwardFilter; std::unique_ptr m_hideCursorSpy; std::unique_ptr m_userActivitySpy; std::unique_ptr m_windowInteractedSpy; LEDs m_leds; bool m_hasKeyboard = false; bool m_hasPointer = false; bool m_hasTouch = false; bool m_hasTabletModeSwitch = false; KWIN_SINGLETON(InputRedirection) friend InputRedirection *input(); friend class DecorationEventFilter; friend class InternalWindowEventFilter; friend class ForwardInputFilter; }; namespace InputFilterOrder { enum Order { PlaceholderOutput, Dpms, ButtonRebind, BounceKeys, StickyKeys, EisInput, VirtualTerminal, LockScreen, ScreenEdge, DragAndDrop, WindowSelector, TabBox, GlobalShortcut, Effects, InteractiveMoveResize, Popup, Decoration, WindowAction, XWayland, InternalWindow, InputMethod, Forward, }; } /** * Base class for filtering input events inside InputRedirection. * * The idea behind the InputEventFilter is to have task oriented * filters. E.g. there is one filter taking care of a locked screen, * one to take care of interacting with window decorations, etc. * * A concrete subclass can reimplement the virtual methods and decide * whether an event should be filtered out or not by returning either * @c true or @c false. E.g. the lock screen filter can easily ensure * that all events are filtered out. * * As soon as a filter returns @c true the processing is stopped. If * a filter returns @c false the next one is invoked. This means a filter * installed early gets to see more events than a filter installed later on. * * Deleting an instance of InputEventFilter automatically uninstalls it from * InputRedirection. */ class KWIN_EXPORT InputEventFilter { public: /** * Construct and install the InputEventFilter * @param weight The position in the input chain, lower values come first. * @note the filter is not installed automatically */ InputEventFilter(InputFilterOrder::Order weight); /** * @brief ~InputEventFilter * This will uninstall the event filter if needed */ virtual ~InputEventFilter(); /** * The position in the input chain, lower values come first. */ int weight() const; virtual bool pointerMotion(MouseEvent *event); virtual bool pointerButton(MouseEvent *event); virtual bool pointerFrame(); /** * Event filter for pointer axis events. * * @param event The event information about the axis event * @return @c true to stop further event processing, @c false to pass to next filter */ virtual bool wheelEvent(WheelEvent *event); /** * Event filter for keyboard events. * * @param event The event information about the key event * @return @c true to stop further event processing, @c false to pass to next filter. */ virtual bool keyEvent(KeyEvent *event); virtual bool touchDown(qint32 id, const QPointF &pos, std::chrono::microseconds time); virtual bool touchMotion(qint32 id, const QPointF &pos, std::chrono::microseconds time); virtual bool touchUp(qint32 id, std::chrono::microseconds time); virtual bool touchCancel(); virtual bool touchFrame(); virtual bool pinchGestureBegin(int fingerCount, std::chrono::microseconds time); virtual bool pinchGestureUpdate(qreal scale, qreal angleDelta, const QPointF &delta, std::chrono::microseconds time); virtual bool pinchGestureEnd(std::chrono::microseconds time); virtual bool pinchGestureCancelled(std::chrono::microseconds time); virtual bool swipeGestureBegin(int fingerCount, std::chrono::microseconds time); virtual bool swipeGestureUpdate(const QPointF &delta, std::chrono::microseconds time); virtual bool swipeGestureEnd(std::chrono::microseconds time); virtual bool swipeGestureCancelled(std::chrono::microseconds time); virtual bool holdGestureBegin(int fingerCount, std::chrono::microseconds time); virtual bool holdGestureEnd(std::chrono::microseconds time); virtual bool holdGestureCancelled(std::chrono::microseconds time); virtual bool switchEvent(SwitchEvent *event); virtual bool tabletToolEvent(TabletEvent *event); virtual bool tabletToolButtonEvent(TabletToolButtonEvent *event); virtual bool tabletPadButtonEvent(TabletPadButtonEvent *event); virtual bool tabletPadStripEvent(TabletPadStripEvent *event); virtual bool tabletPadRingEvent(TabletPadRingEvent *event); protected: bool passToInputMethod(QKeyEvent *event); private: int m_weight = 0; }; class KWIN_EXPORT InputDeviceHandler : public QObject { Q_OBJECT public: ~InputDeviceHandler() override; virtual void init(); void update(); /** * @brief First Window currently at the position of the input device * according to the stacking order. * @return Window* at device position. * * This will be null if no window is at the position */ Window *hover() const; /** * @brief Window currently having pointer input focus (this might * be different from the Window at the position of the pointer). * @return Window* with pointer focus. * * This will be null if no window has focus */ Window *focus() const; /** * @brief The Decoration currently receiving events. * @return decoration with pointer focus. */ Decoration::DecoratedClientImpl *decoration() const; virtual QPointF position() const = 0; void setFocus(Window *window); void setDecoration(Decoration::DecoratedClientImpl *decoration); Q_SIGNALS: void decorationChanged(); protected: explicit InputDeviceHandler(InputRedirection *parent); virtual void cleanupDecoration(Decoration::DecoratedClientImpl *old, Decoration::DecoratedClientImpl *now) = 0; virtual void focusUpdate(Window *old, Window *now) = 0; /** * Certain input devices can be in a state of having no valid * position. An example are touch screens when no finger/pen * is resting on the surface (no touch point). */ virtual bool positionValid() const { return true; } virtual bool focusUpdatesBlocked() { return false; } inline bool inited() const { return m_inited; } inline void setInited(bool set) { m_inited = set; } private: bool setHover(Window *window); void updateFocus(); void updateDecoration(); struct { QPointer window; QMetaObject::Connection surfaceCreatedConnection; } m_hover; struct { QPointer window; QPointer decoration; } m_focus; bool m_inited = false; }; inline InputRedirection *input() { return InputRedirection::s_self; } inline QList InputRedirection::devices() const { return m_inputDevices; } } // namespace KWin