// 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. #include "ash/accelerators/accelerator_controller.h" #include #include #include #include "ash/accelerators/accelerator_commands.h" #include "ash/accelerators/accelerator_table.h" #include "ash/accelerators/debug_commands.h" #include "ash/ash_switches.h" #include "ash/debug.h" #include "ash/display/display_controller.h" #include "ash/display/display_manager.h" #include "ash/focus_cycler.h" #include "ash/gpu_support.h" #include "ash/ime_control_delegate.h" #include "ash/magnifier/magnification_controller.h" #include "ash/magnifier/partial_magnification_controller.h" #include "ash/media_delegate.h" #include "ash/multi_profile_uma.h" #include "ash/new_window_delegate.h" #include "ash/root_window_controller.h" #include "ash/rotator/screen_rotation.h" #include "ash/screenshot_delegate.h" #include "ash/session/session_state_delegate.h" #include "ash/shelf/shelf.h" #include "ash/shelf/shelf_delegate.h" #include "ash/shelf/shelf_model.h" #include "ash/shelf/shelf_widget.h" #include "ash/shell.h" #include "ash/shell_delegate.h" #include "ash/shell_window_ids.h" #include "ash/system/brightness_control_delegate.h" #include "ash/system/keyboard_brightness/keyboard_brightness_control_delegate.h" #include "ash/system/status_area_widget.h" #include "ash/system/tray/system_tray.h" #include "ash/system/tray/system_tray_delegate.h" #include "ash/system/tray/system_tray_notifier.h" #include "ash/system/web_notification/web_notification_tray.h" #include "ash/touch/touch_hud_debug.h" #include "ash/volume_control_delegate.h" #include "ash/wm/maximize_mode/maximize_mode_controller.h" #include "ash/wm/mru_window_tracker.h" #include "ash/wm/overview/window_selector_controller.h" #include "ash/wm/partial_screenshot_view.h" #include "ash/wm/power_button_controller.h" #include "ash/wm/window_cycle_controller.h" #include "ash/wm/window_state.h" #include "ash/wm/window_util.h" #include "ash/wm/wm_event.h" #include "base/bind.h" #include "base/command_line.h" #include "base/metrics/user_metrics.h" #include "ui/aura/env.h" #include "ui/base/accelerators/accelerator.h" #include "ui/base/accelerators/accelerator_manager.h" #include "ui/compositor/layer.h" #include "ui/compositor/layer_animation_sequence.h" #include "ui/compositor/layer_animator.h" #include "ui/events/event.h" #include "ui/events/keycodes/keyboard_codes.h" #include "ui/gfx/screen.h" #include "ui/views/controls/webview/webview.h" #if defined(OS_CHROMEOS) #include "ash/system/chromeos/keyboard_brightness_controller.h" #include "base/sys_info.h" #include "chromeos/ime/ime_keyboard.h" #include "chromeos/ime/input_method_manager.h" #endif // defined(OS_CHROMEOS) namespace ash { namespace { using base::UserMetricsAction; bool HandleAccessibleFocusCycle(bool reverse) { if (reverse) { base::RecordAction(UserMetricsAction("Accel_Accessible_Focus_Previous")); } else { base::RecordAction(UserMetricsAction("Accel_Accessible_Focus_Next")); } if (!Shell::GetInstance()->accessibility_delegate()-> IsSpokenFeedbackEnabled()) { return false; } aura::Window* active_window = ash::wm::GetActiveWindow(); if (!active_window) return false; views::Widget* widget = views::Widget::GetWidgetForNativeWindow(active_window); if (!widget) return false; views::FocusManager* focus_manager = widget->GetFocusManager(); if (!focus_manager) return false; views::View* view = focus_manager->GetFocusedView(); if (!view) return false; if (!strcmp(view->GetClassName(), views::WebView::kViewClassName)) return false; focus_manager->AdvanceFocus(reverse); return true; } bool HandleCycleBackwardMRU(const ui::Accelerator& accelerator) { if (accelerator.key_code() == ui::VKEY_TAB) base::RecordAction(base::UserMetricsAction("Accel_PrevWindow_Tab")); Shell::GetInstance()->window_cycle_controller()->HandleCycleWindow( WindowCycleController::BACKWARD); return true; } bool HandleCycleForwardMRU(const ui::Accelerator& accelerator) { if (accelerator.key_code() == ui::VKEY_TAB) base::RecordAction(base::UserMetricsAction("Accel_NextWindow_Tab")); Shell::GetInstance()->window_cycle_controller()->HandleCycleWindow( WindowCycleController::FORWARD); return true; } bool ToggleOverview(const ui::Accelerator& accelerator) { base::RecordAction(base::UserMetricsAction("Accel_Overview_F5")); Shell::GetInstance()->window_selector_controller()->ToggleOverview(); return true; } bool HandleFocusShelf() { Shell* shell = Shell::GetInstance(); base::RecordAction(base::UserMetricsAction("Accel_Focus_Shelf")); return shell->focus_cycler()->FocusWidget( Shelf::ForPrimaryDisplay()->shelf_widget()); } bool HandleLaunchAppN(int n) { base::RecordAction(UserMetricsAction("Accel_Launch_App")); Shelf::ForPrimaryDisplay()->LaunchAppIndexAt(n); return true; } bool HandleLaunchLastApp() { base::RecordAction(UserMetricsAction("Accel_Launch_Last_App")); Shelf::ForPrimaryDisplay()->LaunchAppIndexAt(-1); return true; } // Magnify the screen bool HandleMagnifyScreen(int delta_index) { if (ash::Shell::GetInstance()->magnification_controller()->IsEnabled()) { // TODO(yoshiki): Move the following logic to MagnificationController. float scale = ash::Shell::GetInstance()->magnification_controller()->GetScale(); // Calculate rounded logarithm (base kMagnificationScaleFactor) of scale. int scale_index = std::floor(std::log(scale) / std::log(kMagnificationScaleFactor) + 0.5); int new_scale_index = std::max(0, std::min(8, scale_index + delta_index)); ash::Shell::GetInstance()->magnification_controller()-> SetScale(std::pow(kMagnificationScaleFactor, new_scale_index), true); return true; } else if (ash::Shell::GetInstance()-> partial_magnification_controller()->is_enabled()) { float scale = delta_index > 0 ? kDefaultPartialMagnifiedScale : 1; ash::Shell::GetInstance()->partial_magnification_controller()-> SetScale(scale); return true; } return false; } bool HandleMediaNextTrack() { Shell::GetInstance()->media_delegate()->HandleMediaNextTrack(); return true; } bool HandleMediaPlayPause() { Shell::GetInstance()->media_delegate()->HandleMediaPlayPause(); return true; } bool HandleMediaPrevTrack() { Shell::GetInstance()->media_delegate()->HandleMediaPrevTrack(); return true; } bool HandleNewIncognitoWindow() { base::RecordAction(UserMetricsAction("Accel_New_Incognito_Window")); bool incognito_allowed = Shell::GetInstance()->delegate()->IsIncognitoAllowed(); if (incognito_allowed) Shell::GetInstance()->new_window_delegate()->NewWindow( true /* is_incognito */); return incognito_allowed; } bool HandleNewTab(ui::KeyboardCode key_code) { if (key_code == ui::VKEY_T) base::RecordAction(base::UserMetricsAction("Accel_NewTab_T")); Shell::GetInstance()->new_window_delegate()->NewTab(); return true; } bool HandleNewWindow() { base::RecordAction(base::UserMetricsAction("Accel_New_Window")); Shell::GetInstance()->new_window_delegate()->NewWindow( false /* is_incognito */); return true; } void HandleNextIme(ImeControlDelegate* ime_control_delegate, ui::EventType previous_event_type, ui::KeyboardCode previous_key_code) { // This check is necessary e.g. not to process the Shift+Alt+ // ET_KEY_RELEASED accelerator for Chrome OS (see ash/accelerators/ // accelerator_controller.cc) when Shift+Alt+Tab is pressed and then Tab // is released. if (previous_event_type == ui::ET_KEY_RELEASED && // Workaround for crbug.com/139556. CJK IME users tend to press // Enter (or Space) and Shift+Alt almost at the same time to commit // an IME string and then switch from the IME to the English layout. // This workaround allows the user to trigger NEXT_IME even if the // user presses Shift+Alt before releasing Enter. // TODO(nona|mazda): Fix crbug.com/139556 in a cleaner way. previous_key_code != ui::VKEY_RETURN && previous_key_code != ui::VKEY_SPACE) { // We totally ignore this accelerator. // TODO(mazda): Fix crbug.com/158217 return; } base::RecordAction(UserMetricsAction("Accel_Next_Ime")); if (ime_control_delegate) ime_control_delegate->HandleNextIme(); } bool HandleOpenFeedbackPage() { base::RecordAction(UserMetricsAction("Accel_Open_Feedback_Page")); ash::Shell::GetInstance()->new_window_delegate()->OpenFeedbackPage(); return true; } bool HandlePositionCenter() { base::RecordAction(UserMetricsAction("Accel_Window_Position_Center")); aura::Window* window = wm::GetActiveWindow(); // Docked windows do not support centering and ignore accelerator. if (window && !wm::GetWindowState(window)->IsDocked()) { wm::CenterWindow(window); return true; } return false; } bool HandlePreviousIme(ImeControlDelegate* ime_control_delegate, const ui::Accelerator& accelerator) { base::RecordAction(UserMetricsAction("Accel_Previous_Ime")); if (ime_control_delegate) return ime_control_delegate->HandlePreviousIme(accelerator); return false; } bool HandleRestoreTab() { base::RecordAction(base::UserMetricsAction("Accel_Restore_Tab")); Shell::GetInstance()->new_window_delegate()->RestoreTab(); return true; } bool HandleRotatePaneFocus(Shell::Direction direction) { Shell* shell = Shell::GetInstance(); switch (direction) { // TODO(stevet): Not sure if this is the same as IDC_FOCUS_NEXT_PANE. case Shell::FORWARD: { base::RecordAction(UserMetricsAction("Accel_Focus_Next_Pane")); shell->focus_cycler()->RotateFocus(FocusCycler::FORWARD); break; } case Shell::BACKWARD: { base::RecordAction(UserMetricsAction("Accel_Focus_Previous_Pane")); shell->focus_cycler()->RotateFocus(FocusCycler::BACKWARD); break; } } return true; } // Rotate the active window. bool HandleRotateActiveWindow() { base::RecordAction(UserMetricsAction("Accel_Rotate_Window")); aura::Window* active_window = wm::GetActiveWindow(); if (active_window) { // The rotation animation bases its target transform on the current // rotation and position. Since there could be an animation in progress // right now, queue this animation so when it starts it picks up a neutral // rotation and position. Use replace so we only enqueue one at a time. active_window->layer()->GetAnimator()-> set_preemption_strategy(ui::LayerAnimator::REPLACE_QUEUED_ANIMATIONS); active_window->layer()->GetAnimator()->StartAnimation( new ui::LayerAnimationSequence( new ash::ScreenRotation(360, active_window->layer()))); } return true; } gfx::Display::Rotation GetNextRotation(gfx::Display::Rotation current) { switch (current) { case gfx::Display::ROTATE_0: return gfx::Display::ROTATE_90; case gfx::Display::ROTATE_90: return gfx::Display::ROTATE_180; case gfx::Display::ROTATE_180: return gfx::Display::ROTATE_270; case gfx::Display::ROTATE_270: return gfx::Display::ROTATE_0; } NOTREACHED() << "Unknown rotation:" << current; return gfx::Display::ROTATE_0; } // Rotates the screen. bool HandleRotateScreen() { base::RecordAction(UserMetricsAction("Accel_Rotate_Window")); gfx::Point point = Shell::GetScreen()->GetCursorScreenPoint(); gfx::Display display = Shell::GetScreen()->GetDisplayNearestPoint(point); const DisplayInfo& display_info = Shell::GetInstance()->display_manager()->GetDisplayInfo(display.id()); Shell::GetInstance()->display_manager()->SetDisplayRotation( display.id(), GetNextRotation(display_info.rotation())); return true; } bool HandleScaleReset() { DisplayManager* display_manager = Shell::GetInstance()->display_manager(); int64 display_id = display_manager->GetDisplayIdForUIScaling(); if (display_id == gfx::Display::kInvalidDisplayID) return false; base::RecordAction(UserMetricsAction("Accel_Scale_Ui_Reset")); float ui_scale = display_manager->GetDisplayInfo(display_id).configured_ui_scale(); if (ui_scale != 1.0f) { display_manager->SetDisplayUIScale(display_id, 1.0f); return true; } return false; } bool HandleScaleUI(bool up) { DisplayManager* display_manager = Shell::GetInstance()->display_manager(); int64 display_id = display_manager->GetDisplayIdForUIScaling(); if (display_id == gfx::Display::kInvalidDisplayID) return false; if (up) { base::RecordAction(UserMetricsAction("Accel_Scale_Ui_Up")); } else { base::RecordAction(UserMetricsAction("Accel_Scale_Ui_Down")); } const DisplayInfo& display_info = display_manager->GetDisplayInfo(display_id); float next_scale = DisplayManager::GetNextUIScale(display_info, up); display_manager->SetDisplayUIScale(display_id, next_scale); return true; } #if defined(OS_CHROMEOS) bool HandleSwapPrimaryDisplay() { base::RecordAction(UserMetricsAction("Accel_Swap_Primary_Display")); Shell::GetInstance()->display_controller()->SwapPrimaryDisplay(); return true; } #endif bool HandleShowKeyboardOverlay() { base::RecordAction(UserMetricsAction("Accel_Show_Keyboard_Overlay")); ash::Shell::GetInstance()->new_window_delegate()->ShowKeyboardOverlay(); return true; } bool HandleShowMessageCenterBubble() { base::RecordAction(UserMetricsAction("Accel_Show_Message_Center_Bubble")); RootWindowController* controller = RootWindowController::ForTargetRootWindow(); StatusAreaWidget* status_area_widget = controller->shelf()->status_area_widget(); if (status_area_widget) { WebNotificationTray* notification_tray = status_area_widget->web_notification_tray(); if (notification_tray->visible()) { notification_tray->ShowMessageCenterBubble(); return true; } } return false; } bool HandleShowSystemTrayBubble() { base::RecordAction(UserMetricsAction("Accel_Show_System_Tray_Bubble")); RootWindowController* controller = RootWindowController::ForTargetRootWindow(); if (!controller->GetSystemTray()->HasSystemBubble()) { controller->GetSystemTray()->ShowDefaultView(BUBBLE_CREATE_NEW); return true; } return false; } bool HandleShowTaskManager() { base::RecordAction(UserMetricsAction("Accel_Show_Task_Manager")); Shell::GetInstance()->new_window_delegate()->ShowTaskManager(); return true; } #if defined(OS_CHROMEOS) void HandleSilenceSpokenFeedback() { base::RecordAction(UserMetricsAction("Accel_Silence_Spoken_Feedback")); AccessibilityDelegate* delegate = Shell::GetInstance()->accessibility_delegate(); if (!delegate->IsSpokenFeedbackEnabled()) return; delegate->SilenceSpokenFeedback(); } #endif bool HandleSwitchIme(ImeControlDelegate* ime_control_delegate, const ui::Accelerator& accelerator) { base::RecordAction(UserMetricsAction("Accel_Switch_Ime")); if (ime_control_delegate) return ime_control_delegate->HandleSwitchIme(accelerator); return false; } bool HandleTakePartialScreenshot(ScreenshotDelegate* screenshot_delegate) { base::RecordAction(UserMetricsAction("Accel_Take_Partial_Screenshot")); if (screenshot_delegate) { ash::PartialScreenshotView::StartPartialScreenshot( screenshot_delegate); } // Return true to prevent propagation of the key event because // this key combination is reserved for partial screenshot. return true; } bool HandleTakeScreenshot(ScreenshotDelegate* screenshot_delegate) { base::RecordAction(UserMetricsAction("Accel_Take_Screenshot")); if (screenshot_delegate && screenshot_delegate->CanTakeScreenshot()) { screenshot_delegate->HandleTakeScreenshotForAllRootWindows(); } // Return true to prevent propagation of the key event. return true; } bool HandleToggleAppList(ui::KeyboardCode key_code, ui::EventType previous_event_type, ui::KeyboardCode previous_key_code, const ui::Accelerator& accelerator) { // If something else was pressed between the Search key (LWIN) // being pressed and released, then ignore the release of the // Search key. if (key_code == ui::VKEY_LWIN && (previous_event_type == ui::ET_KEY_RELEASED || previous_key_code != ui::VKEY_LWIN)) return false; if (key_code == ui::VKEY_LWIN) base::RecordAction(base::UserMetricsAction("Accel_Search_LWin")); // When spoken feedback is enabled, we should neither toggle the list nor // consume the key since Search+Shift is one of the shortcuts the a11y // feature uses. crbug.com/132296 DCHECK_EQ(ui::VKEY_LWIN, accelerator.key_code()); if (Shell::GetInstance()->accessibility_delegate()-> IsSpokenFeedbackEnabled()) return false; ash::Shell::GetInstance()->ToggleAppList(NULL); return true; } bool HandleToggleFullscreen(ui::KeyboardCode key_code) { if (key_code == ui::VKEY_MEDIA_LAUNCH_APP2) { base::RecordAction(UserMetricsAction("Accel_Fullscreen_F4")); } accelerators::ToggleFullscreen(); return true; } bool HandleWindowSnapOrDock(int action) { wm::WindowState* window_state = wm::GetActiveWindowState(); // Disable window snapping shortcut key for full screen window due to // http://crbug.com/135487. if (!window_state || (window_state->window()->type() != ui::wm::WINDOW_TYPE_NORMAL && window_state->window()->type() != ui::wm::WINDOW_TYPE_PANEL) || window_state->IsFullscreen()) { return false; } if (action == WINDOW_CYCLE_SNAP_DOCK_LEFT) base::RecordAction(UserMetricsAction("Accel_Window_Snap_Left")); else base::RecordAction(UserMetricsAction("Accel_Window_Snap_Right")); const wm::WMEvent event(action == WINDOW_CYCLE_SNAP_DOCK_LEFT ? wm::WM_EVENT_CYCLE_SNAP_DOCK_LEFT : wm::WM_EVENT_CYCLE_SNAP_DOCK_RIGHT); window_state->OnWMEvent(&event); return true; } bool HandleWindowMinimize() { base::RecordAction( base::UserMetricsAction("Accel_Toggle_Minimized_Minus")); return accelerators::ToggleMinimized(); } #if defined(OS_CHROMEOS) bool HandleCrosh() { base::RecordAction(UserMetricsAction("Accel_Open_Crosh")); Shell::GetInstance()->new_window_delegate()->OpenCrosh(); return true; } bool HandleFileManager() { base::RecordAction(UserMetricsAction("Accel_Open_File_Manager")); Shell::GetInstance()->new_window_delegate()->OpenFileManager(); return true; } bool HandleLock(ui::KeyboardCode key_code) { base::RecordAction(UserMetricsAction("Accel_LockScreen_L")); Shell::GetInstance()->session_state_delegate()->LockScreen(); return true; } bool HandleCycleUser(SessionStateDelegate::CycleUser cycle_user) { if (!Shell::GetInstance()->delegate()->IsMultiProfilesEnabled()) return false; ash::SessionStateDelegate* delegate = ash::Shell::GetInstance()->session_state_delegate(); if (delegate->NumberOfLoggedInUsers() <= 1) return false; MultiProfileUMA::RecordSwitchActiveUser( MultiProfileUMA::SWITCH_ACTIVE_USER_BY_ACCELERATOR); switch (cycle_user) { case SessionStateDelegate::CYCLE_TO_NEXT_USER: base::RecordAction(UserMetricsAction("Accel_Switch_To_Next_User")); break; case SessionStateDelegate::CYCLE_TO_PREVIOUS_USER: base::RecordAction(UserMetricsAction("Accel_Switch_To_Previous_User")); break; } delegate->CycleActiveUser(cycle_user); return true; } bool HandleToggleMirrorMode() { base::RecordAction(UserMetricsAction("Accel_Toggle_Mirror_Mode")); Shell::GetInstance()->display_controller()->ToggleMirrorMode(); return true; } bool HandleToggleSpokenFeedback() { base::RecordAction(UserMetricsAction("Accel_Toggle_Spoken_Feedback")); Shell::GetInstance()->accessibility_delegate()-> ToggleSpokenFeedback(A11Y_NOTIFICATION_SHOW); return true; } bool HandleToggleTouchViewTesting() { // TODO(skuhne): This is only temporary! Remove this! if (CommandLine::ForCurrentProcess()->HasSwitch( switches::kAshEnableTouchViewTesting)) { MaximizeModeController* controller = Shell::GetInstance()-> maximize_mode_controller(); controller->EnableMaximizeModeWindowManager( !controller->IsMaximizeModeWindowManagerEnabled()); return true; } return false; } bool HandleTouchHudClear() { RootWindowController* controller = RootWindowController::ForTargetRootWindow(); if (controller->touch_hud_debug()) { controller->touch_hud_debug()->Clear(); return true; } return false; } bool HandleTouchHudModeChange() { RootWindowController* controller = RootWindowController::ForTargetRootWindow(); if (controller->touch_hud_debug()) { controller->touch_hud_debug()->ChangeToNextMode(); return true; } return false; } bool HandleDisableCapsLock(ui::KeyboardCode key_code, ui::EventType previous_event_type, ui::KeyboardCode previous_key_code) { if (previous_event_type == ui::ET_KEY_RELEASED || (previous_key_code != ui::VKEY_LSHIFT && previous_key_code != ui::VKEY_SHIFT && previous_key_code != ui::VKEY_RSHIFT)) { // If something else was pressed between the Shift key being pressed // and released, then ignore the release of the Shift key. return false; } base::RecordAction(UserMetricsAction("Accel_Disable_Caps_Lock")); chromeos::input_method::InputMethodManager* ime = chromeos::input_method::InputMethodManager::Get(); chromeos::input_method::ImeKeyboard* keyboard = ime ? ime->GetImeKeyboard() : NULL; if (keyboard && keyboard->CapsLockIsEnabled()) { keyboard->SetCapsLockEnabled(false); return true; } return false; } bool HandleToggleCapsLock(ui::KeyboardCode key_code, ui::EventType previous_event_type, ui::KeyboardCode previous_key_code) { if (key_code == ui::VKEY_LWIN) { // If something else was pressed between the Search key (LWIN) // being pressed and released, then ignore the release of the // Search key. // TODO(danakj): Releasing Alt first breaks this: crbug.com/166495 if (previous_event_type == ui::ET_KEY_RELEASED || previous_key_code != ui::VKEY_LWIN) return false; } base::RecordAction(UserMetricsAction("Accel_Toggle_Caps_Lock")); chromeos::input_method::InputMethodManager* ime = chromeos::input_method::InputMethodManager::Get(); chromeos::input_method::ImeKeyboard* keyboard = ime ? ime->GetImeKeyboard() : NULL; if (keyboard) keyboard->SetCapsLockEnabled(!keyboard->CapsLockIsEnabled()); return true; } #endif // defined(OS_CHROMEOS) class AutoSet { public: AutoSet(ui::Accelerator* scoped, ui::Accelerator new_value) : scoped_(scoped), new_value_(new_value) {} ~AutoSet() { *scoped_ = new_value_; } private: ui::Accelerator* scoped_; const ui::Accelerator new_value_; DISALLOW_COPY_AND_ASSIGN(AutoSet); }; } // namespace //////////////////////////////////////////////////////////////////////////////// // AcceleratorController, public: AcceleratorController::AcceleratorController() : accelerator_manager_(new ui::AcceleratorManager) { Init(); } AcceleratorController::~AcceleratorController() { } void AcceleratorController::Init() { previous_accelerator_.set_type(ui::ET_UNKNOWN); for (size_t i = 0; i < kActionsAllowedAtLoginOrLockScreenLength; ++i) { actions_allowed_at_login_screen_.insert( kActionsAllowedAtLoginOrLockScreen[i]); actions_allowed_at_lock_screen_.insert( kActionsAllowedAtLoginOrLockScreen[i]); } for (size_t i = 0; i < kActionsAllowedAtLockScreenLength; ++i) actions_allowed_at_lock_screen_.insert(kActionsAllowedAtLockScreen[i]); for (size_t i = 0; i < kActionsAllowedAtModalWindowLength; ++i) actions_allowed_at_modal_window_.insert(kActionsAllowedAtModalWindow[i]); for (size_t i = 0; i < kPreferredActionsLength; ++i) preferred_actions_.insert(kPreferredActions[i]); for (size_t i = 0; i < kReservedActionsLength; ++i) reserved_actions_.insert(kReservedActions[i]); for (size_t i = 0; i < kNonrepeatableActionsLength; ++i) nonrepeatable_actions_.insert(kNonrepeatableActions[i]); for (size_t i = 0; i < kActionsAllowedInAppModeLength; ++i) actions_allowed_in_app_mode_.insert(kActionsAllowedInAppMode[i]); for (size_t i = 0; i < kActionsNeedingWindowLength; ++i) actions_needing_window_.insert(kActionsNeedingWindow[i]); RegisterAccelerators(kAcceleratorData, kAcceleratorDataLength); if (debug::DebugAcceleratorsEnabled()) { RegisterAccelerators(kDebugAcceleratorData, kDebugAcceleratorDataLength); // All debug accelerators are reserved. for (size_t i = 0; i < kDebugAcceleratorDataLength; ++i) reserved_actions_.insert(kDebugAcceleratorData[i].action); } #if defined(OS_CHROMEOS) keyboard_brightness_control_delegate_.reset( new KeyboardBrightnessController()); #endif } void AcceleratorController::Register(const ui::Accelerator& accelerator, ui::AcceleratorTarget* target) { accelerator_manager_->Register(accelerator, ui::AcceleratorManager::kNormalPriority, target); } void AcceleratorController::Unregister(const ui::Accelerator& accelerator, ui::AcceleratorTarget* target) { accelerator_manager_->Unregister(accelerator, target); } void AcceleratorController::UnregisterAll(ui::AcceleratorTarget* target) { accelerator_manager_->UnregisterAll(target); } bool AcceleratorController::Process(const ui::Accelerator& accelerator) { AutoSet auto_set(&previous_accelerator_, accelerator); if (ime_control_delegate_) { return accelerator_manager_->Process( ime_control_delegate_->RemapAccelerator(accelerator)); } return accelerator_manager_->Process(accelerator); } bool AcceleratorController::IsRegistered( const ui::Accelerator& accelerator) const { return accelerator_manager_->GetCurrentTarget(accelerator) != NULL; } bool AcceleratorController::IsPreferred( const ui::Accelerator& accelerator) const { const ui::Accelerator remapped_accelerator = ime_control_delegate_.get() ? ime_control_delegate_->RemapAccelerator(accelerator) : accelerator; std::map::const_iterator iter = accelerators_.find(remapped_accelerator); if (iter == accelerators_.end()) return false; // not an accelerator. return preferred_actions_.find(iter->second) != preferred_actions_.end(); } bool AcceleratorController::IsReserved( const ui::Accelerator& accelerator) const { const ui::Accelerator remapped_accelerator = ime_control_delegate_.get() ? ime_control_delegate_->RemapAccelerator(accelerator) : accelerator; std::map::const_iterator iter = accelerators_.find(remapped_accelerator); if (iter == accelerators_.end()) return false; // not an accelerator. return reserved_actions_.find(iter->second) != reserved_actions_.end(); } bool AcceleratorController::PerformAction(int action, const ui::Accelerator& accelerator) { ash::Shell* shell = ash::Shell::GetInstance(); AcceleratorProcessingRestriction restriction = GetAcceleratorProcessingRestriction(action); if (restriction != RESTRICTION_NONE) return restriction == RESTRICTION_PREVENT_PROCESSING_AND_PROPAGATION; const ui::KeyboardCode key_code = accelerator.key_code(); // PerformAction() is performed from gesture controllers and passes // empty Accelerator() instance as the second argument. Such events // should never be suspended. const bool gesture_event = key_code == ui::VKEY_UNKNOWN; // Ignore accelerators invoked as repeated (while holding a key for a long // time, if their handling is nonrepeatable. if (nonrepeatable_actions_.find(action) != nonrepeatable_actions_.end() && accelerator.IsRepeat() && !gesture_event) { return true; } // Type of the previous accelerator. Used by NEXT_IME and DISABLE_CAPS_LOCK. const ui::EventType previous_event_type = previous_accelerator_.type(); const ui::KeyboardCode previous_key_code = previous_accelerator_.key_code(); // You *MUST* return true when some action is performed. Otherwise, this // function might be called *twice*, via BrowserView::PreHandleKeyboardEvent // and BrowserView::HandleKeyboardEvent, for a single accelerator press. // // If your accelerator invokes more than one line of code, please either // implement it in your module's controller code (like TOGGLE_MIRROR_MODE // below) or pull it into a HandleFoo() function above. switch (action) { case ACCESSIBLE_FOCUS_NEXT: return HandleAccessibleFocusCycle(false); case ACCESSIBLE_FOCUS_PREVIOUS: return HandleAccessibleFocusCycle(true); case CYCLE_BACKWARD_MRU: return HandleCycleBackwardMRU(accelerator); case CYCLE_FORWARD_MRU: return HandleCycleForwardMRU(accelerator); case TOGGLE_OVERVIEW: return ToggleOverview(accelerator); #if defined(OS_CHROMEOS) case TOGGLE_MIRROR_MODE: return HandleToggleMirrorMode(); case LOCK_SCREEN: return HandleLock(key_code); case OPEN_FILE_MANAGER: return HandleFileManager(); case OPEN_CROSH: return HandleCrosh(); case SILENCE_SPOKEN_FEEDBACK: HandleSilenceSpokenFeedback(); return false; case SWAP_PRIMARY_DISPLAY: return HandleSwapPrimaryDisplay(); case SWITCH_TO_NEXT_USER: return HandleCycleUser(SessionStateDelegate::CYCLE_TO_NEXT_USER); case SWITCH_TO_PREVIOUS_USER: return HandleCycleUser(SessionStateDelegate::CYCLE_TO_PREVIOUS_USER); case TOGGLE_SPOKEN_FEEDBACK: return HandleToggleSpokenFeedback(); case TOGGLE_TOUCH_VIEW_TESTING: return HandleToggleTouchViewTesting(); case TOGGLE_WIFI: Shell::GetInstance()->system_tray_notifier()->NotifyRequestToggleWifi(); return true; case TOUCH_HUD_CLEAR: return HandleTouchHudClear(); case TOUCH_HUD_MODE_CHANGE: return HandleTouchHudModeChange(); case TOUCH_HUD_PROJECTION_TOGGLE: accelerators::ToggleTouchHudProjection(); return true; case DISABLE_GPU_WATCHDOG: Shell::GetInstance()->gpu_support()->DisableGpuWatchdog(); return true; case DISABLE_CAPS_LOCK: return HandleDisableCapsLock( key_code, previous_event_type, previous_key_code); case TOGGLE_CAPS_LOCK: return HandleToggleCapsLock( key_code, previous_event_type, previous_key_code); #endif // OS_CHROMEOS case OPEN_FEEDBACK_PAGE: return HandleOpenFeedbackPage(); case EXIT: // UMA metrics are recorded in the handler. exit_warning_handler_.HandleAccelerator(); return true; case NEW_INCOGNITO_WINDOW: return HandleNewIncognitoWindow(); case NEW_TAB: return HandleNewTab(key_code); case NEW_WINDOW: return HandleNewWindow(); case RESTORE_TAB: return HandleRestoreTab(); case TAKE_SCREENSHOT: return HandleTakeScreenshot(screenshot_delegate_.get()); case TAKE_PARTIAL_SCREENSHOT: return HandleTakePartialScreenshot(screenshot_delegate_.get()); case TOGGLE_APP_LIST: return HandleToggleAppList( key_code, previous_event_type, previous_key_code, accelerator); case BRIGHTNESS_DOWN: if (brightness_control_delegate_) return brightness_control_delegate_->HandleBrightnessDown(accelerator); return false; case BRIGHTNESS_UP: if (brightness_control_delegate_) return brightness_control_delegate_->HandleBrightnessUp(accelerator); return false; case KEYBOARD_BRIGHTNESS_DOWN: if (keyboard_brightness_control_delegate_) return keyboard_brightness_control_delegate_-> HandleKeyboardBrightnessDown(accelerator); return false; case KEYBOARD_BRIGHTNESS_UP: if (keyboard_brightness_control_delegate_) return keyboard_brightness_control_delegate_-> HandleKeyboardBrightnessUp(accelerator); return false; case VOLUME_MUTE: { ash::VolumeControlDelegate* volume_delegate = shell->system_tray_delegate()->GetVolumeControlDelegate(); return volume_delegate && volume_delegate->HandleVolumeMute(accelerator); } case VOLUME_DOWN: { ash::VolumeControlDelegate* volume_delegate = shell->system_tray_delegate()->GetVolumeControlDelegate(); return volume_delegate && volume_delegate->HandleVolumeDown(accelerator); } case VOLUME_UP: { ash::VolumeControlDelegate* volume_delegate = shell->system_tray_delegate()->GetVolumeControlDelegate(); return volume_delegate && volume_delegate->HandleVolumeUp(accelerator); } case FOCUS_SHELF: return HandleFocusShelf(); case FOCUS_NEXT_PANE: return HandleRotatePaneFocus(Shell::FORWARD); case FOCUS_PREVIOUS_PANE: return HandleRotatePaneFocus(Shell::BACKWARD); case SHOW_KEYBOARD_OVERLAY: return HandleShowKeyboardOverlay(); case SHOW_SYSTEM_TRAY_BUBBLE: return HandleShowSystemTrayBubble(); case SHOW_MESSAGE_CENTER_BUBBLE: return HandleShowMessageCenterBubble(); case SHOW_TASK_MANAGER: return HandleShowTaskManager(); case NEXT_IME: HandleNextIme( ime_control_delegate_.get(), previous_event_type, previous_key_code); // NEXT_IME is bound to Alt-Shift key up event. To be consistent with // Windows behavior, do not consume the key event here. return false; case PREVIOUS_IME: return HandlePreviousIme(ime_control_delegate_.get(), accelerator); case PRINT_UI_HIERARCHIES: debug::PrintUIHierarchies(); return true; case SWITCH_IME: return HandleSwitchIme(ime_control_delegate_.get(), accelerator); case LAUNCH_APP_0: return HandleLaunchAppN(0); case LAUNCH_APP_1: return HandleLaunchAppN(1); case LAUNCH_APP_2: return HandleLaunchAppN(2); case LAUNCH_APP_3: return HandleLaunchAppN(3); case LAUNCH_APP_4: return HandleLaunchAppN(4); case LAUNCH_APP_5: return HandleLaunchAppN(5); case LAUNCH_APP_6: return HandleLaunchAppN(6); case LAUNCH_APP_7: return HandleLaunchAppN(7); case LAUNCH_LAST_APP: return HandleLaunchLastApp(); case WINDOW_CYCLE_SNAP_DOCK_LEFT: case WINDOW_CYCLE_SNAP_DOCK_RIGHT: return HandleWindowSnapOrDock(action); case WINDOW_MINIMIZE: return HandleWindowMinimize(); case TOGGLE_FULLSCREEN: return HandleToggleFullscreen(key_code); case TOGGLE_MAXIMIZED: accelerators::ToggleMaximized(); return true; case WINDOW_POSITION_CENTER: return HandlePositionCenter(); case SCALE_UI_UP: return HandleScaleUI(true /* up */); case SCALE_UI_DOWN: return HandleScaleUI(false /* down */); case SCALE_UI_RESET: return HandleScaleReset(); case ROTATE_WINDOW: return HandleRotateActiveWindow(); case ROTATE_SCREEN: return HandleRotateScreen(); case MAGNIFY_SCREEN_ZOOM_IN: return HandleMagnifyScreen(1); case MAGNIFY_SCREEN_ZOOM_OUT: return HandleMagnifyScreen(-1); case MEDIA_NEXT_TRACK: return HandleMediaNextTrack(); case MEDIA_PLAY_PAUSE: return HandleMediaPlayPause(); case MEDIA_PREV_TRACK: return HandleMediaPrevTrack(); case POWER_PRESSED: // fallthrough case POWER_RELEASED: #if defined(OS_CHROMEOS) if (!base::SysInfo::IsRunningOnChromeOS()) { // There is no powerd in linux desktop, so call the // PowerButtonController here. Shell::GetInstance()->power_button_controller()-> OnPowerButtonEvent(action == POWER_PRESSED, base::TimeTicks()); } #endif // We don't do anything with these at present on the device, // (power button events are reported to us from powerm via // D-BUS), but we consume them to prevent them from getting // passed to apps -- see http://crbug.com/146609. return true; case LOCK_PRESSED: case LOCK_RELEASED: Shell::GetInstance()->power_button_controller()-> OnLockButtonEvent(action == LOCK_PRESSED, base::TimeTicks()); return true; default: DCHECK(debug::DebugAcceleratorsEnabled()) << "Unhandled action " << action; } // If |action| is a debug action, run it. debug::PerformDebugAction(action); return false; } AcceleratorController::AcceleratorProcessingRestriction AcceleratorController::GetCurrentAcceleratorRestriction() { return GetAcceleratorProcessingRestriction(-1); } AcceleratorController::AcceleratorProcessingRestriction AcceleratorController::GetAcceleratorProcessingRestriction(int action) { ash::Shell* shell = ash::Shell::GetInstance(); if (!shell->session_state_delegate()->IsActiveUserSessionStarted() && actions_allowed_at_login_screen_.find(action) == actions_allowed_at_login_screen_.end()) { return RESTRICTION_PREVENT_PROCESSING; } if (shell->session_state_delegate()->IsScreenLocked() && actions_allowed_at_lock_screen_.find(action) == actions_allowed_at_lock_screen_.end()) { return RESTRICTION_PREVENT_PROCESSING; } if (shell->IsSystemModalWindowOpen() && actions_allowed_at_modal_window_.find(action) == actions_allowed_at_modal_window_.end()) { // Note we prevent the shortcut from propagating so it will not // be passed to the modal window. This is important for things like // Alt+Tab that would cause an undesired effect in the modal window by // cycling through its window elements. return RESTRICTION_PREVENT_PROCESSING_AND_PROPAGATION; } if (shell->delegate()->IsRunningInForcedAppMode() && actions_allowed_in_app_mode_.find(action) == actions_allowed_in_app_mode_.end()) { return RESTRICTION_PREVENT_PROCESSING; } if (MruWindowTracker::BuildWindowList(false).empty() && actions_needing_window_.find(action) != actions_needing_window_.end()) { Shell::GetInstance()->accessibility_delegate()->TriggerAccessibilityAlert( A11Y_ALERT_WINDOW_NEEDED); return RESTRICTION_PREVENT_PROCESSING_AND_PROPAGATION; } return RESTRICTION_NONE; } void AcceleratorController::SetBrightnessControlDelegate( scoped_ptr brightness_control_delegate) { brightness_control_delegate_ = brightness_control_delegate.Pass(); } void AcceleratorController::SetImeControlDelegate( scoped_ptr ime_control_delegate) { ime_control_delegate_ = ime_control_delegate.Pass(); } void AcceleratorController::SetScreenshotDelegate( scoped_ptr screenshot_delegate) { screenshot_delegate_ = screenshot_delegate.Pass(); } //////////////////////////////////////////////////////////////////////////////// // AcceleratorController, ui::AcceleratorTarget implementation: bool AcceleratorController::AcceleratorPressed( const ui::Accelerator& accelerator) { std::map::const_iterator it = accelerators_.find(accelerator); DCHECK(it != accelerators_.end()); return PerformAction(static_cast(it->second), accelerator); } void AcceleratorController::RegisterAccelerators( const AcceleratorData accelerators[], size_t accelerators_length) { for (size_t i = 0; i < accelerators_length; ++i) { ui::Accelerator accelerator(accelerators[i].keycode, accelerators[i].modifiers); accelerator.set_type(accelerators[i].trigger_on_press ? ui::ET_KEY_PRESSED : ui::ET_KEY_RELEASED); Register(accelerator, this); accelerators_.insert( std::make_pair(accelerator, accelerators[i].action)); } } void AcceleratorController::SetKeyboardBrightnessControlDelegate( scoped_ptr keyboard_brightness_control_delegate) { keyboard_brightness_control_delegate_ = keyboard_brightness_control_delegate.Pass(); } bool AcceleratorController::CanHandleAccelerators() const { return true; } } // namespace ash