// 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 <algorithm>
#include <cmath>
#include <iostream>
#include <string>
#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/caps_lock_delegate.h"
#include "ash/debug.h"
#include "ash/display/display_controller.h"
#include "ash/display/display_manager.h"
#include "ash/focus_cycler.h"
#include "ash/ime_control_delegate.h"
#include "ash/launcher/launcher.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_state_delegate.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/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/workspace/snap_sizer.h"
#include "base/bind.h"
#include "base/command_line.h"
#include "content/public/browser/gpu_data_manager.h"
#include "content/public/browser/user_metrics.h"
#include "ui/aura/env.h"
#include "ui/aura/root_window.h"
#include "ui/base/accelerators/accelerator.h"
#include "ui/base/accelerators/accelerator_manager.h"
#include "ui/compositor/debug_utils.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/oak/oak.h"
#include "ui/views/controls/webview/webview.h"
#include "ui/views/debug_utils.h"
#include "ui/views/widget/widget.h"
#if defined(OS_CHROMEOS)
#include "ash/session_state_delegate.h"
#include "ash/system/chromeos/keyboard_brightness_controller.h"
#include "base/sys_info.h"
#endif // defined(OS_CHROMEOS)
namespace ash {
namespace {
using internal::DisplayInfo;
using content::UserMetricsAction;
bool DebugShortcutsEnabled() {
#if defined(NDEBUG)
return CommandLine::ForCurrentProcess()->HasSwitch(
switches::kAshDebugShortcuts);
#else
return true;
#endif
}
bool HandleAccessibleFocusCycle(bool reverse) {
if (reverse) {
content::RecordAction(UserMetricsAction("Accel_Accessible_Focus_Previous"));
} else {
content::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) {
Shell* shell = Shell::GetInstance();
if (accelerator.key_code() == ui::VKEY_TAB)
content::RecordAction(content::UserMetricsAction("Accel_PrevWindow_Tab"));
if (switches::UseOverviewMode()) {
shell->window_selector_controller()->HandleCycleWindow(
WindowSelector::BACKWARD);
return true;
}
shell->window_cycle_controller()->HandleCycleWindow(
WindowCycleController::BACKWARD, accelerator.IsAltDown());
return true;
}
bool HandleCycleForwardMRU(const ui::Accelerator& accelerator) {
Shell* shell = Shell::GetInstance();
if (accelerator.key_code() == ui::VKEY_TAB)
content::RecordAction(content::UserMetricsAction("Accel_NextWindow_Tab"));
if (switches::UseOverviewMode()) {
shell->window_selector_controller()->HandleCycleWindow(
WindowSelector::FORWARD);
return true;
}
shell->window_cycle_controller()->HandleCycleWindow(
WindowCycleController::FORWARD, accelerator.IsAltDown());
return true;
}
bool HandleCycleLinear(const ui::Accelerator& accelerator) {
Shell* shell = Shell::GetInstance();
// TODO(jamescook): When overview becomes the default the AcceleratorAction
// should be renamed from CYCLE_LINEAR to TOGGLE_OVERVIEW.
if (switches::UseOverviewMode()) {
content::RecordAction(content::UserMetricsAction("Accel_Overview_F5"));
shell->window_selector_controller()->ToggleOverview();
return true;
}
if (accelerator.key_code() == ui::VKEY_MEDIA_LAUNCH_APP1)
content::RecordAction(content::UserMetricsAction("Accel_NextWindow_F5"));
shell->window_cycle_controller()->HandleLinearCycleWindow();
return true;
}
bool HandleDisableCapsLock(ui::KeyboardCode key_code,
ui::EventType previous_event_type,
ui::KeyboardCode previous_key_code) {
Shell* shell = Shell::GetInstance();
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;
}
content::RecordAction(UserMetricsAction("Accel_Disable_Caps_Lock"));
if (shell->caps_lock_delegate()->IsCapsLockEnabled()) {
shell->caps_lock_delegate()->SetCapsLockEnabled(false);
return true;
}
return false;
}
bool HandleFocusLauncher() {
Shell* shell = Shell::GetInstance();
content::RecordAction(content::UserMetricsAction("Accel_Focus_Launcher"));
return shell->focus_cycler()->FocusWidget(
Launcher::ForPrimaryDisplay()->shelf_widget());
}
bool HandleLaunchAppN(int n) {
content::RecordAction(UserMetricsAction("Accel_Launch_App"));
Launcher::ForPrimaryDisplay()->LaunchAppIndexAt(n);
return true;
}
bool HandleLaunchLastApp() {
content::RecordAction(UserMetricsAction("Accel_Launch_Last_App"));
Launcher::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);
} 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;
}
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() {
content::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)
content::RecordAction(content::UserMetricsAction("Accel_NewTab_T"));
Shell::GetInstance()->new_window_delegate()->NewTab();
return true;
}
bool HandleNewWindow() {
content::RecordAction(content::UserMetricsAction("Accel_New_Window"));
Shell::GetInstance()->new_window_delegate()->NewWindow(
false /* is_incognito */);
return true;
}
bool 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 false;
}
content::RecordAction(UserMetricsAction("Accel_Next_Ime"));
if (ime_control_delegate)
return ime_control_delegate->HandleNextIme();
return false;
}
bool HandleOpenFeedbackPage() {
content::RecordAction(UserMetricsAction("Accel_Open_Feedback_Page"));
ash::Shell::GetInstance()->new_window_delegate()->OpenFeedbackPage();
return true;
}
bool HandlePositionCenter() {
content::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) {
content::RecordAction(UserMetricsAction("Accel_Previous_Ime"));
if (ime_control_delegate)
return ime_control_delegate->HandlePreviousIme(accelerator);
return false;
}
bool HandleRestoreTab() {
content::RecordAction(content::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: {
content::RecordAction(UserMetricsAction("Accel_Focus_Next_Pane"));
shell->focus_cycler()->RotateFocus(internal::FocusCycler::FORWARD);
break;
}
case Shell::BACKWARD: {
content::RecordAction(UserMetricsAction("Accel_Focus_Previous_Pane"));
shell->focus_cycler()->RotateFocus(internal::FocusCycler::BACKWARD);
break;
}
}
return true;
}
// Rotate the active window.
bool HandleRotateActiveWindow() {
content::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() {
content::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() {
internal::DisplayManager* display_manager =
Shell::GetInstance()->display_manager();
int64 display_id = display_manager->GetDisplayIdForUIScaling();
if (display_id == gfx::Display::kInvalidDisplayID)
return false;
content::RecordAction(UserMetricsAction("Accel_Scale_Ui_Reset"));
display_manager->SetDisplayUIScale(display_id, 1.0f);
return true;
}
bool HandleScaleUI(bool up) {
internal::DisplayManager* display_manager =
Shell::GetInstance()->display_manager();
int64 display_id = display_manager->GetDisplayIdForUIScaling();
if (display_id == gfx::Display::kInvalidDisplayID)
return false;
if (up) {
content::RecordAction(UserMetricsAction("Accel_Scale_Ui_Up"));
} else {
content::RecordAction(UserMetricsAction("Accel_Scale_Ui_Down"));
}
const DisplayInfo& display_info = display_manager->GetDisplayInfo(display_id);
float next_scale =
internal::DisplayManager::GetNextUIScale(display_info, up);
display_manager->SetDisplayUIScale(display_id, next_scale);
return true;
}
bool HandleSwapPrimaryDisplay() {
content::RecordAction(UserMetricsAction("Accel_Swap_Primary_Display"));
Shell::GetInstance()->display_controller()->SwapPrimaryDisplay();
return true;
}
bool HandleShowKeyboardOverlay() {
content::RecordAction(UserMetricsAction("Accel_Show_Keyboard_Overlay"));
ash::Shell::GetInstance()->new_window_delegate()->ShowKeyboardOverlay();
return true;
}
void HandleShowMessageCenterBubble() {
content::RecordAction(UserMetricsAction("Accel_Show_Message_Center_Bubble"));
internal::RootWindowController* controller =
internal::RootWindowController::ForTargetRootWindow();
internal::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();
}
}
bool HandleShowOak() {
if (CommandLine::ForCurrentProcess()->HasSwitch(
switches::kAshEnableOak)) {
oak::ShowOakWindowWithContext(Shell::GetPrimaryRootWindow());
return true;
}
return false;
}
bool HandleShowSystemTrayBubble() {
content::RecordAction(UserMetricsAction("Accel_Show_System_Tray_Bubble"));
internal::RootWindowController* controller =
internal::RootWindowController::ForTargetRootWindow();
if (!controller->GetSystemTray()->HasSystemBubble()) {
controller->GetSystemTray()->ShowDefaultView(BUBBLE_CREATE_NEW);
return true;
}
return false;
}
bool HandleShowTaskManager() {
content::RecordAction(UserMetricsAction("Accel_Show_Task_Manager"));
Shell::GetInstance()->new_window_delegate()->ShowTaskManager();
return true;
}
void HandleSilenceSpokenFeedback() {
content::RecordAction(UserMetricsAction("Accel_Silence_Spoken_Feedback"));
AccessibilityDelegate* delegate =
Shell::GetInstance()->accessibility_delegate();
if (!delegate->IsSpokenFeedbackEnabled())
return;
delegate->SilenceSpokenFeedback();
}
bool HandleSwitchIme(ImeControlDelegate* ime_control_delegate,
const ui::Accelerator& accelerator) {
content::RecordAction(UserMetricsAction("Accel_Switch_Ime"));
if (ime_control_delegate)
return ime_control_delegate->HandleSwitchIme(accelerator);
return false;
}
bool HandleTakePartialScreenshot(ScreenshotDelegate* screenshot_delegate) {
content::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) {
content::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)
content::RecordAction(content::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 HandleToggleCapsLock(ui::KeyboardCode key_code,
ui::EventType previous_event_type,
ui::KeyboardCode previous_key_code) {
Shell* shell = Shell::GetInstance();
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;
}
content::RecordAction(UserMetricsAction("Accel_Toggle_Caps_Lock"));
shell->caps_lock_delegate()->ToggleCapsLock();
return true;
}
bool HandleToggleFullscreen(ui::KeyboardCode key_code) {
if (key_code == ui::VKEY_MEDIA_LAUNCH_APP2) {
content::RecordAction(UserMetricsAction("Accel_Fullscreen_F4"));
}
accelerators::ToggleFullscreen();
return true;
}
bool HandleToggleRootWindowFullScreen() {
Shell::GetPrimaryRootWindow()->GetDispatcher()->host()->ToggleFullScreen();
return true;
}
bool HandleWindowSnap(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() != aura::client::WINDOW_TYPE_NORMAL ||
window_state->IsFullscreen()) {
return false;
}
if (action == WINDOW_SNAP_LEFT) {
content::RecordAction(UserMetricsAction("Accel_Window_Snap_Left"));
} else {
content::RecordAction(UserMetricsAction("Accel_Window_Snap_Right"));
}
internal::SnapSizer::SnapWindow(window_state,
action == WINDOW_SNAP_LEFT ? internal::SnapSizer::LEFT_EDGE :
internal::SnapSizer::RIGHT_EDGE);
return true;
}
bool HandleWindowMinimize() {
content::RecordAction(
content::UserMetricsAction("Accel_Toggle_Minimized_Minus"));
return accelerators::ToggleMinimized();
}
#if defined(OS_CHROMEOS)
bool HandleAddRemoveDisplay() {
content::RecordAction(UserMetricsAction("Accel_Add_Remove_Display"));
Shell::GetInstance()->display_manager()->AddRemoveDisplay();
return true;
}
bool HandleCrosh() {
content::RecordAction(UserMetricsAction("Accel_Open_Crosh"));
Shell::GetInstance()->new_window_delegate()->OpenCrosh();
return true;
}
bool HandleFileManager() {
content::RecordAction(UserMetricsAction("Accel_Open_File_Manager"));
Shell::GetInstance()->new_window_delegate()->OpenFileManager();
return true;
}
bool HandleLock(ui::KeyboardCode key_code) {
content::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:
content::RecordAction(UserMetricsAction("Accel_Switch_To_Next_User"));
break;
case SessionStateDelegate::CYCLE_TO_PREVIOUS_USER:
content::RecordAction(UserMetricsAction("Accel_Switch_To_Previous_User"));
break;
}
delegate->CycleActiveUser(cycle_user);
return true;
}
bool HandleToggleMirrorMode() {
content::RecordAction(UserMetricsAction("Accel_Toggle_Mirror_Mode"));
Shell::GetInstance()->display_controller()->ToggleMirrorMode();
return true;
}
bool HandleToggleSpokenFeedback() {
content::RecordAction(UserMetricsAction("Accel_Toggle_Spoken_Feedback"));
Shell::GetInstance()->accessibility_delegate()->
ToggleSpokenFeedback(A11Y_NOTIFICATION_SHOW);
return true;
}
bool HandleTouchHudClear() {
internal::RootWindowController* controller =
internal::RootWindowController::ForTargetRootWindow();
if (controller->touch_hud_debug()) {
controller->touch_hud_debug()->Clear();
return true;
}
return false;
}
bool HandleTouchHudModeChange() {
internal::RootWindowController* controller =
internal::RootWindowController::ForTargetRootWindow();
if (controller->touch_hud_debug()) {
controller->touch_hud_debug()->ChangeToNextMode();
return true;
}
return false;
}
bool HandleTouchHudProjectToggle() {
content::RecordAction(UserMetricsAction("Accel_Touch_Hud_Clear"));
bool enabled = Shell::GetInstance()->is_touch_hud_projection_enabled();
Shell::GetInstance()->SetTouchHudProjectionEnabled(!enabled);
return true;
}
#endif // defined(OS_CHROMEOS)
// Debug print methods.
bool HandlePrintLayerHierarchy() {
aura::Window::Windows root_windows = Shell::GetAllRootWindows();
for (size_t i = 0; i < root_windows.size(); ++i) {
ui::PrintLayerHierarchy(
root_windows[i]->layer(),
root_windows[i]->GetDispatcher()->GetLastMouseLocationInRoot());
}
return true;
}
bool HandlePrintViewHierarchy() {
aura::Window* active_window = ash::wm::GetActiveWindow();
if (!active_window)
return true;
views::Widget* browser_widget =
views::Widget::GetWidgetForNativeWindow(active_window);
if (!browser_widget)
return true;
views::PrintViewHierarchy(browser_widget->GetRootView());
return true;
}
void PrintWindowHierarchy(aura::Window* window,
int indent,
std::ostringstream* out) {
std::string indent_str(indent, ' ');
std::string name(window->name());
if (name.empty())
name = "\"\"";
*out << indent_str << name << " (" << window << ")"
<< " type=" << window->type()
<< (wm::IsActiveWindow(window) ? " [active] " : " ")
<< (window->IsVisible() ? " visible " : " ")
<< window->bounds().ToString()
<< '\n';
for (size_t i = 0; i < window->children().size(); ++i)
PrintWindowHierarchy(window->children()[i], indent + 3, out);
}
bool HandlePrintWindowHierarchy() {
Shell::RootWindowControllerList controllers =
Shell::GetAllRootWindowControllers();
for (size_t i = 0; i < controllers.size(); ++i) {
std::ostringstream out;
out << "RootWindow " << i << ":\n";
PrintWindowHierarchy(controllers[i]->root_window(), 0, &out);
// Error so logs can be collected from end-users.
LOG(ERROR) << out.str();
}
return true;
}
bool HandlePrintUIHierarchies() {
// This is a separate command so the user only has to hit one key to generate
// all the logs. Developers use the individual dumps repeatedly, so keep
// those as separate commands to avoid spamming their logs.
HandlePrintLayerHierarchy();
HandlePrintWindowHierarchy();
HandlePrintViewHierarchy();
return true;
}
} // namespace
////////////////////////////////////////////////////////////////////////////////
// AcceleratorControllerContext, public:
AcceleratorControllerContext::AcceleratorControllerContext() {
current_accelerator_.set_type(ui::ET_UNKNOWN);
previous_accelerator_.set_type(ui::ET_UNKNOWN);
}
void AcceleratorControllerContext::UpdateContext(
const ui::Accelerator& accelerator) {
previous_accelerator_ = current_accelerator_;
current_accelerator_ = accelerator;
}
////////////////////////////////////////////////////////////////////////////////
// AcceleratorController, public:
AcceleratorController::AcceleratorController()
: accelerator_manager_(new ui::AcceleratorManager) {
Init();
}
AcceleratorController::~AcceleratorController() {
}
void AcceleratorController::Init() {
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 < 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 !defined(NDEBUG)
RegisterAccelerators(kDesktopAcceleratorData, kDesktopAcceleratorDataLength);
#endif
if (DebugShortcutsEnabled()) {
RegisterAccelerators(kDebugAcceleratorData, kDebugAcceleratorDataLength);
for (size_t i = 0; i < kReservedDebugActionsLength; ++i)
reserved_actions_.insert(kReservedDebugActions[i]);
}
#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) {
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::IsReservedAccelerator(
const ui::Accelerator& accelerator) const {
const ui::Accelerator remapped_accelerator = ime_control_delegate_.get() ?
ime_control_delegate_->RemapAccelerator(accelerator) : accelerator;
std::map<ui::Accelerator, int>::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();
if (!shell->session_state_delegate()->IsActiveUserSessionStarted() &&
actions_allowed_at_login_screen_.find(action) ==
actions_allowed_at_login_screen_.end()) {
return false;
}
if (shell->session_state_delegate()->IsScreenLocked() &&
actions_allowed_at_lock_screen_.find(action) ==
actions_allowed_at_lock_screen_.end()) {
return false;
}
if (shell->IsSystemModalWindowOpen() &&
actions_allowed_at_modal_window_.find(action) ==
actions_allowed_at_modal_window_.end()) {
// Note: we return true. This indicates the shortcut is handled
// and 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 true;
}
if (shell->delegate()->IsRunningInForcedAppMode() &&
actions_allowed_in_app_mode_.find(action) ==
actions_allowed_in_app_mode_.end()) {
return false;
}
if (MruWindowTracker::BuildWindowList(false).empty() &&
actions_needing_window_.find(action) != actions_needing_window_.end()) {
Shell::GetInstance()->accessibility_delegate()->TriggerAccessibilityAlert(
A11Y_ALERT_WINDOW_NEEDED);
return true;
}
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() &&
context_.repeated() && !gesture_event) {
return true;
}
// Type of the previous accelerator. Used by NEXT_IME and DISABLE_CAPS_LOCK.
const ui::EventType previous_event_type =
context_.previous_accelerator().type();
const ui::KeyboardCode previous_key_code =
context_.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 CYCLE_LINEAR:
return HandleCycleLinear(accelerator);
#if defined(OS_CHROMEOS)
case ADD_REMOVE_DISPLAY:
return HandleAddRemoveDisplay();
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();
break;
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_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:
return HandleTouchHudProjectToggle();
case DISABLE_GPU_WATCHDOG:
content::GpuDataManager::GetInstance()->DisableGpuWatchdog();
return true;
#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 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);
case BRIGHTNESS_DOWN:
if (brightness_control_delegate_)
return brightness_control_delegate_->HandleBrightnessDown(accelerator);
break;
case BRIGHTNESS_UP:
if (brightness_control_delegate_)
return brightness_control_delegate_->HandleBrightnessUp(accelerator);
break;
case KEYBOARD_BRIGHTNESS_DOWN:
if (keyboard_brightness_control_delegate_)
return keyboard_brightness_control_delegate_->
HandleKeyboardBrightnessDown(accelerator);
break;
case KEYBOARD_BRIGHTNESS_UP:
if (keyboard_brightness_control_delegate_)
return keyboard_brightness_control_delegate_->
HandleKeyboardBrightnessUp(accelerator);
break;
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_LAUNCHER:
return HandleFocusLauncher();
case FOCUS_NEXT_PANE:
return HandleRotatePaneFocus(Shell::FORWARD);
case FOCUS_PREVIOUS_PANE:
return HandleRotatePaneFocus(Shell::BACKWARD);
case SHOW_KEYBOARD_OVERLAY:
return HandleShowKeyboardOverlay();
case SHOW_OAK:
return HandleShowOak();
case SHOW_SYSTEM_TRAY_BUBBLE:
return HandleShowSystemTrayBubble();
case SHOW_MESSAGE_CENTER_BUBBLE:
HandleShowMessageCenterBubble();
break;
case SHOW_TASK_MANAGER:
return HandleShowTaskManager();
case NEXT_IME:
return HandleNextIme(
ime_control_delegate_.get(), previous_event_type, previous_key_code);
case PREVIOUS_IME:
return HandlePreviousIme(ime_control_delegate_.get(), accelerator);
case PRINT_UI_HIERARCHIES:
return HandlePrintUIHierarchies();
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_SNAP_LEFT:
case WINDOW_SNAP_RIGHT:
return HandleWindowSnap(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 TOGGLE_DESKTOP_BACKGROUND_MODE:
return debug::CycleDesktopBackgroundMode();
case TOGGLE_ROOT_WINDOW_FULL_SCREEN:
return HandleToggleRootWindowFullScreen();
case DEBUG_TOGGLE_DEVICE_SCALE_FACTOR:
Shell::GetInstance()->display_manager()->ToggleDisplayScaleFactor();
return true;
case DEBUG_TOGGLE_SHOW_DEBUG_BORDERS:
ash::debug::ToggleShowDebugBorders();
return true;
case DEBUG_TOGGLE_SHOW_FPS_COUNTER:
ash::debug::ToggleShowFpsCounter();
return true;
case DEBUG_TOGGLE_SHOW_PAINT_RECTS:
ash::debug::ToggleShowPaintRects();
return true;
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;
case PRINT_LAYER_HIERARCHY:
return HandlePrintLayerHierarchy();
case PRINT_VIEW_HIERARCHY:
return HandlePrintViewHierarchy();
case PRINT_WINDOW_HIERARCHY:
return HandlePrintWindowHierarchy();
default:
NOTREACHED() << "Unhandled action " << action;
}
return false;
}
void AcceleratorController::SetBrightnessControlDelegate(
scoped_ptr<BrightnessControlDelegate> brightness_control_delegate) {
// Install brightness control delegate only when internal
// display exists.
if (Shell::GetInstance()->display_manager()->HasInternalDisplay() ||
CommandLine::ForCurrentProcess()->HasSwitch(
switches::kAshEnableBrightnessControl)) {
brightness_control_delegate_ = brightness_control_delegate.Pass();
}
}
void AcceleratorController::SetImeControlDelegate(
scoped_ptr<ImeControlDelegate> ime_control_delegate) {
ime_control_delegate_ = ime_control_delegate.Pass();
}
void AcceleratorController::SetScreenshotDelegate(
scoped_ptr<ScreenshotDelegate> screenshot_delegate) {
screenshot_delegate_ = screenshot_delegate.Pass();
}
////////////////////////////////////////////////////////////////////////////////
// AcceleratorController, ui::AcceleratorTarget implementation:
bool AcceleratorController::AcceleratorPressed(
const ui::Accelerator& accelerator) {
std::map<ui::Accelerator, int>::const_iterator it =
accelerators_.find(accelerator);
DCHECK(it != accelerators_.end());
return PerformAction(static_cast<AcceleratorAction>(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<KeyboardBrightnessControlDelegate>
keyboard_brightness_control_delegate) {
keyboard_brightness_control_delegate_ =
keyboard_brightness_control_delegate.Pass();
}
bool AcceleratorController::CanHandleAccelerators() const {
return true;
}
} // namespace ash