#include "pch.h" #include "KeyboardManagerState.h" // Constructor KeyboardManagerState::KeyboardManagerState() : uiState(KeyboardManagerUIState::Deactivated), currentUIWindow(nullptr), currentShortcutUI1(nullptr), currentShortcutUI2(nullptr), currentSingleKeyUI(nullptr), detectedRemapKey(NULL) { configFile_mutex = CreateMutex( NULL, // default security descriptor FALSE, // mutex not owned KeyboardManagerConstants::ConfigFileMutexName.c_str()); } // Destructor KeyboardManagerState::~KeyboardManagerState() { if (configFile_mutex) { CloseHandle(configFile_mutex); } } // Function to check the if the UI state matches the argument state. For states with detect windows it also checks if the window is in focus. bool KeyboardManagerState::CheckUIState(KeyboardManagerUIState state) { std::lock_guard lock(uiState_mutex); if (uiState == state) { std::unique_lock lock(currentUIWindow_mutex); if (uiState == KeyboardManagerUIState::Deactivated || uiState == KeyboardManagerUIState::EditKeyboardWindowActivated || uiState == KeyboardManagerUIState::EditShortcutsWindowActivated) { return true; } // If the UI state is a detect window then we also have to ensure that the UI window is in focus. // GetForegroundWindow can be used here since we only need to check the main parent window and not the sub windows within the content dialog. Using GUIThreadInfo will give more specific sub-windows within the XAML window which is not needed. else if (currentUIWindow == GetForegroundWindow()) { return true; } } // If we are checking for EditKeyboardWindowActivated then it's possible the state could be DetectSingleKeyRemapWindowActivated but not in focus else if (state == KeyboardManagerUIState::EditKeyboardWindowActivated && uiState == KeyboardManagerUIState::DetectSingleKeyRemapWindowActivated) { return true; } // If we are checking for EditShortcutsWindowActivated then it's possible the state could be DetectShortcutWindowActivated but not in focus else if (state == KeyboardManagerUIState::EditShortcutsWindowActivated && uiState == KeyboardManagerUIState::DetectShortcutWindowActivated) { return true; } return false; } // Function to set the window handle of the current UI window that is activated void KeyboardManagerState::SetCurrentUIWindow(HWND windowHandle) { std::lock_guard lock(currentUIWindow_mutex); currentUIWindow = windowHandle; } // Function to set the UI state. When a window is activated, the handle to the window can be passed in the windowHandle argument. void KeyboardManagerState::SetUIState(KeyboardManagerUIState state, HWND windowHandle) { std::lock_guard lock(uiState_mutex); uiState = state; SetCurrentUIWindow(windowHandle); } // Function to reset the UI state members void KeyboardManagerState::ResetUIState() { SetUIState(KeyboardManagerUIState::Deactivated); // Reset the shortcut UI stored variables std::unique_lock currentShortcutUI_lock(currentShortcutUI_mutex); currentShortcutUI1 = nullptr; currentShortcutUI2 = nullptr; currentShortcutUI_lock.unlock(); std::unique_lock detectedShortcut_lock(detectedShortcut_mutex); detectedShortcut.Reset(); detectedShortcut_lock.unlock(); std::unique_lock currentShortcut_lock(currentShortcut_mutex); currentShortcut.Reset(); currentShortcut_lock.unlock(); // Reset all the single key remap UI stored variables. std::unique_lock currentSingleKeyUI_lock(currentSingleKeyUI_mutex); currentSingleKeyUI = nullptr; currentSingleKeyUI_lock.unlock(); std::unique_lock detectedRemapKey_lock(detectedRemapKey_mutex); detectedRemapKey = NULL; detectedRemapKey_lock.unlock(); } // Function to clear the OS Level shortcut remapping table void KeyboardManagerState::ClearOSLevelShortcuts() { std::lock_guard lock(osLevelShortcutReMap_mutex); osLevelShortcutReMap.clear(); } // Function to clear the Keys remapping table. void KeyboardManagerState::ClearSingleKeyRemaps() { std::lock_guard lock(singleKeyReMap_mutex); singleKeyReMap.clear(); } // Function to clear the App specific shortcut remapping table void KeyboardManagerState::ClearAppSpecificShortcuts() { std::lock_guard lock(appSpecificShortcutReMap_mutex); appSpecificShortcutReMap.clear(); } // Function to add a new OS level shortcut remapping bool KeyboardManagerState::AddOSLevelShortcut(const Shortcut& originalSC, const Shortcut& newSC) { std::lock_guard lock(osLevelShortcutReMap_mutex); // Check if the shortcut is already remapped auto it = osLevelShortcutReMap.find(originalSC); if (it != osLevelShortcutReMap.end()) { return false; } osLevelShortcutReMap[originalSC] = RemapShortcut(newSC); return true; } // Function to add a new OS level shortcut remapping bool KeyboardManagerState::AddSingleKeyRemap(const DWORD& originalKey, const DWORD& newRemapKey) { std::lock_guard lock(singleKeyReMap_mutex); // Check if the key is already remapped auto it = singleKeyReMap.find(originalKey); if (it != singleKeyReMap.end()) { return false; } singleKeyReMap[originalKey] = newRemapKey; return true; } // Function to add a new App specific shortcut remapping bool KeyboardManagerState::AddAppSpecificShortcut(const std::wstring& app, const Shortcut& originalSC, const Shortcut& newSC) { std::lock_guard lock(appSpecificShortcutReMap_mutex); // Check if there are any app specific shortcuts for this app auto appIt = appSpecificShortcutReMap.find(app); if (appIt != appSpecificShortcutReMap.end()) { // Check if the shortcut is already remapped auto shortcutIt = appSpecificShortcutReMap[app].find(originalSC); if (shortcutIt != appSpecificShortcutReMap[app].end()) { return false; } } // Convert app name to lower case std::wstring process_name; process_name.resize(app.length()); std::transform(app.begin(), app.end(), process_name.begin(), towlower); appSpecificShortcutReMap[process_name][originalSC] = RemapShortcut(newSC); return true; } // Function to set the textblock of the detect shortcut UI so that it can be accessed by the hook void KeyboardManagerState::ConfigureDetectShortcutUI(const StackPanel& textBlock1, const StackPanel& textBlock2) { std::lock_guard lock(currentShortcutUI_mutex); currentShortcutUI1 = textBlock1; currentShortcutUI2 = textBlock2; } // Function to set the textblock of the detect remap key UI so that it can be accessed by the hook void KeyboardManagerState::ConfigureDetectSingleKeyRemapUI(const StackPanel& textBlock) { std::lock_guard lock(currentSingleKeyUI_mutex); currentSingleKeyUI = textBlock; } void KeyboardManagerState::AddKeyToLayout(const StackPanel& panel, const hstring& key) { // Textblock to display the detected key TextBlock remapKey; Border border; border.Padding({ 20, 10, 20, 10 }); border.Margin({ 0, 0, 10, 0 }); // Use the base low brush to be consistent with the theme border.Background(Windows::UI::Xaml::Application::Current().Resources().Lookup(box_value(L"SystemControlBackgroundBaseLowBrush")).as()); remapKey.FontSize(20); border.HorizontalAlignment(HorizontalAlignment::Left); border.Child(remapKey); remapKey.Text(key); panel.Children().Append(border); } // Function to update the detect shortcut UI based on the entered keys void KeyboardManagerState::UpdateDetectShortcutUI() { std::lock_guard currentShortcutUI_lock(currentShortcutUI_mutex); if (currentShortcutUI1 == nullptr) { return; } std::unique_lock detectedShortcut_lock(detectedShortcut_mutex); std::unique_lock currentShortcut_lock(currentShortcut_mutex); // Save the latest displayed shortcut currentShortcut = detectedShortcut; auto detectedShortcutCopy = detectedShortcut; currentShortcut_lock.unlock(); detectedShortcut_lock.unlock(); // Since this function is invoked from the back-end thread, in order to update the UI the dispatcher must be used. currentShortcutUI1.Dispatcher().RunAsync(Windows::UI::Core::CoreDispatcherPriority::Normal, [this, detectedShortcutCopy]() { std::vector shortcut = detectedShortcutCopy.GetKeyVector(keyboardMap); currentShortcutUI1.Children().Clear(); currentShortcutUI2.Children().Clear(); // The second row should be hidden if there are 3 keys or lesser to avoid an extra margin if (shortcut.size() > 3) { currentShortcutUI2.Visibility(Visibility::Visible); } else { currentShortcutUI2.Visibility(Visibility::Collapsed); } for (int i = 0; i < shortcut.size(); i++) { if (i < 3) { AddKeyToLayout(currentShortcutUI1, shortcut[i]); } else { AddKeyToLayout(currentShortcutUI2, shortcut[i]); } } currentShortcutUI1.UpdateLayout(); currentShortcutUI2.UpdateLayout(); }); } // Function to update the detect remap key UI based on the entered key. void KeyboardManagerState::UpdateDetectSingleKeyRemapUI() { std::lock_guard currentSingleKeyUI_lock(currentSingleKeyUI_mutex); if (currentSingleKeyUI == nullptr) { return; } // Since this function is invoked from the back-end thread, in order to update the UI the dispatcher must be used. currentSingleKeyUI.Dispatcher().RunAsync(Windows::UI::Core::CoreDispatcherPriority::Normal, [this]() { currentSingleKeyUI.Children().Clear(); hstring key = winrt::to_hstring(keyboardMap.GetKeyName(detectedRemapKey).c_str()); AddKeyToLayout(currentSingleKeyUI, key); currentSingleKeyUI.UpdateLayout(); }); } // Function to return the currently detected shortcut which is displayed on the UI Shortcut KeyboardManagerState::GetDetectedShortcut() { std::lock_guard lock(currentShortcut_mutex); return currentShortcut; } // Function to return the currently detected remap key which is displayed on the UI DWORD KeyboardManagerState::GetDetectedSingleRemapKey() { std::lock_guard lock(detectedRemapKey_mutex); return detectedRemapKey; } void KeyboardManagerState::SelectDetectedRemapKey(DWORD key) { std::lock_guard guard(detectedRemapKey_mutex); detectedRemapKey = key; UpdateDetectSingleKeyRemapUI(); return; } void KeyboardManagerState::SelectDetectedShortcut(DWORD key) { // Set the new key and store if a change occurred std::unique_lock lock(detectedShortcut_mutex); bool updateUI = detectedShortcut.SetKey(key); lock.unlock(); if (updateUI) { // Update the UI. This function is called here because it should store the set of keys pressed till the last key which was pressed down. UpdateDetectShortcutUI(); } return; } void KeyboardManagerState::ResetDetectedShortcutKey(DWORD key) { std::lock_guard lock(detectedShortcut_mutex); detectedShortcut.ResetKey(key); } // Function which can be used in HandleKeyboardHookEvent before the single key remap event to use the UI and suppress events while the remap window is active. KeyboardManagerHelper::KeyboardHookDecision KeyboardManagerState::DetectSingleRemapKeyUIBackend(LowlevelKeyboardEvent* data) { // Check if the detect key UI window has been activated if (CheckUIState(KeyboardManagerUIState::DetectSingleKeyRemapWindowActivated)) { if (HandleKeyDelayEvent(data)) { return KeyboardManagerHelper::KeyboardHookDecision::Suppress; } // detect the key if it is pressed down if (data->wParam == WM_KEYDOWN || data->wParam == WM_SYSKEYDOWN) { SelectDetectedRemapKey(data->lParam->vkCode); } // Suppress the keyboard event return KeyboardManagerHelper::KeyboardHookDecision::Suppress; } // If the settings window is up, remappings should not be applied, but we should not suppress events in the hook else if (CheckUIState(KeyboardManagerUIState::EditKeyboardWindowActivated)) { return KeyboardManagerHelper::KeyboardHookDecision::SkipHook; } return KeyboardManagerHelper::KeyboardHookDecision::ContinueExec; } // Function which can be used in HandleKeyboardHookEvent before the os level shortcut remap event to use the UI and suppress events while the remap window is active. KeyboardManagerHelper::KeyboardHookDecision KeyboardManagerState::DetectShortcutUIBackend(LowlevelKeyboardEvent* data) { // Check if the detect shortcut UI window has been activated if (CheckUIState(KeyboardManagerUIState::DetectShortcutWindowActivated)) { if (HandleKeyDelayEvent(data)) { return KeyboardManagerHelper::KeyboardHookDecision::Suppress; } // Add the key if it is pressed down if (data->wParam == WM_KEYDOWN || data->wParam == WM_SYSKEYDOWN) { SelectDetectedShortcut(data->lParam->vkCode); } // Remove the key if it has been released else if (data->wParam == WM_KEYUP || data->wParam == WM_SYSKEYUP) { ResetDetectedShortcutKey(data->lParam->vkCode); } // Suppress the keyboard event return KeyboardManagerHelper::KeyboardHookDecision::Suppress; } // If the detect shortcut UI window is not activated, then clear the shortcut buffer if it isn't empty else { std::lock_guard lock(detectedShortcut_mutex); if (!detectedShortcut.IsEmpty()) { detectedShortcut.Reset(); } } // If the settings window is up, shortcut remappings should not be applied, but we should not suppress events in the hook if (CheckUIState(KeyboardManagerUIState::EditShortcutsWindowActivated)) { return KeyboardManagerHelper::KeyboardHookDecision::SkipHook; } return KeyboardManagerHelper::KeyboardHookDecision::ContinueExec; } void KeyboardManagerState::RegisterKeyDelay( DWORD key, std::function onShortPress, std::function onLongPressDetected, std::function onLongPressReleased) { std::lock_guard l(keyDelays_mutex); if (keyDelays.find(key) != keyDelays.end()) { throw std::invalid_argument("This key was already registered."); } keyDelays[key] = std::make_unique(key, onShortPress, onLongPressDetected, onLongPressReleased); } void KeyboardManagerState::UnregisterKeyDelay(DWORD key) { std::lock_guard l(keyDelays_mutex); auto deleted = keyDelays.erase(key); if (deleted == 0) { throw std::invalid_argument("The key was not previously registered."); } } bool KeyboardManagerState::HandleKeyDelayEvent(LowlevelKeyboardEvent* ev) { if (currentUIWindow != GetForegroundWindow()) { return false; } std::lock_guard l(keyDelays_mutex); if (keyDelays.find(ev->lParam->vkCode) == keyDelays.end()) { return false; } keyDelays[ev->lParam->vkCode]->KeyEvent(ev); return true; } // Save the updated configuration. bool KeyboardManagerState::SaveConfigToFile() { bool result = true; json::JsonObject configJson; json::JsonObject remapShortcuts; json::JsonObject remapKeys; json::JsonArray inProcessRemapKeysArray; json::JsonArray globalRemapShortcutsArray; std::unique_lock lockSingleKeyReMap(singleKeyReMap_mutex); for (const auto& it : singleKeyReMap) { json::JsonObject keys; keys.SetNamedValue(KeyboardManagerConstants::OriginalKeysSettingName, json::value(winrt::to_hstring((unsigned int)it.first))); keys.SetNamedValue(KeyboardManagerConstants::NewRemapKeysSettingName, json::value(winrt::to_hstring((unsigned int)it.second))); inProcessRemapKeysArray.Append(keys); } lockSingleKeyReMap.unlock(); std::unique_lock lockOsLevelShortcutReMap(osLevelShortcutReMap_mutex); for (const auto& it : osLevelShortcutReMap) { json::JsonObject keys; keys.SetNamedValue(KeyboardManagerConstants::OriginalKeysSettingName, json::value(it.first.ToHstringVK())); keys.SetNamedValue(KeyboardManagerConstants::NewRemapKeysSettingName, json::value(it.second.targetShortcut.ToHstringVK())); globalRemapShortcutsArray.Append(keys); } lockOsLevelShortcutReMap.unlock(); remapShortcuts.SetNamedValue(KeyboardManagerConstants::GlobalRemapShortcutsSettingName, globalRemapShortcutsArray); remapKeys.SetNamedValue(KeyboardManagerConstants::InProcessRemapKeysSettingName, inProcessRemapKeysArray); configJson.SetNamedValue(KeyboardManagerConstants::RemapKeysSettingName, remapKeys); configJson.SetNamedValue(KeyboardManagerConstants::RemapShortcutsSettingName, remapShortcuts); // Set timeout of 1sec to wait for file to get free. DWORD timeout = 1000; auto dwWaitResult = WaitForSingleObject( configFile_mutex, timeout); if (dwWaitResult == WAIT_OBJECT_0) { try { json::to_file((PTSettingsHelper::get_module_save_folder_location(KeyboardManagerConstants::ModuleName) + L"\\" + GetCurrentConfigName() + L".json"), configJson); } catch (...) { result = false; } // Make sure to release the Mutex. ReleaseMutex(configFile_mutex); } else { result = false; } return result; } void KeyboardManagerState::SetCurrentConfigName(const std::wstring& configName) { std::lock_guard lock(currentConfig_mutex); currentConfig = configName; } std::wstring KeyboardManagerState::GetCurrentConfigName() { std::lock_guard lock(currentConfig_mutex); return currentConfig; }