#include "pch.h" #include #include #include "trace.h" #include #include #include extern "C" IMAGE_DOS_HEADER __ImageBase; HMODULE m_hModule; BOOL APIENTRY DllMain(HMODULE hModule, DWORD ul_reason_for_call, LPVOID lpReserved) { m_hModule = hModule; switch (ul_reason_for_call) { case DLL_PROCESS_ATTACH: Trace::RegisterProvider(); break; case DLL_THREAD_ATTACH: case DLL_THREAD_DETACH: break; case DLL_PROCESS_DETACH: Trace::UnregisterProvider(); break; } return TRUE; } const static wchar_t* MODULE_NAME = L"Measure Tool"; const static wchar_t* MODULE_DESC = L"Measure your screen contents"; namespace { const wchar_t JSON_KEY_PROPERTIES[] = L"properties"; const wchar_t JSON_KEY_WIN[] = L"win"; const wchar_t JSON_KEY_ALT[] = L"alt"; const wchar_t JSON_KEY_CTRL[] = L"ctrl"; const wchar_t JSON_KEY_SHIFT[] = L"shift"; const wchar_t JSON_KEY_CODE[] = L"code"; const wchar_t JSON_KEY_ACTIVATION_SHORTCUT[] = L"ActivationShortcut"; } class MeasureTool : public PowertoyModuleIface { private: // The PowerToy state. bool m_enabled = false; Hotkey m_hotkey; HANDLE m_hProcess; void parse_hotkey(PowerToysSettings::PowerToyValues& settings) { auto settingsObject = settings.get_raw_json(); if (settingsObject.GetView().Size()) { try { auto jsonHotkeyObject = settingsObject.GetNamedObject(JSON_KEY_PROPERTIES).GetNamedObject(JSON_KEY_ACTIVATION_SHORTCUT); m_hotkey.win = jsonHotkeyObject.GetNamedBoolean(JSON_KEY_WIN); m_hotkey.alt = jsonHotkeyObject.GetNamedBoolean(JSON_KEY_ALT); m_hotkey.shift = jsonHotkeyObject.GetNamedBoolean(JSON_KEY_SHIFT); m_hotkey.ctrl = jsonHotkeyObject.GetNamedBoolean(JSON_KEY_CTRL); m_hotkey.key = static_cast(jsonHotkeyObject.GetNamedNumber(JSON_KEY_CODE)); } catch (...) { Logger::error("Failed to initialize Measure Tool start shortcut"); } } else { Logger::info("MeasureTool settings are empty"); } if (!m_hotkey.key) { Logger::info("MeasureTool is going to use default shortcut"); m_hotkey.win = true; m_hotkey.alt = false; m_hotkey.shift = true; m_hotkey.ctrl = false; m_hotkey.key = 'M'; } } bool is_process_running() { return WaitForSingleObject(m_hProcess, 0) == WAIT_TIMEOUT; } void launch_process() { Logger::trace(L"Starting MeasureTool process"); unsigned long powertoys_pid = GetCurrentProcessId(); std::wstring executable_args = L""; executable_args.append(std::to_wstring(powertoys_pid)); SHELLEXECUTEINFOW sei{ sizeof(sei) }; sei.fMask = { SEE_MASK_NOCLOSEPROCESS | SEE_MASK_FLAG_NO_UI }; sei.lpFile = L"modules\\MeasureTool\\PowerToys.MeasureToolUI.exe"; sei.nShow = SW_SHOWNORMAL; sei.lpParameters = executable_args.data(); if (ShellExecuteExW(&sei)) { Logger::trace("Successfully started the Measure Tool process"); } else { Logger::error(L"MeasureTool failed to start. {}", get_last_error_or_default(GetLastError())); } m_hProcess = sei.hProcess; } // Load the settings file. void init_settings() { try { // Load and parse the settings file for this PowerToy. PowerToysSettings::PowerToyValues settings = PowerToysSettings::PowerToyValues::load_from_settings_file(get_key()); parse_hotkey(settings); } catch (std::exception ex) { Logger::warn(L"An exception occurred while loading the settings file"); // Error while loading from the settings file. Let default values stay as they are. } } void terminate_process() { TerminateProcess(m_hProcess, 1); } public: MeasureTool() { LoggerHelpers::init_logger(L"Measure Tool", L"ModuleInterface", "Measure Tool"); init_settings(); } ~MeasureTool() { if (m_enabled) { terminate_process(); } m_enabled = false; } // Destroy the powertoy and free memory virtual void destroy() override { delete this; } // Return the localized display name of the powertoy virtual const wchar_t* get_name() override { return MODULE_NAME; } // Return the non localized key of the powertoy, this will be cached by the runner virtual const wchar_t* get_key() override { return MODULE_NAME; } // Return JSON with the configuration options. virtual bool get_config(wchar_t* buffer, int* buffer_size) override { HINSTANCE hinstance = reinterpret_cast(&__ImageBase); // Create a Settings object. PowerToysSettings::Settings settings(hinstance, get_name()); settings.set_description(MODULE_DESC); return settings.serialize_to_buffer(buffer, buffer_size); } // Signal from the Settings editor to call a custom action. // This can be used to spawn more complex editors. virtual void call_custom_action(const wchar_t*) override { } // Called by the runner to pass the updated settings values as a serialized JSON. virtual void set_config(const wchar_t* config) override { try { // Parse the input JSON string. PowerToysSettings::PowerToyValues values = PowerToysSettings::PowerToyValues::from_json_string(config, get_key()); parse_hotkey(values); // If you don't need to do any custom processing of the settings, proceed // to persists the values calling: values.save_to_settings_file(); // Otherwise call a custom function to process the settings before saving them to disk: // save_settings(); } catch (std::exception ex) { // Improper JSON. } } // Enable the powertoy virtual void enable() { m_enabled = true; Trace::EnableMeasureTool(true); } // Disable the powertoy virtual void disable() { if (m_enabled) { terminate_process(); } m_enabled = false; Trace::EnableMeasureTool(false); } // Returns if the powertoys is enabled virtual bool is_enabled() override { return m_enabled; } virtual bool on_hotkey(size_t hotkeyId) override { if (m_enabled) { Logger::trace(L"MeasureTool hotkey pressed"); if (is_process_running()) { terminate_process(); } else { launch_process(); } return true; } return false; } virtual size_t get_hotkeys(Hotkey* hotkeys, size_t buffer_size) override { if (m_hotkey.key) { if (hotkeys && buffer_size >= 1) { hotkeys[0] = m_hotkey; } return 1; } else { return 0; } } }; extern "C" __declspec(dllexport) PowertoyModuleIface* __cdecl powertoy_create() { return new MeasureTool(); }