// Copyright (c) 2013 GitHub, Inc. // Use of this source code is governed by the MIT license that can be // found in the LICENSE file. #include "shell/browser/browser.h" // must come before other includes. fixes bad #defines from . #include "base/win/shlwapi.h" // NOLINT(build/include_order) #include // NOLINT(build/include_order) #include // NOLINT(build/include_order) #include // NOLINT(build/include_order) #include // NOLINT(build/include_order) #include "base/base_paths.h" #include "base/file_version_info.h" #include "base/files/file_path.h" #include "base/logging.h" #include "base/path_service.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "base/strings/utf_string_conversions.h" #include "base/threading/thread_restrictions.h" #include "base/win/registry.h" #include "base/win/win_util.h" #include "base/win/windows_version.h" #include "chrome/browser/icon_manager.h" #include "electron/electron_version.h" #include "shell/browser/api/electron_api_app.h" #include "shell/browser/electron_browser_main_parts.h" #include "shell/browser/ui/message_box.h" #include "shell/browser/ui/win/jump_list.h" #include "shell/common/application_info.h" #include "shell/common/gin_converters/file_path_converter.h" #include "shell/common/gin_converters/image_converter.h" #include "shell/common/gin_helper/arguments.h" #include "shell/common/gin_helper/dictionary.h" #include "shell/common/skia_util.h" #include "ui/events/keycodes/keyboard_code_conversion_win.h" namespace electron { namespace { BOOL CALLBACK WindowsEnumerationHandler(HWND hwnd, LPARAM param) { DWORD target_process_id = *reinterpret_cast(param); DWORD process_id = 0; GetWindowThreadProcessId(hwnd, &process_id); if (process_id == target_process_id) { SetFocus(hwnd); return FALSE; } return TRUE; } bool GetProcessExecPath(base::string16* exe) { base::FilePath path; if (!base::PathService::Get(base::FILE_EXE, &path)) { return false; } *exe = path.value(); return true; } bool GetProtocolLaunchPath(gin::Arguments* args, base::string16* exe) { if (!args->GetNext(exe) && !GetProcessExecPath(exe)) { return false; } // Read in optional args arg std::vector launch_args; if (args->GetNext(&launch_args) && !launch_args.empty()) *exe = base::StringPrintf(L"\"%ls\" %ls \"%%1\"", exe->c_str(), base::JoinString(launch_args, L" ").c_str()); else *exe = base::StringPrintf(L"\"%ls\" \"%%1\"", exe->c_str()); return true; } // Windows treats a given scheme as an Internet scheme only if its registry // entry has a "URL Protocol" key. Check this, otherwise we allow ProgIDs to be // used as custom protocols which leads to security bugs. bool IsValidCustomProtocol(const base::string16& scheme) { if (scheme.empty()) return false; base::win::RegKey cmd_key(HKEY_CLASSES_ROOT, scheme.c_str(), KEY_QUERY_VALUE); return cmd_key.Valid() && cmd_key.HasValue(L"URL Protocol"); } // Helper for GetApplicationInfoForProtocol(). // takes in an assoc_str // (https://docs.microsoft.com/en-us/windows/win32/api/shlwapi/ne-shlwapi-assocstr) // and returns the application name, icon and path that handles the protocol. // // Windows 8 introduced a new protocol->executable binding system which cannot // be retrieved in the HKCR registry subkey method implemented below. We call // AssocQueryString with the new Win8-only flag ASSOCF_IS_PROTOCOL instead. base::string16 GetAppInfoHelperForProtocol(ASSOCSTR assoc_str, const GURL& url) { const base::string16 url_scheme = base::ASCIIToUTF16(url.scheme()); if (!IsValidCustomProtocol(url_scheme)) return base::string16(); wchar_t out_buffer[1024]; DWORD buffer_size = base::size(out_buffer); HRESULT hr = AssocQueryString(ASSOCF_IS_PROTOCOL, assoc_str, url_scheme.c_str(), NULL, out_buffer, &buffer_size); if (FAILED(hr)) { DLOG(WARNING) << "AssocQueryString failed!"; return base::string16(); } return base::string16(out_buffer); } void OnIconDataAvailable(const base::FilePath& app_path, const base::string16& app_display_name, gin_helper::Promise promise, gfx::Image icon) { if (!icon.IsEmpty()) { v8::HandleScope scope(promise.isolate()); gin_helper::Dictionary dict = gin::Dictionary::CreateEmpty(promise.isolate()); dict.Set("path", app_path); dict.Set("name", app_display_name); dict.Set("icon", icon); promise.Resolve(dict); } else { promise.RejectWithErrorMessage("Failed to get file icon."); } } base::string16 GetAppDisplayNameForProtocol(const GURL& url) { return GetAppInfoHelperForProtocol(ASSOCSTR_FRIENDLYAPPNAME, url); } base::string16 GetAppPathForProtocol(const GURL& url) { return GetAppInfoHelperForProtocol(ASSOCSTR_EXECUTABLE, url); } base::string16 GetAppForProtocolUsingRegistry(const GURL& url) { const base::string16 url_scheme = base::ASCIIToUTF16(url.scheme()); if (!IsValidCustomProtocol(url_scheme)) return base::string16(); // First, try and extract the application's display name. base::string16 command_to_launch; base::win::RegKey cmd_key_name(HKEY_CLASSES_ROOT, url_scheme.c_str(), KEY_READ); if (cmd_key_name.ReadValue(NULL, &command_to_launch) == ERROR_SUCCESS && !command_to_launch.empty()) { return command_to_launch; } // Otherwise, parse the command line in the registry, and return the basename // of the program path if it exists. const base::string16 cmd_key_path = url_scheme + L"\\shell\\open\\command"; base::win::RegKey cmd_key_exe(HKEY_CLASSES_ROOT, cmd_key_path.c_str(), KEY_READ); if (cmd_key_exe.ReadValue(NULL, &command_to_launch) == ERROR_SUCCESS) { base::CommandLine command_line( base::CommandLine::FromString(command_to_launch)); return command_line.GetProgram().BaseName().value(); } return base::string16(); } bool FormatCommandLineString(base::string16* exe, const std::vector& launch_args) { if (exe->empty() && !GetProcessExecPath(exe)) { return false; } if (!launch_args.empty()) { *exe = base::StringPrintf(L"%ls %ls", exe->c_str(), base::JoinString(launch_args, L" ").c_str()); } return true; } // Helper for GetLoginItemSettings(). // iterates over all the entries in a windows registry path and returns // a list of launchItem with matching paths to our application. // if a launchItem with a matching path also has a matching entry within the // startup_approved_key_path, set executable_will_launch_at_login to be `true` std::vector GetLoginItemSettingsHelper( base::win::RegistryValueIterator* it, boolean* executable_will_launch_at_login, base::string16 scope, const Browser::LoginItemSettings& options) { std::vector launch_items; while (it->Valid()) { base::string16 exe = options.path; if (FormatCommandLineString(&exe, options.args)) { // add launch item to vector if it has a matching path (case-insensitive) if ((base::CompareCaseInsensitiveASCII(it->Value(), exe.c_str())) == 0) { Browser::LaunchItem launch_item; base::string16 launch_path = options.path; if (launch_path.empty()) { GetProcessExecPath(&launch_path); } launch_item.name = it->Name(); launch_item.path = launch_path; launch_item.args = options.args; launch_item.scope = scope; launch_item.enabled = true; // attempt to update launch_item.enabled if there is a matching key // value entry in the StartupApproved registry HKEY hkey; // StartupApproved registry path LPCTSTR path = TEXT( "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Explorer\\StartupApp" "roved\\Run"); LONG res; if (scope == L"user") { res = RegOpenKeyEx(HKEY_CURRENT_USER, path, 0, KEY_QUERY_VALUE, &hkey); } else { res = RegOpenKeyEx(HKEY_LOCAL_MACHINE, path, 0, KEY_QUERY_VALUE, &hkey); } if (res == ERROR_SUCCESS) { DWORD type, size; wchar_t startup_binary[12]; LONG result = RegQueryValueEx(hkey, it->Name(), nullptr, &type, reinterpret_cast(&startup_binary), &(size = sizeof(startup_binary))); if (result == ERROR_SUCCESS) { if (type == REG_BINARY) { // any other binary other than this indicates that the program is // not set to launch at login wchar_t binary_accepted[12] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; wchar_t binary_accepted_alt[12] = {0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; std::string reg_binary(reinterpret_cast(binary_accepted)); std::string reg_binary_alt( reinterpret_cast(binary_accepted_alt)); std::string reg_startup_binary( reinterpret_cast(startup_binary)); launch_item.enabled = (reg_binary == reg_startup_binary) || (reg_binary == reg_binary_alt); } } } *executable_will_launch_at_login = *executable_will_launch_at_login || launch_item.enabled; launch_items.push_back(launch_item); } } it->operator++(); } return launch_items; } std::unique_ptr FetchFileVersionInfo() { base::FilePath path; if (base::PathService::Get(base::FILE_EXE, &path)) { base::ThreadRestrictions::ScopedAllowIO allow_io; return FileVersionInfo::CreateFileVersionInfo(path); } return std::unique_ptr(); } } // namespace Browser::UserTask::UserTask() = default; Browser::UserTask::UserTask(const UserTask&) = default; Browser::UserTask::~UserTask() = default; void Browser::Focus(gin::Arguments* args) { // On Windows we just focus on the first window found for this process. DWORD pid = GetCurrentProcessId(); EnumWindows(&WindowsEnumerationHandler, reinterpret_cast(&pid)); } void GetFileIcon(const base::FilePath& path, v8::Isolate* isolate, base::CancelableTaskTracker* cancelable_task_tracker_, const base::string16 app_display_name, gin_helper::Promise promise) { base::FilePath normalized_path = path.NormalizePathSeparators(); IconLoader::IconSize icon_size = IconLoader::IconSize::LARGE; auto* icon_manager = ElectronBrowserMainParts::Get()->GetIconManager(); gfx::Image* icon = icon_manager->LookupIconFromFilepath(normalized_path, icon_size); if (icon) { gin_helper::Dictionary dict = gin::Dictionary::CreateEmpty(isolate); dict.Set("icon", *icon); dict.Set("name", app_display_name); dict.Set("path", normalized_path); promise.Resolve(dict); } else { icon_manager->LoadIcon(normalized_path, icon_size, base::BindOnce(&OnIconDataAvailable, normalized_path, app_display_name, std::move(promise)), cancelable_task_tracker_); } } void GetApplicationInfoForProtocolUsingRegistry( v8::Isolate* isolate, const GURL& url, gin_helper::Promise promise, base::CancelableTaskTracker* cancelable_task_tracker_) { base::FilePath app_path; const base::string16 url_scheme = base::ASCIIToUTF16(url.scheme()); if (!IsValidCustomProtocol(url_scheme)) { promise.RejectWithErrorMessage("invalid url_scheme"); return; } base::string16 command_to_launch; const base::string16 cmd_key_path = url_scheme + L"\\shell\\open\\command"; base::win::RegKey cmd_key_exe(HKEY_CLASSES_ROOT, cmd_key_path.c_str(), KEY_READ); if (cmd_key_exe.ReadValue(NULL, &command_to_launch) == ERROR_SUCCESS) { base::CommandLine command_line( base::CommandLine::FromString(command_to_launch)); app_path = command_line.GetProgram(); } else { promise.RejectWithErrorMessage( "Unable to retrieve installation path to app"); return; } const base::string16 app_display_name = GetAppForProtocolUsingRegistry(url); if (app_display_name.empty()) { promise.RejectWithErrorMessage( "Unable to retrieve application display name"); return; } GetFileIcon(app_path, isolate, cancelable_task_tracker_, app_display_name, std::move(promise)); } // resolves `Promise` - Resolve with an object containing the following: // * `icon` NativeImage - the display icon of the app handling the protocol. // * `path` String - installation path of the app handling the protocol. // * `name` String - display name of the app handling the protocol. void GetApplicationInfoForProtocolUsingAssocQuery( v8::Isolate* isolate, const GURL& url, gin_helper::Promise promise, base::CancelableTaskTracker* cancelable_task_tracker_) { base::string16 app_path = GetAppPathForProtocol(url); if (app_path.empty()) { promise.RejectWithErrorMessage( "Unable to retrieve installation path to app"); return; } base::string16 app_display_name = GetAppDisplayNameForProtocol(url); if (app_display_name.empty()) { promise.RejectWithErrorMessage("Unable to retrieve display name of app"); return; } base::FilePath app_path_file_path = base::FilePath(app_path); GetFileIcon(app_path_file_path, isolate, cancelable_task_tracker_, app_display_name, std::move(promise)); } void Browser::AddRecentDocument(const base::FilePath& path) { CComPtr item; HRESULT hr = SHCreateItemFromParsingName(path.value().c_str(), NULL, IID_PPV_ARGS(&item)); if (SUCCEEDED(hr)) { SHARDAPPIDINFO info; info.psi = item; info.pszAppID = GetAppUserModelID(); SHAddToRecentDocs(SHARD_APPIDINFO, &info); } } void Browser::ClearRecentDocuments() { SHAddToRecentDocs(SHARD_APPIDINFO, nullptr); } void Browser::SetAppUserModelID(const base::string16& name) { electron::SetAppUserModelID(name); } bool Browser::SetUserTasks(const std::vector& tasks) { JumpList jump_list(GetAppUserModelID()); if (!jump_list.Begin()) return false; JumpListCategory category; category.type = JumpListCategory::Type::kTasks; category.items.reserve(tasks.size()); JumpListItem item; item.type = JumpListItem::Type::kTask; for (const auto& task : tasks) { item.title = task.title; item.path = task.program; item.arguments = task.arguments; item.icon_path = task.icon_path; item.icon_index = task.icon_index; item.description = task.description; item.working_dir = task.working_dir; category.items.push_back(item); } jump_list.AppendCategory(category); return jump_list.Commit(); } bool Browser::RemoveAsDefaultProtocolClient(const std::string& protocol, gin::Arguments* args) { if (protocol.empty()) return false; // Main Registry Key HKEY root = HKEY_CURRENT_USER; base::string16 keyPath = L"Software\\Classes\\"; // Command Key base::string16 wprotocol = base::UTF8ToUTF16(protocol); base::string16 shellPath = wprotocol + L"\\shell"; base::string16 cmdPath = keyPath + shellPath + L"\\open\\command"; base::win::RegKey classesKey; base::win::RegKey commandKey; if (FAILED(classesKey.Open(root, keyPath.c_str(), KEY_ALL_ACCESS))) // Classes key doesn't exist, that's concerning, but I guess // we're not the default handler return true; if (FAILED(commandKey.Open(root, cmdPath.c_str(), KEY_ALL_ACCESS))) // Key doesn't even exist, we can confirm that it is not set return true; base::string16 keyVal; if (FAILED(commandKey.ReadValue(L"", &keyVal))) // Default value not set, we can confirm that it is not set return true; base::string16 exe; if (!GetProtocolLaunchPath(args, &exe)) return false; if (keyVal == exe) { // Let's kill the key if (FAILED(classesKey.DeleteKey(shellPath.c_str()))) return false; // Let's clean up after ourselves base::win::RegKey protocolKey; base::string16 protocolPath = keyPath + wprotocol; if (SUCCEEDED( protocolKey.Open(root, protocolPath.c_str(), KEY_ALL_ACCESS))) { protocolKey.DeleteValue(L"URL Protocol"); // Overwrite the default value to be empty, we can't delete it right away protocolKey.WriteValue(L"", L""); protocolKey.DeleteValue(L""); } // If now empty, delete the whole key classesKey.DeleteEmptyKey(wprotocol.c_str()); return true; } else { return true; } } bool Browser::SetAsDefaultProtocolClient(const std::string& protocol, gin::Arguments* args) { // HKEY_CLASSES_ROOT // $PROTOCOL // (Default) = "URL:$NAME" // URL Protocol = "" // shell // open // command // (Default) = "$COMMAND" "%1" // // However, the "HKEY_CLASSES_ROOT" key can only be written by the // Administrator user. So, we instead write to "HKEY_CURRENT_USER\ // Software\Classes", which is inherited by "HKEY_CLASSES_ROOT" // anyway, and can be written by unprivileged users. if (protocol.empty()) return false; base::string16 exe; if (!GetProtocolLaunchPath(args, &exe)) return false; // Main Registry Key HKEY root = HKEY_CURRENT_USER; base::string16 keyPath = base::UTF8ToUTF16("Software\\Classes\\" + protocol); base::string16 urlDecl = base::UTF8ToUTF16("URL:" + protocol); // Command Key base::string16 cmdPath = keyPath + L"\\shell\\open\\command"; // Write information to registry base::win::RegKey key(root, keyPath.c_str(), KEY_ALL_ACCESS); if (FAILED(key.WriteValue(L"URL Protocol", L"")) || FAILED(key.WriteValue(L"", urlDecl.c_str()))) return false; base::win::RegKey commandKey(root, cmdPath.c_str(), KEY_ALL_ACCESS); if (FAILED(commandKey.WriteValue(L"", exe.c_str()))) return false; return true; } bool Browser::IsDefaultProtocolClient(const std::string& protocol, gin::Arguments* args) { if (protocol.empty()) return false; base::string16 exe; if (!GetProtocolLaunchPath(args, &exe)) return false; // Main Registry Key HKEY root = HKEY_CURRENT_USER; base::string16 keyPath = base::UTF8ToUTF16("Software\\Classes\\" + protocol); // Command Key base::string16 cmdPath = keyPath + L"\\shell\\open\\command"; base::win::RegKey key; base::win::RegKey commandKey; if (FAILED(key.Open(root, keyPath.c_str(), KEY_ALL_ACCESS))) // Key doesn't exist, we can confirm that it is not set return false; if (FAILED(commandKey.Open(root, cmdPath.c_str(), KEY_ALL_ACCESS))) // Key doesn't exist, we can confirm that it is not set return false; base::string16 keyVal; if (FAILED(commandKey.ReadValue(L"", &keyVal))) // Default value not set, we can confirm that it is not set return false; // Default value is the same as current file path return keyVal == exe; } base::string16 Browser::GetApplicationNameForProtocol(const GURL& url) { // Windows 8 or above has a new protocol association query. if (base::win::GetVersion() >= base::win::Version::WIN8) { base::string16 application_name = GetAppDisplayNameForProtocol(url); if (!application_name.empty()) return application_name; } return GetAppForProtocolUsingRegistry(url); } v8::Local Browser::GetApplicationInfoForProtocol( v8::Isolate* isolate, const GURL& url) { gin_helper::Promise promise(isolate); v8::Local handle = promise.GetHandle(); // Windows 8 or above has a new protocol association query. if (base::win::GetVersion() >= base::win::Version::WIN8) { GetApplicationInfoForProtocolUsingAssocQuery( isolate, url, std::move(promise), &cancelable_task_tracker_); return handle; } GetApplicationInfoForProtocolUsingRegistry(isolate, url, std::move(promise), &cancelable_task_tracker_); return handle; } bool Browser::SetBadgeCount(int count) { return false; } void Browser::SetLoginItemSettings(LoginItemSettings settings) { base::string16 key_path = L"Software\\Microsoft\\Windows\\CurrentVersion\\Run"; base::win::RegKey key(HKEY_CURRENT_USER, key_path.c_str(), KEY_ALL_ACCESS); base::string16 startup_approved_key_path = L"Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\StartupApproved" L"\\Run"; base::win::RegKey startup_approved_key( HKEY_CURRENT_USER, startup_approved_key_path.c_str(), KEY_ALL_ACCESS); PCWSTR key_name = !settings.name.empty() ? settings.name.c_str() : GetAppUserModelID(); if (settings.open_at_login) { base::string16 exe = settings.path; if (FormatCommandLineString(&exe, settings.args)) { key.WriteValue(key_name, exe.c_str()); if (settings.enabled) { startup_approved_key.DeleteValue(key_name); } else { HKEY hard_key; LPCTSTR path = TEXT( "Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\StartupApp" "roved\\Run"); LONG res = RegOpenKeyEx(HKEY_CURRENT_USER, path, 0, KEY_ALL_ACCESS, &hard_key); if (res == ERROR_SUCCESS) { UCHAR disable_startup_binary[] = {0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; RegSetValueEx(hard_key, key_name, 0, REG_BINARY, reinterpret_cast(disable_startup_binary), sizeof(disable_startup_binary)); } } } } else { // if open at login is false, delete both values startup_approved_key.DeleteValue(key_name); key.DeleteValue(key_name); } } Browser::LoginItemSettings Browser::GetLoginItemSettings( const LoginItemSettings& options) { LoginItemSettings settings; base::string16 keyPath = L"Software\\Microsoft\\Windows\\CurrentVersion\\Run"; base::win::RegKey key(HKEY_CURRENT_USER, keyPath.c_str(), KEY_ALL_ACCESS); base::string16 keyVal; // keep old openAtLogin behaviour if (!FAILED(key.ReadValue(GetAppUserModelID(), &keyVal))) { base::string16 exe = options.path; if (FormatCommandLineString(&exe, options.args)) { settings.open_at_login = keyVal == exe; } } // iterate over current user and machine registries and populate launch items // if there exists a launch entry with property enabled=='true', // set executable_will_launch_at_login to 'true'. boolean executable_will_launch_at_login = false; std::vector launch_items; base::win::RegistryValueIterator hkcu_iterator(HKEY_CURRENT_USER, keyPath.c_str()); base::win::RegistryValueIterator hklm_iterator(HKEY_LOCAL_MACHINE, keyPath.c_str()); launch_items = GetLoginItemSettingsHelper( &hkcu_iterator, &executable_will_launch_at_login, L"user", options); std::vector launch_items_hklm = GetLoginItemSettingsHelper(&hklm_iterator, &executable_will_launch_at_login, L"machine", options); launch_items.insert(launch_items.end(), launch_items_hklm.begin(), launch_items_hklm.end()); settings.executable_will_launch_at_login = executable_will_launch_at_login; settings.launch_items = launch_items; return settings; } PCWSTR Browser::GetAppUserModelID() { return GetRawAppUserModelID(); } std::string Browser::GetExecutableFileVersion() const { base::FilePath path; if (base::PathService::Get(base::FILE_EXE, &path)) { base::ThreadRestrictions::ScopedAllowIO allow_io; std::unique_ptr version_info = FetchFileVersionInfo(); return base::UTF16ToUTF8(version_info->product_version()); } return ELECTRON_VERSION_STRING; } std::string Browser::GetExecutableFileProductName() const { return GetApplicationName(); } bool Browser::IsEmojiPanelSupported() { // emoji picker is supported on Windows 10's Spring 2018 update & above. return base::win::GetVersion() >= base::win::Version::WIN10_RS4; } void Browser::ShowEmojiPanel() { // This sends Windows Key + '.' (both keydown and keyup events). // "SendInput" is used because Windows needs to receive these events and // open the Emoji picker. INPUT input[4] = {}; input[0].type = INPUT_KEYBOARD; input[0].ki.wVk = ui::WindowsKeyCodeForKeyboardCode(ui::VKEY_COMMAND); input[1].type = INPUT_KEYBOARD; input[1].ki.wVk = ui::WindowsKeyCodeForKeyboardCode(ui::VKEY_OEM_PERIOD); input[2].type = INPUT_KEYBOARD; input[2].ki.wVk = ui::WindowsKeyCodeForKeyboardCode(ui::VKEY_COMMAND); input[2].ki.dwFlags |= KEYEVENTF_KEYUP; input[3].type = INPUT_KEYBOARD; input[3].ki.wVk = ui::WindowsKeyCodeForKeyboardCode(ui::VKEY_OEM_PERIOD); input[3].ki.dwFlags |= KEYEVENTF_KEYUP; ::SendInput(4, input, sizeof(INPUT)); } void Browser::ShowAboutPanel() { base::Value dict(base::Value::Type::DICTIONARY); std::string aboutMessage = ""; gfx::ImageSkia image; // grab defaults from Windows .EXE file std::unique_ptr exe_info = FetchFileVersionInfo(); dict.SetStringKey("applicationName", exe_info->file_description()); dict.SetStringKey("applicationVersion", exe_info->product_version()); if (about_panel_options_.is_dict()) { dict.MergeDictionary(&about_panel_options_); } std::vector stringOptions = { "applicationName", "applicationVersion", "copyright", "credits"}; const std::string* str; for (std::string opt : stringOptions) { if ((str = dict.FindStringKey(opt))) { aboutMessage.append(*str).append("\r\n"); } } if ((str = dict.FindStringKey("iconPath"))) { base::FilePath path = base::FilePath::FromUTF8Unsafe(*str); electron::util::PopulateImageSkiaRepsFromPath(&image, path); } electron::MessageBoxSettings settings = {}; settings.message = aboutMessage; settings.icon = image; settings.type = electron::MessageBoxType::kInformation; electron::ShowMessageBoxSync(settings); } void Browser::SetAboutPanelOptions(base::DictionaryValue options) { about_panel_options_ = std::move(options); } } // namespace electron