// 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/api/electron_api_app.h" #include #include #include #include #include "base/command_line.h" #include "base/containers/fixed_flat_map.h" #include "base/containers/span.h" #include "base/environment.h" #include "base/files/file_path.h" #include "base/files/file_util.h" #include "base/functional/callback_helpers.h" #include "base/path_service.h" #include "base/system/sys_info.h" #include "base/values.h" #include "base/win/windows_version.h" #include "chrome/browser/browser_process.h" #include "chrome/browser/icon_manager.h" #include "chrome/common/chrome_features.h" #include "chrome/common/chrome_paths.h" #include "content/browser/gpu/compositor_util.h" // nogncheck #include "content/browser/gpu/gpu_data_manager_impl.h" // nogncheck #include "content/public/browser/browser_accessibility_state.h" #include "content/public/browser/browser_child_process_host.h" #include "content/public/browser/child_process_data.h" #include "content/public/browser/client_certificate_delegate.h" #include "content/public/browser/gpu_data_manager.h" #include "content/public/browser/network_service_instance.h" #include "content/public/browser/render_frame_host.h" #include "content/public/common/content_switches.h" #include "crypto/crypto_buildflags.h" #include "media/audio/audio_manager.h" #include "net/dns/public/dns_over_https_config.h" #include "net/dns/public/dns_over_https_server_config.h" #include "net/dns/public/util.h" #include "net/ssl/client_cert_identity.h" #include "net/ssl/ssl_cert_request_info.h" #include "net/ssl/ssl_private_key.h" #include "sandbox/policy/switches.h" #include "services/network/network_service.h" #include "shell/app/command_line_args.h" #include "shell/browser/api/electron_api_menu.h" #include "shell/browser/api/electron_api_session.h" #include "shell/browser/api/electron_api_utility_process.h" #include "shell/browser/api/electron_api_web_contents.h" #include "shell/browser/api/gpuinfo_manager.h" #include "shell/browser/browser_process_impl.h" #include "shell/browser/electron_browser_context.h" #include "shell/browser/electron_browser_main_parts.h" #include "shell/browser/javascript_environment.h" #include "shell/browser/login_handler.h" #include "shell/browser/relauncher.h" #include "shell/common/application_info.h" #include "shell/common/electron_command_line.h" #include "shell/common/electron_paths.h" #include "shell/common/gin_converters/base_converter.h" #include "shell/common/gin_converters/blink_converter.h" #include "shell/common/gin_converters/callback_converter.h" #include "shell/common/gin_converters/file_path_converter.h" #include "shell/common/gin_converters/gurl_converter.h" #include "shell/common/gin_converters/image_converter.h" #include "shell/common/gin_converters/net_converter.h" #include "shell/common/gin_converters/value_converter.h" #include "shell/common/gin_helper/dictionary.h" #include "shell/common/gin_helper/object_template_builder.h" #include "shell/common/language_util.h" #include "shell/common/node_includes.h" #include "shell/common/options_switches.h" #include "shell/common/platform_util.h" #include "shell/common/thread_restrictions.h" #include "shell/common/v8_value_serializer.h" #include "third_party/abseil-cpp/absl/types/optional.h" #include "ui/gfx/image/image.h" #if BUILDFLAG(IS_WIN) #include "base/strings/utf_string_conversions.h" #include "shell/browser/ui/win/jump_list.h" #endif #if BUILDFLAG(IS_MAC) #include #include "base/mac/mac_util.h" #include "shell/browser/ui/cocoa/electron_bundle_mover.h" #endif using electron::Browser; namespace gin { #if BUILDFLAG(IS_WIN) template <> struct Converter { static v8::Local ToV8(v8::Isolate* isolate, electron::ProcessIntegrityLevel value) { switch (value) { case electron::ProcessIntegrityLevel::kUntrusted: return StringToV8(isolate, "untrusted"); case electron::ProcessIntegrityLevel::kLow: return StringToV8(isolate, "low"); case electron::ProcessIntegrityLevel::kMedium: return StringToV8(isolate, "medium"); case electron::ProcessIntegrityLevel::kHigh: return StringToV8(isolate, "high"); default: return StringToV8(isolate, "unknown"); } } }; template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, Browser::UserTask* out) { gin_helper::Dictionary dict; if (!ConvertFromV8(isolate, val, &dict)) return false; if (!dict.Get("program", &(out->program)) || !dict.Get("title", &(out->title))) return false; if (dict.Get("iconPath", &(out->icon_path)) && !dict.Get("iconIndex", &(out->icon_index))) return false; dict.Get("arguments", &(out->arguments)); dict.Get("description", &(out->description)); dict.Get("workingDirectory", &(out->working_dir)); return true; } }; using electron::JumpListCategory; using electron::JumpListItem; using electron::JumpListResult; template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, JumpListItem::Type* out) { return FromV8WithLookup(isolate, val, Lookup, out); } static v8::Local ToV8(v8::Isolate* isolate, JumpListItem::Type val) { for (const auto& [name, item_val] : Lookup) if (item_val == val) return gin::ConvertToV8(isolate, name); return gin::ConvertToV8(isolate, ""); } private: static constexpr auto Lookup = base::MakeFixedFlatMapSorted({ {"file", JumpListItem::Type::kFile}, {"separator", JumpListItem::Type::kSeparator}, {"task", JumpListItem::Type::kTask}, }); }; template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, JumpListItem* out) { gin_helper::Dictionary dict; if (!ConvertFromV8(isolate, val, &dict)) return false; if (!dict.Get("type", &(out->type))) return false; switch (out->type) { case JumpListItem::Type::kTask: if (!dict.Get("program", &(out->path)) || !dict.Get("title", &(out->title))) return false; if (dict.Get("iconPath", &(out->icon_path)) && !dict.Get("iconIndex", &(out->icon_index))) return false; dict.Get("args", &(out->arguments)); dict.Get("description", &(out->description)); dict.Get("workingDirectory", &(out->working_dir)); return true; case JumpListItem::Type::kSeparator: return true; case JumpListItem::Type::kFile: return dict.Get("path", &(out->path)); } assert(false); return false; } static v8::Local ToV8(v8::Isolate* isolate, const JumpListItem& val) { auto dict = gin_helper::Dictionary::CreateEmpty(isolate); dict.Set("type", val.type); switch (val.type) { case JumpListItem::Type::kTask: dict.Set("program", val.path); dict.Set("args", val.arguments); dict.Set("title", val.title); dict.Set("iconPath", val.icon_path); dict.Set("iconIndex", val.icon_index); dict.Set("description", val.description); dict.Set("workingDirectory", val.working_dir); break; case JumpListItem::Type::kSeparator: break; case JumpListItem::Type::kFile: dict.Set("path", val.path); break; } return dict.GetHandle(); } }; template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, JumpListCategory::Type* out) { return FromV8WithLookup(isolate, val, Lookup, out); } static v8::Local ToV8(v8::Isolate* isolate, JumpListCategory::Type val) { for (const auto& [name, type_val] : Lookup) if (type_val == val) return gin::ConvertToV8(isolate, name); return gin::ConvertToV8(isolate, ""); } private: static constexpr auto Lookup = base::MakeFixedFlatMapSorted({ {"custom", JumpListCategory::Type::kCustom}, {"frequent", JumpListCategory::Type::kFrequent}, {"recent", JumpListCategory::Type::kRecent}, {"tasks", JumpListCategory::Type::kTasks}, }); }; template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, JumpListCategory* out) { gin_helper::Dictionary dict; if (!ConvertFromV8(isolate, val, &dict)) return false; if (dict.Get("name", &(out->name)) && out->name.empty()) return false; if (!dict.Get("type", &(out->type))) { if (out->name.empty()) out->type = JumpListCategory::Type::kTasks; else out->type = JumpListCategory::Type::kCustom; } if ((out->type == JumpListCategory::Type::kTasks) || (out->type == JumpListCategory::Type::kCustom)) { if (!dict.Get("items", &(out->items))) return false; } return true; } }; // static template <> struct Converter { static v8::Local ToV8(v8::Isolate* isolate, JumpListResult val) { std::string result_code; switch (val) { case JumpListResult::kSuccess: result_code = "ok"; break; case JumpListResult::kArgumentError: result_code = "argumentError"; break; case JumpListResult::kGenericError: result_code = "error"; break; case JumpListResult::kCustomCategorySeparatorError: result_code = "invalidSeparatorError"; break; case JumpListResult::kMissingFileTypeRegistrationError: result_code = "fileTypeRegistrationError"; break; case JumpListResult::kCustomCategoryAccessDeniedError: result_code = "customCategoryAccessDeniedError"; break; } return ConvertToV8(isolate, result_code); } }; #endif #if BUILDFLAG(IS_WIN) template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, Browser::LaunchItem* out) { gin_helper::Dictionary dict; if (!ConvertFromV8(isolate, val, &dict)) return false; dict.Get("name", &(out->name)); dict.Get("path", &(out->path)); dict.Get("args", &(out->args)); dict.Get("scope", &(out->scope)); dict.Get("enabled", &(out->enabled)); return true; } static v8::Local ToV8(v8::Isolate* isolate, Browser::LaunchItem val) { auto dict = gin_helper::Dictionary::CreateEmpty(isolate); dict.Set("name", val.name); dict.Set("path", val.path); dict.Set("args", val.args); dict.Set("scope", val.scope); dict.Set("enabled", val.enabled); return dict.GetHandle(); } }; #endif template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, Browser::LoginItemSettings* out) { gin_helper::Dictionary dict; if (!ConvertFromV8(isolate, val, &dict)) return false; dict.Get("openAtLogin", &(out->open_at_login)); dict.Get("openAsHidden", &(out->open_as_hidden)); dict.Get("path", &(out->path)); dict.Get("args", &(out->args)); #if BUILDFLAG(IS_WIN) dict.Get("name", &(out->name)); dict.Get("enabled", &(out->enabled)); #elif BUILDFLAG(IS_MAC) dict.Get("serviceName", &(out->service_name)); dict.Get("type", &(out->type)); #endif return true; } static v8::Local ToV8(v8::Isolate* isolate, Browser::LoginItemSettings val) { auto dict = gin_helper::Dictionary::CreateEmpty(isolate); #if BUILDFLAG(IS_WIN) dict.Set("launchItems", val.launch_items); dict.Set("executableWillLaunchAtLogin", val.executable_will_launch_at_login); #elif BUILDFLAG(IS_MAC) if (base::mac::MacOSMajorVersion() >= 13) dict.Set("status", val.status); #endif dict.Set("openAtLogin", val.open_at_login); dict.Set("openAsHidden", val.open_as_hidden); dict.Set("restoreState", val.restore_state); dict.Set("wasOpenedAtLogin", val.opened_at_login); dict.Set("wasOpenedAsHidden", val.opened_as_hidden); return dict.GetHandle(); } }; template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, content::CertificateRequestResultType* out) { bool b; if (!ConvertFromV8(isolate, val, &b)) return false; *out = b ? content::CERTIFICATE_REQUEST_RESULT_TYPE_CONTINUE : content::CERTIFICATE_REQUEST_RESULT_TYPE_DENY; return true; } }; template <> struct Converter { static bool FromV8(v8::Isolate* isolate, v8::Local val, net::SecureDnsMode* out) { static constexpr auto Lookup = base::MakeFixedFlatMapSorted({ {"automatic", net::SecureDnsMode::kAutomatic}, {"off", net::SecureDnsMode::kOff}, {"secure", net::SecureDnsMode::kSecure}, }); return FromV8WithLookup(isolate, val, Lookup, out); } }; } // namespace gin namespace electron::api { gin::WrapperInfo App::kWrapperInfo = {gin::kEmbedderNativeGin}; namespace { IconLoader::IconSize GetIconSizeByString(const std::string& size) { if (size == "small") { return IconLoader::IconSize::SMALL; } else if (size == "large") { return IconLoader::IconSize::LARGE; } return IconLoader::IconSize::NORMAL; } // Return the path constant from string. int GetPathConstant(base::StringPiece name) { // clang-format off constexpr auto Lookup = base::MakeFixedFlatMapSorted({ {"appData", DIR_APP_DATA}, #if BUILDFLAG(IS_POSIX) {"cache", base::DIR_CACHE}, #else {"cache", base::DIR_ROAMING_APP_DATA}, #endif {"crashDumps", DIR_CRASH_DUMPS}, {"desktop", base::DIR_USER_DESKTOP}, {"documents", chrome::DIR_USER_DOCUMENTS}, {"downloads", chrome::DIR_DEFAULT_DOWNLOADS}, {"exe", base::FILE_EXE}, {"home", base::DIR_HOME}, {"logs", DIR_APP_LOGS}, {"module", base::FILE_MODULE}, {"music", chrome::DIR_USER_MUSIC}, {"pictures", chrome::DIR_USER_PICTURES}, #if BUILDFLAG(IS_WIN) {"recent", electron::DIR_RECENT}, #endif {"sessionData", DIR_SESSION_DATA}, {"temp", base::DIR_TEMP}, {"userCache", DIR_USER_CACHE}, {"userData", chrome::DIR_USER_DATA}, {"userDesktop", base::DIR_USER_DESKTOP}, {"videos", chrome::DIR_USER_VIDEOS}, }); // clang-format on const auto* iter = Lookup.find(name); return iter != Lookup.end() ? iter->second : -1; } bool NotificationCallbackWrapper( const base::RepeatingCallback< void(const base::CommandLine& command_line, const base::FilePath& current_directory, const std::vector additional_data)>& callback, const base::CommandLine& cmd, const base::FilePath& cwd, const std::vector additional_data) { // Make sure the callback is called after app gets ready. if (Browser::Get()->is_ready()) { callback.Run(cmd, cwd, std::move(additional_data)); } else { scoped_refptr task_runner( base::SingleThreadTaskRunner::GetCurrentDefault()); // Make a copy of the span so that the data isn't lost. task_runner->PostTask(FROM_HERE, base::BindOnce(base::IgnoreResult(callback), cmd, cwd, std::move(additional_data))); } // ProcessSingleton needs to know whether current process is quiting. return !Browser::Get()->is_shutting_down(); } void GotPrivateKey(std::shared_ptr delegate, scoped_refptr cert, scoped_refptr private_key) { delegate->ContinueWithCertificate(cert, private_key); } void OnClientCertificateSelected( v8::Isolate* isolate, std::shared_ptr delegate, std::shared_ptr identities, gin::Arguments* args) { if (args->Length() == 2) { delegate->ContinueWithCertificate(nullptr, nullptr); return; } v8::Local val; args->GetNext(&val); if (val->IsNull()) { delegate->ContinueWithCertificate(nullptr, nullptr); return; } gin_helper::Dictionary cert_data; if (!gin::ConvertFromV8(isolate, val, &cert_data)) { gin_helper::ErrorThrower(isolate).ThrowError( "Must pass valid certificate object."); return; } std::string data; if (!cert_data.Get("data", &data)) return; auto certs = net::X509Certificate::CreateCertificateListFromBytes( base::as_bytes(base::make_span(data.c_str(), data.size())), net::X509Certificate::FORMAT_AUTO); if (!certs.empty()) { scoped_refptr cert(certs[0].get()); for (auto& identity : *identities) { scoped_refptr identity_cert = identity->certificate(); // Since |cert| was recreated from |data|, it won't include any // intermediates. That's fine for checking equality, but once a match is // found then |identity_cert| should be used since it will include the // intermediates which would otherwise be lost. if (cert->EqualsExcludingChain(identity_cert.get())) { net::ClientCertIdentity::SelfOwningAcquirePrivateKey( std::move(identity), base::BindRepeating(&GotPrivateKey, delegate, std::move(identity_cert))); break; } } } } #if BUILDFLAG(USE_NSS_CERTS) int ImportIntoCertStore(CertificateManagerModel* model, base::Value options) { std::string file_data, cert_path; std::u16string password; net::ScopedCERTCertificateList imported_certs; int rv = -1; if (const base::Value::Dict* dict = options.GetIfDict(); dict != nullptr) { if (const std::string* str = dict->FindString("certificate"); str) cert_path = *str; if (const std::string* str = dict->FindString("password"); str) password = base::UTF8ToUTF16(*str); } if (!cert_path.empty()) { if (base::ReadFileToString(base::FilePath(cert_path), &file_data)) { auto module = model->cert_db()->GetPrivateSlot(); rv = model->ImportFromPKCS12(module.get(), file_data, password, true, &imported_certs); if (imported_certs.size() > 1) { auto it = imported_certs.begin(); ++it; // skip first which would be the client certificate. for (; it != imported_certs.end(); ++it) rv &= model->SetCertTrust(it->get(), net::CA_CERT, net::NSSCertDatabase::TRUSTED_SSL); } } } return rv; } #endif void OnIconDataAvailable(gin_helper::Promise promise, gfx::Image icon) { if (!icon.IsEmpty()) { promise.Resolve(icon); } else { promise.RejectWithErrorMessage("Failed to get file icon."); } } } // namespace App::App() { static_cast(ElectronBrowserClient::Get()) ->set_delegate(this); Browser::Get()->AddObserver(this); auto pid = content::ChildProcessHost::kInvalidUniqueID; auto process_metric = std::make_unique( content::PROCESS_TYPE_BROWSER, base::GetCurrentProcessHandle(), base::ProcessMetrics::CreateCurrentProcessMetrics()); app_metrics_[pid] = std::move(process_metric); } App::~App() { static_cast(ElectronBrowserClient::Get()) ->set_delegate(nullptr); Browser::Get()->RemoveObserver(this); content::GpuDataManager::GetInstance()->RemoveObserver(this); content::BrowserChildProcessObserver::Remove(this); } void App::OnBeforeQuit(bool* prevent_default) { if (Emit("before-quit")) { *prevent_default = true; } } void App::OnWillQuit(bool* prevent_default) { if (Emit("will-quit")) { *prevent_default = true; } } void App::OnWindowAllClosed() { Emit("window-all-closed"); } void App::OnQuit() { const int exitCode = ElectronBrowserMainParts::Get()->GetExitCode(); Emit("quit", exitCode); if (process_singleton_) { process_singleton_->Cleanup(); process_singleton_.reset(); } } void App::OnOpenFile(bool* prevent_default, const std::string& file_path) { if (Emit("open-file", file_path)) { *prevent_default = true; } } void App::OnOpenURL(const std::string& url) { Emit("open-url", url); } void App::OnActivate(bool has_visible_windows) { Emit("activate", has_visible_windows); } void App::OnWillFinishLaunching() { Emit("will-finish-launching"); } void App::OnFinishLaunching(base::Value::Dict launch_info) { #if BUILDFLAG(IS_LINUX) // Set the application name for audio streams shown in external // applications. Only affects pulseaudio currently. media::AudioManager::SetGlobalAppName(Browser::Get()->GetName()); #endif Emit("ready", base::Value(std::move(launch_info))); } void App::OnPreMainMessageLoopRun() { content::BrowserChildProcessObserver::Add(this); if (process_singleton_ && watch_singleton_socket_on_ready_) { process_singleton_->StartWatching(); watch_singleton_socket_on_ready_ = false; } } void App::OnPreCreateThreads() { DCHECK(!content::GpuDataManager::Initialized()); content::GpuDataManager* manager = content::GpuDataManager::GetInstance(); manager->AddObserver(this); if (disable_hw_acceleration_) { manager->DisableHardwareAcceleration(); } if (disable_domain_blocking_for_3DAPIs_) { content::GpuDataManagerImpl::GetInstance() ->DisableDomainBlockingFor3DAPIsForTesting(); } } void App::OnAccessibilitySupportChanged() { Emit("accessibility-support-changed", IsAccessibilitySupportEnabled()); } #if BUILDFLAG(IS_MAC) void App::OnWillContinueUserActivity(bool* prevent_default, const std::string& type) { if (Emit("will-continue-activity", type)) { *prevent_default = true; } } void App::OnDidFailToContinueUserActivity(const std::string& type, const std::string& error) { Emit("continue-activity-error", type, error); } void App::OnContinueUserActivity(bool* prevent_default, const std::string& type, base::Value::Dict user_info, base::Value::Dict details) { if (Emit("continue-activity", type, base::Value(std::move(user_info)), base::Value(std::move(details)))) { *prevent_default = true; } } void App::OnUserActivityWasContinued(const std::string& type, base::Value::Dict user_info) { Emit("activity-was-continued", type, base::Value(std::move(user_info))); } void App::OnUpdateUserActivityState(bool* prevent_default, const std::string& type, base::Value::Dict user_info) { if (Emit("update-activity-state", type, base::Value(std::move(user_info)))) { *prevent_default = true; } } void App::OnNewWindowForTab() { Emit("new-window-for-tab"); } void App::OnDidBecomeActive() { Emit("did-become-active"); } void App::OnDidResignActive() { Emit("did-resign-active"); } #endif bool App::CanCreateWindow( content::RenderFrameHost* opener, const GURL& opener_url, const GURL& opener_top_level_frame_url, const url::Origin& source_origin, content::mojom::WindowContainerType container_type, const GURL& target_url, const content::Referrer& referrer, const std::string& frame_name, WindowOpenDisposition disposition, const blink::mojom::WindowFeatures& features, const std::string& raw_features, const scoped_refptr& body, bool user_gesture, bool opener_suppressed, bool* no_javascript_access) { v8::Isolate* isolate = JavascriptEnvironment::GetIsolate(); v8::HandleScope handle_scope(isolate); content::WebContents* web_contents = content::WebContents::FromRenderFrameHost(opener); if (web_contents) { WebContents* api_web_contents = WebContents::From(web_contents); // No need to emit any event if the WebContents is not available in JS. if (api_web_contents) { api_web_contents->OnCreateWindow(target_url, referrer, frame_name, disposition, raw_features, body); } } return false; } void App::AllowCertificateError( content::WebContents* web_contents, int cert_error, const net::SSLInfo& ssl_info, const GURL& request_url, bool is_main_frame_request, bool strict_enforcement, base::OnceCallback callback) { auto adapted_callback = base::AdaptCallbackForRepeating(std::move(callback)); v8::Isolate* isolate = JavascriptEnvironment::GetIsolate(); v8::HandleScope handle_scope(isolate); bool prevent_default = Emit( "certificate-error", WebContents::FromOrCreate(isolate, web_contents), request_url, net::ErrorToString(cert_error), ssl_info.cert, adapted_callback, is_main_frame_request); // Deny the certificate by default. if (!prevent_default) adapted_callback.Run(content::CERTIFICATE_REQUEST_RESULT_TYPE_DENY); } base::OnceClosure App::SelectClientCertificate( content::BrowserContext* browser_context, content::WebContents* web_contents, net::SSLCertRequestInfo* cert_request_info, net::ClientCertIdentityList identities, std::unique_ptr delegate) { std::shared_ptr shared_delegate( delegate.release()); // Convert the ClientCertIdentityList to a CertificateList // to avoid changes in the API. auto client_certs = net::CertificateList(); for (const std::unique_ptr& identity : identities) client_certs.emplace_back(identity->certificate()); auto shared_identities = std::make_shared(std::move(identities)); v8::Isolate* isolate = JavascriptEnvironment::GetIsolate(); v8::HandleScope handle_scope(isolate); bool prevent_default = Emit("select-client-certificate", WebContents::FromOrCreate(isolate, web_contents), cert_request_info->host_and_port.ToString(), std::move(client_certs), base::BindOnce(&OnClientCertificateSelected, isolate, shared_delegate, shared_identities)); // Default to first certificate from the platform store. if (!prevent_default) { scoped_refptr cert = (*shared_identities)[0]->certificate(); net::ClientCertIdentity::SelfOwningAcquirePrivateKey( std::move((*shared_identities)[0]), base::BindRepeating(&GotPrivateKey, shared_delegate, std::move(cert))); } return base::OnceClosure(); } void App::OnGpuInfoUpdate() { Emit("gpu-info-update"); } void App::BrowserChildProcessLaunchedAndConnected( const content::ChildProcessData& data) { ChildProcessLaunched(data.process_type, data.id, data.GetProcess().Handle(), data.metrics_name, base::UTF16ToUTF8(data.name)); } void App::BrowserChildProcessHostDisconnected( const content::ChildProcessData& data) { ChildProcessDisconnected(data.id); } void App::BrowserChildProcessCrashed( const content::ChildProcessData& data, const content::ChildProcessTerminationInfo& info) { ChildProcessDisconnected(data.id); BrowserChildProcessCrashedOrKilled(data, info); } void App::BrowserChildProcessKilled( const content::ChildProcessData& data, const content::ChildProcessTerminationInfo& info) { ChildProcessDisconnected(data.id); BrowserChildProcessCrashedOrKilled(data, info); } void App::BrowserChildProcessCrashedOrKilled( const content::ChildProcessData& data, const content::ChildProcessTerminationInfo& info) { v8::Isolate* isolate = JavascriptEnvironment::GetIsolate(); v8::HandleScope handle_scope(isolate); auto details = gin_helper::Dictionary::CreateEmpty(isolate); details.Set("type", content::GetProcessTypeNameInEnglish(data.process_type)); details.Set("reason", info.status); details.Set("exitCode", info.exit_code); details.Set("serviceName", data.metrics_name); if (!data.name.empty()) { details.Set("name", data.name); } if (data.process_type == content::PROCESS_TYPE_UTILITY) { base::ProcessId pid = data.GetProcess().Pid(); auto utility_process_wrapper = UtilityProcessWrapper::FromProcessId(pid); if (utility_process_wrapper) utility_process_wrapper->Shutdown(info.exit_code); } Emit("child-process-gone", details); } void App::RenderProcessReady(content::RenderProcessHost* host) { ChildProcessLaunched(content::PROCESS_TYPE_RENDERER, host->GetID(), host->GetProcess().Handle()); } void App::RenderProcessExited(content::RenderProcessHost* host) { ChildProcessDisconnected(host->GetID()); } void App::ChildProcessLaunched(int process_type, int pid, base::ProcessHandle handle, const std::string& service_name, const std::string& name) { #if BUILDFLAG(IS_MAC) auto metrics = base::ProcessMetrics::CreateProcessMetrics( handle, content::BrowserChildProcessHost::GetPortProvider()); #else auto metrics = base::ProcessMetrics::CreateProcessMetrics(handle); #endif app_metrics_[pid] = std::make_unique( process_type, handle, std::move(metrics), service_name, name); } void App::ChildProcessDisconnected(int pid) { app_metrics_.erase(pid); } base::FilePath App::GetAppPath() const { return app_path_; } void App::SetAppPath(const base::FilePath& app_path) { app_path_ = app_path; } #if !BUILDFLAG(IS_MAC) void App::SetAppLogsPath(gin_helper::ErrorThrower thrower, absl::optional custom_path) { if (custom_path.has_value()) { if (!custom_path->IsAbsolute()) { thrower.ThrowError("Path must be absolute"); return; } { ScopedAllowBlockingForElectron allow_blocking; base::PathService::Override(DIR_APP_LOGS, custom_path.value()); } } else { base::FilePath path; if (base::PathService::Get(chrome::DIR_USER_DATA, &path)) { path = path.Append(base::FilePath::FromUTF8Unsafe("logs")); { ScopedAllowBlockingForElectron allow_blocking; base::PathService::Override(DIR_APP_LOGS, path); } } } } #endif // static bool App::IsPackaged() { auto env = base::Environment::Create(); if (env->HasVar("ELECTRON_FORCE_IS_PACKAGED")) return true; base::FilePath exe_path; base::PathService::Get(base::FILE_EXE, &exe_path); base::FilePath::StringType base_name = base::ToLowerASCII(exe_path.BaseName().value()); #if BUILDFLAG(IS_WIN) return base_name != FILE_PATH_LITERAL("electron.exe"); #else return base_name != FILE_PATH_LITERAL("electron"); #endif } base::FilePath App::GetPath(gin_helper::ErrorThrower thrower, const std::string& name) { base::FilePath path; int key = GetPathConstant(name); if (key < 0 || !base::PathService::Get(key, &path)) thrower.ThrowError("Failed to get '" + name + "' path"); return path; } void App::SetPath(gin_helper::ErrorThrower thrower, const std::string& name, const base::FilePath& path) { if (!path.IsAbsolute()) { thrower.ThrowError("Path must be absolute"); return; } int key = GetPathConstant(name); if (key < 0 || !base::PathService::OverrideAndCreateIfNeeded( key, path, /* is_absolute = */ true, /* create = */ false)) thrower.ThrowError("Failed to set path"); } void App::SetDesktopName(const std::string& desktop_name) { #if BUILDFLAG(IS_LINUX) auto env = base::Environment::Create(); env->SetVar("CHROME_DESKTOP", desktop_name); #endif } std::string App::GetLocale() { return g_browser_process->GetApplicationLocale(); } std::string App::GetSystemLocale(gin_helper::ErrorThrower thrower) const { if (!Browser::Get()->is_ready()) { thrower.ThrowError( "app.getSystemLocale() can only be called " "after app is ready"); return std::string(); } return static_cast(g_browser_process)->GetSystemLocale(); } std::string App::GetLocaleCountryCode() { std::string region; #if BUILDFLAG(IS_WIN) WCHAR locale_name[LOCALE_NAME_MAX_LENGTH] = {0}; if (GetLocaleInfoEx(LOCALE_NAME_USER_DEFAULT, LOCALE_SISO3166CTRYNAME, (LPWSTR)&locale_name, sizeof(locale_name) / sizeof(WCHAR)) || GetLocaleInfoEx(LOCALE_NAME_SYSTEM_DEFAULT, LOCALE_SISO3166CTRYNAME, (LPWSTR)&locale_name, sizeof(locale_name) / sizeof(WCHAR))) { base::WideToUTF8(locale_name, wcslen(locale_name), ®ion); } #elif BUILDFLAG(IS_MAC) CFLocaleRef locale = CFLocaleCopyCurrent(); CFStringRef value = CFStringRef( static_cast(CFLocaleGetValue(locale, kCFLocaleCountryCode))); if (value != nil) { char temporaryCString[3]; const CFIndex kCStringSize = sizeof(temporaryCString); if (CFStringGetCString(value, temporaryCString, kCStringSize, kCFStringEncodingUTF8)) { region = temporaryCString; } } #else const char* locale_ptr = setlocale(LC_TIME, nullptr); if (!locale_ptr) locale_ptr = setlocale(LC_NUMERIC, nullptr); if (locale_ptr) { std::string locale = locale_ptr; std::string::size_type rpos = locale.find('.'); if (rpos != std::string::npos) locale = locale.substr(0, rpos); rpos = locale.find('_'); if (rpos != std::string::npos && rpos + 1 < locale.size()) region = locale.substr(rpos + 1); } #endif return region.size() == 2 ? region : std::string(); } void App::OnSecondInstance(const base::CommandLine& cmd, const base::FilePath& cwd, const std::vector additional_data) { v8::Isolate* isolate = JavascriptEnvironment::GetIsolate(); v8::HandleScope handle_scope(isolate); v8::Local data_value = DeserializeV8Value(isolate, std::move(additional_data)); Emit("second-instance", cmd.argv(), cwd, data_value); } bool App::HasSingleInstanceLock() const { if (process_singleton_) return true; return false; } bool App::RequestSingleInstanceLock(gin::Arguments* args) { if (HasSingleInstanceLock()) return true; std::string program_name = electron::Browser::Get()->GetName(); base::FilePath user_dir; base::PathService::Get(chrome::DIR_USER_DATA, &user_dir); // The user_dir may not have been created yet. base::CreateDirectoryAndGetError(user_dir, nullptr); auto cb = base::BindRepeating(&App::OnSecondInstance, base::Unretained(this)); blink::CloneableMessage additional_data_message; args->GetNext(&additional_data_message); #if BUILDFLAG(IS_WIN) bool app_is_sandboxed = IsSandboxEnabled(base::CommandLine::ForCurrentProcess()); process_singleton_ = std::make_unique( program_name, user_dir, additional_data_message.encoded_message, app_is_sandboxed, base::BindRepeating(NotificationCallbackWrapper, cb)); #else process_singleton_ = std::make_unique( user_dir, additional_data_message.encoded_message, base::BindRepeating(NotificationCallbackWrapper, cb)); #endif switch (process_singleton_->NotifyOtherProcessOrCreate()) { case ProcessSingleton::NotifyResult::PROCESS_NONE: if (content::BrowserThread::IsThreadInitialized( content::BrowserThread::IO)) { process_singleton_->StartWatching(); } else { watch_singleton_socket_on_ready_ = true; } return true; case ProcessSingleton::NotifyResult::LOCK_ERROR: case ProcessSingleton::NotifyResult::PROFILE_IN_USE: case ProcessSingleton::NotifyResult::PROCESS_NOTIFIED: { process_singleton_.reset(); return false; } } } void App::ReleaseSingleInstanceLock() { if (process_singleton_) { process_singleton_->Cleanup(); process_singleton_.reset(); } } bool App::Relaunch(gin::Arguments* js_args) { // Parse parameters. bool override_argv = false; base::FilePath exec_path; relauncher::StringVector args; gin_helper::Dictionary options; if (js_args->GetNext(&options)) { bool has_exec_path = options.Get("execPath", &exec_path); bool has_args = options.Get("args", &args); if (has_exec_path || has_args) override_argv = true; } if (!override_argv) { const relauncher::StringVector& argv = electron::ElectronCommandLine::argv(); return relauncher::RelaunchApp(argv); } relauncher::StringVector argv; argv.reserve(1 + args.size()); if (exec_path.empty()) { base::FilePath current_exe_path; base::PathService::Get(base::FILE_EXE, ¤t_exe_path); argv.push_back(current_exe_path.value()); } else { argv.push_back(exec_path.value()); } argv.insert(argv.end(), args.begin(), args.end()); return relauncher::RelaunchApp(argv); } void App::DisableHardwareAcceleration(gin_helper::ErrorThrower thrower) { if (Browser::Get()->is_ready()) { thrower.ThrowError( "app.disableHardwareAcceleration() can only be called " "before app is ready"); return; } if (content::GpuDataManager::Initialized()) { content::GpuDataManager::GetInstance()->DisableHardwareAcceleration(); } else { disable_hw_acceleration_ = true; } } void App::DisableDomainBlockingFor3DAPIs(gin_helper::ErrorThrower thrower) { if (Browser::Get()->is_ready()) { thrower.ThrowError( "app.disableDomainBlockingFor3DAPIs() can only be called " "before app is ready"); return; } if (content::GpuDataManager::Initialized()) { content::GpuDataManagerImpl::GetInstance() ->DisableDomainBlockingFor3DAPIsForTesting(); } else { disable_domain_blocking_for_3DAPIs_ = true; } } bool App::IsAccessibilitySupportEnabled() { auto* ax_state = content::BrowserAccessibilityState::GetInstance(); return ax_state->IsAccessibleBrowser(); } void App::SetAccessibilitySupportEnabled(gin_helper::ErrorThrower thrower, bool enabled) { if (!Browser::Get()->is_ready()) { thrower.ThrowError( "app.setAccessibilitySupportEnabled() can only be called " "after app is ready"); return; } auto* ax_state = content::BrowserAccessibilityState::GetInstance(); if (enabled) { ax_state->OnScreenReaderDetected(); } else { ax_state->DisableAccessibility(); } Browser::Get()->OnAccessibilitySupportChanged(); } Browser::LoginItemSettings App::GetLoginItemSettings(gin::Arguments* args) { Browser::LoginItemSettings options; args->GetNext(&options); return Browser::Get()->GetLoginItemSettings(options); } #if BUILDFLAG(USE_NSS_CERTS) void App::ImportCertificate(gin_helper::ErrorThrower thrower, base::Value options, net::CompletionOnceCallback callback) { if (!options.is_dict()) { thrower.ThrowTypeError("Expected options to be an object"); return; } auto* browser_context = ElectronBrowserContext::From("", false); if (!certificate_manager_model_) { CertificateManagerModel::Create( browser_context, base::BindOnce(&App::OnCertificateManagerModelCreated, base::Unretained(this), std::move(options), std::move(callback))); return; } int rv = ImportIntoCertStore(certificate_manager_model_.get(), std::move(options)); std::move(callback).Run(rv); } void App::OnCertificateManagerModelCreated( base::Value options, net::CompletionOnceCallback callback, std::unique_ptr model) { certificate_manager_model_ = std::move(model); int rv = ImportIntoCertStore(certificate_manager_model_.get(), std::move(options)); std::move(callback).Run(rv); } #endif #if BUILDFLAG(IS_WIN) v8::Local App::GetJumpListSettings() { JumpList jump_list(Browser::Get()->GetAppUserModelID()); int min_items = 10; std::vector removed_items; if (jump_list.Begin(&min_items, &removed_items)) { // We don't actually want to change anything, so abort the transaction. jump_list.Abort(); } else { LOG(ERROR) << "Failed to begin Jump List transaction."; } v8::Isolate* isolate = JavascriptEnvironment::GetIsolate(); auto dict = gin_helper::Dictionary::CreateEmpty(isolate); dict.Set("minItems", min_items); dict.Set("removedItems", gin::ConvertToV8(isolate, removed_items)); return dict.GetHandle(); } JumpListResult App::SetJumpList(v8::Local val, gin::Arguments* args) { std::vector categories; bool delete_jump_list = val->IsNull(); if (!delete_jump_list && !gin::ConvertFromV8(args->isolate(), val, &categories)) { gin_helper::ErrorThrower(args->isolate()) .ThrowError("Argument must be null or an array of categories"); return JumpListResult::kArgumentError; } JumpList jump_list(Browser::Get()->GetAppUserModelID()); if (delete_jump_list) { return jump_list.Delete() ? JumpListResult::kSuccess : JumpListResult::kGenericError; } // Start a transaction that updates the JumpList of this application. if (!jump_list.Begin()) return JumpListResult::kGenericError; JumpListResult result = jump_list.AppendCategories(categories); // AppendCategories may have failed to add some categories, but it's better // to have something than nothing so try to commit the changes anyway. if (!jump_list.Commit()) { LOG(ERROR) << "Failed to commit changes to custom Jump List."; // It's more useful to return the earlier error code that might give // some indication as to why the transaction actually failed, so don't // overwrite it with a "generic error" code here. if (result == JumpListResult::kSuccess) result = JumpListResult::kGenericError; } return result; } #endif // BUILDFLAG(IS_WIN) v8::Local App::GetFileIcon(const base::FilePath& path, gin::Arguments* args) { v8::Isolate* isolate = JavascriptEnvironment::GetIsolate(); gin_helper::Promise promise(isolate); v8::Local handle = promise.GetHandle(); base::FilePath normalized_path = path.NormalizePathSeparators(); IconLoader::IconSize icon_size; gin_helper::Dictionary options; if (!args->GetNext(&options)) { icon_size = IconLoader::IconSize::NORMAL; } else { std::string icon_size_string; options.Get("size", &icon_size_string); icon_size = GetIconSizeByString(icon_size_string); } auto* icon_manager = ElectronBrowserMainParts::Get()->GetIconManager(); gfx::Image* icon = icon_manager->LookupIconFromFilepath(normalized_path, icon_size, 1.0f); if (icon) { promise.Resolve(*icon); } else { icon_manager->LoadIcon( normalized_path, icon_size, 1.0f, base::BindOnce(&OnIconDataAvailable, std::move(promise)), &cancelable_task_tracker_); } return handle; } std::vector App::GetAppMetrics(v8::Isolate* isolate) { std::vector result; result.reserve(app_metrics_.size()); int processor_count = base::SysInfo::NumberOfProcessors(); for (const auto& process_metric : app_metrics_) { auto pid_dict = gin_helper::Dictionary::CreateEmpty(isolate); auto cpu_dict = gin_helper::Dictionary::CreateEmpty(isolate); cpu_dict.Set( "percentCPUUsage", process_metric.second->metrics->GetPlatformIndependentCPUUsage() / processor_count); #if !BUILDFLAG(IS_WIN) cpu_dict.Set("idleWakeupsPerSecond", process_metric.second->metrics->GetIdleWakeupsPerSecond()); #else // Chrome's underlying process_metrics.cc will throw a non-fatal warning // that this method isn't implemented on Windows, so set it to 0 instead // of calling it cpu_dict.Set("idleWakeupsPerSecond", 0); #endif pid_dict.Set("cpu", cpu_dict); pid_dict.Set("pid", process_metric.second->process.Pid()); pid_dict.Set("type", content::GetProcessTypeNameInEnglish( process_metric.second->type)); pid_dict.Set("creationTime", process_metric.second->process.CreationTime() .InMillisecondsFSinceUnixEpoch()); if (!process_metric.second->service_name.empty()) { pid_dict.Set("serviceName", process_metric.second->service_name); } if (!process_metric.second->name.empty()) { pid_dict.Set("name", process_metric.second->name); } #if !BUILDFLAG(IS_LINUX) auto memory_info = process_metric.second->GetMemoryInfo(); auto memory_dict = gin_helper::Dictionary::CreateEmpty(isolate); memory_dict.Set("workingSetSize", static_cast(memory_info.working_set_size >> 10)); memory_dict.Set( "peakWorkingSetSize", static_cast(memory_info.peak_working_set_size >> 10)); #if BUILDFLAG(IS_WIN) memory_dict.Set("privateBytes", static_cast(memory_info.private_bytes >> 10)); #endif pid_dict.Set("memory", memory_dict); #endif #if BUILDFLAG(IS_MAC) pid_dict.Set("sandboxed", process_metric.second->IsSandboxed()); #elif BUILDFLAG(IS_WIN) auto integrity_level = process_metric.second->GetIntegrityLevel(); auto sandboxed = ProcessMetric::IsSandboxed(integrity_level); pid_dict.Set("integrityLevel", integrity_level); pid_dict.Set("sandboxed", sandboxed); #endif result.push_back(pid_dict); } return result; } v8::Local App::GetGPUFeatureStatus(v8::Isolate* isolate) { return gin::ConvertToV8(isolate, content::GetFeatureStatus()); } v8::Local App::GetGPUInfo(v8::Isolate* isolate, const std::string& info_type) { auto* const gpu_data_manager = content::GpuDataManagerImpl::GetInstance(); gin_helper::Promise promise(isolate); v8::Local handle = promise.GetHandle(); if (info_type != "basic" && info_type != "complete") { promise.RejectWithErrorMessage( "Invalid info type. Use 'basic' or 'complete'"); return handle; } std::string reason; if (!gpu_data_manager->GpuAccessAllowed(&reason)) { promise.RejectWithErrorMessage("GPU access not allowed. Reason: " + reason); return handle; } auto* const info_mgr = GPUInfoManager::GetInstance(); if (info_type == "complete") { #if BUILDFLAG(IS_WIN) || BUILDFLAG(IS_MAC) info_mgr->FetchCompleteInfo(std::move(promise)); #else info_mgr->FetchBasicInfo(std::move(promise)); #endif } else /* (info_type == "basic") */ { info_mgr->FetchBasicInfo(std::move(promise)); } return handle; } static void RemoveNoSandboxSwitch(base::CommandLine* command_line) { if (command_line->HasSwitch(sandbox::policy::switches::kNoSandbox)) { const base::CommandLine::CharType* noSandboxArg = FILE_PATH_LITERAL("--no-sandbox"); base::CommandLine::StringVector modified_command_line; for (auto& arg : command_line->argv()) { if (arg.compare(noSandboxArg) != 0) { modified_command_line.push_back(arg); } } command_line->InitFromArgv(modified_command_line); } } void App::EnableSandbox(gin_helper::ErrorThrower thrower) { if (Browser::Get()->is_ready()) { thrower.ThrowError( "app.enableSandbox() can only be called " "before app is ready"); return; } auto* command_line = base::CommandLine::ForCurrentProcess(); RemoveNoSandboxSwitch(command_line); command_line->AppendSwitch(switches::kEnableSandbox); } void App::SetUserAgentFallback(const std::string& user_agent) { ElectronBrowserClient::Get()->SetUserAgent(user_agent); } #if BUILDFLAG(IS_WIN) bool App::IsRunningUnderARM64Translation() const { return base::win::OSInfo::IsRunningEmulatedOnArm64(); } #endif std::string App::GetUserAgentFallback() { return ElectronBrowserClient::Get()->GetUserAgent(); } #if BUILDFLAG(IS_MAC) bool App::MoveToApplicationsFolder(gin_helper::ErrorThrower thrower, gin::Arguments* args) { return ElectronBundleMover::Move(thrower, args); } bool App::IsInApplicationsFolder() { return ElectronBundleMover::IsCurrentAppInApplicationsFolder(); } int DockBounce(gin::Arguments* args) { int request_id = -1; std::string type = "informational"; args->GetNext(&type); if (type == "critical") request_id = Browser::Get()->DockBounce(Browser::BounceType::kCritical); else if (type == "informational") request_id = Browser::Get()->DockBounce(Browser::BounceType::kInformational); return request_id; } void DockSetMenu(electron::api::Menu* menu) { Browser::Get()->DockSetMenu(menu->model()); } v8::Local App::GetDockAPI(v8::Isolate* isolate) { if (dock_.IsEmpty()) { // Initialize the Dock API, the methods are bound to "dock" which exists // for the lifetime of "app" auto browser = base::Unretained(Browser::Get()); auto dock_obj = gin_helper::Dictionary::CreateEmpty(isolate); dock_obj.SetMethod("bounce", &DockBounce); dock_obj.SetMethod( "cancelBounce", base::BindRepeating(&Browser::DockCancelBounce, browser)); dock_obj.SetMethod( "downloadFinished", base::BindRepeating(&Browser::DockDownloadFinished, browser)); dock_obj.SetMethod( "setBadge", base::BindRepeating(&Browser::DockSetBadgeText, browser)); dock_obj.SetMethod( "getBadge", base::BindRepeating(&Browser::DockGetBadgeText, browser)); dock_obj.SetMethod("hide", base::BindRepeating(&Browser::DockHide, browser)); dock_obj.SetMethod("show", base::BindRepeating(&Browser::DockShow, browser)); dock_obj.SetMethod("isVisible", base::BindRepeating(&Browser::DockIsVisible, browser)); dock_obj.SetMethod("setMenu", &DockSetMenu); dock_obj.SetMethod("setIcon", base::BindRepeating(&Browser::DockSetIcon, browser)); dock_.Reset(isolate, dock_obj.GetHandle()); } return v8::Local::New(isolate, dock_); } #endif void ConfigureHostResolver(v8::Isolate* isolate, const gin_helper::Dictionary& opts) { gin_helper::ErrorThrower thrower(isolate); if (!Browser::Get()->is_ready()) { thrower.ThrowError( "configureHostResolver cannot be called before the app is ready"); return; } net::SecureDnsMode secure_dns_mode = net::SecureDnsMode::kOff; std::string default_doh_templates; if (base::FeatureList::IsEnabled(features::kDnsOverHttps)) { if (features::kDnsOverHttpsFallbackParam.Get()) { secure_dns_mode = net::SecureDnsMode::kAutomatic; } else { secure_dns_mode = net::SecureDnsMode::kSecure; } default_doh_templates = features::kDnsOverHttpsTemplatesParam.Get(); } net::DnsOverHttpsConfig doh_config; if (!default_doh_templates.empty() && secure_dns_mode != net::SecureDnsMode::kOff) { auto maybe_doh_config = net::DnsOverHttpsConfig::FromString(default_doh_templates); if (maybe_doh_config.has_value()) doh_config = maybe_doh_config.value(); } bool enable_built_in_resolver = base::FeatureList::IsEnabled(features::kAsyncDns); bool additional_dns_query_types_enabled = true; if (opts.Has("enableBuiltInResolver") && !opts.Get("enableBuiltInResolver", &enable_built_in_resolver)) { thrower.ThrowTypeError("enableBuiltInResolver must be a boolean"); return; } if (opts.Has("secureDnsMode") && !opts.Get("secureDnsMode", &secure_dns_mode)) { thrower.ThrowTypeError( "secureDnsMode must be one of: off, automatic, secure"); return; } std::vector secure_dns_server_strings; if (opts.Has("secureDnsServers")) { if (!opts.Get("secureDnsServers", &secure_dns_server_strings)) { thrower.ThrowTypeError("secureDnsServers must be an array of strings"); return; } // Validate individual server templates prior to batch-assigning to // doh_config. std::vector servers; for (const std::string& server_template : secure_dns_server_strings) { absl::optional server_config = net::DnsOverHttpsServerConfig::FromString(server_template); if (!server_config.has_value()) { thrower.ThrowTypeError(std::string("not a valid DoH template: ") + server_template); return; } servers.push_back(*server_config); } doh_config = net::DnsOverHttpsConfig(std::move(servers)); } if (opts.Has("enableAdditionalDnsQueryTypes") && !opts.Get("enableAdditionalDnsQueryTypes", &additional_dns_query_types_enabled)) { thrower.ThrowTypeError("enableAdditionalDnsQueryTypes must be a boolean"); return; } // Configure the stub resolver. This must be done after the system // NetworkContext is created, but before anything has the chance to use it. content::GetNetworkService()->ConfigureStubHostResolver( enable_built_in_resolver, secure_dns_mode, doh_config, additional_dns_query_types_enabled); } // static App* App::Get() { static base::NoDestructor app; return app.get(); } // static gin::Handle App::Create(v8::Isolate* isolate) { return gin::CreateHandle(isolate, Get()); } gin::ObjectTemplateBuilder App::GetObjectTemplateBuilder(v8::Isolate* isolate) { auto browser = base::Unretained(Browser::Get()); return gin_helper::EventEmitterMixin::GetObjectTemplateBuilder(isolate) .SetMethod("quit", base::BindRepeating(&Browser::Quit, browser)) .SetMethod("exit", base::BindRepeating(&Browser::Exit, browser)) .SetMethod("focus", base::BindRepeating(&Browser::Focus, browser)) .SetMethod("getVersion", base::BindRepeating(&Browser::GetVersion, browser)) .SetMethod("setVersion", base::BindRepeating(&Browser::SetVersion, browser)) .SetMethod("getName", base::BindRepeating(&Browser::GetName, browser)) .SetMethod("setName", base::BindRepeating(&Browser::SetName, browser)) .SetMethod("isReady", base::BindRepeating(&Browser::is_ready, browser)) .SetMethod("whenReady", base::BindRepeating(&Browser::WhenReady, browser)) .SetMethod("addRecentDocument", base::BindRepeating(&Browser::AddRecentDocument, browser)) .SetMethod("clearRecentDocuments", base::BindRepeating(&Browser::ClearRecentDocuments, browser)) #if BUILDFLAG(IS_WIN) .SetMethod("setAppUserModelId", base::BindRepeating(&Browser::SetAppUserModelID, browser)) #endif .SetMethod( "isDefaultProtocolClient", base::BindRepeating(&Browser::IsDefaultProtocolClient, browser)) .SetMethod( "setAsDefaultProtocolClient", base::BindRepeating(&Browser::SetAsDefaultProtocolClient, browser)) .SetMethod( "removeAsDefaultProtocolClient", base::BindRepeating(&Browser::RemoveAsDefaultProtocolClient, browser)) #if !BUILDFLAG(IS_LINUX) .SetMethod( "getApplicationInfoForProtocol", base::BindRepeating(&Browser::GetApplicationInfoForProtocol, browser)) #endif .SetMethod( "getApplicationNameForProtocol", base::BindRepeating(&Browser::GetApplicationNameForProtocol, browser)) .SetMethod("setBadgeCount", base::BindRepeating(&Browser::SetBadgeCount, browser)) .SetMethod("getBadgeCount", base::BindRepeating(&Browser::GetBadgeCount, browser)) .SetMethod("getLoginItemSettings", &App::GetLoginItemSettings) .SetMethod("setLoginItemSettings", base::BindRepeating(&Browser::SetLoginItemSettings, browser)) .SetMethod("isEmojiPanelSupported", base::BindRepeating(&Browser::IsEmojiPanelSupported, browser)) #if BUILDFLAG(IS_MAC) .SetMethod("hide", base::BindRepeating(&Browser::Hide, browser)) .SetMethod("isHidden", base::BindRepeating(&Browser::IsHidden, browser)) .SetMethod("show", base::BindRepeating(&Browser::Show, browser)) .SetMethod("setUserActivity", base::BindRepeating(&Browser::SetUserActivity, browser)) .SetMethod("getCurrentActivityType", base::BindRepeating(&Browser::GetCurrentActivityType, browser)) .SetMethod( "invalidateCurrentActivity", base::BindRepeating(&Browser::InvalidateCurrentActivity, browser)) .SetMethod("resignCurrentActivity", base::BindRepeating(&Browser::ResignCurrentActivity, browser)) .SetMethod("updateCurrentActivity", base::BindRepeating(&Browser::UpdateCurrentActivity, browser)) .SetMethod("moveToApplicationsFolder", &App::MoveToApplicationsFolder) .SetMethod("isInApplicationsFolder", &App::IsInApplicationsFolder) .SetMethod("setActivationPolicy", &App::SetActivationPolicy) #endif .SetMethod("setAboutPanelOptions", base::BindRepeating(&Browser::SetAboutPanelOptions, browser)) .SetMethod("showAboutPanel", base::BindRepeating(&Browser::ShowAboutPanel, browser)) #if BUILDFLAG(IS_MAC) .SetMethod( "isSecureKeyboardEntryEnabled", base::BindRepeating(&Browser::IsSecureKeyboardEntryEnabled, browser)) .SetMethod( "setSecureKeyboardEntryEnabled", base::BindRepeating(&Browser::SetSecureKeyboardEntryEnabled, browser)) #endif #if BUILDFLAG(IS_MAC) || BUILDFLAG(IS_WIN) .SetMethod("showEmojiPanel", base::BindRepeating(&Browser::ShowEmojiPanel, browser)) #endif #if BUILDFLAG(IS_WIN) .SetMethod("setUserTasks", base::BindRepeating(&Browser::SetUserTasks, browser)) .SetMethod("getJumpListSettings", &App::GetJumpListSettings) .SetMethod("setJumpList", &App::SetJumpList) #endif #if BUILDFLAG(IS_LINUX) .SetMethod("isUnityRunning", base::BindRepeating(&Browser::IsUnityRunning, browser)) #endif .SetProperty("isPackaged", &App::IsPackaged) .SetMethod("setAppPath", &App::SetAppPath) .SetMethod("getAppPath", &App::GetAppPath) .SetMethod("setPath", &App::SetPath) .SetMethod("getPath", &App::GetPath) .SetMethod("setAppLogsPath", &App::SetAppLogsPath) .SetMethod("setDesktopName", &App::SetDesktopName) .SetMethod("getLocale", &App::GetLocale) .SetMethod("getPreferredSystemLanguages", &GetPreferredLanguages) .SetMethod("getSystemLocale", &App::GetSystemLocale) .SetMethod("getLocaleCountryCode", &App::GetLocaleCountryCode) #if BUILDFLAG(USE_NSS_CERTS) .SetMethod("importCertificate", &App::ImportCertificate) #endif .SetMethod("hasSingleInstanceLock", &App::HasSingleInstanceLock) .SetMethod("requestSingleInstanceLock", &App::RequestSingleInstanceLock) .SetMethod("releaseSingleInstanceLock", &App::ReleaseSingleInstanceLock) .SetMethod("relaunch", &App::Relaunch) .SetMethod("isAccessibilitySupportEnabled", &App::IsAccessibilitySupportEnabled) .SetMethod("setAccessibilitySupportEnabled", &App::SetAccessibilitySupportEnabled) .SetMethod("disableHardwareAcceleration", &App::DisableHardwareAcceleration) .SetMethod("disableDomainBlockingFor3DAPIs", &App::DisableDomainBlockingFor3DAPIs) .SetMethod("getFileIcon", &App::GetFileIcon) .SetMethod("getAppMetrics", &App::GetAppMetrics) .SetMethod("getGPUFeatureStatus", &App::GetGPUFeatureStatus) .SetMethod("getGPUInfo", &App::GetGPUInfo) #if IS_MAS_BUILD() .SetMethod("startAccessingSecurityScopedResource", &App::StartAccessingSecurityScopedResource) #endif #if BUILDFLAG(IS_MAC) .SetProperty("dock", &App::GetDockAPI) #endif #if BUILDFLAG(IS_MAC) || BUILDFLAG(IS_WIN) .SetProperty("runningUnderARM64Translation", &App::IsRunningUnderARM64Translation) #endif .SetProperty("userAgentFallback", &App::GetUserAgentFallback, &App::SetUserAgentFallback) .SetMethod("configureHostResolver", &ConfigureHostResolver) .SetMethod("enableSandbox", &App::EnableSandbox); } const char* App::GetTypeName() { return "App"; } } // namespace electron::api namespace { void Initialize(v8::Local exports, v8::Local unused, v8::Local context, void* priv) { v8::Isolate* isolate = context->GetIsolate(); gin_helper::Dictionary dict(isolate, exports); dict.Set("app", electron::api::App::Create(isolate)); } } // namespace NODE_LINKED_BINDING_CONTEXT_AWARE(electron_browser_app, Initialize)