// 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/common/node_bindings.h" #include #include #include #include #include #include #include #include "base/base_paths.h" #include "base/command_line.h" #include "base/environment.h" #include "base/path_service.h" #include "base/run_loop.h" #include "base/strings/string_split.h" #include "base/strings/utf_string_conversions.h" #include "base/threading/thread_task_runner_handle.h" #include "base/trace_event/trace_event.h" #include "content/public/browser/browser_thread.h" #include "content/public/common/content_paths.h" #include "electron/buildflags/buildflags.h" #include "shell/common/api/electron_bindings.h" #include "shell/common/electron_command_line.h" #include "shell/common/gin_converters/file_path_converter.h" #include "shell/common/gin_helper/dictionary.h" #include "shell/common/gin_helper/event_emitter_caller.h" #include "shell/common/gin_helper/locker.h" #include "shell/common/gin_helper/microtasks_scope.h" #include "shell/common/mac/main_application_bundle.h" #include "shell/common/node_includes.h" #include "third_party/blink/renderer/bindings/core/v8/v8_initializer.h" // nogncheck #if !defined(MAS_BUILD) #include "shell/common/crash_keys.h" #endif #define ELECTRON_BUILTIN_MODULES(V) \ V(electron_browser_app) \ V(electron_browser_auto_updater) \ V(electron_browser_browser_view) \ V(electron_browser_content_tracing) \ V(electron_browser_crash_reporter) \ V(electron_browser_dialog) \ V(electron_browser_event) \ V(electron_browser_event_emitter) \ V(electron_browser_global_shortcut) \ V(electron_browser_in_app_purchase) \ V(electron_browser_menu) \ V(electron_browser_message_port) \ V(electron_browser_net) \ V(electron_browser_power_monitor) \ V(electron_browser_power_save_blocker) \ V(electron_browser_protocol) \ V(electron_browser_printing) \ V(electron_browser_session) \ V(electron_browser_system_preferences) \ V(electron_browser_base_window) \ V(electron_browser_tray) \ V(electron_browser_view) \ V(electron_browser_web_contents) \ V(electron_browser_web_contents_view) \ V(electron_browser_web_frame_main) \ V(electron_browser_web_view_manager) \ V(electron_browser_window) \ V(electron_common_asar) \ V(electron_common_clipboard) \ V(electron_common_command_line) \ V(electron_common_environment) \ V(electron_common_features) \ V(electron_common_native_image) \ V(electron_common_native_theme) \ V(electron_common_notification) \ V(electron_common_screen) \ V(electron_common_shell) \ V(electron_common_v8_util) \ V(electron_renderer_context_bridge) \ V(electron_renderer_crash_reporter) \ V(electron_renderer_ipc) \ V(electron_renderer_web_frame) #define ELECTRON_VIEWS_MODULES(V) V(electron_browser_image_view) #define ELECTRON_DESKTOP_CAPTURER_MODULE(V) V(electron_browser_desktop_capturer) // This is used to load built-in modules. Instead of using // __attribute__((constructor)), we call the _register_ // function for each built-in modules explicitly. This is only // forward declaration. The definitions are in each module's // implementation when calling the NODE_LINKED_MODULE_CONTEXT_AWARE. #define V(modname) void _register_##modname(); ELECTRON_BUILTIN_MODULES(V) #if BUILDFLAG(ENABLE_VIEWS_API) ELECTRON_VIEWS_MODULES(V) #endif #if BUILDFLAG(ENABLE_DESKTOP_CAPTURER) ELECTRON_DESKTOP_CAPTURER_MODULE(V) #endif #undef V namespace { void stop_and_close_uv_loop(uv_loop_t* loop) { uv_stop(loop); auto const ensure_closing = [](uv_handle_t* handle, void*) { // We should be using the UvHandle wrapper everywhere, in which case // all handles should already be in a closing state... DCHECK(uv_is_closing(handle)); // ...but if a raw handle got through, through, do the right thing anyway if (!uv_is_closing(handle)) { uv_close(handle, nullptr); } }; uv_walk(loop, ensure_closing, nullptr); // All remaining handles are in a closing state now. // Pump the event loop so that they can finish closing. for (;;) if (uv_run(loop, UV_RUN_DEFAULT) == 0) break; DCHECK_EQ(0, uv_loop_alive(loop)); } bool g_is_initialized = false; bool IsPackagedApp() { base::FilePath exe_path; base::PathService::Get(base::FILE_EXE, &exe_path); base::FilePath::StringType base_name = base::ToLowerASCII(exe_path.BaseName().value()); #if defined(OS_WIN) return base_name != FILE_PATH_LITERAL("electron.exe"); #else return base_name != FILE_PATH_LITERAL("electron"); #endif } void V8FatalErrorCallback(const char* location, const char* message) { LOG(ERROR) << "Fatal error in V8: " << location << " " << message; #if !defined(MAS_BUILD) electron::crash_keys::SetCrashKey("electron.v8-fatal.message", message); electron::crash_keys::SetCrashKey("electron.v8-fatal.location", location); #endif volatile int* zero = nullptr; *zero = 0; } bool AllowWasmCodeGenerationCallback(v8::Local context, v8::Local) { // If we're running with contextIsolation enabled in the renderer process, // fall back to Blink's logic. v8::Isolate* isolate = context->GetIsolate(); if (node::Environment::GetCurrent(isolate) == nullptr) { if (gin_helper::Locker::IsBrowserProcess()) return false; return blink::V8Initializer::WasmCodeGenerationCheckCallbackInMainThread( context, v8::String::Empty(isolate)); } return node::AllowWasmCodeGenerationCallback(context, v8::String::Empty(isolate)); } void ErrorMessageListener(v8::Local message, v8::Local data) { v8::Isolate* isolate = v8::Isolate::GetCurrent(); node::Environment* env = node::Environment::GetCurrent(isolate); if (env) { // Emit the after() hooks now that the exception has been handled. // Analogous to node/lib/internal/process/execution.js#L176-L180 if (env->async_hooks()->fields()[node::AsyncHooks::kAfter]) { while (env->async_hooks()->fields()[node::AsyncHooks::kStackLength]) { node::AsyncWrap::EmitAfter(env, env->execution_async_id()); env->async_hooks()->pop_async_context(env->execution_async_id()); } } // Ensure that the async id stack is properly cleared so the async // hook stack does not become corrupted. env->async_hooks()->clear_async_id_stack(); } } // Initialize Node.js cli options to pass to Node.js // See https://nodejs.org/api/cli.html#cli_options void SetNodeCliFlags() { // Only allow DebugOptions in non-ELECTRON_RUN_AS_NODE mode const std::unordered_set allowed = { "--inspect", "--inspect-brk", "--inspect-port", "--debug", "--debug-brk", "--debug-port", "--inspect-brk-node", "--inspect-publish-uid", }; const auto argv = base::CommandLine::ForCurrentProcess()->argv(); std::vector args; // TODO(codebytere): We need to set the first entry in args to the // process name owing to src/node_options-inl.h#L286-L290 but this is // redundant and so should be refactored upstream. args.reserve(argv.size() + 1); args.emplace_back("electron"); for (const auto& arg : argv) { #if defined(OS_WIN) const auto& option = base::WideToUTF8(arg); #else const auto& option = arg; #endif const auto stripped = base::StringPiece(option).substr(0, option.find('=')); // Only allow in no-op (--) option or DebugOptions if (allowed.count(stripped) != 0 || stripped == "--") args.push_back(option); } std::vector errors; const int exit_code = ProcessGlobalArgs(&args, nullptr, &errors, node::kDisallowedInEnvironment); const std::string err_str = "Error parsing Node.js cli flags "; if (exit_code != 0) { LOG(ERROR) << err_str; } else if (!errors.empty()) { LOG(ERROR) << err_str << base::JoinString(errors, " "); } } // namespace // Initialize NODE_OPTIONS to pass to Node.js // See https://nodejs.org/api/cli.html#cli_node_options_options void SetNodeOptions(base::Environment* env) { // Options that are unilaterally disallowed const std::set disallowed = { "--openssl-config", "--use-bundled-ca", "--use-openssl-ca", "--force-fips", "--enable-fips"}; // Subset of options allowed in packaged apps const std::set allowed_in_packaged = {"--max-http-header-size", "--http-parser"}; if (env->HasVar("NODE_OPTIONS")) { std::string options; env->GetVar("NODE_OPTIONS", &options); std::vector parts = base::SplitString( options, " ", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY); bool is_packaged_app = IsPackagedApp(); for (const auto& part : parts) { // Strip off values passed to individual NODE_OPTIONs std::string option = part.substr(0, part.find('=')); if (is_packaged_app && allowed_in_packaged.find(option) == allowed_in_packaged.end()) { // Explicitly disallow majority of NODE_OPTIONS in packaged apps LOG(ERROR) << "Most NODE_OPTIONs are not supported in packaged apps." << " See documentation for more details."; options.erase(options.find(option), part.length()); } else if (disallowed.find(option) != disallowed.end()) { // Remove NODE_OPTIONS specifically disallowed for use in Node.js // through Electron owing to constraints like BoringSSL. LOG(ERROR) << "The NODE_OPTION " << option << " is not supported in Electron"; options.erase(options.find(option), part.length()); } } // overwrite new NODE_OPTIONS without unsupported variables env->SetVar("NODE_OPTIONS", options); } } } // namespace namespace electron { namespace { base::FilePath GetResourcesPath() { #if defined(OS_MAC) return MainApplicationBundlePath().Append("Contents").Append("Resources"); #else auto* command_line = base::CommandLine::ForCurrentProcess(); base::FilePath exec_path(command_line->GetProgram()); base::PathService::Get(base::FILE_EXE, &exec_path); return exec_path.DirName().Append(FILE_PATH_LITERAL("resources")); #endif } } // namespace NodeBindings::NodeBindings(BrowserEnvironment browser_env) : browser_env_(browser_env) { if (browser_env == BrowserEnvironment::kWorker) { uv_loop_init(&worker_loop_); uv_loop_ = &worker_loop_; } else { uv_loop_ = uv_default_loop(); } } NodeBindings::~NodeBindings() { // Quit the embed thread. embed_closed_ = true; uv_sem_post(&embed_sem_); WakeupEmbedThread(); // Wait for everything to be done. uv_thread_join(&embed_thread_); // Clear uv. uv_sem_destroy(&embed_sem_); dummy_uv_handle_.reset(); // Clean up worker loop if (in_worker_loop()) stop_and_close_uv_loop(uv_loop_); } void NodeBindings::RegisterBuiltinModules() { #define V(modname) _register_##modname(); ELECTRON_BUILTIN_MODULES(V) #if BUILDFLAG(ENABLE_VIEWS_API) ELECTRON_VIEWS_MODULES(V) #endif #if BUILDFLAG(ENABLE_DESKTOP_CAPTURER) ELECTRON_DESKTOP_CAPTURER_MODULE(V) #endif #undef V } bool NodeBindings::IsInitialized() { return g_is_initialized; } void NodeBindings::Initialize() { TRACE_EVENT0("electron", "NodeBindings::Initialize"); // Open node's error reporting system for browser process. node::g_upstream_node_mode = false; #if defined(OS_LINUX) // Get real command line in renderer process forked by zygote. if (browser_env_ != BrowserEnvironment::kBrowser) ElectronCommandLine::InitializeFromCommandLine(); #endif // Explicitly register electron's builtin modules. RegisterBuiltinModules(); // Parse and set Node.js cli flags. SetNodeCliFlags(); std::unique_ptr env(base::Environment::Create()); SetNodeOptions(env.get()); std::vector argv = {"electron"}; std::vector exec_argv; std::vector errors; int exit_code = node::InitializeNodeWithArgs(&argv, &exec_argv, &errors); for (const std::string& error : errors) { fprintf(stderr, "%s: %s\n", argv[0].c_str(), error.c_str()); } if (exit_code != 0) { exit(exit_code); } #if defined(OS_WIN) // uv_init overrides error mode to suppress the default crash dialog, bring // it back if user wants to show it. if (browser_env_ == BrowserEnvironment::kBrowser || env->HasVar("ELECTRON_DEFAULT_ERROR_MODE")) SetErrorMode(GetErrorMode() & ~SEM_NOGPFAULTERRORBOX); #endif g_is_initialized = true; } node::Environment* NodeBindings::CreateEnvironment( v8::Handle context, node::MultiIsolatePlatform* platform) { #if defined(OS_WIN) auto& atom_args = ElectronCommandLine::argv(); std::vector args(atom_args.size()); std::transform(atom_args.cbegin(), atom_args.cend(), args.begin(), [](auto& a) { return base::WideToUTF8(a); }); #else auto args = ElectronCommandLine::argv(); #endif // Feed node the path to initialization script. std::string process_type; switch (browser_env_) { case BrowserEnvironment::kBrowser: process_type = "browser"; break; case BrowserEnvironment::kRenderer: process_type = "renderer"; break; case BrowserEnvironment::kWorker: process_type = "worker"; break; } gin_helper::Dictionary global(context->GetIsolate(), context->Global()); // Do not set DOM globals for renderer process. // We must set this before the node bootstrapper which is run inside // CreateEnvironment if (browser_env_ != BrowserEnvironment::kBrowser) global.Set("_noBrowserGlobals", true); std::vector exec_args; base::FilePath resources_path = GetResourcesPath(); std::string init_script = "electron/js2c/" + process_type + "_init"; args.insert(args.begin() + 1, init_script); isolate_data_ = node::CreateIsolateData(context->GetIsolate(), uv_loop_, platform); node::Environment* env; if (browser_env_ != BrowserEnvironment::kBrowser) { // Only one ESM loader can be registered per isolate - // in renderer processes this should be blink. We need to tell Node.js // not to register its handler (overriding blinks) in non-browser processes. uint64_t flags = node::EnvironmentFlags::kDefaultFlags | node::EnvironmentFlags::kNoRegisterESMLoader | node::EnvironmentFlags::kNoInitializeInspector; v8::TryCatch try_catch(context->GetIsolate()); env = node::CreateEnvironment(isolate_data_, context, args, exec_args, (node::EnvironmentFlags::Flags)flags); DCHECK(env); // This will only be caught when something has gone terrible wrong as all // electron scripts are wrapped in a try {} catch {} by webpack if (try_catch.HasCaught()) { LOG(ERROR) << "Failed to initialize node environment in process: " << process_type; } } else { env = node::CreateEnvironment(isolate_data_, context, args, exec_args); DCHECK(env); } // Clean up the global _noBrowserGlobals that we unironically injected into // the global scope if (browser_env_ != BrowserEnvironment::kBrowser) { // We need to bootstrap the env in non-browser processes so that // _noBrowserGlobals is read correctly before we remove it global.Delete("_noBrowserGlobals"); } node::IsolateSettings is; // Use a custom fatal error callback to allow us to add // crash message and location to CrashReports. is.fatal_error_callback = V8FatalErrorCallback; // We don't want to abort either in the renderer or browser processes. // We already listen for uncaught exceptions and handle them there. is.should_abort_on_uncaught_exception_callback = [](v8::Isolate*) { return false; }; // Use a custom callback here to allow us to leverage Blink's logic in the // renderer process. is.allow_wasm_code_generation_callback = AllowWasmCodeGenerationCallback; if (browser_env_ == BrowserEnvironment::kBrowser) { // Node.js requires that microtask checkpoints be explicitly invoked. is.policy = v8::MicrotasksPolicy::kExplicit; } else { // Match Blink's behavior by allowing microtasks invocation to be controlled // by MicrotasksScope objects. is.policy = v8::MicrotasksPolicy::kScoped; // We do not want to use Node.js' message listener as it interferes with // Blink's. is.flags &= ~node::IsolateSettingsFlags::MESSAGE_LISTENER_WITH_ERROR_LEVEL; // Isolate message listeners are additive (you can add multiple), so instead // we add an extra one here to ensure that the async hook stack is properly // cleared when errors are thrown. context->GetIsolate()->AddMessageListenerWithErrorLevel( ErrorMessageListener, v8::Isolate::kMessageError); // We do not want to use the promise rejection callback that Node.js uses, // because it does not send PromiseRejectionEvents to the global script // context. We need to use the one Blink already provides. is.flags |= node::IsolateSettingsFlags::SHOULD_NOT_SET_PROMISE_REJECTION_CALLBACK; // We do not want to use the stack trace callback that Node.js uses, // because it relies on Node.js being aware of the current Context and // that's not always the case. We need to use the one Blink already // provides. is.flags |= node::IsolateSettingsFlags::SHOULD_NOT_SET_PREPARE_STACK_TRACE_CALLBACK; } node::SetIsolateUpForNode(context->GetIsolate(), is); gin_helper::Dictionary process(context->GetIsolate(), env->process_object()); process.SetReadOnly("type", process_type); process.Set("resourcesPath", resources_path); // The path to helper app. base::FilePath helper_exec_path; base::PathService::Get(content::CHILD_PROCESS_EXE, &helper_exec_path); process.Set("helperExecPath", helper_exec_path); return env; } void NodeBindings::LoadEnvironment(node::Environment* env) { node::LoadEnvironment(env); gin_helper::EmitEvent(env->isolate(), env->process_object(), "loaded"); } void NodeBindings::PrepareMessageLoop() { #if !defined(OS_WIN) int handle = uv_backend_fd(uv_loop_); // If the backend fd hasn't changed, don't proceed. if (handle == handle_) return; handle_ = handle; #endif // Add dummy handle for libuv, otherwise libuv would quit when there is // nothing to do. uv_async_init(uv_loop_, dummy_uv_handle_.get(), nullptr); // Start worker that will interrupt main loop when having uv events. uv_sem_init(&embed_sem_, 0); uv_thread_create(&embed_thread_, EmbedThreadRunner, this); } void NodeBindings::RunMessageLoop() { // The MessageLoop should have been created, remember the one in main thread. task_runner_ = base::ThreadTaskRunnerHandle::Get(); // Run uv loop for once to give the uv__io_poll a chance to add all events. UvRunOnce(); } void NodeBindings::UvRunOnce() { node::Environment* env = uv_env(); // When doing navigation without restarting renderer process, it may happen // that the node environment is destroyed but the message loop is still there. // In this case we should not run uv loop. if (!env) return; // Use Locker in browser process. gin_helper::Locker locker(env->isolate()); v8::HandleScope handle_scope(env->isolate()); // Enter node context while dealing with uv events. v8::Context::Scope context_scope(env->context()); // Perform microtask checkpoint after running JavaScript. gin_helper::MicrotasksScope microtasks_scope(env->isolate()); if (browser_env_ != BrowserEnvironment::kBrowser) TRACE_EVENT_BEGIN0("devtools.timeline", "FunctionCall"); // Deal with uv events. int r = uv_run(uv_loop_, UV_RUN_NOWAIT); if (browser_env_ != BrowserEnvironment::kBrowser) TRACE_EVENT_END0("devtools.timeline", "FunctionCall"); if (r == 0) base::RunLoop().QuitWhenIdle(); // Quit from uv. // Tell the worker thread to continue polling. uv_sem_post(&embed_sem_); } void NodeBindings::WakeupMainThread() { DCHECK(task_runner_); task_runner_->PostTask(FROM_HERE, base::BindOnce(&NodeBindings::UvRunOnce, weak_factory_.GetWeakPtr())); } void NodeBindings::WakeupEmbedThread() { uv_async_send(dummy_uv_handle_.get()); } // static void NodeBindings::EmbedThreadRunner(void* arg) { auto* self = static_cast(arg); while (true) { // Wait for the main loop to deal with events. uv_sem_wait(&self->embed_sem_); if (self->embed_closed_) break; // Wait for something to happen in uv loop. // Note that the PollEvents() is implemented by derived classes, so when // this class is being destructed the PollEvents() would not be available // anymore. Because of it we must make sure we only invoke PollEvents() // when this class is alive. self->PollEvents(); if (self->embed_closed_) break; // Deal with event in main thread. self->WakeupMainThread(); } } } // namespace electron