// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "extensions/renderer/dispatcher.h" #include "base/bind.h" #include "base/callback.h" #include "base/command_line.h" #include "base/debug/alias.h" #include "base/memory/scoped_ptr.h" #include "base/metrics/user_metrics_action.h" #include "base/strings/string_piece.h" #include "base/strings/string_split.h" #include "base/strings/string_util.h" #include "base/values.h" #include "content/grit/content_resources.h" #include "content/public/common/content_switches.h" #include "content/public/common/url_constants.h" #include "content/public/renderer/render_thread.h" #include "content/public/renderer/render_view.h" #include "content/public/renderer/v8_value_converter.h" #include "extensions/common/api/messaging/message.h" #include "extensions/common/constants.h" #include "extensions/common/extension.h" #include "extensions/common/extension_api.h" #include "extensions/common/extension_messages.h" #include "extensions/common/extension_urls.h" #include "extensions/common/feature_switch.h" #include "extensions/common/features/feature.h" #include "extensions/common/features/feature_provider.h" #include "extensions/common/manifest.h" #include "extensions/common/manifest_constants.h" #include "extensions/common/manifest_handlers/background_info.h" #include "extensions/common/manifest_handlers/content_capabilities_handler.h" #include "extensions/common/manifest_handlers/externally_connectable.h" #include "extensions/common/manifest_handlers/options_page_info.h" #include "extensions/common/manifest_handlers/sandboxed_page_info.h" #include "extensions/common/message_bundle.h" #include "extensions/common/permissions/permission_set.h" #include "extensions/common/permissions/permissions_data.h" #include "extensions/common/switches.h" #include "extensions/common/view_type.h" #include "extensions/renderer/api_activity_logger.h" #include "extensions/renderer/api_definitions_natives.h" #include "extensions/renderer/app_runtime_custom_bindings.h" #include "extensions/renderer/app_window_custom_bindings.h" #include "extensions/renderer/binding_generating_native_handler.h" #include "extensions/renderer/blob_native_handler.h" #include "extensions/renderer/content_watcher.h" #include "extensions/renderer/context_menus_custom_bindings.h" #include "extensions/renderer/css_native_handler.h" #include "extensions/renderer/dispatcher_delegate.h" #include "extensions/renderer/document_custom_bindings.h" #include "extensions/renderer/dom_activity_logger.h" #include "extensions/renderer/event_bindings.h" #include "extensions/renderer/extension_groups.h" #include "extensions/renderer/extension_helper.h" #include "extensions/renderer/extensions_renderer_client.h" #include "extensions/renderer/file_system_natives.h" #include "extensions/renderer/guest_view/guest_view_internal_custom_bindings.h" #include "extensions/renderer/i18n_custom_bindings.h" #include "extensions/renderer/id_generator_custom_bindings.h" #include "extensions/renderer/lazy_background_page_native_handler.h" #include "extensions/renderer/logging_native_handler.h" #include "extensions/renderer/messaging_bindings.h" #include "extensions/renderer/module_system.h" #include "extensions/renderer/print_native_handler.h" #include "extensions/renderer/process_info_native_handler.h" #include "extensions/renderer/render_view_observer_natives.h" #include "extensions/renderer/request_sender.h" #include "extensions/renderer/runtime_custom_bindings.h" #include "extensions/renderer/safe_builtins.h" #include "extensions/renderer/script_context.h" #include "extensions/renderer/script_context_set.h" #include "extensions/renderer/script_injection.h" #include "extensions/renderer/script_injection_manager.h" #include "extensions/renderer/send_request_natives.h" #include "extensions/renderer/set_icon_natives.h" #include "extensions/renderer/test_features_native_handler.h" #include "extensions/renderer/user_gestures_native_handler.h" #include "extensions/renderer/utils_native_handler.h" #include "extensions/renderer/v8_context_native_handler.h" #include "grit/extensions_renderer_resources.h" #include "mojo/public/js/constants.h" #include "third_party/WebKit/public/platform/WebString.h" #include "third_party/WebKit/public/platform/WebURLRequest.h" #include "third_party/WebKit/public/web/WebCustomElement.h" #include "third_party/WebKit/public/web/WebDataSource.h" #include "third_party/WebKit/public/web/WebDocument.h" #include "third_party/WebKit/public/web/WebFrame.h" #include "third_party/WebKit/public/web/WebRuntimeFeatures.h" #include "third_party/WebKit/public/web/WebScopedUserGesture.h" #include "third_party/WebKit/public/web/WebSecurityPolicy.h" #include "third_party/WebKit/public/web/WebView.h" #include "ui/base/layout.h" #include "ui/base/resource/resource_bundle.h" #include "v8/include/v8.h" using base::UserMetricsAction; using blink::WebDataSource; using blink::WebDocument; using blink::WebFrame; using blink::WebScopedUserGesture; using blink::WebSecurityPolicy; using blink::WebString; using blink::WebVector; using blink::WebView; using content::RenderThread; using content::RenderView; namespace extensions { namespace { static const int64 kInitialExtensionIdleHandlerDelayMs = 5 * 1000; static const int64 kMaxExtensionIdleHandlerDelayMs = 5 * 60 * 1000; static const char kEventDispatchFunction[] = "dispatchEvent"; static const char kOnSuspendEvent[] = "runtime.onSuspend"; static const char kOnSuspendCanceledEvent[] = "runtime.onSuspendCanceled"; // Returns the global value for "chrome" from |context|. If one doesn't exist // creates a new object for it. // // Note that this isn't necessarily an object, since webpages can write, for // example, "window.chrome = true". v8::Handle GetOrCreateChrome(ScriptContext* context) { v8::Handle chrome_string( v8::String::NewFromUtf8(context->isolate(), "chrome")); v8::Handle global(context->v8_context()->Global()); v8::Handle chrome(global->Get(chrome_string)); if (chrome->IsUndefined()) { chrome = v8::Object::New(context->isolate()); global->Set(chrome_string, chrome); } return chrome; } // Returns |value| cast to an object if possible, else an empty handle. v8::Handle AsObjectOrEmpty(v8::Handle value) { return value->IsObject() ? value.As() : v8::Handle(); } // Calls a method |method_name| in a module |module_name| belonging to the // module system from |context|. Intended as a callback target from // ScriptContextSet::ForEach. void CallModuleMethod(const std::string& module_name, const std::string& method_name, const base::ListValue* args, ScriptContext* context) { v8::HandleScope handle_scope(context->isolate()); v8::Context::Scope context_scope(context->v8_context()); scoped_ptr converter( content::V8ValueConverter::create()); std::vector > arguments; for (base::ListValue::const_iterator it = args->begin(); it != args->end(); ++it) { arguments.push_back(converter->ToV8Value(*it, context->v8_context())); } context->module_system()->CallModuleMethod( module_name, method_name, &arguments); } // This handles the "chrome." root API object in script contexts. class ChromeNativeHandler : public ObjectBackedNativeHandler { public: explicit ChromeNativeHandler(ScriptContext* context) : ObjectBackedNativeHandler(context) { RouteFunction( "GetChrome", base::Bind(&ChromeNativeHandler::GetChrome, base::Unretained(this))); } void GetChrome(const v8::FunctionCallbackInfo& args) { args.GetReturnValue().Set(GetOrCreateChrome(context())); } }; } // namespace Dispatcher::Dispatcher(DispatcherDelegate* delegate) : delegate_(delegate), content_watcher_(new ContentWatcher()), source_map_(&ResourceBundle::GetSharedInstance()), v8_schema_registry_(new V8SchemaRegistry), is_webkit_initialized_(false), user_script_set_manager_observer_(this), webrequest_used_(false) { const base::CommandLine& command_line = *(base::CommandLine::ForCurrentProcess()); is_extension_process_ = command_line.HasSwitch(switches::kExtensionProcess) || command_line.HasSwitch(::switches::kSingleProcess); if (is_extension_process_) { RenderThread::Get()->SetIdleNotificationDelayInMs( kInitialExtensionIdleHandlerDelayMs); } RenderThread::Get()->RegisterExtension(SafeBuiltins::CreateV8Extension()); user_script_set_manager_.reset(new UserScriptSetManager(&extensions_)); script_injection_manager_.reset( new ScriptInjectionManager(&extensions_, user_script_set_manager_.get())); user_script_set_manager_observer_.Add(user_script_set_manager_.get()); request_sender_.reset(new RequestSender(this)); PopulateSourceMap(); } Dispatcher::~Dispatcher() { } void Dispatcher::OnRenderViewCreated(content::RenderView* render_view) { script_injection_manager_->OnRenderViewCreated(render_view); } bool Dispatcher::IsExtensionActive(const std::string& extension_id) const { bool is_active = active_extension_ids_.find(extension_id) != active_extension_ids_.end(); if (is_active) CHECK(extensions_.Contains(extension_id)); return is_active; } const Extension* Dispatcher::GetExtensionFromFrameAndWorld( const WebFrame* frame, int world_id, bool use_effective_url) { std::string extension_id; if (world_id != 0) { // Isolated worlds (content script). extension_id = ScriptInjection::GetExtensionIdForIsolatedWorld(world_id); } else if (!frame->document().securityOrigin().isUnique()) { // TODO(kalman): Delete the above check. // Extension pages (chrome-extension:// URLs). GURL frame_url = ScriptContext::GetDataSourceURLForFrame(frame); frame_url = ScriptContext::GetEffectiveDocumentURL( frame, frame_url, use_effective_url); extension_id = extensions_.GetExtensionOrAppIDByURL(frame_url); } const Extension* extension = extensions_.GetByID(extension_id); if (!extension && !extension_id.empty()) { // There are conditions where despite a context being associated with an // extension, no extension actually gets found. Ignore "invalid" because // CSP blocks extension page loading by switching the extension ID to // "invalid". This isn't interesting. if (extension_id != "invalid") { LOG(ERROR) << "Extension \"" << extension_id << "\" not found"; RenderThread::Get()->RecordAction( UserMetricsAction("ExtensionNotFound_ED")); } } return extension; } void Dispatcher::DidCreateScriptContext( WebFrame* frame, const v8::Handle& v8_context, int extension_group, int world_id) { const Extension* extension = GetExtensionFromFrameAndWorld(frame, world_id, false); const Extension* effective_extension = GetExtensionFromFrameAndWorld(frame, world_id, true); GURL frame_url = ScriptContext::GetDataSourceURLForFrame(frame); Feature::Context context_type = ClassifyJavaScriptContext(extension, extension_group, frame_url, frame->document().securityOrigin()); Feature::Context effective_context_type = ClassifyJavaScriptContext( effective_extension, extension_group, ScriptContext::GetEffectiveDocumentURL(frame, frame_url, true), frame->document().securityOrigin()); ScriptContext* context = delegate_->CreateScriptContext(v8_context, frame, extension, context_type, effective_extension, effective_context_type).release(); script_context_set_.Add(context); // Initialize origin permissions for content scripts, which can't be // initialized in |OnActivateExtension|. if (context_type == Feature::CONTENT_SCRIPT_CONTEXT) InitOriginPermissions(extension); { scoped_ptr module_system( new ModuleSystem(context, &source_map_)); context->set_module_system(module_system.Pass()); } ModuleSystem* module_system = context->module_system(); // Enable natives in startup. ModuleSystem::NativesEnabledScope natives_enabled_scope(module_system); RegisterNativeHandlers(module_system, context); // chrome.Event is part of the public API (although undocumented). Make it // lazily evalulate to Event from event_bindings.js. For extensions only // though, not all webpages! if (context->extension()) { v8::Handle chrome = AsObjectOrEmpty(GetOrCreateChrome(context)); if (!chrome.IsEmpty()) module_system->SetLazyField(chrome, "Event", kEventBindings, "Event"); } UpdateBindingsForContext(context); bool is_within_platform_app = IsWithinPlatformApp(); // Inject custom JS into the platform app context. if (is_within_platform_app) { module_system->Require("platformApp"); } if (context->GetAvailability("appViewEmbedderInternal").is_available()) { module_system->Require("appView"); } else if (context_type == Feature::BLESSED_EXTENSION_CONTEXT) { module_system->Require("denyAppView"); } if (extensions::FeatureSwitch::surface_worker()->IsEnabled() && context->GetAvailability("surfaceWorkerInternal").is_available()) { module_system->Require("surfaceWorker"); } // Note: setting up the WebView class here, not the chrome.webview API. // The API will be automatically set up when first used. if (context->GetAvailability("webViewInternal").is_available()) { module_system->Require("webView"); module_system->Require("webViewApiMethods"); module_system->Require("webViewAttributes"); if (context->GetAvailability("webViewExperimentalInternal") .is_available()) { module_system->Require("webViewExperimental"); } } else if (context_type == Feature::BLESSED_EXTENSION_CONTEXT) { module_system->Require("denyWebView"); } delegate_->RequireAdditionalModules(context, is_within_platform_app); VLOG(1) << "Num tracked contexts: " << script_context_set_.size(); } void Dispatcher::WillReleaseScriptContext( WebFrame* frame, const v8::Handle& v8_context, int world_id) { ScriptContext* context = script_context_set_.GetByV8Context(v8_context); if (!context) return; context->DispatchOnUnloadEvent(); // TODO(kalman): add an invalidation observer interface to ScriptContext. request_sender_->InvalidateSource(context); script_context_set_.Remove(context); VLOG(1) << "Num tracked contexts: " << script_context_set_.size(); } void Dispatcher::DidCreateDocumentElement(blink::WebFrame* frame) { // Note: use GetEffectiveDocumentURL not just frame->document()->url() // so that this also injects the stylesheet on about:blank frames that // are hosted in the extension process. GURL effective_document_url = ScriptContext::GetEffectiveDocumentURL( frame, frame->document().url(), true /* match_about_blank */); const Extension* extension = extensions_.GetExtensionOrAppByURL(effective_document_url); if (extension && (extension->is_extension() || extension->is_platform_app())) { int resource_id = extension->is_platform_app() ? IDR_PLATFORM_APP_CSS : IDR_EXTENSION_FONTS_CSS; std::string stylesheet = ResourceBundle::GetSharedInstance() .GetRawDataResource(resource_id) .as_string(); ReplaceFirstSubstringAfterOffset( &stylesheet, 0, "$FONTFAMILY", system_font_family_); ReplaceFirstSubstringAfterOffset( &stylesheet, 0, "$FONTSIZE", system_font_size_); // Blink doesn't let us define an additional user agent stylesheet, so // we insert the default platform app or extension stylesheet into all // documents that are loaded in each app or extension. frame->document().insertStyleSheet(WebString::fromUTF8(stylesheet)); } // If this is an extension options page, and the extension has opted into // using Chrome styles, then insert the Chrome extension stylesheet. if (extension && extension->is_extension() && OptionsPageInfo::ShouldUseChromeStyle(extension) && effective_document_url == OptionsPageInfo::GetOptionsPage(extension)) { frame->document().insertStyleSheet( WebString::fromUTF8(ResourceBundle::GetSharedInstance() .GetRawDataResource(IDR_EXTENSION_CSS) .as_string())); } content_watcher_->DidCreateDocumentElement(frame); } void Dispatcher::DidMatchCSS( blink::WebFrame* frame, const blink::WebVector& newly_matching_selectors, const blink::WebVector& stopped_matching_selectors) { content_watcher_->DidMatchCSS( frame, newly_matching_selectors, stopped_matching_selectors); } void Dispatcher::OnExtensionResponse(int request_id, bool success, const base::ListValue& response, const std::string& error) { request_sender_->HandleResponse(request_id, success, response, error); } bool Dispatcher::CheckContextAccessToExtensionAPI( const std::string& function_name, ScriptContext* context) const { if (!context) { DLOG(ERROR) << "Not in a v8::Context"; return false; } // Theoretically we could end up with bindings being injected into sandboxed // frames, for example content scripts. Don't let them execute API functions. blink::WebFrame* frame = context->web_frame(); if (IsSandboxedPage(ScriptContext::GetDataSourceURLForFrame(frame))) { static const char kMessage[] = "%s cannot be used within a sandboxed frame."; std::string error_msg = base::StringPrintf(kMessage, function_name.c_str()); context->isolate()->ThrowException(v8::Exception::Error( v8::String::NewFromUtf8(context->isolate(), error_msg.c_str()))); return false; } Feature::Availability availability = context->GetAvailability(function_name); if (!availability.is_available()) { context->isolate()->ThrowException( v8::Exception::Error(v8::String::NewFromUtf8( context->isolate(), availability.message().c_str()))); } return availability.is_available(); } void Dispatcher::DispatchEvent(const std::string& extension_id, const std::string& event_name) const { base::ListValue args; args.Set(0, new base::StringValue(event_name)); args.Set(1, new base::ListValue()); // Needed for Windows compilation, since kEventBindings is declared extern. const char* local_event_bindings = kEventBindings; script_context_set_.ForEach(extension_id, base::Bind(&CallModuleMethod, local_event_bindings, kEventDispatchFunction, &args)); } void Dispatcher::InvokeModuleSystemMethod(content::RenderView* render_view, const std::string& extension_id, const std::string& module_name, const std::string& function_name, const base::ListValue& args, bool user_gesture) { scoped_ptr web_user_gesture; if (user_gesture) web_user_gesture.reset(new WebScopedUserGesture); script_context_set_.ForEach( extension_id, render_view, base::Bind(&CallModuleMethod, module_name, function_name, &args)); // Reset the idle handler each time there's any activity like event or message // dispatch, for which Invoke is the chokepoint. if (is_extension_process_) { RenderThread::Get()->ScheduleIdleHandler( kInitialExtensionIdleHandlerDelayMs); } // Tell the browser process when an event has been dispatched with a lazy // background page active. const Extension* extension = extensions_.GetByID(extension_id); if (extension && BackgroundInfo::HasLazyBackgroundPage(extension) && module_name == kEventBindings && function_name == kEventDispatchFunction) { RenderView* background_view = ExtensionHelper::GetBackgroundPage(extension_id); if (background_view) { background_view->Send( new ExtensionHostMsg_EventAck(background_view->GetRoutingID())); } } } void Dispatcher::ClearPortData(int port_id) { // Only the target port side has entries in |port_to_tab_id_map_|. If // |port_id| is a source port, std::map::erase() will just silently fail // here as a no-op. port_to_tab_id_map_.erase(port_id); } // static std::vector > Dispatcher::GetJsResources() { std::vector > resources; // Libraries. resources.push_back(std::make_pair("appView", IDR_APP_VIEW_JS)); resources.push_back(std::make_pair("denyAppView", IDR_APP_VIEW_DENY_JS)); resources.push_back(std::make_pair("entryIdManager", IDR_ENTRY_ID_MANAGER)); resources.push_back(std::make_pair(kEventBindings, IDR_EVENT_BINDINGS_JS)); resources.push_back(std::make_pair("imageUtil", IDR_IMAGE_UTIL_JS)); resources.push_back(std::make_pair("json_schema", IDR_JSON_SCHEMA_JS)); resources.push_back(std::make_pair("lastError", IDR_LAST_ERROR_JS)); resources.push_back(std::make_pair("messaging", IDR_MESSAGING_JS)); resources.push_back( std::make_pair("messaging_utils", IDR_MESSAGING_UTILS_JS)); resources.push_back(std::make_pair(kSchemaUtils, IDR_SCHEMA_UTILS_JS)); resources.push_back(std::make_pair("sendRequest", IDR_SEND_REQUEST_JS)); resources.push_back(std::make_pair("setIcon", IDR_SET_ICON_JS)); resources.push_back(std::make_pair("test", IDR_TEST_CUSTOM_BINDINGS_JS)); resources.push_back( std::make_pair("test_environment_specific_bindings", IDR_BROWSER_TEST_ENVIRONMENT_SPECIFIC_BINDINGS_JS)); resources.push_back(std::make_pair("uncaught_exception_handler", IDR_UNCAUGHT_EXCEPTION_HANDLER_JS)); resources.push_back(std::make_pair("unload_event", IDR_UNLOAD_EVENT_JS)); resources.push_back(std::make_pair("utils", IDR_UTILS_JS)); resources.push_back(std::make_pair("webRequest", IDR_WEB_REQUEST_CUSTOM_BINDINGS_JS)); resources.push_back( std::make_pair("webRequestInternal", IDR_WEB_REQUEST_INTERNAL_CUSTOM_BINDINGS_JS)); // Note: webView not webview so that this doesn't interfere with the // chrome.webview API bindings. resources.push_back(std::make_pair("guestView", IDR_GUEST_VIEW_JS)); resources.push_back(std::make_pair("guestViewContainer", IDR_GUEST_VIEW_CONTAINER_JS)); resources.push_back(std::make_pair("webView", IDR_WEB_VIEW_JS)); resources.push_back(std::make_pair("surfaceWorker", IDR_SURFACE_VIEW_JS)); resources.push_back(std::make_pair("webViewActionRequests", IDR_WEB_VIEW_ACTION_REQUESTS_JS)); resources.push_back(std::make_pair("webViewApiMethods", IDR_WEB_VIEW_API_METHODS_JS)); resources.push_back(std::make_pair("webViewAttributes", IDR_WEB_VIEW_ATTRIBUTES_JS)); resources.push_back(std::make_pair("webViewConstants", IDR_WEB_VIEW_CONSTANTS_JS)); resources.push_back(std::make_pair("webViewEvents", IDR_WEB_VIEW_EVENTS_JS)); resources.push_back( std::make_pair("webViewExperimental", IDR_WEB_VIEW_EXPERIMENTAL_JS)); resources.push_back(std::make_pair("webViewInternal", IDR_WEB_VIEW_INTERNAL_CUSTOM_BINDINGS_JS)); resources.push_back(std::make_pair("denyWebView", IDR_WEB_VIEW_DENY_JS)); resources.push_back( std::make_pair(mojo::kBindingsModuleName, IDR_MOJO_BINDINGS_JS)); resources.push_back( std::make_pair(mojo::kBufferModuleName, IDR_MOJO_BUFFER_JS)); resources.push_back( std::make_pair(mojo::kCodecModuleName, IDR_MOJO_CODEC_JS)); resources.push_back( std::make_pair(mojo::kConnectionModuleName, IDR_MOJO_CONNECTION_JS)); resources.push_back( std::make_pair(mojo::kConnectorModuleName, IDR_MOJO_CONNECTOR_JS)); resources.push_back( std::make_pair(mojo::kRouterModuleName, IDR_MOJO_ROUTER_JS)); resources.push_back( std::make_pair(mojo::kUnicodeModuleName, IDR_MOJO_UNICODE_JS)); resources.push_back( std::make_pair(mojo::kValidatorModuleName, IDR_MOJO_VALIDATOR_JS)); resources.push_back(std::make_pair("async_waiter", IDR_ASYNC_WAITER_JS)); resources.push_back(std::make_pair("data_receiver", IDR_DATA_RECEIVER_JS)); resources.push_back(std::make_pair("data_sender", IDR_DATA_SENDER_JS)); resources.push_back(std::make_pair("keep_alive", IDR_KEEP_ALIVE_JS)); resources.push_back(std::make_pair("extensions/common/mojo/keep_alive.mojom", IDR_KEEP_ALIVE_MOJOM_JS)); resources.push_back(std::make_pair("device/serial/data_stream.mojom", IDR_DATA_STREAM_MOJOM_JS)); resources.push_back( std::make_pair("device/serial/data_stream_serialization.mojom", IDR_DATA_STREAM_SERIALIZATION_MOJOM_JS)); // Custom bindings. resources.push_back( std::make_pair("app.runtime", IDR_APP_RUNTIME_CUSTOM_BINDINGS_JS)); resources.push_back( std::make_pair("app.window", IDR_APP_WINDOW_CUSTOM_BINDINGS_JS)); resources.push_back( std::make_pair("declarativeWebRequest", IDR_DECLARATIVE_WEBREQUEST_CUSTOM_BINDINGS_JS)); resources.push_back( std::make_pair("contextMenus", IDR_CONTEXT_MENUS_CUSTOM_BINDINGS_JS)); resources.push_back( std::make_pair("extension", IDR_EXTENSION_CUSTOM_BINDINGS_JS)); resources.push_back(std::make_pair("i18n", IDR_I18N_CUSTOM_BINDINGS_JS)); resources.push_back( std::make_pair("permissions", IDR_PERMISSIONS_CUSTOM_BINDINGS_JS)); resources.push_back( std::make_pair("runtime", IDR_RUNTIME_CUSTOM_BINDINGS_JS)); resources.push_back(std::make_pair("windowControls", IDR_WINDOW_CONTROLS_JS)); resources.push_back( std::make_pair("webViewRequest", IDR_WEB_VIEW_REQUEST_CUSTOM_BINDINGS_JS)); resources.push_back(std::make_pair("binding", IDR_BINDING_JS)); if (base::CommandLine::ForCurrentProcess()->HasSwitch( switches::kEnableMojoSerialService)) { resources.push_back( std::make_pair("serial", IDR_SERIAL_CUSTOM_BINDINGS_JS)); } resources.push_back(std::make_pair("serial_service", IDR_SERIAL_SERVICE_JS)); resources.push_back( std::make_pair("device/serial/serial.mojom", IDR_SERIAL_MOJOM_JS)); resources.push_back(std::make_pair("device/serial/serial_serialization.mojom", IDR_SERIAL_SERIALIZATION_MOJOM_JS)); // Custom types sources. resources.push_back(std::make_pair("StorageArea", IDR_STORAGE_AREA_JS)); // Platform app sources that are not API-specific.. resources.push_back(std::make_pair("platformApp", IDR_PLATFORM_APP_JS)); return resources; } // NOTE: please use the naming convention "foo_natives" for these. // static void Dispatcher::RegisterNativeHandlers(ModuleSystem* module_system, ScriptContext* context, Dispatcher* dispatcher, RequestSender* request_sender, V8SchemaRegistry* v8_schema_registry) { module_system->RegisterNativeHandler( "chrome", scoped_ptr(new ChromeNativeHandler(context))); module_system->RegisterNativeHandler( "lazy_background_page", scoped_ptr(new LazyBackgroundPageNativeHandler(context))); module_system->RegisterNativeHandler( "logging", scoped_ptr(new LoggingNativeHandler(context))); module_system->RegisterNativeHandler("schema_registry", v8_schema_registry->AsNativeHandler()); module_system->RegisterNativeHandler( "print", scoped_ptr(new PrintNativeHandler(context))); module_system->RegisterNativeHandler( "test_features", scoped_ptr(new TestFeaturesNativeHandler(context))); module_system->RegisterNativeHandler( "user_gestures", scoped_ptr(new UserGesturesNativeHandler(context))); module_system->RegisterNativeHandler( "utils", scoped_ptr(new UtilsNativeHandler(context))); module_system->RegisterNativeHandler( "v8_context", scoped_ptr( new V8ContextNativeHandler(context, dispatcher))); module_system->RegisterNativeHandler( "event_natives", scoped_ptr(new EventBindings(dispatcher, context))); module_system->RegisterNativeHandler( "messaging_natives", scoped_ptr(MessagingBindings::Get(dispatcher, context))); module_system->RegisterNativeHandler( "apiDefinitions", scoped_ptr( new ApiDefinitionsNatives(dispatcher, context))); module_system->RegisterNativeHandler( "sendRequest", scoped_ptr( new SendRequestNatives(request_sender, context))); module_system->RegisterNativeHandler( "setIcon", scoped_ptr(new SetIconNatives(request_sender, context))); module_system->RegisterNativeHandler( "activityLogger", scoped_ptr(new APIActivityLogger(context))); module_system->RegisterNativeHandler( "renderViewObserverNatives", scoped_ptr(new RenderViewObserverNatives(context))); // Natives used by multiple APIs. module_system->RegisterNativeHandler( "file_system_natives", scoped_ptr(new FileSystemNatives(context))); // Custom bindings. module_system->RegisterNativeHandler( "app_runtime", scoped_ptr(new AppRuntimeCustomBindings(context))); module_system->RegisterNativeHandler( "app_window_natives", scoped_ptr( new AppWindowCustomBindings(dispatcher, context))); module_system->RegisterNativeHandler( "blob_natives", scoped_ptr(new BlobNativeHandler(context))); module_system->RegisterNativeHandler( "context_menus", scoped_ptr(new ContextMenusCustomBindings(context))); module_system->RegisterNativeHandler( "css_natives", scoped_ptr(new CssNativeHandler(context))); module_system->RegisterNativeHandler( "document_natives", scoped_ptr(new DocumentCustomBindings(context))); module_system->RegisterNativeHandler( "guest_view_internal", scoped_ptr( new GuestViewInternalCustomBindings(context))); module_system->RegisterNativeHandler( "i18n", scoped_ptr(new I18NCustomBindings(context))); module_system->RegisterNativeHandler( "id_generator", scoped_ptr(new IdGeneratorCustomBindings(context))); module_system->RegisterNativeHandler( "runtime", scoped_ptr(new RuntimeCustomBindings(context))); } bool Dispatcher::OnControlMessageReceived(const IPC::Message& message) { bool handled = true; IPC_BEGIN_MESSAGE_MAP(Dispatcher, message) IPC_MESSAGE_HANDLER(ExtensionMsg_ActivateExtension, OnActivateExtension) IPC_MESSAGE_HANDLER(ExtensionMsg_CancelSuspend, OnCancelSuspend) IPC_MESSAGE_HANDLER(ExtensionMsg_DeliverMessage, OnDeliverMessage) IPC_MESSAGE_HANDLER(ExtensionMsg_DispatchOnConnect, OnDispatchOnConnect) IPC_MESSAGE_HANDLER(ExtensionMsg_DispatchOnDisconnect, OnDispatchOnDisconnect) IPC_MESSAGE_HANDLER(ExtensionMsg_Loaded, OnLoaded) IPC_MESSAGE_HANDLER(ExtensionMsg_MessageInvoke, OnMessageInvoke) IPC_MESSAGE_HANDLER(ExtensionMsg_SetChannel, OnSetChannel) IPC_MESSAGE_HANDLER(ExtensionMsg_SetFunctionNames, OnSetFunctionNames) IPC_MESSAGE_HANDLER(ExtensionMsg_SetScriptingWhitelist, OnSetScriptingWhitelist) IPC_MESSAGE_HANDLER(ExtensionMsg_SetSystemFont, OnSetSystemFont) IPC_MESSAGE_HANDLER(ExtensionMsg_ShouldSuspend, OnShouldSuspend) IPC_MESSAGE_HANDLER(ExtensionMsg_Suspend, OnSuspend) IPC_MESSAGE_HANDLER(ExtensionMsg_TransferBlobs, OnTransferBlobs) IPC_MESSAGE_HANDLER(ExtensionMsg_Unloaded, OnUnloaded) IPC_MESSAGE_HANDLER(ExtensionMsg_UpdatePermissions, OnUpdatePermissions) IPC_MESSAGE_HANDLER(ExtensionMsg_UsingWebRequestAPI, OnUsingWebRequestAPI) IPC_MESSAGE_FORWARD(ExtensionMsg_WatchPages, content_watcher_.get(), ContentWatcher::OnWatchPages) IPC_MESSAGE_UNHANDLED(handled = false) IPC_END_MESSAGE_MAP() return handled; } void Dispatcher::WebKitInitialized() { // For extensions, we want to ensure we call the IdleHandler every so often, // even if the extension keeps up activity. if (is_extension_process_) { forced_idle_timer_.reset(new base::RepeatingTimer); forced_idle_timer_->Start( FROM_HERE, base::TimeDelta::FromMilliseconds(kMaxExtensionIdleHandlerDelayMs), RenderThread::Get(), &RenderThread::IdleHandler); } // Initialize host permissions for any extensions that were activated before // WebKit was initialized. for (std::set::iterator iter = active_extension_ids_.begin(); iter != active_extension_ids_.end(); ++iter) { const Extension* extension = extensions_.GetByID(*iter); CHECK(extension); InitOriginPermissions(extension); } EnableCustomElementWhiteList(); is_webkit_initialized_ = true; } void Dispatcher::IdleNotification() { if (is_extension_process_ && forced_idle_timer_) { // Dampen the forced delay as well if the extension stays idle for long // periods of time. (forced_idle_timer_ can be NULL after // OnRenderProcessShutdown has been called.) int64 forced_delay_ms = std::max(RenderThread::Get()->GetIdleNotificationDelayInMs(), kMaxExtensionIdleHandlerDelayMs); forced_idle_timer_->Stop(); forced_idle_timer_->Start( FROM_HERE, base::TimeDelta::FromMilliseconds(forced_delay_ms), RenderThread::Get(), &RenderThread::IdleHandler); } } void Dispatcher::OnRenderProcessShutdown() { v8_schema_registry_.reset(); forced_idle_timer_.reset(); } void Dispatcher::OnActivateExtension(const std::string& extension_id) { const Extension* extension = extensions_.GetByID(extension_id); if (!extension) { // Extension was activated but was never loaded. This probably means that // the renderer failed to load it (or the browser failed to tell us when it // did). Failures shouldn't happen, but instead of crashing there (which // executes on all renderers) be conservative and only crash in the renderer // of the extension which failed to load; this one. std::string& error = extension_load_errors_[extension_id]; char minidump[256]; base::debug::Alias(&minidump); base::snprintf(minidump, arraysize(minidump), "e::dispatcher:%s:%s", extension_id.c_str(), error.c_str()); CHECK(extension) << extension_id << " was never loaded: " << error; } active_extension_ids_.insert(extension_id); // This is called when starting a new extension page, so start the idle // handler ticking. RenderThread::Get()->ScheduleIdleHandler(kInitialExtensionIdleHandlerDelayMs); if (is_webkit_initialized_) { DOMActivityLogger::AttachToWorld( DOMActivityLogger::kMainWorldId, extension_id); InitOriginPermissions(extension); } UpdateActiveExtensions(); } void Dispatcher::OnCancelSuspend(const std::string& extension_id) { DispatchEvent(extension_id, kOnSuspendCanceledEvent); } void Dispatcher::OnDeliverMessage(int target_port_id, const Message& message) { scoped_ptr scoped_tab_id; std::map::const_iterator it = port_to_tab_id_map_.find(target_port_id); if (it != port_to_tab_id_map_.end()) { scoped_tab_id.reset( new RequestSender::ScopedTabID(request_sender(), it->second)); } MessagingBindings::DeliverMessage(script_context_set_, target_port_id, message, NULL); // All render frames. } void Dispatcher::OnDispatchOnConnect( int target_port_id, const std::string& channel_name, const ExtensionMsg_TabConnectionInfo& source, const ExtensionMsg_ExternalConnectionInfo& info, const std::string& tls_channel_id) { DCHECK(!ContainsKey(port_to_tab_id_map_, target_port_id)); DCHECK_EQ(1, target_port_id % 2); // target renderer ports have odd IDs. int sender_tab_id = -1; source.tab.GetInteger("id", &sender_tab_id); port_to_tab_id_map_[target_port_id] = sender_tab_id; MessagingBindings::DispatchOnConnect(script_context_set_, target_port_id, channel_name, source, info, tls_channel_id, NULL); // All render frames. } void Dispatcher::OnDispatchOnDisconnect(int port_id, const std::string& error_message) { MessagingBindings::DispatchOnDisconnect(script_context_set_, port_id, error_message, NULL); // All render frames. } void Dispatcher::OnLoaded( const std::vector& loaded_extensions) { std::vector::const_iterator i; for (i = loaded_extensions.begin(); i != loaded_extensions.end(); ++i) { std::string error; scoped_refptr extension = i->ConvertToExtension(&error); if (!extension.get()) { extension_load_errors_[i->id] = error; continue; } OnLoadedInternal(extension); } // Update the available bindings for all contexts. These may have changed if // an externally_connectable extension was loaded that can connect to an // open webpage. UpdateBindings(""); } void Dispatcher::OnLoadedInternal(scoped_refptr extension) { extensions_.Insert(extension); } void Dispatcher::OnMessageInvoke(const std::string& extension_id, const std::string& module_name, const std::string& function_name, const base::ListValue& args, bool user_gesture) { InvokeModuleSystemMethod( NULL, extension_id, module_name, function_name, args, user_gesture); } void Dispatcher::OnSetChannel(int channel) { delegate_->SetChannel(channel); } void Dispatcher::OnSetFunctionNames(const std::vector& names) { function_names_.clear(); for (size_t i = 0; i < names.size(); ++i) function_names_.insert(names[i]); } void Dispatcher::OnSetScriptingWhitelist( const ExtensionsClient::ScriptingWhitelist& extension_ids) { ExtensionsClient::Get()->SetScriptingWhitelist(extension_ids); } void Dispatcher::OnSetSystemFont(const std::string& font_family, const std::string& font_size) { system_font_family_ = font_family; system_font_size_ = font_size; } void Dispatcher::OnShouldSuspend(const std::string& extension_id, uint64 sequence_id) { RenderThread::Get()->Send( new ExtensionHostMsg_ShouldSuspendAck(extension_id, sequence_id)); } void Dispatcher::OnSuspend(const std::string& extension_id) { // Dispatch the suspend event. This doesn't go through the standard event // dispatch machinery because it requires special handling. We need to let // the browser know when we are starting and stopping the event dispatch, so // that it still considers the extension idle despite any activity the suspend // event creates. DispatchEvent(extension_id, kOnSuspendEvent); RenderThread::Get()->Send(new ExtensionHostMsg_SuspendAck(extension_id)); } void Dispatcher::OnTransferBlobs(const std::vector& blob_uuids) { RenderThread::Get()->Send(new ExtensionHostMsg_TransferBlobsAck(blob_uuids)); } void Dispatcher::OnUnloaded(const std::string& id) { extensions_.Remove(id); active_extension_ids_.erase(id); // If the extension is later reloaded with a different set of permissions, // we'd like it to get a new isolated world ID, so that it can pick up the // changed origin whitelist. ScriptInjection::RemoveIsolatedWorld(id); // Invalidate all of the contexts that were removed. // TODO(kalman): add an invalidation observer interface to ScriptContext. ScriptContextSet::ContextSet removed_contexts = script_context_set_.OnExtensionUnloaded(id); for (ScriptContextSet::ContextSet::iterator it = removed_contexts.begin(); it != removed_contexts.end(); ++it) { request_sender_->InvalidateSource(*it); } // Update the available bindings for the remaining contexts. These may have // changed if an externally_connectable extension is unloaded and a webpage // is no longer accessible. UpdateBindings(""); // Invalidates the messages map for the extension in case the extension is // reloaded with a new messages map. EraseL10nMessagesMap(id); // We don't do anything with existing platform-app stylesheets. They will // stay resident, but the URL pattern corresponding to the unloaded // extension's URL just won't match anything anymore. } void Dispatcher::OnUpdatePermissions( const ExtensionMsg_UpdatePermissions_Params& params) { const Extension* extension = extensions_.GetByID(params.extension_id); if (!extension) return; scoped_refptr active = params.active_permissions.ToPermissionSet(); scoped_refptr withheld = params.withheld_permissions.ToPermissionSet(); if (is_webkit_initialized_) { UpdateOriginPermissions( extension, extension->permissions_data()->GetEffectiveHostPermissions(), active->effective_hosts()); } extension->permissions_data()->SetPermissions(active, withheld); UpdateBindings(extension->id()); } void Dispatcher::OnUsingWebRequestAPI(bool webrequest_used) { webrequest_used_ = webrequest_used; } void Dispatcher::OnUserScriptsUpdated( const std::set& changed_extensions, const std::vector& scripts) { UpdateActiveExtensions(); } void Dispatcher::UpdateActiveExtensions() { std::set active_extensions = active_extension_ids_; user_script_set_manager_->GetAllActiveExtensionIds(&active_extensions); delegate_->OnActiveExtensionsUpdated(active_extensions); } void Dispatcher::InitOriginPermissions(const Extension* extension) { delegate_->InitOriginPermissions(extension, IsExtensionActive(extension->id())); UpdateOriginPermissions( extension, URLPatternSet(), // No old permissions. extension->permissions_data()->GetEffectiveHostPermissions()); } void Dispatcher::UpdateOriginPermissions( const Extension* extension, const URLPatternSet& old_patterns, const URLPatternSet& new_patterns) { static const char* kSchemes[] = { url::kHttpScheme, url::kHttpsScheme, url::kFileScheme, content::kChromeUIScheme, url::kFtpScheme, }; for (size_t i = 0; i < arraysize(kSchemes); ++i) { const char* scheme = kSchemes[i]; // Remove all old patterns... for (URLPatternSet::const_iterator pattern = old_patterns.begin(); pattern != old_patterns.end(); ++pattern) { if (pattern->MatchesScheme(scheme)) { WebSecurityPolicy::removeOriginAccessWhitelistEntry( extension->url(), WebString::fromUTF8(scheme), WebString::fromUTF8(pattern->host()), pattern->match_subdomains()); } } // ...And add the new ones. for (URLPatternSet::const_iterator pattern = new_patterns.begin(); pattern != new_patterns.end(); ++pattern) { if (pattern->MatchesScheme(scheme)) { WebSecurityPolicy::addOriginAccessWhitelistEntry( extension->url(), WebString::fromUTF8(scheme), WebString::fromUTF8(pattern->host()), pattern->match_subdomains()); } } } } void Dispatcher::EnableCustomElementWhiteList() { blink::WebCustomElement::addEmbedderCustomElementName("appview"); blink::WebCustomElement::addEmbedderCustomElementName("appviewbrowserplugin"); blink::WebCustomElement::addEmbedderCustomElementName("extensionoptions"); blink::WebCustomElement::addEmbedderCustomElementName( "extensionoptionsbrowserplugin"); blink::WebCustomElement::addEmbedderCustomElementName("webview"); blink::WebCustomElement::addEmbedderCustomElementName("webviewbrowserplugin"); blink::WebCustomElement::addEmbedderCustomElementName("surfaceview"); blink::WebCustomElement::addEmbedderCustomElementName( "surfaceviewbrowserplugin"); } void Dispatcher::UpdateBindings(const std::string& extension_id) { script_context_set().ForEach(extension_id, base::Bind(&Dispatcher::UpdateBindingsForContext, base::Unretained(this))); } void Dispatcher::UpdateBindingsForContext(ScriptContext* context) { v8::HandleScope handle_scope(context->isolate()); v8::Context::Scope context_scope(context->v8_context()); // TODO(kalman): Make the bindings registration have zero overhead then run // the same code regardless of context type. switch (context->context_type()) { case Feature::UNSPECIFIED_CONTEXT: case Feature::WEB_PAGE_CONTEXT: case Feature::BLESSED_WEB_PAGE_CONTEXT: // Web page context; it's too expensive to run the full bindings code. // Hard-code that the app and webstore APIs are available... if (context->GetAvailability("app").is_available()) RegisterBinding("app", context); if (context->GetAvailability("webstore").is_available()) RegisterBinding("webstore", context); if (IsRuntimeAvailableToContext(context)) RegisterBinding("runtime", context); UpdateContentCapabilities(context); break; case Feature::BLESSED_EXTENSION_CONTEXT: case Feature::UNBLESSED_EXTENSION_CONTEXT: case Feature::CONTENT_SCRIPT_CONTEXT: case Feature::WEBUI_CONTEXT: { // Extension context; iterate through all the APIs and bind the available // ones. const FeatureProvider* api_feature_provider = FeatureProvider::GetAPIFeatures(); const std::vector& apis = api_feature_provider->GetAllFeatureNames(); for (std::vector::const_iterator it = apis.begin(); it != apis.end(); ++it) { const std::string& api_name = *it; Feature* feature = api_feature_provider->GetFeature(api_name); DCHECK(feature); // Internal APIs are included via require(api_name) from internal code // rather than chrome[api_name]. if (feature->IsInternal()) continue; // If this API has a parent feature (and isn't marked 'noparent'), // then this must be a function or event, so we should not register. if (api_feature_provider->GetParent(feature) != NULL) continue; // Skip chrome.test if this isn't a test. if (api_name == "test" && !base::CommandLine::ForCurrentProcess()->HasSwitch( ::switches::kTestType)) { continue; } if (context->IsAnyFeatureAvailableToContext(*feature)) RegisterBinding(api_name, context); } break; } } } void Dispatcher::RegisterBinding(const std::string& api_name, ScriptContext* context) { std::string bind_name; v8::Handle bind_object = GetOrCreateBindObjectIfAvailable(api_name, &bind_name, context); // Empty if the bind object failed to be created, probably because the // extension overrode chrome with a non-object, e.g. window.chrome = true. if (bind_object.IsEmpty()) return; v8::Local v8_bind_name = v8::String::NewFromUtf8(context->isolate(), bind_name.c_str()); if (bind_object->HasRealNamedProperty(v8_bind_name)) { // The bind object may already have the property if the API has been // registered before (or if the extension has put something there already, // but, whatevs). // // In the former case, we need to re-register the bindings for the APIs // which the extension now has permissions for (if any), but not touch any // others so that we don't destroy state such as event listeners. // // TODO(kalman): Only register available APIs to make this all moot. if (bind_object->HasRealNamedCallbackProperty(v8_bind_name)) return; // lazy binding still there, nothing to do if (bind_object->Get(v8_bind_name)->IsObject()) return; // binding has already been fully installed } ModuleSystem* module_system = context->module_system(); if (!source_map_.Contains(api_name)) { module_system->RegisterNativeHandler( api_name, scoped_ptr(new BindingGeneratingNativeHandler( module_system, api_name, "binding"))); module_system->SetNativeLazyField( bind_object, bind_name, api_name, "binding"); } else { module_system->SetLazyField(bind_object, bind_name, api_name, "binding"); } } // NOTE: please use the naming convention "foo_natives" for these. void Dispatcher::RegisterNativeHandlers(ModuleSystem* module_system, ScriptContext* context) { RegisterNativeHandlers(module_system, context, this, request_sender_.get(), v8_schema_registry_.get()); const Extension* extension = context->extension(); int manifest_version = extension ? extension->manifest_version() : 1; bool send_request_disabled = (extension && Manifest::IsUnpackedLocation(extension->location()) && BackgroundInfo::HasLazyBackgroundPage(extension)); module_system->RegisterNativeHandler( "process", scoped_ptr(new ProcessInfoNativeHandler( context, context->GetExtensionID(), context->GetContextTypeDescription(), ExtensionsRendererClient::Get()->IsIncognitoProcess(), manifest_version, send_request_disabled))); delegate_->RegisterNativeHandlers(this, module_system, context); } bool Dispatcher::IsRuntimeAvailableToContext(ScriptContext* context) { if (extensions::FeatureSwitch::surface_worker()->IsEnabled() && context->GetAvailability("surfaceWorkerInternal").is_available()) { return true; } for (const auto& extension : extensions_) { ExternallyConnectableInfo* info = static_cast( extension->GetManifestData(manifest_keys::kExternallyConnectable)); if (info && info->matches.MatchesURL(context->GetURL())) return true; } return false; } void Dispatcher::UpdateContentCapabilities(ScriptContext* context) { APIPermissionSet permissions; for (const auto& extension : extensions_) { const ContentCapabilitiesInfo& info = ContentCapabilitiesInfo::Get(extension.get()); if (info.url_patterns.MatchesURL(context->GetURL())) { APIPermissionSet new_permissions; APIPermissionSet::Union(permissions, info.permissions, &new_permissions); permissions = new_permissions; } } context->SetContentCapabilities(permissions); } void Dispatcher::PopulateSourceMap() { const std::vector > resources = GetJsResources(); for (std::vector >::const_iterator resource = resources.begin(); resource != resources.end(); ++resource) { source_map_.RegisterSource(resource->first, resource->second); } delegate_->PopulateSourceMap(&source_map_); } bool Dispatcher::IsWithinPlatformApp() { for (std::set::iterator iter = active_extension_ids_.begin(); iter != active_extension_ids_.end(); ++iter) { const Extension* extension = extensions_.GetByID(*iter); if (extension && extension->is_platform_app()) return true; } return false; } // TODO(kalman): This is checking for the wrong thing, it should be checking if // the frame's security origin is unique. The extension sandbox directive is // checked for in extensions/common/manifest_handlers/csp_info.cc. bool Dispatcher::IsSandboxedPage(const GURL& url) const { if (url.SchemeIs(kExtensionScheme)) { const Extension* extension = extensions_.GetByID(url.host()); if (extension) { return SandboxedPageInfo::IsSandboxedPage(extension, url.path()); } } return false; } Feature::Context Dispatcher::ClassifyJavaScriptContext( const Extension* extension, int extension_group, const GURL& url, const blink::WebSecurityOrigin& origin) { // WARNING: This logic must match ProcessMap::GetContextType, as much as // possible. DCHECK_GE(extension_group, 0); if (extension_group == EXTENSION_GROUP_CONTENT_SCRIPTS) { return extension ? // TODO(kalman): when does this happen? Feature::CONTENT_SCRIPT_CONTEXT : Feature::UNSPECIFIED_CONTEXT; } // We have an explicit check for sandboxed pages before checking whether the // extension is active in this process because: // 1. Sandboxed pages run in the same process as regular extension pages, so // the extension is considered active. // 2. ScriptContext creation (which triggers bindings injection) happens // before the SecurityContext is updated with the sandbox flags (after // reading the CSP header), so the caller can't check if the context's // security origin is unique yet. if (IsSandboxedPage(url)) return Feature::WEB_PAGE_CONTEXT; if (extension && IsExtensionActive(extension->id())) { // |extension| is active in this process, but it could be either a true // extension process or within the extent of a hosted app. In the latter // case this would usually be considered a (blessed) web page context, // unless the extension in question is a component extension, in which case // we cheat and call it blessed. return (extension->is_hosted_app() && extension->location() != Manifest::COMPONENT) ? Feature::BLESSED_WEB_PAGE_CONTEXT : Feature::BLESSED_EXTENSION_CONTEXT; } // TODO(kalman): This isUnique() check is wrong, it should be performed as // part of IsSandboxedPage(). if (!origin.isUnique() && extensions_.ExtensionBindingsAllowed(url)) { if (!extension) // TODO(kalman): when does this happen? return Feature::UNSPECIFIED_CONTEXT; return extension->is_hosted_app() ? Feature::BLESSED_WEB_PAGE_CONTEXT : Feature::UNBLESSED_EXTENSION_CONTEXT; } if (!url.is_valid()) return Feature::UNSPECIFIED_CONTEXT; if (url.SchemeIs(content::kChromeUIScheme)) return Feature::WEBUI_CONTEXT; return Feature::WEB_PAGE_CONTEXT; } v8::Handle Dispatcher::GetOrCreateObject( const v8::Handle& object, const std::string& field, v8::Isolate* isolate) { v8::Handle key = v8::String::NewFromUtf8(isolate, field.c_str()); // If the object has a callback property, it is assumed it is an unavailable // API, so it is safe to delete. This is checked before GetOrCreateObject is // called. if (object->HasRealNamedCallbackProperty(key)) { object->Delete(key); } else if (object->HasRealNamedProperty(key)) { v8::Handle value = object->Get(key); CHECK(value->IsObject()); return v8::Handle::Cast(value); } v8::Handle new_object = v8::Object::New(isolate); object->Set(key, new_object); return new_object; } v8::Handle Dispatcher::GetOrCreateBindObjectIfAvailable( const std::string& api_name, std::string* bind_name, ScriptContext* context) { std::vector split; base::SplitString(api_name, '.', &split); v8::Handle bind_object; // Check if this API has an ancestor. If the API's ancestor is available and // the API is not available, don't install the bindings for this API. If // the API is available and its ancestor is not, delete the ancestor and // install the bindings for the API. This is to prevent loading the ancestor // API schema if it will not be needed. // // For example: // If app is available and app.window is not, just install app. // If app.window is available and app is not, delete app and install // app.window on a new object so app does not have to be loaded. const FeatureProvider* api_feature_provider = FeatureProvider::GetAPIFeatures(); std::string ancestor_name; bool only_ancestor_available = false; for (size_t i = 0; i < split.size() - 1; ++i) { ancestor_name += (i ? "." : "") + split[i]; if (api_feature_provider->GetFeature(ancestor_name) && context->GetAvailability(ancestor_name).is_available() && !context->GetAvailability(api_name).is_available()) { only_ancestor_available = true; break; } if (bind_object.IsEmpty()) { bind_object = AsObjectOrEmpty(GetOrCreateChrome(context)); if (bind_object.IsEmpty()) return v8::Handle(); } bind_object = GetOrCreateObject(bind_object, split[i], context->isolate()); } if (only_ancestor_available) return v8::Handle(); if (bind_name) *bind_name = split.back(); return bind_object.IsEmpty() ? AsObjectOrEmpty(GetOrCreateChrome(context)) : bind_object; } } // namespace extensions