// 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/user_script_injector.h" #include #include #include "base/lazy_instance.h" #include "content/public/common/url_constants.h" #include "content/public/renderer/render_thread.h" #include "content/public/renderer/render_frame.h" #include "content/public/renderer/render_view.h" #include "extensions/common/extension.h" #include "extensions/common/guest_view/extensions_guest_view_messages.h" #include "extensions/common/permissions/permissions_data.h" #include "extensions/renderer/injection_host.h" #include "extensions/renderer/script_context.h" #include "extensions/renderer/scripts_run_info.h" #include "grit/extensions_renderer_resources.h" #include "third_party/WebKit/public/web/WebDocument.h" #include "third_party/WebKit/public/web/WebLocalFrame.h" #include "third_party/WebKit/public/web/WebScriptSource.h" #include "ui/base/resource/resource_bundle.h" #include "url/gurl.h" namespace extensions { namespace { struct RoutingInfoKey { int routing_id; int script_id; RoutingInfoKey(int routing_id, int script_id) : routing_id(routing_id), script_id(script_id) {} bool operator<(const RoutingInfoKey& other) const { return std::tie(routing_id, script_id) < std::tie(other.routing_id, other.script_id); } }; using RoutingInfoMap = std::map; // These two strings are injected before and after the Greasemonkey API and // user script to wrap it in an anonymous scope. const char kUserScriptHead[] = "(function (unsafeWindow) {\n"; const char kUserScriptTail[] = "\n})(window);"; // A map records whether a given |script_id| from a webview-added user script // is allowed to inject on the render of given |routing_id|. // Once a script is added, the decision of whether or not allowed to inject // won't be changed. // After removed by the webview, the user scipt will also be removed // from the render. Therefore, there won't be any query from the same // |script_id| and |routing_id| pair. base::LazyInstance g_routing_info_map = LAZY_INSTANCE_INITIALIZER; // Greasemonkey API source that is injected with the scripts. struct GreasemonkeyApiJsString { GreasemonkeyApiJsString(); blink::WebScriptSource GetSource() const; private: std::string source_; }; // The below constructor, monstrous as it is, just makes a WebScriptSource from // the GreasemonkeyApiJs resource. GreasemonkeyApiJsString::GreasemonkeyApiJsString() : source_(ResourceBundle::GetSharedInstance() .GetRawDataResource(IDR_GREASEMONKEY_API_JS) .as_string()) { } blink::WebScriptSource GreasemonkeyApiJsString::GetSource() const { return blink::WebScriptSource(blink::WebString::fromUTF8(source_)); } base::LazyInstance g_greasemonkey_api = LAZY_INSTANCE_INITIALIZER; } // namespace UserScriptInjector::UserScriptInjector(const UserScript* script, UserScriptSet* script_list, bool is_declarative) : script_(script), script_id_(script_->id()), host_id_(script_->host_id()), is_declarative_(is_declarative), user_script_set_observer_(this) { user_script_set_observer_.Add(script_list); } UserScriptInjector::~UserScriptInjector() { } void UserScriptInjector::OnUserScriptsUpdated( const std::set& changed_hosts, const std::vector& scripts) { // If the host causing this injection changed, then this injection // will be removed, and there's no guarantee the backing script still exists. if (changed_hosts.count(host_id_) > 0) return; for (std::vector::const_iterator iter = scripts.begin(); iter != scripts.end(); ++iter) { // We need to compare to |script_id_| (and not to script_->id()) because the // old |script_| may be deleted by now. if ((*iter)->id() == script_id_) { script_ = *iter; break; } } } UserScript::InjectionType UserScriptInjector::script_type() const { return UserScript::CONTENT_SCRIPT; } bool UserScriptInjector::ShouldExecuteInMainWorld() const { return false; } bool UserScriptInjector::IsUserGesture() const { return false; } bool UserScriptInjector::ExpectsResults() const { return false; } bool UserScriptInjector::ShouldInjectJs( UserScript::RunLocation run_location) const { return script_->run_location() == run_location && !script_->js_scripts().empty(); } bool UserScriptInjector::ShouldInjectCss( UserScript::RunLocation run_location) const { return run_location == UserScript::DOCUMENT_START && !script_->css_scripts().empty(); } PermissionsData::AccessType UserScriptInjector::CanExecuteOnFrame( const InjectionHost* injection_host, blink::WebLocalFrame* web_frame, int tab_id) const { if (script_->consumer_instance_type() == UserScript::ConsumerInstanceType::WEBVIEW) { int routing_id = content::RenderView::FromWebView(web_frame->top()->view()) ->GetRoutingID(); RoutingInfoKey key(routing_id, script_->id()); RoutingInfoMap& map = g_routing_info_map.Get(); auto iter = map.find(key); bool allowed = false; if (iter != map.end()) { allowed = iter->second; } else { // Send a SYNC IPC message to the browser to check if this is allowed. // This is not ideal, but is mitigated by the fact that this is only done // for webviews, and then only once per host. // TODO(hanxi): Find a more efficient way to do this. content::RenderThread::Get()->Send( new ExtensionsGuestViewHostMsg_CanExecuteContentScriptSync( routing_id, script_->id(), &allowed)); map.insert(std::pair(key, allowed)); } return allowed ? PermissionsData::ACCESS_ALLOWED : PermissionsData::ACCESS_DENIED; } GURL effective_document_url = ScriptContext::GetEffectiveDocumentURL( web_frame, web_frame->document().url(), script_->match_about_blank()); return injection_host->CanExecuteOnFrame( effective_document_url, content::RenderFrame::FromWebFrame(web_frame), tab_id, is_declarative_); } std::vector UserScriptInjector::GetJsSources( UserScript::RunLocation run_location) const { DCHECK_EQ(script_->run_location(), run_location); std::vector sources; const UserScript::FileList& js_scripts = script_->js_scripts(); bool is_standalone_or_emulate_greasemonkey = script_->is_standalone() || script_->emulate_greasemonkey(); for (UserScript::FileList::const_iterator iter = js_scripts.begin(); iter != js_scripts.end(); ++iter) { std::string content = iter->GetContent().as_string(); // We add this dumb function wrapper for standalone user script to // emulate what Greasemonkey does. // TODO(aa): I think that maybe "is_standalone" scripts don't exist // anymore. Investigate. if (is_standalone_or_emulate_greasemonkey) { content.insert(0, kUserScriptHead); content += kUserScriptTail; } sources.push_back(blink::WebScriptSource( blink::WebString::fromUTF8(content), iter->url())); } // Emulate Greasemonkey API for scripts that were converted to extensions // and "standalone" user scripts. if (is_standalone_or_emulate_greasemonkey) sources.insert(sources.begin(), g_greasemonkey_api.Get().GetSource()); return sources; } std::vector UserScriptInjector::GetCssSources( UserScript::RunLocation run_location) const { DCHECK_EQ(UserScript::DOCUMENT_START, run_location); std::vector sources; const UserScript::FileList& css_scripts = script_->css_scripts(); for (UserScript::FileList::const_iterator iter = css_scripts.begin(); iter != css_scripts.end(); ++iter) { sources.push_back(iter->GetContent().as_string()); } return sources; } void UserScriptInjector::GetRunInfo( ScriptsRunInfo* scripts_run_info, UserScript::RunLocation run_location) const { if (ShouldInjectJs(run_location)) { const UserScript::FileList& js_scripts = script_->js_scripts(); scripts_run_info->num_js += js_scripts.size(); for (UserScript::FileList::const_iterator iter = js_scripts.begin(); iter != js_scripts.end(); ++iter) { scripts_run_info->executing_scripts[host_id_.id()].insert( iter->url().path()); } } if (ShouldInjectCss(run_location)) scripts_run_info->num_css += script_->css_scripts().size(); } void UserScriptInjector::OnInjectionComplete( scoped_ptr execution_result, UserScript::RunLocation run_location, content::RenderFrame* render_frame) { } void UserScriptInjector::OnWillNotInject(InjectFailureReason reason, content::RenderFrame* render_frame) { } } // namespace extensions