// Copyright (c) 2011 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 "chrome_frame/chrome_frame_automation.h" #include "base/callback.h" #include "base/command_line.h" #include "base/compiler_specific.h" #include "base/debug/trace_event.h" #include "base/file_util.h" #include "base/file_version_info.h" #include "base/lazy_instance.h" #include "base/logging.h" #include "base/path_service.h" #include "base/process_util.h" #include "base/string_util.h" #include "base/synchronization/lock.h" #include "base/synchronization/waitable_event.h" #include "base/sys_info.h" #include "base/utf_string_conversions.h" #include "chrome/app/client_util.h" #include "chrome/common/automation_messages.h" #include "chrome/common/chrome_constants.h" #include "chrome/common/chrome_switches.h" #include "chrome/test/automation/tab_proxy.h" #include "chrome_frame/chrome_launcher_utils.h" #include "chrome_frame/crash_reporting/crash_metrics.h" #include "chrome_frame/custom_sync_call_context.h" #include "chrome_frame/navigation_constraints.h" #include "chrome_frame/simple_resource_loader.h" #include "chrome_frame/utils.h" #include "ui/base/ui_base_switches.h" #ifdef NDEBUG int64 kAutomationServerReasonableLaunchDelay = 1000; // in milliseconds #else int64 kAutomationServerReasonableLaunchDelay = 1000 * 10; #endif class ChromeFrameAutomationProxyImpl::TabProxyNotificationMessageFilter : public IPC::ChannelProxy::MessageFilter { public: explicit TabProxyNotificationMessageFilter(AutomationHandleTracker* tracker) : tracker_(tracker) { } void AddTabProxy(AutomationHandle tab_proxy) { base::AutoLock lock(lock_); tabs_list_.push_back(tab_proxy); } void RemoveTabProxy(AutomationHandle tab_proxy) { base::AutoLock lock(lock_); tabs_list_.remove(tab_proxy); } virtual bool OnMessageReceived(const IPC::Message& message) { if (message.is_reply()) return false; if (!ChromeFrameDelegateImpl::IsTabMessage(message)) return false; // Get AddRef-ed pointer to corresponding TabProxy object TabProxy* tab = static_cast(tracker_->GetResource( message.routing_id())); bool handled = false; if (tab) { handled = tab->OnMessageReceived(message); tab->Release(); } else { DLOG(ERROR) << "Failed to find TabProxy for tab:" << message.routing_id(); // To prevent subsequent crashes, we set handled to true in this case. handled = true; } return handled; } virtual void OnChannelError() { std::list::const_iterator iter = tabs_list_.begin(); for (; iter != tabs_list_.end(); ++iter) { // Get AddRef-ed pointer to corresponding TabProxy object TabProxy* tab = static_cast(tracker_->GetResource(*iter)); if (tab) { tab->OnChannelError(); tab->Release(); } } } private: AutomationHandleTracker* tracker_; std::list tabs_list_; base::Lock lock_; }; class ChromeFrameAutomationProxyImpl::CFMsgDispatcher : public SyncMessageReplyDispatcher { public: CFMsgDispatcher() : SyncMessageReplyDispatcher() {} protected: virtual bool HandleMessageType(const IPC::Message& msg, SyncMessageCallContext* context) { switch (context->message_type()) { case AutomationMsg_CreateExternalTab::ID: case AutomationMsg_ConnectExternalTab::ID: InvokeCallback(msg, context); break; case AutomationMsg_NavigateExternalTabAtIndex::ID: case AutomationMsg_NavigateInExternalTab::ID: InvokeCallback(msg, context); break; case AutomationMsg_RunUnloadHandlers::ID: InvokeCallback(msg, context); break; default: NOTREACHED(); } return true; } }; ChromeFrameAutomationProxyImpl::ChromeFrameAutomationProxyImpl( AutomationProxyCacheEntry* entry, std::string channel_id, int launch_timeout) : AutomationProxy(launch_timeout, false), proxy_entry_(entry) { TRACE_EVENT_BEGIN_ETW("chromeframe.automationproxy", this, ""); InitializeChannel(channel_id, false); sync_ = new CFMsgDispatcher(); message_filter_ = new TabProxyNotificationMessageFilter(tracker_.get()); // Order of filters is not important. channel_->AddFilter(message_filter_.get()); channel_->AddFilter(sync_.get()); } ChromeFrameAutomationProxyImpl::~ChromeFrameAutomationProxyImpl() { TRACE_EVENT_END_ETW("chromeframe.automationproxy", this, ""); } void ChromeFrameAutomationProxyImpl::SendAsAsync( IPC::SyncMessage* msg, SyncMessageReplyDispatcher::SyncMessageCallContext* context, void* key) { sync_->Push(msg, context, key); channel_->ChannelProxy::Send(msg); } void ChromeFrameAutomationProxyImpl::CancelAsync(void* key) { sync_->Cancel(key); } void ChromeFrameAutomationProxyImpl::OnChannelError() { DLOG(ERROR) << "Automation server died"; if (proxy_entry_) { proxy_entry_->OnChannelError(); } else { NOTREACHED(); } } scoped_refptr ChromeFrameAutomationProxyImpl::CreateTabProxy( int handle) { DCHECK(tracker_->GetResource(handle) == NULL); TabProxy* tab_proxy = new TabProxy(this, tracker_.get(), handle); if (tab_proxy != NULL) message_filter_->AddTabProxy(handle); return tab_proxy; } void ChromeFrameAutomationProxyImpl::ReleaseTabProxy(AutomationHandle handle) { message_filter_->RemoveTabProxy(handle); } struct LaunchTimeStats { #ifndef NDEBUG LaunchTimeStats() { launch_time_begin_ = base::Time::Now(); } void Dump() { base::TimeDelta launch_time = base::Time::Now() - launch_time_begin_; UMA_HISTOGRAM_TIMES("ChromeFrame.AutomationServerLaunchTime", launch_time); const int64 launch_milliseconds = launch_time.InMilliseconds(); if (launch_milliseconds > kAutomationServerReasonableLaunchDelay) { LOG(WARNING) << "Automation server launch took longer than expected: " << launch_milliseconds << " ms."; } } base::Time launch_time_begin_; #else void Dump() {} #endif }; DISABLE_RUNNABLE_METHOD_REFCOUNT(AutomationProxyCacheEntry); AutomationProxyCacheEntry::AutomationProxyCacheEntry( ChromeFrameLaunchParams* params, LaunchDelegate* delegate) : profile_name(params->profile_name()), launch_result_(AUTOMATION_LAUNCH_RESULT_INVALID) { DCHECK(delegate); thread_.reset(new base::Thread(WideToASCII(profile_name).c_str())); thread_->Start(); // Use scoped_refptr so that the params will get released when the task // has been run. scoped_refptr ref_params(params); thread_->message_loop()->PostTask(FROM_HERE, NewRunnableMethod(this, &AutomationProxyCacheEntry::CreateProxy, ref_params, delegate)); } AutomationProxyCacheEntry::~AutomationProxyCacheEntry() { DVLOG(1) << __FUNCTION__ << profile_name; // Attempt to fix chrome_frame_tests crash seen at times on the IE6/IE7 // builders. It appears that there are cases when we can enter here when the // AtExitManager is tearing down the global ProxyCache which causes a crash // while tearing down the AutomationProxy object due to a NULL MessageLoop // The AutomationProxy class uses the SyncChannel which assumes the existence // of a MessageLoop instance. // We leak the AutomationProxy pointer here to avoid a crash. if (MessageLoop::current() == NULL) { proxy_.release(); } } void AutomationProxyCacheEntry::CreateProxy(ChromeFrameLaunchParams* params, LaunchDelegate* delegate) { DCHECK(IsSameThread(base::PlatformThread::CurrentId())); DCHECK(delegate); DCHECK(params); DCHECK(proxy_.get() == NULL); // We *must* create automationproxy in a thread that has message loop, // since SyncChannel::Context construction registers event to be watched // through ObjectWatcher which subscribes for the current thread message loop // destruction notification. // At same time we must destroy/stop the thread from another thread. std::string channel_id = AutomationProxy::GenerateChannelID(); ChromeFrameAutomationProxyImpl* proxy = new ChromeFrameAutomationProxyImpl(this, channel_id, params->launch_timeout()); // Ensure that the automation proxy actually respects our choice on whether // or not to check the version. proxy->set_perform_version_check(params->version_check()); // Launch browser scoped_ptr command_line( chrome_launcher::CreateLaunchCommandLine()); command_line->AppendSwitchASCII(switches::kAutomationClientChannelID, channel_id); // Run Chrome in Chrome Frame mode. In practice, this modifies the paths // and registry keys that Chrome looks in via the BrowserDistribution // mechanism. command_line->AppendSwitch(switches::kChromeFrame); // Chrome Frame never wants Chrome to start up with a First Run UI. command_line->AppendSwitch(switches::kNoFirstRun); command_line->AppendSwitch(switches::kDisablePopupBlocking); // Disable the "Whoa! Chrome has crashed." dialog, because that isn't very // useful for Chrome Frame users. #ifndef NDEBUG command_line->AppendSwitch(switches::kNoErrorDialogs); #endif // In headless mode runs like reliability test runs we want full crash dumps // from chrome. if (IsHeadlessMode()) command_line->AppendSwitch(switches::kFullMemoryCrashReport); // In accessible mode automation tests expect renderer accessibility to be // enabled in chrome. if (IsAccessibleMode()) command_line->AppendSwitch(switches::kForceRendererAccessibility); DVLOG(1) << "Profile path: " << params->profile_path().value(); command_line->AppendSwitchPath(switches::kUserDataDir, params->profile_path()); // Ensure that Chrome is running the specified version of chrome.dll. command_line->AppendSwitchNative(switches::kChromeVersion, GetCurrentModuleVersion()); if (!params->language().empty()) command_line->AppendSwitchNative(switches::kLang, params->language()); std::wstring command_line_string(command_line->GetCommandLineString()); // If there are any extra arguments, append them to the command line. if (!params->extra_arguments().empty()) { command_line_string += L' ' + params->extra_arguments(); } automation_server_launch_start_time_ = base::TimeTicks::Now(); if (!base::LaunchProcess(command_line_string, base::LaunchOptions(), NULL)) { // We have no code for launch failure. launch_result_ = AUTOMATION_LAUNCH_RESULT_INVALID; } else { // Launch timeout may happen if the new instance tries to communicate // with an existing Chrome instance that is hung and displays msgbox // asking to kill the previous one. This could be easily observed if the // already running Chrome instance is running as high-integrity process // (started with "Run as Administrator" or launched by another high // integrity process) hence our medium-integrity process // cannot SendMessage to it with request to activate itself. // TODO(stoyan) AutomationProxy eats Hello message, hence installing // message filter is pointless, we can leverage ObjectWatcher and use // system thread pool to notify us when proxy->AppLaunch event is signaled. LaunchTimeStats launch_stats; // Wait for the automation server launch result, then stash away the // version string it reported. launch_result_ = proxy->WaitForAppLaunch(); launch_stats.Dump(); base::TimeDelta delta = base::TimeTicks::Now() - automation_server_launch_start_time_; if (launch_result_ == AUTOMATION_SUCCESS) { UMA_HISTOGRAM_TIMES( "ChromeFrame.AutomationServerLaunchSuccessTime", delta); } else { UMA_HISTOGRAM_TIMES( "ChromeFrame.AutomationServerLaunchFailedTime", delta); } UMA_HISTOGRAM_CUSTOM_COUNTS("ChromeFrame.LaunchResult", launch_result_, AUTOMATION_SUCCESS, AUTOMATION_CREATE_TAB_FAILED, AUTOMATION_CREATE_TAB_FAILED + 1); } TRACE_EVENT_END_ETW("chromeframe.createproxy", this, ""); // Finally set the proxy. proxy_.reset(proxy); launch_delegates_.push_back(delegate); delegate->LaunchComplete(proxy_.get(), launch_result_); } void AutomationProxyCacheEntry::RemoveDelegate(LaunchDelegate* delegate, base::WaitableEvent* done, bool* was_last_delegate) { DCHECK(IsSameThread(base::PlatformThread::CurrentId())); DCHECK(delegate); DCHECK(done); DCHECK(was_last_delegate); *was_last_delegate = false; LaunchDelegates::iterator it = std::find(launch_delegates_.begin(), launch_delegates_.end(), delegate); if (it == launch_delegates_.end()) { NOTREACHED(); } else { if (launch_delegates_.size() == 1) { *was_last_delegate = true; // Process pending notifications. thread_->message_loop()->RunAllPending(); // Take down the proxy since we no longer have any clients. // Make sure we only do this once all pending messages have been cleared. proxy_.reset(NULL); } // Be careful to remove from the list after running pending // tasks. Otherwise the delegate being removed might miss out // on pending notifications such as LaunchComplete. launch_delegates_.erase(it); } done->Signal(); } void AutomationProxyCacheEntry::AddDelegate(LaunchDelegate* delegate) { DCHECK(IsSameThread(base::PlatformThread::CurrentId())); DCHECK(std::find(launch_delegates_.begin(), launch_delegates_.end(), delegate) == launch_delegates_.end()) << "Same delegate being added twice"; DCHECK(launch_result_ != AUTOMATION_LAUNCH_RESULT_INVALID); launch_delegates_.push_back(delegate); delegate->LaunchComplete(proxy_.get(), launch_result_); } void AutomationProxyCacheEntry::OnChannelError() { DCHECK(IsSameThread(base::PlatformThread::CurrentId())); launch_result_ = AUTOMATION_SERVER_CRASHED; LaunchDelegates::const_iterator it = launch_delegates_.begin(); for (; it != launch_delegates_.end(); ++it) { (*it)->AutomationServerDied(); } } DISABLE_RUNNABLE_METHOD_REFCOUNT(ProxyFactory); ProxyFactory::ProxyFactory() { } ProxyFactory::~ProxyFactory() { for (size_t i = 0; i < proxies_.container().size(); ++i) { DWORD result = proxies_[i]->WaitForThread(0); if (WAIT_OBJECT_0 != result) // TODO(stoyan): Don't leak proxies on exit. DLOG(ERROR) << "Proxies leaked on exit."; } } void ProxyFactory::GetAutomationServer( LaunchDelegate* delegate, ChromeFrameLaunchParams* params, void** automation_server_id) { TRACE_EVENT_BEGIN_ETW("chromeframe.createproxy", this, ""); scoped_refptr entry; // Find already existing launcher thread for given profile base::AutoLock lock(lock_); for (size_t i = 0; i < proxies_.container().size(); ++i) { if (proxies_[i]->IsSameProfile(params->profile_name())) { entry = proxies_[i]; break; } } if (entry == NULL) { DVLOG(1) << __FUNCTION__ << " creating new proxy entry"; entry = new AutomationProxyCacheEntry(params, delegate); proxies_.container().push_back(entry); } else if (delegate) { // Notify the new delegate of the launch status from the worker thread // and add it to the list of delegates. entry->message_loop()->PostTask(FROM_HERE, NewRunnableMethod(entry.get(), &AutomationProxyCacheEntry::AddDelegate, delegate)); } DCHECK(automation_server_id != NULL); DCHECK(!entry->IsSameThread(base::PlatformThread::CurrentId())); *automation_server_id = entry; } bool ProxyFactory::ReleaseAutomationServer(void* server_id, LaunchDelegate* delegate) { if (!server_id) { NOTREACHED(); return false; } AutomationProxyCacheEntry* entry = reinterpret_cast(server_id); #ifndef NDEBUG lock_.Acquire(); Vector::ContainerType::iterator it = std::find(proxies_.container().begin(), proxies_.container().end(), entry); DCHECK(it != proxies_.container().end()); DCHECK(!entry->IsSameThread(base::PlatformThread::CurrentId())); lock_.Release(); #endif // AddRef the entry object as we might need to take it out of the proxy // stack and then uninitialize the entry. entry->AddRef(); bool last_delegate = false; if (delegate) { base::WaitableEvent done(true, false); entry->message_loop()->PostTask(FROM_HERE, NewRunnableMethod(entry, &AutomationProxyCacheEntry::RemoveDelegate, delegate, &done, &last_delegate)); done.Wait(); } if (last_delegate) { lock_.Acquire(); Vector::ContainerType::iterator it = std::find(proxies_.container().begin(), proxies_.container().end(), entry); proxies_.container().erase(it); lock_.Release(); } entry->Release(); return true; } static base::LazyInstance > g_proxy_factory(base::LINKER_INITIALIZED); template <> struct RunnableMethodTraits { static void RetainCallee(ChromeFrameAutomationClient* obj) {} static void ReleaseCallee(ChromeFrameAutomationClient* obj) {} }; ChromeFrameAutomationClient::ChromeFrameAutomationClient() : chrome_frame_delegate_(NULL), chrome_window_(NULL), tab_window_(NULL), parent_window_(NULL), automation_server_(NULL), automation_server_id_(NULL), ui_thread_id_(NULL), init_state_(UNINITIALIZED), use_chrome_network_(false), proxy_factory_(g_proxy_factory.Pointer()), handle_top_level_requests_(false), tab_handle_(-1), session_id_(-1), external_tab_cookie_(0), url_fetcher_(NULL), url_fetcher_flags_(PluginUrlRequestManager::NOT_THREADSAFE), navigate_after_initialization_(false), route_all_top_level_navigations_(false) { } ChromeFrameAutomationClient::~ChromeFrameAutomationClient() { // Uninitialize must be called prior to the destructor DCHECK(automation_server_ == NULL); } bool ChromeFrameAutomationClient::Initialize( ChromeFrameDelegate* chrome_frame_delegate, ChromeFrameLaunchParams* chrome_launch_params) { DCHECK(!IsWindow()); chrome_frame_delegate_ = chrome_frame_delegate; #ifndef NDEBUG if (chrome_launch_params_ && chrome_launch_params_ != chrome_launch_params) { DCHECK_EQ(chrome_launch_params_->url(), chrome_launch_params->url()); DCHECK_EQ(chrome_launch_params_->referrer(), chrome_launch_params->referrer()); } #endif chrome_launch_params_ = chrome_launch_params; ui_thread_id_ = base::PlatformThread::CurrentId(); #ifndef NDEBUG // In debug mode give more time to work with a debugger. if (IsDebuggerPresent()) { // Don't use INFINITE (which is -1) or even MAXINT since we will convert // from milliseconds to microseconds when stored in a base::TimeDelta, // thus * 1000. An hour should be enough. chrome_launch_params_->set_launch_timeout(60 * 60 * 1000); } else { DCHECK_LT(chrome_launch_params_->launch_timeout(), MAXINT / 2000); chrome_launch_params_->set_launch_timeout( chrome_launch_params_->launch_timeout() * 2); } #endif // NDEBUG // Create a window on the UI thread for marshaling messages back and forth // from the IPC thread. This window cannot be a message only window as the // external chrome tab window is created as a child of this window. This // window is eventually reparented to the ActiveX plugin window. if (!Create(GetDesktopWindow(), NULL, NULL, WS_CHILDWINDOW | WS_CLIPCHILDREN | WS_CLIPSIBLINGS, WS_EX_TOOLWINDOW)) { NOTREACHED(); return false; } // Keep object in memory, while the window is alive. // Corresponding Release is in OnFinalMessage(); AddRef(); // Mark our state as initializing. We'll reach initialized once // InitializeComplete is called successfully. init_state_ = INITIALIZING; HRESULT hr = S_OK; if (chrome_launch_params_->url().is_valid()) navigate_after_initialization_ = false; proxy_factory_->GetAutomationServer(static_cast(this), chrome_launch_params_, &automation_server_id_); return true; } void ChromeFrameAutomationClient::Uninitialize() { if (init_state_ == UNINITIALIZED) { DLOG(WARNING) << __FUNCTION__ << ": Automation client not initialized"; return; } init_state_ = UNINITIALIZING; // Called from client's FinalRelease() / destructor if (url_fetcher_) { // Clean up any outstanding requests url_fetcher_->StopAllRequests(); url_fetcher_ = NULL; } if (tab_) { tab_->RemoveObserver(this); if (automation_server_) automation_server_->ReleaseTabProxy(tab_->handle()); tab_ = NULL; // scoped_refptr::Release } // Wait for the background thread to exit. ReleaseAutomationServer(); // We must destroy the window, since if there are pending tasks // window procedure may be invoked after DLL is unloaded. // Unfortunately pending tasks are leaked. if (::IsWindow(m_hWnd)) DestroyWindow(); // DCHECK(navigate_after_initialization_ == false); handle_top_level_requests_ = false; ui_thread_id_ = 0; chrome_frame_delegate_ = NULL; init_state_ = UNINITIALIZED; } bool ChromeFrameAutomationClient::InitiateNavigation( const std::string& url, const std::string& referrer, NavigationConstraints* navigation_constraints) { if (url.empty()) return false; GURL parsed_url(url); // Catch invalid URLs early. // Can we allow this navigation to happen? if (!CanNavigate(parsed_url, navigation_constraints)) { DLOG(ERROR) << __FUNCTION__ << " Not allowing navigation to: " << url; return false; } // If we are not yet initialized ignore attempts to navigate to the same url. // Navigation attempts to the same URL could occur if the automation client // was reused for a new active document instance. if (!chrome_launch_params_ || is_initialized() || parsed_url != chrome_launch_params_->url()) { // Important: Since we will be using the referrer_ variable from a // different thread, we need to force a new std::string buffer instance for // the referrer_ GURL variable. Otherwise we can run into strangeness when // the GURL is accessed and it could result in a bad URL that can cause the // referrer to be dropped or something worse. GURL referrer_gurl(referrer.c_str()); if (!chrome_launch_params_) { FilePath profile_path; chrome_launch_params_ = new ChromeFrameLaunchParams(parsed_url, referrer_gurl, profile_path, L"", SimpleResourceLoader::GetLanguage(), L"", false, false, route_all_top_level_navigations_); } else { chrome_launch_params_->set_referrer(referrer_gurl); chrome_launch_params_->set_url(parsed_url); } navigate_after_initialization_ = false; if (is_initialized()) { BeginNavigate(); } else { navigate_after_initialization_ = true; } } return true; } bool ChromeFrameAutomationClient::NavigateToIndex(int index) { // Could be NULL if we failed to launch Chrome in LaunchAutomationServer() if (!automation_server_ || !tab_.get() || !tab_->is_valid()) { return false; } DCHECK(::IsWindow(chrome_window_)); IPC::SyncMessage* msg = new AutomationMsg_NavigateExternalTabAtIndex( tab_->handle(), index, NULL); automation_server_->SendAsAsync(msg, new BeginNavigateContext(this), this); return true; } bool ChromeFrameAutomationClient::ForwardMessageFromExternalHost( const std::string& message, const std::string& origin, const std::string& target) { // Could be NULL if we failed to launch Chrome in LaunchAutomationServer() if (!is_initialized()) return false; tab_->HandleMessageFromExternalHost(message, origin, target); return true; } bool ChromeFrameAutomationClient::SetProxySettings( const std::string& json_encoded_proxy_settings) { if (!is_initialized()) return false; automation_server_->SendProxyConfig(json_encoded_proxy_settings); return true; } void ChromeFrameAutomationClient::BeginNavigate() { // Could be NULL if we failed to launch Chrome in LaunchAutomationServer() if (!automation_server_ || !tab_.get()) { DLOG(WARNING) << "BeginNavigate - can't navigate."; ReportNavigationError(AUTOMATION_MSG_NAVIGATION_ERROR, chrome_launch_params_->url().spec()); return; } DCHECK(::IsWindow(chrome_window_)); if (!tab_->is_valid()) { DLOG(WARNING) << "BeginNavigate - tab isn't valid."; return; } IPC::SyncMessage* msg = new AutomationMsg_NavigateInExternalTab(tab_->handle(), chrome_launch_params_->url(), chrome_launch_params_->referrer(), NULL); automation_server_->SendAsAsync(msg, new BeginNavigateContext(this), this); RECT client_rect = {0}; chrome_frame_delegate_->GetBounds(&client_rect); Resize(client_rect.right - client_rect.left, client_rect.bottom - client_rect.top, SWP_NOACTIVATE | SWP_NOZORDER); } void ChromeFrameAutomationClient::BeginNavigateCompleted( AutomationMsg_NavigationResponseValues result) { if (result == AUTOMATION_MSG_NAVIGATION_ERROR) ReportNavigationError(AUTOMATION_MSG_NAVIGATION_ERROR, chrome_launch_params_->url().spec()); } void ChromeFrameAutomationClient::FindInPage(const std::wstring& search_string, FindInPageDirection forward, FindInPageCase match_case, bool find_next) { DCHECK(tab_.get()); // What follows is quite similar to TabProxy::FindInPage() but uses // the SyncMessageReplyDispatcher to avoid concerns about blocking // synchronous messages. AutomationMsg_Find_Params params; params.unused = 0; params.search_string = WideToUTF16Hack(search_string); params.find_next = find_next; params.match_case = (match_case == CASE_SENSITIVE); params.forward = (forward == FWD); IPC::SyncMessage* msg = new AutomationMsg_Find(tab_->handle(), params, NULL, NULL); automation_server_->SendAsAsync(msg, NULL, this); } void ChromeFrameAutomationClient::OnChromeFrameHostMoved() { // Use a local var to avoid the small possibility of getting the tab_ // member be cleared while we try to use it. // Note that TabProxy is a RefCountedThreadSafe object, so we should be OK. scoped_refptr tab(tab_); // There also is a possibility that tab_ has not been set yet, // so we still need to test for NULL. if (tab) tab->OnHostMoved(); } void ChromeFrameAutomationClient::CreateExternalTab() { AutomationLaunchResult launch_result = AUTOMATION_SUCCESS; DCHECK(IsWindow()); DCHECK(automation_server_ != NULL); if (chrome_launch_params_->url().is_valid()) { navigate_after_initialization_ = false; } const ExternalTabSettings settings( m_hWnd, gfx::Rect(), WS_CHILD, chrome_launch_params_->incognito(), !use_chrome_network_, handle_top_level_requests_, chrome_launch_params_->url(), chrome_launch_params_->referrer(), // Infobars disabled in widget mode. !chrome_launch_params_->widget_mode(), chrome_launch_params_->route_all_top_level_navigations()); UMA_HISTOGRAM_CUSTOM_COUNTS( "ChromeFrame.HostNetworking", !use_chrome_network_, 0, 1, 2); UMA_HISTOGRAM_CUSTOM_COUNTS("ChromeFrame.HandleTopLevelRequests", handle_top_level_requests_, 0, 1, 2); IPC::SyncMessage* message = new AutomationMsg_CreateExternalTab(settings, NULL, NULL, 0, 0); automation_server_->SendAsAsync(message, new CreateExternalTabContext(this), this); } AutomationLaunchResult ChromeFrameAutomationClient::CreateExternalTabComplete( HWND chrome_window, HWND tab_window, int tab_handle, int session_id) { if (!automation_server_) { // If we receive this notification while shutting down, do nothing. DLOG(ERROR) << "CreateExternalTabComplete called when automation server " << "was null!"; return AUTOMATION_CREATE_TAB_FAILED; } AutomationLaunchResult launch_result = AUTOMATION_SUCCESS; if (tab_handle == 0 || !::IsWindow(chrome_window)) { launch_result = AUTOMATION_CREATE_TAB_FAILED; } else { chrome_window_ = chrome_window; tab_window_ = tab_window; tab_ = automation_server_->CreateTabProxy(tab_handle); tab_->AddObserver(this); tab_handle_ = tab_handle; session_id_ = session_id; } return launch_result; } // Invoked in launch background thread. void ChromeFrameAutomationClient::LaunchComplete( ChromeFrameAutomationProxy* proxy, AutomationLaunchResult result) { // If we're shutting down we don't keep a pointer to the automation server. if (init_state_ != UNINITIALIZING) { DCHECK(init_state_ == INITIALIZING); automation_server_ = proxy; } else { DVLOG(1) << "Not storing automation server pointer due to shutting down"; } if (result == AUTOMATION_SUCCESS) { // NOTE: A potential problem here is that Uninitialize() may just have // been called so we need to be careful and check the automation_server_ // pointer. if (automation_server_ != NULL) { // If we have a valid tab_handle here it means that we are attaching to // an existing ExternalTabContainer instance, in which case we don't // want to create an external tab instance in Chrome. if (external_tab_cookie_ == 0) { // Continue with Initialization - Create external tab CreateExternalTab(); } else { // Send a notification to Chrome that we are ready to connect to the // ExternalTab. IPC::SyncMessage* message = new AutomationMsg_ConnectExternalTab(external_tab_cookie_, true, m_hWnd, NULL, NULL, NULL, 0); automation_server_->SendAsAsync(message, new CreateExternalTabContext(this), this); DVLOG(1) << __FUNCTION__ << ": sending CreateExternalTabComplete"; } } } else { // Launch failed. Note, we cannot delete proxy here. PostTask(FROM_HERE, NewRunnableMethod(this, &ChromeFrameAutomationClient::InitializeComplete, result)); } } void ChromeFrameAutomationClient::AutomationServerDied() { // Make sure we notify our delegate. PostTask(FROM_HERE, NewRunnableMethod(this, &ChromeFrameAutomationClient::InitializeComplete, AUTOMATION_SERVER_CRASHED)); // Then uninitialize. PostTask(FROM_HERE, NewRunnableMethod(this, &ChromeFrameAutomationClient::Uninitialize)); } void ChromeFrameAutomationClient::InitializeComplete( AutomationLaunchResult result) { DCHECK_EQ(base::PlatformThread::CurrentId(), ui_thread_id_); if (result != AUTOMATION_SUCCESS) { DLOG(WARNING) << "InitializeComplete: failure " << result; ReleaseAutomationServer(); } else { init_state_ = INITIALIZED; // If the host already have a window, ask Chrome to re-parent. if (parent_window_) SetParentWindow(parent_window_); // If host specified destination URL - navigate. Apparently we do not use // accelerator table. if (navigate_after_initialization_) { navigate_after_initialization_ = false; BeginNavigate(); } } if (chrome_frame_delegate_) { if (result == AUTOMATION_SUCCESS) { chrome_frame_delegate_->OnAutomationServerReady(); } else { std::string version; if (automation_server_) version = automation_server_->server_version(); chrome_frame_delegate_->OnAutomationServerLaunchFailed(result, version); } } } bool ChromeFrameAutomationClient::ProcessUrlRequestMessage(TabProxy* tab, const IPC::Message& msg, bool ui_thread) { // Either directly call appropriate url_fetcher function // or postpone call to the UI thread. uint16 msg_type = msg.type(); switch (msg_type) { default: return false; case AutomationMsg_RequestStart::ID: if (ui_thread || (url_fetcher_flags_ & PluginUrlRequestManager::START_REQUEST_THREADSAFE)) { AutomationMsg_RequestStart::Dispatch(&msg, url_fetcher_, this, &PluginUrlRequestManager::StartUrlRequest); return true; } break; case AutomationMsg_RequestRead::ID: if (ui_thread || (url_fetcher_flags_ & PluginUrlRequestManager::READ_REQUEST_THREADSAFE)) { AutomationMsg_RequestRead::Dispatch(&msg, url_fetcher_, this, &PluginUrlRequestManager::ReadUrlRequest); return true; } break; case AutomationMsg_RequestEnd::ID: if (ui_thread || (url_fetcher_flags_ & PluginUrlRequestManager::STOP_REQUEST_THREADSAFE)) { AutomationMsg_RequestEnd::Dispatch(&msg, url_fetcher_, this, &PluginUrlRequestManager::EndUrlRequest); return true; } break; case AutomationMsg_DownloadRequestInHost::ID: if (ui_thread || (url_fetcher_flags_ & PluginUrlRequestManager::DOWNLOAD_REQUEST_THREADSAFE)) { AutomationMsg_DownloadRequestInHost::Dispatch(&msg, url_fetcher_, this, &PluginUrlRequestManager::DownloadUrlRequestInHost); return true; } break; case AutomationMsg_GetCookiesFromHost::ID: if (ui_thread || (url_fetcher_flags_ & PluginUrlRequestManager::COOKIE_REQUEST_THREADSAFE)) { AutomationMsg_GetCookiesFromHost::Dispatch(&msg, url_fetcher_, this, &PluginUrlRequestManager::GetCookiesFromHost); return true; } break; case AutomationMsg_SetCookieAsync::ID: if (ui_thread || (url_fetcher_flags_ & PluginUrlRequestManager::COOKIE_REQUEST_THREADSAFE)) { AutomationMsg_SetCookieAsync::Dispatch(&msg, url_fetcher_, this, &PluginUrlRequestManager::SetCookiesInHost); return true; } break; } PostTask(FROM_HERE, NewRunnableMethod(this, &ChromeFrameAutomationClient::ProcessUrlRequestMessage, tab, msg, true)); return true; } // These are invoked in channel's background thread. // Cannot call any method of the activex here since it is a STA kind of being. // By default we marshal the IPC message to the main/GUI thread and from there // we safely invoke chrome_frame_delegate_->OnMessageReceived(msg). bool ChromeFrameAutomationClient::OnMessageReceived(TabProxy* tab, const IPC::Message& msg) { DCHECK(tab == tab_.get()); // Quickly process network related messages. if (url_fetcher_ && ProcessUrlRequestMessage(tab, msg, false)) return true; // Early check to avoid needless marshaling if (chrome_frame_delegate_ == NULL) return false; PostTask(FROM_HERE, NewRunnableMethod(this, &ChromeFrameAutomationClient::OnMessageReceivedUIThread, msg)); return true; } void ChromeFrameAutomationClient::OnChannelError(TabProxy* tab) { DCHECK(tab == tab_.get()); // Early check to avoid needless marshaling if (chrome_frame_delegate_ == NULL) return; PostTask(FROM_HERE, NewRunnableMethod(this, &ChromeFrameAutomationClient::OnChannelErrorUIThread)); } void ChromeFrameAutomationClient::OnMessageReceivedUIThread( const IPC::Message& msg) { DCHECK_EQ(base::PlatformThread::CurrentId(), ui_thread_id_); // Forward to the delegate. if (chrome_frame_delegate_) chrome_frame_delegate_->OnMessageReceived(msg); } void ChromeFrameAutomationClient::OnChannelErrorUIThread() { DCHECK_EQ(base::PlatformThread::CurrentId(), ui_thread_id_); // Report a metric that something went wrong unexpectedly. CrashMetricsReporter::GetInstance()->IncrementMetric( CrashMetricsReporter::CHANNEL_ERROR_COUNT); // Forward to the delegate. if (chrome_frame_delegate_) chrome_frame_delegate_->OnChannelError(); } void ChromeFrameAutomationClient::ReportNavigationError( AutomationMsg_NavigationResponseValues error_code, const std::string& url) { if (!chrome_frame_delegate_) return; if (ui_thread_id_ == base::PlatformThread::CurrentId()) { chrome_frame_delegate_->OnLoadFailed(error_code, url); } else { PostTask(FROM_HERE, NewRunnableMethod(this, &ChromeFrameAutomationClient::ReportNavigationError, error_code, url)); } } void ChromeFrameAutomationClient::Resize(int width, int height, int flags) { if (tab_.get() && ::IsWindow(chrome_window())) { SetWindowPos(HWND_TOP, 0, 0, width, height, flags); tab_->Reposition(chrome_window(), HWND_TOP, 0, 0, width, height, flags, m_hWnd); } } void ChromeFrameAutomationClient::SetParentWindow(HWND parent_window) { parent_window_ = parent_window; // If we're done with the initialization step, go ahead if (is_initialized()) { if (parent_window == NULL) { // Hide and reparent the automation window. This window will get // reparented to the new ActiveX/Active document window when it gets // created. ShowWindow(SW_HIDE); SetParent(GetDesktopWindow()); } else { if (!::IsWindow(chrome_window())) { DLOG(WARNING) << "Invalid Chrome Window handle in SetParentWindow"; return; } if (!SetParent(parent_window)) { DLOG(WARNING) << "Failed to set parent window for automation window. " << "Error = " << GetLastError(); return; } RECT parent_client_rect = {0}; ::GetClientRect(parent_window, &parent_client_rect); int width = parent_client_rect.right - parent_client_rect.left; int height = parent_client_rect.bottom - parent_client_rect.top; Resize(width, height, SWP_SHOWWINDOW | SWP_NOZORDER); } } } void ChromeFrameAutomationClient::ReleaseAutomationServer() { if (automation_server_id_) { // Cache the server id and clear the automation_server_id_ before // calling ReleaseAutomationServer. The reason we do this is that // we must cancel pending messages before we release the automation server. // Furthermore, while ReleaseAutomationServer is running, we could get // a callback to LaunchComplete which could cause an external tab to be // created. Ideally the callbacks should be dropped. // TODO(ananta) // Refactor the ChromeFrameAutomationProxy code to not depend on // AutomationProxy and simplify the whole mess. void* server_id = automation_server_id_; automation_server_id_ = NULL; if (automation_server_) { // Make sure to clean up any pending sync messages before we go away. automation_server_->CancelAsync(this); } proxy_factory_->ReleaseAutomationServer(server_id, this); automation_server_ = NULL; // automation_server_ must not have been set to non NULL. // (if this regresses, start by looking at LaunchComplete()). DCHECK(automation_server_ == NULL); } else { DCHECK(automation_server_ == NULL); } } void ChromeFrameAutomationClient::SendContextMenuCommandToChromeFrame( int selected_command) { if (tab_) tab_->SendContextMenuCommand(selected_command); } std::wstring ChromeFrameAutomationClient::GetVersion() const { return GetCurrentModuleVersion(); } void ChromeFrameAutomationClient::Print(HDC print_dc, const RECT& print_bounds) { if (!tab_window_) { NOTREACHED(); return; } HDC window_dc = ::GetDC(tab_window_); BitBlt(print_dc, print_bounds.left, print_bounds.top, print_bounds.right - print_bounds.left, print_bounds.bottom - print_bounds.top, window_dc, print_bounds.left, print_bounds.top, SRCCOPY); ::ReleaseDC(tab_window_, window_dc); } void ChromeFrameAutomationClient::PrintTab() { if (tab_) tab_->PrintAsync(); } bool ChromeFrameAutomationClient::Reinitialize( ChromeFrameDelegate* delegate, PluginUrlRequestManager* url_fetcher) { if (url_fetcher_) { // Clean up any outstanding requests url_fetcher_->StopAllRequests(); url_fetcher_ = NULL; } if (!tab_.get() || !::IsWindow(chrome_window_)) { NOTREACHED(); DLOG(WARNING) << "ChromeFrameAutomationClient instance reused " << "with invalid tab"; return false; } if (!delegate) { NOTREACHED(); return false; } chrome_frame_delegate_ = delegate; DeleteAllPendingTasks(); SetUrlFetcher(url_fetcher); SetParentWindow(NULL); return true; } void ChromeFrameAutomationClient::AttachExternalTab( uint64 external_tab_cookie) { DCHECK_EQ(static_cast(NULL), tab_.get()); DCHECK_EQ(-1, tab_handle_); external_tab_cookie_ = external_tab_cookie; } void ChromeFrameAutomationClient::BlockExternalTab(uint64 cookie) { // The host does not want this tab to be shown (due popup blocker). IPC::SyncMessage* message = new AutomationMsg_ConnectExternalTab(cookie, false, m_hWnd, NULL, NULL, NULL, 0); automation_server_->SendAsAsync(message, NULL, this); } void ChromeFrameAutomationClient::SetPageFontSize( enum AutomationPageFontSize font_size) { if (font_size < SMALLEST_FONT || font_size > LARGEST_FONT) { NOTREACHED() << "Invalid font size specified : " << font_size; return; } automation_server_->Send( new AutomationMsg_SetPageFontSize(tab_handle_, font_size)); } void ChromeFrameAutomationClient::RemoveBrowsingData(int remove_mask) { automation_server_->Send(new AutomationMsg_RemoveBrowsingData(remove_mask)); } void ChromeFrameAutomationClient::SetUrlFetcher( PluginUrlRequestManager* url_fetcher) { DCHECK(url_fetcher != NULL); url_fetcher_ = url_fetcher; url_fetcher_flags_ = url_fetcher->GetThreadSafeFlags(); url_fetcher_->set_delegate(this); } void ChromeFrameAutomationClient::SetZoomLevel(PageZoom::Function zoom_level) { if (automation_server_) { automation_server_->Send(new AutomationMsg_SetZoomLevel(tab_handle_, zoom_level)); } } void ChromeFrameAutomationClient::OnUnload(bool* should_unload) { *should_unload = true; if (automation_server_) { const DWORD kUnloadEventTimeout = 20000; IPC::SyncMessage* msg = new AutomationMsg_RunUnloadHandlers(tab_handle_, should_unload); base::WaitableEvent unload_call_finished(false, false); UnloadContext* unload_context = new UnloadContext(&unload_call_finished, should_unload); automation_server_->SendAsAsync(msg, unload_context, this); HANDLE done = unload_call_finished.handle(); WaitWithMessageLoop(&done, 1, kUnloadEventTimeout); } } ////////////////////////////////////////////////////////////////////////// // PluginUrlRequestDelegate implementation. // Forward network related responses to Chrome. void ChromeFrameAutomationClient::OnResponseStarted(int request_id, const char* mime_type, const char* headers, int size, base::Time last_modified, const std::string& redirect_url, int redirect_status, const net::HostPortPair& socket_address) { const AutomationURLResponse response( mime_type, headers ? headers : "", size, last_modified, redirect_url, redirect_status, socket_address); automation_server_->Send(new AutomationMsg_RequestStarted( tab_->handle(), request_id, response)); } void ChromeFrameAutomationClient::OnReadComplete(int request_id, const std::string& data) { automation_server_->Send(new AutomationMsg_RequestData( tab_->handle(), request_id, data)); } void ChromeFrameAutomationClient::OnResponseEnd( int request_id, const net::URLRequestStatus& status) { automation_server_->Send(new AutomationMsg_RequestEnd( tab_->handle(), request_id, status)); } void ChromeFrameAutomationClient::OnCookiesRetrieved(bool success, const GURL& url, const std::string& cookie_string, int cookie_id) { automation_server_->Send(new AutomationMsg_GetCookiesHostResponse( tab_->handle(), success, url, cookie_string, cookie_id)); }