// Copyright (c) 2006-2008 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 #include "chrome/test/automation/automation_proxy.h" #include "base/basictypes.h" #include "base/logging.h" #include "base/platform_thread.h" #include "base/process_util.h" #include "base/ref_counted.h" #include "base/waitable_event.h" #include "chrome/test/automation/automation_constants.h" #include "chrome/test/automation/automation_messages.h" #include "chrome/test/automation/browser_proxy.h" #include "chrome/test/automation/tab_proxy.h" #include "chrome/test/automation/window_proxy.h" #if defined(OS_WIN) // TODO(port): Enable when dialog_delegate is ported. #include "chrome/views/dialog_delegate.h" #endif using base::TimeDelta; using base::TimeTicks; // This class exists to group together the data and functionality used for // synchronous automation requests. class AutomationRequest : public base::RefCountedThreadSafe { public: AutomationRequest() : received_response_(true, false) { static int32 routing_id = 0; routing_id_ = ++routing_id; } // This is called on the background thread once the response has been // received and the foreground thread can resume execution. void SignalResponseReady(const IPC::Message& response) { response_.reset(new IPC::Message(response)); received_response_.Signal(); } // This can be used to take ownership of the response object that // we've received, reducing the need to copy the message. void GrabResponse(IPC::Message** response) { DCHECK(response); *response = response_.get(); response_.release(); } int32 routing_id() { return routing_id_; } const IPC::Message& response() { DCHECK(response_.get()); return *(response_.get()); } private: DISALLOW_EVIL_CONSTRUCTORS(AutomationRequest); int32 routing_id_; scoped_ptr response_; base::WaitableEvent received_response_; }; namespace { // This object allows messages received on the background thread to be // properly triaged. class AutomationMessageFilter : public IPC::ChannelProxy::MessageFilter { public: AutomationMessageFilter(AutomationProxy* server) : server_(server) {} // Return true to indicate that the message was handled, or false to let // the message be handled in the default way. virtual bool OnMessageReceived(const IPC::Message& message) { { // Here we're checking to see if it matches the (because there should // be at most one) synchronous request. If the received message is // the response to the synchronous request, we clear the server's // "current_request" pointer and signal to the request object that // the response is ready for processing. We're clearing current_request // here rather than on the foreground thread so that we can assert // that both threads perceive it as cleared at the time that the // foreground thread wakes up. scoped_refptr request = server_->current_request(); if (request.get() && (message.routing_id() == request->routing_id())) { server_->clear_current_request(); request->SignalResponseReady(message); return true; } if (message.routing_id() > 0) { // The message is either the previous async response or arrived // after timeout. return true; } } bool handled = true; IPC_BEGIN_MESSAGE_MAP(AutomationMessageFilter, message) IPC_MESSAGE_HANDLER_GENERIC( AutomationMsg_Hello, server_->SignalAppLaunch()); IPC_MESSAGE_HANDLER_GENERIC( AutomationMsg_InitialLoadsComplete, server_->SignalInitialLoads()); IPC_MESSAGE_HANDLER(AutomationMsg_InitialNewTabUILoadComplete, NewTabLoaded); IPC_MESSAGE_HANDLER_GENERIC( AutomationMsg_InvalidateHandle, server_->InvalidateHandle(message)); IPC_MESSAGE_UNHANDLED(handled = false); IPC_END_MESSAGE_MAP() return handled; } void NewTabLoaded(int load_time) { server_->SignalNewTabUITab(load_time); } private: AutomationProxy* server_; }; } // anonymous namespace AutomationProxy::AutomationProxy(int command_execution_timeout_ms) : app_launched_(true, false), initial_loads_complete_(true, false), new_tab_ui_load_complete_(true, false), shutdown_event_(new base::WaitableEvent(true, false)), current_request_(NULL), command_execution_timeout_( TimeDelta::FromMilliseconds(command_execution_timeout_ms)) { InitializeChannelID(); InitializeHandleTracker(); InitializeThread(); InitializeChannel(); } AutomationProxy::~AutomationProxy() { DCHECK(shutdown_event_.get() != NULL); shutdown_event_->Signal(); // Destruction order is important. Thread has to outlive the channel and // tracker has to outlive the thread since we access the tracker inside // AutomationMessageFilter::OnMessageReceived. channel_.reset(); thread_.reset(); DCHECK(NULL == current_request_); tracker_.reset(); } void AutomationProxy::InitializeChannelID() { // The channel counter keeps us out of trouble if we create and destroy // several AutomationProxies sequentially over the course of a test run. // (Creating the channel sometimes failed before when running a lot of // tests in sequence, and our theory is that sometimes the channel ID // wasn't getting freed up in time for the next test.) static int channel_counter = 0; std::wostringstream buf; buf << L"ChromeTestingInterface:" << base::GetCurrentProcId() << L"." << ++channel_counter; channel_id_ = buf.str(); } void AutomationProxy::InitializeThread() { scoped_ptr thread( new base::Thread("AutomationProxy_BackgroundThread")); base::Thread::Options options; options.message_loop_type = MessageLoop::TYPE_IO; bool thread_result = thread->StartWithOptions(options); DCHECK(thread_result); thread_.swap(thread); } void AutomationProxy::InitializeChannel() { DCHECK(shutdown_event_.get() != NULL); // TODO(iyengar) // The shutdown event could be global on the same lines as the automation // provider, where we use the shutdown event provided by the chrome browser // process. channel_.reset(new IPC::SyncChannel( channel_id_, IPC::Channel::MODE_SERVER, this, // we are the listener new AutomationMessageFilter(this), thread_->message_loop(), true, shutdown_event_.get())); } void AutomationProxy::InitializeHandleTracker() { tracker_.reset(new AutomationHandleTracker(this)); } bool AutomationProxy::WaitForAppLaunch() { return app_launched_.TimedWait(command_execution_timeout_); } void AutomationProxy::SignalAppLaunch() { app_launched_.Signal(); } bool AutomationProxy::WaitForInitialLoads() { return initial_loads_complete_.TimedWait(command_execution_timeout_); } bool AutomationProxy::WaitForInitialNewTabUILoad(int* load_time) { if (new_tab_ui_load_complete_.TimedWait(command_execution_timeout_)) { *load_time = new_tab_ui_load_time_; new_tab_ui_load_complete_.Reset(); return true; } return false; } void AutomationProxy::SignalInitialLoads() { initial_loads_complete_.Signal(); } void AutomationProxy::SignalNewTabUITab(int load_time) { new_tab_ui_load_time_ = load_time; new_tab_ui_load_complete_.Signal(); } bool AutomationProxy::SavePackageShouldPromptUser(bool should_prompt) { return Send(new AutomationMsg_SavePackageShouldPromptUser(0, should_prompt)); } bool AutomationProxy::GetBrowserWindowCount(int* num_windows) { if (!num_windows) { NOTREACHED(); return false; } bool succeeded = SendWithTimeout( new AutomationMsg_BrowserWindowCount(0, num_windows), command_execution_timeout_ms(), NULL); if (!succeeded) { DLOG(ERROR) << "GetWindowCount did not complete in a timely fashion"; return false; } return succeeded; } bool AutomationProxy::WaitForWindowCountToChange(int count, int* new_count, int wait_timeout) { const TimeTicks start = TimeTicks::Now(); const TimeDelta timeout = TimeDelta::FromMilliseconds(wait_timeout); while (TimeTicks::Now() - start < timeout) { bool succeeded = GetBrowserWindowCount(new_count); if (!succeeded) return false; if (count != *new_count) return true; PlatformThread::Sleep(automation::kSleepTime); } // Window count never changed. return false; } bool AutomationProxy::WaitForWindowCountToBecome(int count, int wait_timeout) { const TimeTicks start = TimeTicks::Now(); const TimeDelta timeout = TimeDelta::FromMilliseconds(wait_timeout); while (TimeTicks::Now() - start < timeout) { int new_count; bool succeeded = GetBrowserWindowCount(&new_count); if (!succeeded) { // Try again next round, but log it. DLOG(ERROR) << "GetBrowserWindowCount returned false"; } else if (count == new_count) { return true; } PlatformThread::Sleep(automation::kSleepTime); } // Window count never reached the value we sought. return false; } #if defined(OS_WIN) // TODO(port): Port when DialogDelegate is ported. bool AutomationProxy::GetShowingAppModalDialog( bool* showing_app_modal_dialog, views::DialogDelegate::DialogButton* button) { if (!showing_app_modal_dialog || !button) { NOTREACHED(); return false; } int button_int = 0; if (!SendWithTimeout( new AutomationMsg_ShowingAppModalDialog( 0, showing_app_modal_dialog, &button_int), command_execution_timeout_ms(), NULL)) { DLOG(ERROR) << "ShowingAppModalDialog did not complete in a timely fashion"; return false; } *button = static_cast(button_int); return true; } bool AutomationProxy::ClickAppModalDialogButton( views::DialogDelegate::DialogButton button) { bool succeeded = false; if (!SendWithTimeout( new AutomationMsg_ClickAppModalDialogButton( 0, button, &succeeded), command_execution_timeout_ms(), NULL)) { return false; } return succeeded; } bool AutomationProxy::WaitForAppModalDialog(int wait_timeout) { const TimeTicks start = TimeTicks::Now(); const TimeDelta timeout = TimeDelta::FromMilliseconds(wait_timeout); while (TimeTicks::Now() - start < timeout) { bool dialog_shown = false; views::DialogDelegate::DialogButton button = views::DialogDelegate::DIALOGBUTTON_NONE; bool succeeded = GetShowingAppModalDialog(&dialog_shown, &button); if (!succeeded) { // Try again next round, but log it. DLOG(ERROR) << "GetShowingAppModalDialog returned false"; } else if (dialog_shown) { return true; } Sleep(automation::kSleepTime); } // Dialog never shown. return false; } #endif // defined(OS_WIN) bool AutomationProxy::SetFilteredInet(bool enabled) { return Send(new AutomationMsg_SetFilteredInet(0, enabled)); } void AutomationProxy::Disconnect() { channel_.reset(); } void AutomationProxy::OnMessageReceived(const IPC::Message& msg) { // This won't get called unless AutomationProxy is run from // inside a message loop. NOTREACHED(); } void AutomationProxy::OnChannelError() { DLOG(ERROR) << "Channel error in AutomationProxy."; } WindowProxy* AutomationProxy::GetActiveWindow() { int handle = 0; if (!SendWithTimeout(new AutomationMsg_ActiveWindow(0, &handle), command_execution_timeout_ms(), NULL)) { return NULL; } return new WindowProxy(this, tracker_.get(), handle); } BrowserProxy* AutomationProxy::GetBrowserWindow(int window_index) { int handle = 0; if (!SendWithTimeout(new AutomationMsg_BrowserWindow(0, window_index, &handle), command_execution_timeout_ms(), NULL)) { DLOG(ERROR) << "GetBrowserWindow did not complete in a timely fashion"; return NULL; } if (handle == 0) { return NULL; } return new BrowserProxy(this, tracker_.get(), handle); } BrowserProxy* AutomationProxy::GetLastActiveBrowserWindow() { int handle = 0; if (!SendWithTimeout(new AutomationMsg_LastActiveBrowserWindow( 0, &handle), command_execution_timeout_ms(), NULL)) { DLOG(ERROR) << "GetLastActiveBrowserWindow did not complete in a timely fashion"; return NULL; } return new BrowserProxy(this, tracker_.get(), handle); } #if defined(OS_POSIX) base::file_handle_mapping_vector AutomationProxy::fds_to_map() const { base::file_handle_mapping_vector map; int src_fd = -1, dest_fd = -1; channel_->GetClientFileDescriptorMapping(&src_fd, &dest_fd); if (src_fd > -1) map.push_back(std::make_pair(src_fd, dest_fd)); return map; } #endif // defined(OS_POSIX) bool AutomationProxy::Send(IPC::Message* message) { return SendWithTimeout(message, base::kNoTimeout, NULL); } bool AutomationProxy::SendWithTimeout(IPC::Message* message, int timeout, bool* is_timeout) { if (is_timeout) *is_timeout = false; if (channel_.get()) { bool result = channel_->SendWithTimeout(message, timeout); if (!result && is_timeout) *is_timeout = true; return result; } DLOG(WARNING) << "Channel has been closed; dropping message!"; delete message; return false; } void AutomationProxy::InvalidateHandle(const IPC::Message& message) { void* iter = NULL; int handle; if (message.ReadInt(&iter, &handle)) { tracker_->InvalidateHandle(handle); } } bool AutomationProxy::OpenNewBrowserWindow(int show_command) { return Send(new AutomationMsg_OpenNewBrowserWindow(0, show_command)); } #if defined(OS_WIN) // TODO(port): Replace HWNDs. TabProxy* AutomationProxy::CreateExternalTab(HWND parent, const gfx::Rect& dimensions, unsigned int style, HWND* external_tab_container) { IPC::Message* response = NULL; int handle = 0; bool succeeded = Send(new AutomationMsg_CreateExternalTab(0, parent, dimensions, style, external_tab_container, &handle)); if (!succeeded) { return NULL; } DCHECK(IsWindow(*external_tab_container)); return new TabProxy(this, tracker_.get(), handle); } #endif // defined(OS_WIN)