// Copyright (c) 2013 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/test/chromedriver/session_commands.h" #include <list> #include "base/bind.h" #include "base/callback.h" #include "base/file_util.h" #include "base/logging.h" // For CHECK macros. #include "base/memory/ref_counted.h" #include "base/message_loop/message_loop_proxy.h" #include "base/synchronization/lock.h" #include "base/synchronization/waitable_event.h" #include "base/values.h" #include "chrome/test/chromedriver/basic_types.h" #include "chrome/test/chromedriver/capabilities.h" #include "chrome/test/chromedriver/chrome/automation_extension.h" #include "chrome/test/chromedriver/chrome/chrome.h" #include "chrome/test/chromedriver/chrome/chrome_android_impl.h" #include "chrome/test/chromedriver/chrome/chrome_desktop_impl.h" #include "chrome/test/chromedriver/chrome/device_manager.h" #include "chrome/test/chromedriver/chrome/devtools_event_listener.h" #include "chrome/test/chromedriver/chrome/geoposition.h" #include "chrome/test/chromedriver/chrome/status.h" #include "chrome/test/chromedriver/chrome/web_view.h" #include "chrome/test/chromedriver/chrome_launcher.h" #include "chrome/test/chromedriver/logging.h" #include "chrome/test/chromedriver/net/url_request_context_getter.h" #include "chrome/test/chromedriver/session.h" #include "chrome/test/chromedriver/util.h" #include "chrome/test/chromedriver/version.h" namespace { const char kWindowHandlePrefix[] = "CDwindow-"; std::string WebViewIdToWindowHandle(const std::string& web_view_id) { return kWindowHandlePrefix + web_view_id; } bool WindowHandleToWebViewId(const std::string& window_handle, std::string* web_view_id) { if (window_handle.find(kWindowHandlePrefix) != 0u) return false; *web_view_id = window_handle.substr( std::string(kWindowHandlePrefix).length()); return true; } } // namespace InitSessionParams::InitSessionParams( scoped_refptr<URLRequestContextGetter> context_getter, const SyncWebSocketFactory& socket_factory, DeviceManager* device_manager, PortServer* port_server, PortManager* port_manager) : context_getter(context_getter), socket_factory(socket_factory), device_manager(device_manager), port_server(port_server), port_manager(port_manager) {} InitSessionParams::~InitSessionParams() {} namespace { scoped_ptr<base::DictionaryValue> CreateCapabilities(Chrome* chrome) { scoped_ptr<base::DictionaryValue> caps(new base::DictionaryValue()); caps->SetString("browserName", "chrome"); caps->SetString("version", chrome->GetVersion()); caps->SetString("chrome.chromedriverVersion", kChromeDriverVersion); caps->SetString("platform", chrome->GetOperatingSystemName()); caps->SetBoolean("javascriptEnabled", true); caps->SetBoolean("takesScreenshot", true); caps->SetBoolean("takesHeapSnapshot", true); caps->SetBoolean("handlesAlerts", true); caps->SetBoolean("databaseEnabled", false); caps->SetBoolean("locationContextEnabled", true); caps->SetBoolean("applicationCacheEnabled", false); caps->SetBoolean("browserConnectionEnabled", false); caps->SetBoolean("cssSelectorsEnabled", true); caps->SetBoolean("webStorageEnabled", true); caps->SetBoolean("rotatable", false); caps->SetBoolean("acceptSslCerts", true); caps->SetBoolean("nativeEvents", true); scoped_ptr<base::DictionaryValue> chrome_caps(new base::DictionaryValue()); if (chrome->GetAsDesktop()) { chrome_caps->SetString( "userDataDir", chrome->GetAsDesktop()->command().GetSwitchValueNative( "user-data-dir")); } caps->Set("chrome", chrome_caps.release()); return caps.Pass(); } Status InitSessionHelper( const InitSessionParams& bound_params, Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { session->driver_log.reset( new WebDriverLog(WebDriverLog::kDriverType, Log::kAll)); const base::DictionaryValue* desired_caps; if (!params.GetDictionary("desiredCapabilities", &desired_caps)) return Status(kUnknownError, "cannot find dict 'desiredCapabilities'"); Capabilities capabilities; Status status = capabilities.Parse(*desired_caps); if (status.IsError()) return status; Log::Level driver_level = Log::kWarning; if (capabilities.logging_prefs.count(WebDriverLog::kDriverType)) driver_level = capabilities.logging_prefs[WebDriverLog::kDriverType]; session->driver_log->set_min_level(driver_level); // Create Log's and DevToolsEventListener's for ones that are DevTools-based. // Session will own the Log's, Chrome will own the listeners. ScopedVector<DevToolsEventListener> devtools_event_listeners; status = CreateLogs(capabilities, &session->devtools_logs, &devtools_event_listeners); if (status.IsError()) return status; status = LaunchChrome(bound_params.context_getter.get(), bound_params.socket_factory, bound_params.device_manager, bound_params.port_server, bound_params.port_manager, capabilities, devtools_event_listeners, &session->chrome); if (status.IsError()) return status; std::list<std::string> web_view_ids; status = session->chrome->GetWebViewIds(&web_view_ids); if (status.IsError() || web_view_ids.empty()) { return status.IsError() ? status : Status(kUnknownError, "unable to discover open window in chrome"); } session->window = web_view_ids.front(); session->detach = capabilities.detach; session->force_devtools_screenshot = capabilities.force_devtools_screenshot; session->capabilities = CreateCapabilities(session->chrome.get()); value->reset(session->capabilities->DeepCopy()); return Status(kOk); } } // namespace Status ExecuteInitSession( const InitSessionParams& bound_params, Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { Status status = InitSessionHelper(bound_params, session, params, value); if (status.IsError()) session->quit = true; return status; } Status ExecuteQuit( bool allow_detach, Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { session->quit = true; if (allow_detach && session->detach) return Status(kOk); else return session->chrome->Quit(); } Status ExecuteGetSessionCapabilities( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { value->reset(session->capabilities->DeepCopy()); return Status(kOk); } Status ExecuteGetCurrentWindowHandle( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { WebView* web_view = NULL; Status status = session->GetTargetWindow(&web_view); if (status.IsError()) return status; value->reset(new StringValue(WebViewIdToWindowHandle(web_view->GetId()))); return Status(kOk); } Status ExecuteClose( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { std::list<std::string> web_view_ids; Status status = session->chrome->GetWebViewIds(&web_view_ids); if (status.IsError()) return status; bool is_last_web_view = web_view_ids.size() == 1u; web_view_ids.clear(); WebView* web_view = NULL; status = session->GetTargetWindow(&web_view); if (status.IsError()) return status; status = session->chrome->CloseWebView(web_view->GetId()); if (status.IsError()) return status; status = session->chrome->GetWebViewIds(&web_view_ids); if ((status.code() == kChromeNotReachable && is_last_web_view) || (status.IsOk() && web_view_ids.empty())) { // If no window is open, close is the equivalent of calling "quit". session->quit = true; return session->chrome->Quit(); } return status; } Status ExecuteGetWindowHandles( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { std::list<std::string> web_view_ids; Status status = session->chrome->GetWebViewIds(&web_view_ids); if (status.IsError()) return status; scoped_ptr<base::ListValue> window_ids(new base::ListValue()); for (std::list<std::string>::const_iterator it = web_view_ids.begin(); it != web_view_ids.end(); ++it) { window_ids->AppendString(WebViewIdToWindowHandle(*it)); } value->reset(window_ids.release()); return Status(kOk); } Status ExecuteSwitchToWindow( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { std::string name; if (!params.GetString("name", &name) || name.empty()) return Status(kUnknownError, "'name' must be a nonempty string"); std::list<std::string> web_view_ids; Status status = session->chrome->GetWebViewIds(&web_view_ids); if (status.IsError()) return status; std::string web_view_id; bool found = false; if (WindowHandleToWebViewId(name, &web_view_id)) { // Check if any web_view matches |web_view_id|. for (std::list<std::string>::const_iterator it = web_view_ids.begin(); it != web_view_ids.end(); ++it) { if (*it == web_view_id) { found = true; break; } } } else { // Check if any of the tab window names match |name|. const char* kGetWindowNameScript = "function() { return window.name; }"; base::ListValue args; for (std::list<std::string>::const_iterator it = web_view_ids.begin(); it != web_view_ids.end(); ++it) { scoped_ptr<base::Value> result; WebView* web_view; status = session->chrome->GetWebViewById(*it, &web_view); if (status.IsError()) return status; status = web_view->ConnectIfNecessary(); if (status.IsError()) return status; status = web_view->CallFunction( std::string(), kGetWindowNameScript, args, &result); if (status.IsError()) return status; std::string window_name; if (!result->GetAsString(&window_name)) return Status(kUnknownError, "failed to get window name"); if (window_name == name) { web_view_id = *it; found = true; break; } } } if (!found) return Status(kNoSuchWindow); if (session->overridden_geoposition) { WebView* web_view; status = session->chrome->GetWebViewById(web_view_id, &web_view); if (status.IsError()) return status; status = web_view->ConnectIfNecessary(); if (status.IsError()) return status; status = web_view->OverrideGeolocation(*session->overridden_geoposition); if (status.IsError()) return status; } session->window = web_view_id; session->SwitchToTopFrame(); session->mouse_position = WebPoint(0, 0); return Status(kOk); } Status ExecuteSetTimeout( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { double ms_double; if (!params.GetDouble("ms", &ms_double)) return Status(kUnknownError, "'ms' must be a double"); std::string type; if (!params.GetString("type", &type)) return Status(kUnknownError, "'type' must be a string"); base::TimeDelta timeout = base::TimeDelta::FromMilliseconds(static_cast<int>(ms_double)); // TODO(frankf): implicit and script timeout should be cleared // if negative timeout is specified. if (type == "implicit") { session->implicit_wait = timeout; } else if (type == "script") { session->script_timeout = timeout; } else if (type == "page load") { session->page_load_timeout = ((timeout < base::TimeDelta()) ? Session::kDefaultPageLoadTimeout : timeout); } else { return Status(kUnknownError, "unknown type of timeout:" + type); } return Status(kOk); } Status ExecuteSetScriptTimeout( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { double ms; if (!params.GetDouble("ms", &ms) || ms < 0) return Status(kUnknownError, "'ms' must be a non-negative number"); session->script_timeout = base::TimeDelta::FromMilliseconds(static_cast<int>(ms)); return Status(kOk); } Status ExecuteImplicitlyWait( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { double ms; if (!params.GetDouble("ms", &ms) || ms < 0) return Status(kUnknownError, "'ms' must be a non-negative number"); session->implicit_wait = base::TimeDelta::FromMilliseconds(static_cast<int>(ms)); return Status(kOk); } Status ExecuteIsLoading( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { WebView* web_view = NULL; Status status = session->GetTargetWindow(&web_view); if (status.IsError()) return status; status = web_view->ConnectIfNecessary(); if (status.IsError()) return status; bool is_pending; status = web_view->IsPendingNavigation( session->GetCurrentFrameId(), &is_pending); if (status.IsError()) return status; value->reset(new base::FundamentalValue(is_pending)); return Status(kOk); } Status ExecuteGetLocation( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { if (!session->overridden_geoposition) { return Status(kUnknownError, "Location must be set before it can be retrieved"); } base::DictionaryValue location; location.SetDouble("latitude", session->overridden_geoposition->latitude); location.SetDouble("longitude", session->overridden_geoposition->longitude); location.SetDouble("accuracy", session->overridden_geoposition->accuracy); // Set a dummy altitude to make WebDriver clients happy. // https://code.google.com/p/chromedriver/issues/detail?id=281 location.SetDouble("altitude", 0); value->reset(location.DeepCopy()); return Status(kOk); } Status ExecuteGetWindowPosition( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { ChromeDesktopImpl* desktop = session->chrome->GetAsDesktop(); if (!desktop) { return Status( kUnknownError, "command only supported for desktop Chrome without debuggerAddress"); } AutomationExtension* extension = NULL; Status status = desktop->GetAutomationExtension(&extension); if (status.IsError()) return status; int x, y; status = extension->GetWindowPosition(&x, &y); if (status.IsError()) return status; base::DictionaryValue position; position.SetInteger("x", x); position.SetInteger("y", y); value->reset(position.DeepCopy()); return Status(kOk); } Status ExecuteSetWindowPosition( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { double x, y; if (!params.GetDouble("x", &x) || !params.GetDouble("y", &y)) return Status(kUnknownError, "missing or invalid 'x' or 'y'"); ChromeDesktopImpl* desktop = session->chrome->GetAsDesktop(); if (!desktop) { return Status( kUnknownError, "command only supported for desktop Chrome without debuggerAddress"); } AutomationExtension* extension = NULL; Status status = desktop->GetAutomationExtension(&extension); if (status.IsError()) return status; return extension->SetWindowPosition(static_cast<int>(x), static_cast<int>(y)); } Status ExecuteGetWindowSize( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { ChromeDesktopImpl* desktop = session->chrome->GetAsDesktop(); if (!desktop) { return Status( kUnknownError, "command only supported for desktop Chrome without debuggerAddress"); } AutomationExtension* extension = NULL; Status status = desktop->GetAutomationExtension(&extension); if (status.IsError()) return status; int width, height; status = extension->GetWindowSize(&width, &height); if (status.IsError()) return status; base::DictionaryValue size; size.SetInteger("width", width); size.SetInteger("height", height); value->reset(size.DeepCopy()); return Status(kOk); } Status ExecuteSetWindowSize( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { double width, height; if (!params.GetDouble("width", &width) || !params.GetDouble("height", &height)) return Status(kUnknownError, "missing or invalid 'width' or 'height'"); ChromeDesktopImpl* desktop = session->chrome->GetAsDesktop(); if (!desktop) { return Status( kUnknownError, "command only supported for desktop Chrome without debuggerAddress"); } AutomationExtension* extension = NULL; Status status = desktop->GetAutomationExtension(&extension); if (status.IsError()) return status; return extension->SetWindowSize( static_cast<int>(width), static_cast<int>(height)); } Status ExecuteMaximizeWindow( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { ChromeDesktopImpl* desktop = session->chrome->GetAsDesktop(); if (!desktop) { return Status( kUnknownError, "command only supported for desktop Chrome without debuggerAddress"); } AutomationExtension* extension = NULL; Status status = desktop->GetAutomationExtension(&extension); if (status.IsError()) return status; return extension->MaximizeWindow(); } Status ExecuteGetAvailableLogTypes( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { scoped_ptr<base::ListValue> types(new base::ListValue()); std::vector<WebDriverLog*> logs = session->GetAllLogs(); for (std::vector<WebDriverLog*>::const_iterator log = logs.begin(); log != logs.end(); ++log) { types->AppendString((*log)->type()); } *value = types.Pass(); return Status(kOk); } Status ExecuteGetLog( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { std::string log_type; if (!params.GetString("type", &log_type)) { return Status(kUnknownError, "missing or invalid 'type'"); } std::vector<WebDriverLog*> logs = session->GetAllLogs(); for (std::vector<WebDriverLog*>::const_iterator log = logs.begin(); log != logs.end(); ++log) { if (log_type == (*log)->type()) { *value = (*log)->GetAndClearEntries(); return Status(kOk); } } return Status(kUnknownError, "log type '" + log_type + "' not found"); } Status ExecuteUploadFile( Session* session, const base::DictionaryValue& params, scoped_ptr<base::Value>* value) { std::string base64_zip_data; if (!params.GetString("file", &base64_zip_data)) return Status(kUnknownError, "missing or invalid 'file'"); std::string zip_data; if (!Base64Decode(base64_zip_data, &zip_data)) return Status(kUnknownError, "unable to decode 'file'"); if (!session->temp_dir.IsValid()) { if (!session->temp_dir.CreateUniqueTempDir()) return Status(kUnknownError, "unable to create temp dir"); } base::FilePath upload_dir; if (!base::CreateTemporaryDirInDir(session->temp_dir.path(), FILE_PATH_LITERAL("upload"), &upload_dir)) { return Status(kUnknownError, "unable to create temp dir"); } std::string error_msg; base::FilePath upload; Status status = UnzipSoleFile(upload_dir, zip_data, &upload); if (status.IsError()) return Status(kUnknownError, "unable to unzip 'file'", status); value->reset(new base::StringValue(upload.value())); return Status(kOk); }