// Copyright (c) 2014 The Chromium Embedded Framework 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 #include #include "base/memory/weak_ptr.h" #include "base/strings/stringprintf.h" #include "testing/gtest/include/gtest/gtest.h" #include "tests/unittests/routing_test_handler.h" #include "tests/cefclient/client_app.h" #include "include/cef_v8.h" #include "include/cef_runnable.h" // Comment out this define to disable the unit test timeout. #define TIMEOUT_ENABLED 1 namespace { const char kTestDomainRoot[] = "http://tests-mr"; const char kTestDomain1[] = "http://tests-mr1.com/"; const char kTestDomain2[] = "http://tests-mr2.com/"; const char kTestDomain3[] = "http://tests-mr3.com/"; const char kDoneMessageName[] = "mrtNotifyMsg"; const char kJSNotifyFunc[] = "mrtNotify"; const char kJSAssertTotalCountFunc[] = "mrtAssertTotalCount"; const char kJSAssertBrowserCountFunc[] = "mrtAssertBrowserCount"; const char kJSAssertContextCountFunc[] = "mrtAssertContextCount"; void SetRouterConfig(CefMessageRouterConfig& config) { config.js_query_function = "mrtQuery"; config.js_cancel_function = "mrtQueryCancel"; } // Handle the renderer side of the routing implementation. class MRRenderDelegate : public ClientApp::RenderDelegate { public: class V8HandlerImpl : public CefV8Handler { public: explicit V8HandlerImpl(CefRefPtr delegate) : delegate_(delegate) { } virtual bool Execute(const CefString& name, CefRefPtr object, const CefV8ValueList& arguments, CefRefPtr& retval, CefString& exception) OVERRIDE { const std::string& message_name = name; if (message_name == kJSNotifyFunc) { EXPECT_EQ(1U, arguments.size()); EXPECT_TRUE(arguments[0]->IsString()); const CefString& msg = arguments[0]->GetStringValue(); CefRefPtr context = CefV8Context::GetCurrentContext(); CefRefPtr browser = context->GetBrowser(); CefRefPtr frame = context->GetFrame(); const int64 frame_id = frame->GetIdentifier(); CefRefPtr message = CefProcessMessage::Create(kDoneMessageName); CefRefPtr args = message->GetArgumentList(); args->SetInt(0, CefInt64GetLow(frame_id)); args->SetInt(1, CefInt64GetHigh(frame_id)); args->SetString(2, msg); EXPECT_TRUE(browser->SendProcessMessage(PID_BROWSER, message)); return true; } else { EXPECT_EQ(1U, arguments.size()); EXPECT_TRUE(arguments[0]->IsInt()); const int expected_count = arguments[0]->GetIntValue(); int actual_count = -1; CefRefPtr context = CefV8Context::GetCurrentContext(); CefRefPtr browser = context->GetBrowser(); if (name == kJSAssertTotalCountFunc) { actual_count = delegate_->message_router_->GetPendingCount(NULL, NULL); } else if (name == kJSAssertBrowserCountFunc) { actual_count = delegate_->message_router_->GetPendingCount(browser, NULL); } else if (name == kJSAssertContextCountFunc) { actual_count = delegate_->message_router_->GetPendingCount(browser, context); } if (expected_count != actual_count) { const std::string& exceptionStr = base::StringPrintf("%s failed; expected %d, got %d", message_name.c_str(), expected_count, actual_count); exception = exceptionStr; } } return true; } private: CefRefPtr delegate_; IMPLEMENT_REFCOUNTING(V8HandlerImpl); }; MRRenderDelegate() {} virtual void OnWebKitInitialized(CefRefPtr app) OVERRIDE { // Create the renderer-side router for query handling. CefMessageRouterConfig config; SetRouterConfig(config); message_router_ = CefMessageRouterRendererSide::Create(config); } virtual void OnContextCreated(CefRefPtr app, CefRefPtr browser, CefRefPtr frame, CefRefPtr context) OVERRIDE { const std::string& url = frame->GetURL(); if (url.find(kTestDomainRoot) != 0) return; message_router_->OnContextCreated(browser, frame, context); // Register function handlers with the 'window' object. CefRefPtr window = context->GetGlobal(); CefRefPtr handler = new V8HandlerImpl(this); CefV8Value::PropertyAttribute attributes = static_cast( V8_PROPERTY_ATTRIBUTE_READONLY | V8_PROPERTY_ATTRIBUTE_DONTENUM | V8_PROPERTY_ATTRIBUTE_DONTDELETE); CefRefPtr notify_func = CefV8Value::CreateFunction(kJSNotifyFunc, handler.get()); window->SetValue(kJSNotifyFunc, notify_func, attributes); CefRefPtr total_count_func = CefV8Value::CreateFunction(kJSAssertTotalCountFunc, handler.get()); window->SetValue(kJSAssertTotalCountFunc, total_count_func, attributes); CefRefPtr browser_count_func = CefV8Value::CreateFunction(kJSAssertBrowserCountFunc, handler.get()); window->SetValue(kJSAssertBrowserCountFunc, browser_count_func, attributes); CefRefPtr context_count_func = CefV8Value::CreateFunction(kJSAssertContextCountFunc, handler.get()); window->SetValue(kJSAssertContextCountFunc, context_count_func, attributes); } virtual void OnContextReleased(CefRefPtr app, CefRefPtr browser, CefRefPtr frame, CefRefPtr context) OVERRIDE { const std::string& url = frame->GetURL(); if (url.find(kTestDomainRoot) != 0) return; message_router_->OnContextReleased(browser, frame, context); } virtual bool OnProcessMessageReceived( CefRefPtr app, CefRefPtr browser, CefProcessId source_process, CefRefPtr message) OVERRIDE { const std::string& url = browser->GetMainFrame()->GetURL(); if (url.find(kTestDomainRoot) != 0) return false; return message_router_->OnProcessMessageReceived( browser, source_process, message); } private: CefRefPtr message_router_; IMPLEMENT_REFCOUNTING(MRRenderDelegate); }; } // namespace // Entry point for creating the test delegate. // Called from client_app_delegates.cc. void CreateMessageRouterRendererTests( ClientApp::RenderDelegateSet& delegates) { delegates.insert(new MRRenderDelegate); } namespace { class MRTestHandler : public TestHandler { public: MRTestHandler() { } virtual void RunTest() OVERRIDE { RunMRTest(); #if defined(TIMEOUT_ENABLED) // Time out the test after a reasonable period of time. CefPostDelayedTask(TID_UI, NewCefRunnableMethod(this, &MRTestHandler::DestroyTest), 4000); #endif } virtual void OnAfterCreated(CefRefPtr browser) OVERRIDE { if (!message_router_) { // Create the browser-side router for query handling. CefMessageRouterConfig config; SetRouterConfig(config); message_router_ = CefMessageRouterBrowserSide::Create(config); AddHandlers(message_router_); } TestHandler::OnAfterCreated(browser); } virtual void OnBeforeClose(CefRefPtr browser) OVERRIDE{ message_router_->OnBeforeClose(browser); TestHandler::OnBeforeClose(browser); } virtual void OnRenderProcessTerminated( CefRefPtr browser, TerminationStatus status) OVERRIDE{ message_router_->OnRenderProcessTerminated(browser); } // Only call this method if the navigation isn't canceled. virtual bool OnBeforeBrowse(CefRefPtr browser, CefRefPtr frame, CefRefPtr request, bool is_redirect) OVERRIDE{ message_router_->OnBeforeBrowse(browser, frame); return false; } // Returns true if the router handled the navigation. virtual bool OnProcessMessageReceived( CefRefPtr browser, CefProcessId source_process, CefRefPtr message) OVERRIDE{ const std::string& message_name = message->GetName(); if (message_name == kDoneMessageName) { CefRefPtr args = message->GetArgumentList(); EXPECT_EQ(3U, args->GetSize()); EXPECT_EQ(VTYPE_INT, args->GetType(0)); EXPECT_EQ(VTYPE_INT, args->GetType(1)); EXPECT_EQ(VTYPE_STRING, args->GetType(2)); const int64 frame_id = CefInt64Set(args->GetInt(0), args->GetInt(1)); CefRefPtr frame = browser->GetFrame(frame_id); EXPECT_TRUE(frame); OnNotify(browser, frame, args->GetString(2)); return true; } return message_router_->OnProcessMessageReceived( browser, source_process, message); } CefRefPtr GetRouter() const { return message_router_; }; protected: virtual void RunMRTest() =0; virtual void AddHandlers( CefRefPtr message_router) =0; virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) =0; bool AssertQueryCount(CefRefPtr browser, CefMessageRouterBrowserSide::Handler* handler, int expected_count) { int actual_count = message_router_->GetPendingCount(browser, handler); EXPECT_EQ(expected_count, actual_count); return (expected_count == actual_count); } void AssertMainBrowser(CefRefPtr browser) { EXPECT_TRUE(browser.get()); EXPECT_EQ(GetBrowserId(), browser->GetIdentifier()); } private: CefRefPtr message_router_; }; // Implementation of MRTestHandler that loads a single page. class SingleLoadTestHandler : public MRTestHandler, public CefMessageRouterBrowserSide::Handler { public: SingleLoadTestHandler() : main_url_(std::string(kTestDomain1) + "main.html") {} const std::string& GetMainURL() { return main_url_; } protected: virtual void RunMRTest() OVERRIDE { AddOtherResources(); AddResource(main_url_, GetMainHTML(), "text/html"); CreateBrowser(main_url_, NULL); } virtual void AddHandlers( CefRefPtr message_router) OVERRIDE { message_router->AddHandler(this, false); } virtual void AddOtherResources() { } virtual std::string GetMainHTML() =0; void AssertMainFrame(CefRefPtr frame) { EXPECT_TRUE(frame.get()); EXPECT_TRUE(frame->IsMain()); EXPECT_STREQ(main_url_.c_str(), frame->GetURL().ToString().c_str()); } private: const std::string main_url_; }; // Used to verify that the test harness (bound functions) behave correctly. class HarnessTestHandler : public SingleLoadTestHandler { public: HarnessTestHandler(bool test_success) : test_success_(test_success) {} virtual std::string GetMainHTML() OVERRIDE { std::string html; if (test_success_) { // All assertions should pass. html = ""; } else { // All assertions should fail. html = ""; } return html; } virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); got_done_.yes(); EXPECT_STREQ("true", message.c_str()); DestroyTest(); } virtual void DestroyTest() OVERRIDE { EXPECT_TRUE(got_done_); TestHandler::DestroyTest(); } private: const bool test_success_; TrackCallback got_done_; }; } // namespace // Verify that the test harness works with successful assertions. TEST(MessageRouterTest, HarnessSuccess) { CefRefPtr handler = new HarnessTestHandler(true); handler->ExecuteTest(); } // Verify that the test harness works with failed assertions. TEST(MessageRouterTest, HarnessFailure) { CefRefPtr handler = new HarnessTestHandler(false); handler->ExecuteTest(); } namespace { const char kSingleQueryRequest[] = "request_context"; const char kSingleQueryResponse[] = "success_response"; const int kSingleQueryErrorCode = 5; const char kSingleQueryErrorMessage[] = "error_message"; // Test a single query in a single page load. class SingleQueryTestHandler : public SingleLoadTestHandler { public: enum TestType { SUCCESS, FAILURE, CANCEL, }; SingleQueryTestHandler(TestType type, bool sync_callback) : test_type_(type), sync_callback_(sync_callback), query_id_(0) {} virtual std::string GetMainHTML() OVERRIDE { std::string html; const std::string& errorCodeStr = base::StringPrintf("%d", kSingleQueryErrorCode); html = ""; return html; } virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); // OnNotify only be called once. EXPECT_FALSE(got_notify_); got_notify_.yes(); if (test_type_ == SUCCESS) { EXPECT_STREQ("success", message.c_str()); } else if (test_type_ == FAILURE) { EXPECT_STREQ("failure", message.c_str()); } else if (test_type_ == CANCEL) { EXPECT_STREQ("cancel", message.c_str()); } DestroyTestIfDone(); } void ExecuteCallback() { EXPECT_TRUE(callback_.get()); if (test_type_ == SUCCESS) { callback_->Success(kSingleQueryResponse); } else if (test_type_ == FAILURE) { callback_->Failure(kSingleQueryErrorCode, kSingleQueryErrorMessage); } else { EXPECT_TRUE(false); // Not reached. } callback_ = NULL; } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); EXPECT_NE(0, query_id); EXPECT_FALSE(persistent); EXPECT_STREQ(kSingleQueryRequest, request.ToString().c_str()); got_on_query_.yes(); query_id_ = query_id; callback_ = callback; if (test_type_ == SUCCESS || test_type_ == FAILURE) { if (sync_callback_) { ExecuteCallback(); } else { CefPostTask(TID_UI, NewCefRunnableMethod(this, &SingleQueryTestHandler::ExecuteCallback)); } } return true; } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); EXPECT_EQ(test_type_, CANCEL); EXPECT_EQ(query_id_, query_id); EXPECT_TRUE(got_on_query_); EXPECT_TRUE(callback_.get()); got_on_query_canceled_.yes(); callback_ = NULL; DestroyTestIfDone(); } void DestroyTestIfDone() { bool destroy_test = false; if (test_type_ == CANCEL) destroy_test = got_notify_ && got_on_query_canceled_; else destroy_test = got_notify_; if (destroy_test) DestroyTest(); } virtual void DestroyTest() OVERRIDE { EXPECT_TRUE(got_notify_); EXPECT_TRUE(got_on_query_); EXPECT_FALSE(callback_.get()); if (test_type_ == CANCEL) EXPECT_TRUE(got_on_query_canceled_); else EXPECT_FALSE(got_on_query_canceled_); TestHandler::DestroyTest(); } private: const TestType test_type_; const bool sync_callback_; int64 query_id_; CefRefPtr callback_; TrackCallback got_on_query_; TrackCallback got_on_query_canceled_; TrackCallback got_notify_; }; } // namespace // Test that a single query with successful result delivered synchronously. TEST(MessageRouterTest, SingleQuerySuccessSyncCallback) { CefRefPtr handler = new SingleQueryTestHandler(SingleQueryTestHandler::SUCCESS, true); handler->ExecuteTest(); } // Test that a single query with successful result delivered asynchronously. TEST(MessageRouterTest, SingleQuerySuccessAsyncCallback) { CefRefPtr handler = new SingleQueryTestHandler(SingleQueryTestHandler::SUCCESS, false); handler->ExecuteTest(); } // Test that a single query with failure result delivered synchronously. TEST(MessageRouterTest, SingleQueryFailureSyncCallback) { CefRefPtr handler = new SingleQueryTestHandler(SingleQueryTestHandler::FAILURE, true); handler->ExecuteTest(); } // Test that a single query with failure result delivered asynchronously. TEST(MessageRouterTest, SingleQueryFailureAsyncCallback) { CefRefPtr handler = new SingleQueryTestHandler(SingleQueryTestHandler::FAILURE, false); handler->ExecuteTest(); } // Test that a single query with cancellation. TEST(MessageRouterTest, SingleQueryCancel) { CefRefPtr handler = new SingleQueryTestHandler(SingleQueryTestHandler::CANCEL, true); handler->ExecuteTest(); } namespace { const int kSinglePersistentQueryResponseCount = 10; // Test a single persistent query in a single page load. class SinglePersistentQueryTestHandler : public SingleLoadTestHandler { public: enum TestType { SUCCESS, FAILURE, }; SinglePersistentQueryTestHandler(TestType test_type, bool sync_callback) : test_type_(test_type), sync_callback_(sync_callback), query_id_(0) {} virtual std::string GetMainHTML() OVERRIDE { std::string html; const std::string& responseCountStr = base::StringPrintf("%d", kSinglePersistentQueryResponseCount); const std::string& errorCodeStr = base::StringPrintf("%d", kSingleQueryErrorCode); html = ""; return html; } virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); if (test_type_ == SUCCESS) EXPECT_STREQ("success", message.c_str()); else if (test_type_ == FAILURE) EXPECT_STREQ("failure", message.c_str()); got_notify_.yes(); DestroyTestIfDone(); } void ExecuteCallback() { EXPECT_TRUE(callback_.get()); if (test_type_ == SUCCESS) { callback_->Success(kSingleQueryResponse); } else { callback_->Failure(kSingleQueryErrorCode, kSingleQueryErrorMessage); callback_ = NULL; } } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); EXPECT_NE(0, query_id); EXPECT_TRUE(persistent); EXPECT_STREQ(kSingleQueryRequest, request.ToString().c_str()); got_on_query_.yes(); query_id_ = query_id; callback_ = callback; int repeat = (test_type_ == SUCCESS ? kSinglePersistentQueryResponseCount : 1); for (int i = 0; i < repeat; ++i) { if (sync_callback_) { ExecuteCallback(); } else { CefPostTask(TID_UI, NewCefRunnableMethod(this, &SinglePersistentQueryTestHandler::ExecuteCallback)); } } return true; } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); EXPECT_EQ(query_id_, query_id); EXPECT_TRUE(got_on_query_); EXPECT_TRUE(callback_.get()); got_on_query_canceled_.yes(); callback_ = NULL; DestroyTestIfDone(); } void DestroyTestIfDone() { bool destroy_test = false; if (test_type_ == SUCCESS) { if (got_on_query_ && got_on_query_canceled_ && got_notify_) destroy_test = true; } else if (got_on_query_ && got_notify_) { destroy_test = true; } if (destroy_test) DestroyTest(); } virtual void DestroyTest() OVERRIDE { EXPECT_TRUE(got_notify_); EXPECT_TRUE(got_on_query_); EXPECT_FALSE(callback_.get()); if (test_type_ == SUCCESS) EXPECT_TRUE(got_on_query_canceled_); else EXPECT_FALSE(got_on_query_canceled_); TestHandler::DestroyTest(); } private: const TestType test_type_; const bool sync_callback_; int64 query_id_; CefRefPtr callback_; TrackCallback got_on_query_; TrackCallback got_on_query_canceled_; TrackCallback got_notify_; }; } // namespace // Test that a single query with successful result delivered synchronously. TEST(MessageRouterTest, SinglePersistentQuerySuccessSyncCallback) { CefRefPtr handler = new SinglePersistentQueryTestHandler( SinglePersistentQueryTestHandler::SUCCESS, true); handler->ExecuteTest(); } // Test that a single query with successful result delivered asynchronously. TEST(MessageRouterTest, SinglePersistentQuerySuccessAsyncCallback) { CefRefPtr handler = new SinglePersistentQueryTestHandler( SinglePersistentQueryTestHandler::SUCCESS, false); handler->ExecuteTest(); } // Test that a single query with failure result delivered synchronously. TEST(MessageRouterTest, SinglePersistentQueryFailureSyncCallback) { CefRefPtr handler = new SinglePersistentQueryTestHandler( SinglePersistentQueryTestHandler::FAILURE, true); handler->ExecuteTest(); } // Test that a single query with failure result delivered asynchronously. TEST(MessageRouterTest, SinglePersistentQueryFailureAsyncCallback) { CefRefPtr handler = new SinglePersistentQueryTestHandler( SinglePersistentQueryTestHandler::FAILURE, false); handler->ExecuteTest(); } namespace { // Test a single unhandled query in a single page load. class SingleUnhandledQueryTestHandler : public SingleLoadTestHandler { public: SingleUnhandledQueryTestHandler() {} virtual std::string GetMainHTML() OVERRIDE { std::string html; html = ""; return html; } virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); EXPECT_STREQ("failure", message.c_str()); got_notify_.yes(); DestroyTest(); } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); EXPECT_NE(0, query_id); EXPECT_FALSE(persistent); EXPECT_STREQ(kSingleQueryRequest, request.ToString().c_str()); got_on_query_.yes(); return false; } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { EXPECT_FALSE(true); // Not reached. } virtual void DestroyTest() OVERRIDE { EXPECT_TRUE(got_on_query_); EXPECT_TRUE(got_notify_); TestHandler::DestroyTest(); } private: TrackCallback got_on_query_; TrackCallback got_notify_; }; } // namespace // Test that a single unhandled query results in a call to onFailure. TEST(MessageRouterTest, SingleUnhandledQuery) { CefRefPtr handler = new SingleUnhandledQueryTestHandler(); handler->ExecuteTest(); } namespace { const char kMultiQueryRequestId[] = "request_id"; const char kMultiQueryRepeatCt[] = "repeat_ct"; const char kMultiQueryRequest[] = "request"; const char kMultiQueryResponse[] = "response"; const char kMultiQuerySuccess[] = "success"; const char kMultiQueryError[] = "error"; const char kMultiQueryErrorMessage[] = "errormsg"; const int kMultiQueryPersistentResponseCount = 5; // Generates HTML and verifies results for multiple simultanious queries. class MultiQueryManager : public CefMessageRouterBrowserSide::Handler { public: enum TestType { // Initiates a non-persistent query with a successful response. // OnQuery and OnNotify will be called. SUCCESS, // Initiates a non-persistent query with a failure response. // OnQuery and OnNotify will be called. FAILURE, // Initiates a persistent query with multiple successful responses. // OnQuery, OnNotify and OnQueryCanceled will be called. PERSISTENT_SUCCESS, // Initiates a persistent query with multiple successful responses and one // failure response. // OnQuery and OnNotify will be called. PERSISTENT_FAILURE, // Initiates a non-persistent query that will be canceled via JavaScript. // No JavaScript callbacks will be executed. // OnQuery and OnQueryCanceled will be called. CANCEL, // Initiates a non-persistent query that will not be manually canceled. // No JavaScript callbacks will be executed. // OnQuery and OnQueryCanceled will be called. AUTOCANCEL, // Initiates a persistent query with multiple successful responses that will // not be manually canceled. // OnQuery, OnNotify and OnQueryCanceled will be called. PERSISTENT_AUTOCANCEL, }; class Observer { public: // Called when all manual queries are complete. virtual void OnManualQueriesCompleted(MultiQueryManager* manager) {} // Called when all queries are complete. virtual void OnAllQueriesCompleted(MultiQueryManager* manager) {} protected: virtual ~Observer() {} }; MultiQueryManager(const std::string& label, bool synchronous, int id_offset = 0) : label_(label), synchronous_(synchronous), id_offset_(id_offset), finalized_(false), running_(false), manual_total_(0), received_count_(0), manual_complete_count_(0), auto_complete_count_(0), will_cancel_by_removing_handler_(false), weak_ptr_factory_(this) { } virtual ~MultiQueryManager() {} void AddObserver(Observer* observer) { EXPECT_FALSE(running_); observer_set_.insert(observer); } void RemoveObserver(Observer* observer) { EXPECT_FALSE(running_); EXPECT_TRUE(observer_set_.erase(observer)); } // Can be called from any thread, but should always be called from the same // thread. void AddTestQuery(TestType type) { EXPECT_FALSE(finalized_); test_query_vector_.push_back(TestQuery(type)); if (!IsAuto(type)) manual_total_++; } // Must be called after AddTestQuery and before the manager is used. void Finalize() { EXPECT_FALSE(finalized_); finalized_ = true; } // Call after all manual queries have completed if you intend to cancel auto // queries by removing the handler. void WillCancelByRemovingHandler() { EXPECT_TRUE(IsManualComplete()); will_cancel_by_removing_handler_ = true; } std::string GetHTML(bool assert_total, bool assert_browser) const { EXPECT_TRUE(finalized_); EXPECT_FALSE(running_); std::string html; html = "" + label_ + ""; return html; } void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) { EXPECT_TRUE(finalized_); EXPECT_UI_THREAD(); if (!running_) running_ = true; EXPECT_TRUE(browser.get()); EXPECT_TRUE(frame.get()); std::string value; int index; EXPECT_TRUE(SplitIDString(message, &value, &index)); TestQuery& query = test_query_vector_[index]; // Verify that browser and frame are the same. EXPECT_EQ(query.browser_id, browser->GetIdentifier()) << index; EXPECT_EQ(query.frame_id, frame->GetIdentifier()) << index; // Verify a successful/expected result. if (will_cancel_by_removing_handler_) { // Auto queries receive an onFailure callback which will notify with error // when the handler is removed. EXPECT_STREQ(kMultiQueryError, value.c_str()) << index; EXPECT_TRUE(IsAuto(query.type)) << index; EXPECT_TRUE(query.got_query) << index; if (query.type == PERSISTENT_AUTOCANCEL) EXPECT_TRUE(query.got_success) << index; else EXPECT_FALSE(query.got_success) << index; query.got_error.yes(); // There's a race between OnQueryCanceled and OnNotification. Only call // OnQueryCompleted a single time. if (query.got_query_canceled) OnQueryCompleted(query.type); } else { EXPECT_STREQ(kMultiQuerySuccess, value.c_str()) << index; EXPECT_TRUE(WillNotify(query.type)) << index; EXPECT_TRUE(query.got_query) << index; EXPECT_FALSE(query.got_query_canceled) << index; EXPECT_FALSE(query.got_success) << index; query.got_success.yes(); // PERSISTENT_AUTOCANCEL doesn't call OnReceiveCompleted from OnQuery. if (query.type == PERSISTENT_AUTOCANCEL) OnReceiveCompleted(query.type); // Call OnQueryCompleted for types that don't get OnQueryCanceled. if (!WillCancel(query.type)) OnQueryCompleted(query.type); } } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { EXPECT_TRUE(finalized_); EXPECT_UI_THREAD(); if (!running_) running_ = true; EXPECT_TRUE(browser.get()); EXPECT_TRUE(frame.get()); EXPECT_NE(0, query_id); std::string value; int index; EXPECT_TRUE(SplitIDString(request, &value, &index)); TestQuery& query = test_query_vector_[index]; if (IsPersistent(query.type)) EXPECT_TRUE(persistent); else EXPECT_FALSE(persistent); // Verify expected request. EXPECT_STREQ(kMultiQueryRequest, value.c_str()) << index; // Verify that call order is correct. EXPECT_FALSE(query.got_query) << index; EXPECT_FALSE(query.got_query_canceled) << index; EXPECT_FALSE(query.got_success) << index; EXPECT_FALSE(query.got_error) << index; query.got_query.yes(); query.browser_id = browser->GetIdentifier(); query.frame_id = frame->GetIdentifier(); if (query.type == SUCCESS) { // Send the single success response. callback->Success(GetIDString(kMultiQueryResponse, index)); } else if (IsPersistent(query.type)) { // Send the required number of successful responses. const std::string& response = GetIDString(kMultiQueryResponse, index); for (int i = 0; i < kMultiQueryPersistentResponseCount; ++i) callback->Success(response); } if (WillFail(query.type)) { // Send the single failure response. callback->Failure(index, GetIDString(kMultiQueryErrorMessage, index)); } if (WillCancel(query.type)) { // Hold onto the callback until the query is canceled. query.query_id = query_id; query.callback = callback; } // PERSISTENT_AUTOCANCEL will call OnReceiveCompleted once the success // notification is received. if (query.type != PERSISTENT_AUTOCANCEL) OnReceiveCompleted(query.type); return true; } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { EXPECT_TRUE(finalized_); EXPECT_UI_THREAD(); if (!running_) running_ = true; EXPECT_TRUE(browser.get()); EXPECT_TRUE(frame.get()); EXPECT_NE(0, query_id); bool found = false; for (size_t i = 0; i < test_query_vector_.size(); ++i) { TestQuery& query = test_query_vector_[i]; if (query.query_id == query_id) { // Verify that browser and frame are the same. EXPECT_EQ(query.browser_id, browser->GetIdentifier()) << i; EXPECT_EQ(query.frame_id, frame->GetIdentifier()) << i; // Verify a successful/expected result. EXPECT_TRUE(WillCancel(query.type)) << i; EXPECT_TRUE(query.callback) << i; // Release the callback. query.callback = NULL; // Verify that call order is correct. EXPECT_TRUE(query.got_query) << i; if (query.type == CANCEL || query.type == AUTOCANCEL) { // No JavaScript onSuccess callback executes. EXPECT_FALSE(query.got_success) << i; } else { // JavaScript onSuccess does execute before cancellation. EXPECT_TRUE(query.got_success) << i; } query.got_query_canceled.yes(); if (will_cancel_by_removing_handler_) { // There's a race between OnQueryCanceled and OnNotification. Only // call OnQueryCompleted a single time. if (query.got_error) OnQueryCompleted(query.type); } else { EXPECT_FALSE(query.got_error) << i; // Cancellation is always completion. OnQueryCompleted(query.type); } found = true; break; } } EXPECT_TRUE(found); } // Asserts that all queries have completed. void AssertAllComplete() const { EXPECT_TRUE(finalized_); EXPECT_FALSE(running_); EXPECT_UI_THREAD(); for (size_t i = 0; i < test_query_vector_.size(); ++i) { const TestQuery& query = test_query_vector_[i]; EXPECT_TRUE(query.got_query) << i; if (WillCancel(query.type)) EXPECT_TRUE(query.got_query_canceled) << i; else EXPECT_FALSE(query.got_query_canceled) << i; if (WillNotify(query.type)) EXPECT_TRUE(query.got_success) << i; else EXPECT_FALSE(query.got_success) << i; if (IsAuto(query.type) && will_cancel_by_removing_handler_) EXPECT_TRUE(query.got_error); else EXPECT_FALSE(query.got_error); EXPECT_FALSE(query.callback) << i; } } // Returns true if all manual queries have completed. bool IsManualComplete() const { EXPECT_TRUE(finalized_); EXPECT_UI_THREAD(); return (manual_complete_count_ == manual_total_); } // Returns true if all queries have completed. bool IsAllComplete() const { EXPECT_TRUE(finalized_); EXPECT_UI_THREAD(); return (manual_complete_count_ + auto_complete_count_ == static_cast(test_query_vector_.size())); } bool HasAutoQueries() const { return (manual_total_ != static_cast(test_query_vector_.size())); } private: struct TestQuery { explicit TestQuery(TestType test_type) : type(test_type), browser_id(0), frame_id(0), query_id(0) {} TestType type; // Set in OnQuery and verified in OnNotify or OnQueryCanceled. int browser_id; int64 frame_id; // Used when a query is canceled. int64 query_id; CefRefPtr callback; TrackCallback got_query; TrackCallback got_query_canceled; TrackCallback got_success; TrackCallback got_error; }; class NotifyTask : public CefTask { public: NotifyTask(base::WeakPtr weak_ptr, bool notify_all) : weak_ptr_(weak_ptr), notify_all_(notify_all) {} virtual void Execute() OVERRIDE { if (weak_ptr_) { if (notify_all_) weak_ptr_->NotifyAllQueriesCompleted(); else weak_ptr_->NotifyManualQueriesCompleted(); } } private: base::WeakPtr weak_ptr_; const bool notify_all_; IMPLEMENT_REFCOUNTING(NotifyTask); }; static bool IsAuto(TestType type) { return (type == AUTOCANCEL || type == PERSISTENT_AUTOCANCEL); } static bool IsPersistent(TestType type) { return (type == PERSISTENT_SUCCESS || type == PERSISTENT_FAILURE || type == PERSISTENT_AUTOCANCEL); } static bool WillFail(TestType type) { return (type == FAILURE || type == PERSISTENT_FAILURE); } static bool WillCancel(TestType type) { return (type == PERSISTENT_SUCCESS || type == CANCEL || type == AUTOCANCEL || type == PERSISTENT_AUTOCANCEL); } static bool WillNotify(TestType type) { return (type == SUCCESS || type == PERSISTENT_SUCCESS || type == FAILURE || type == PERSISTENT_FAILURE || type == PERSISTENT_AUTOCANCEL); } void OnReceiveCompleted(TestType type) { const int total_count = static_cast(test_query_vector_.size()); if (++received_count_ == total_count && manual_total_ == 0) { // There aren't any manual queries so notify here. CefPostTask(TID_UI, new NotifyTask(weak_ptr_factory_.GetWeakPtr(), false)); } } void OnQueryCompleted(TestType type) { const int total_count = static_cast(test_query_vector_.size()); EXPECT_LT(manual_complete_count_ + auto_complete_count_, total_count); EXPECT_LE(manual_complete_count_, manual_total_); const bool is_auto = IsAuto(type); if (is_auto) auto_complete_count_++; else if (++manual_complete_count_ == manual_total_) { CefPostTask(TID_UI, new NotifyTask(weak_ptr_factory_.GetWeakPtr(), false)); } if (auto_complete_count_ + manual_complete_count_ == total_count) { running_ = false; CefPostTask(TID_UI, new NotifyTask(weak_ptr_factory_.GetWeakPtr(), true)); } } void NotifyManualQueriesCompleted() { if (observer_set_.empty()) return; // Use a copy of the set in case an Observer is removed while we're // iterating. ObserverSet observer_set = observer_set_; ObserverSet::const_iterator it = observer_set.begin(); for (; it != observer_set.end(); ++it) { (*it)->OnManualQueriesCompleted(this); } } void NotifyAllQueriesCompleted() { if (observer_set_.empty()) return; // Use a copy of the set in case an Observer is removed while we're // iterating. ObserverSet observer_set = observer_set_; ObserverSet::const_iterator it = observer_set.begin(); for (; it != observer_set.end(); ++it) { (*it)->OnAllQueriesCompleted(this); } } std::string GetQueryHTML(const int index, const TestQuery& query) const { const std::string& request_id_var = GetIDString(kMultiQueryRequestId, index); const std::string& repeat_ct_var = GetIDString(kMultiQueryRepeatCt, index); const std::string& request_val = GetIDString(std::string(kMultiQueryRequest) + ":", index); const std::string& success_val = GetIDString(std::string(kMultiQuerySuccess) + ":", index); const std::string& error_val = GetIDString(std::string(kMultiQueryError) + ":", index); std::string html; const bool persistent = IsPersistent(query.type); if (persistent) html += "var " + repeat_ct_var + " = 0;\n"; html += "var " + request_id_var + " = window.mrtQuery({\n" " request: '" + request_val + "',\n" " persistent: " + (persistent ? "true" : "false") + ",\n"; if (query.type == SUCCESS) { const std::string& response_val = GetIDString(kMultiQueryResponse, index); html += " onSuccess: function(response) {\n" " if (response == '" + response_val + "')\n" " window.mrtNotify('" + success_val + "');\n" " else\n" " window.mrtNotify('" + error_val + "');\n" " },\n" " onFailure: function(error_code, error_message) {\n" " window.mrtNotify('" + error_val + "');\n" " }\n"; } else if (query.type == FAILURE) { const std::string& error_code_val = GetIntString(index); const std::string& error_message_val = GetIDString(kMultiQueryErrorMessage, index); html += " onSuccess: function(response) {\n" " window.mrtNotify('" + error_val + "');\n" " },\n" " onFailure: function(error_code, error_message) {\n" " if (error_code == " + error_code_val + " && error_message == '" + error_message_val + "')\n" " window.mrtNotify('" + success_val + "');\n" " else\n" " window.mrtNotify('" + error_val + "');\n" " }\n"; } else if (query.type == PERSISTENT_SUCCESS || query.type == PERSISTENT_AUTOCANCEL) { const std::string& response_val = GetIDString(kMultiQueryResponse, index); const std::string& repeat_ct = GetIntString(kMultiQueryPersistentResponseCount); html += " onSuccess: function(response) {\n" " if (response == '" + response_val + "') {\n" // Should get repeat_ct number of successful responses. " if (++" + repeat_ct_var + " == " + repeat_ct + ") {\n" " window.mrtNotify('" + success_val + "');\n"; if (query.type == PERSISTENT_SUCCESS) { // Manually cancel the request. html += " window.mrtQueryCancel(" + request_id_var + ");\n"; } html += " }\n" " } else {\n" " window.mrtNotify('" + error_val + "');\n" " }\n" " },\n" " onFailure: function(error_code, error_message) {\n" " window.mrtNotify('" + error_val + "');\n" " }\n"; } else if (query.type == PERSISTENT_FAILURE) { const std::string& error_code_val = GetIntString(index); const std::string& error_message_val = GetIDString(kMultiQueryErrorMessage, index); const std::string& repeat_ct = GetIntString(kMultiQueryPersistentResponseCount); html += " onSuccess: function(response) {\n" // Should get some successful responses before failure. " if (++" + repeat_ct_var + " > " + repeat_ct + ") {\n" " window.mrtNotify('" + error_val + "');\n" " }\n" " },\n" " onFailure: function(error_code, error_message) {\n" " if (error_code == " + error_code_val + " && error_message == '" + error_message_val + "'" " && " + repeat_ct_var + " == " + repeat_ct + ")\n" " window.mrtNotify('" + success_val + "');\n" " else\n" " window.mrtNotify('" + error_val + "');\n" " }\n"; } else if (query.type == CANCEL || query.type == AUTOCANCEL) { html += " onSuccess: function(response) {\n" " window.mrtNotify('" + error_val + "');\n" " },\n" " onFailure: function(error_code, error_message) {\n" " window.mrtNotify('" + error_val + "');\n" " }\n"; } html += "});\n"; return html; } std::string GetCancelHTML(const int index, const TestQuery& query) const { const std::string& request_id_var = GetIDString(kMultiQueryRequestId, index); return "window.mrtQueryCancel(" + request_id_var + ");\n"; } std::string GetIDString(const std::string& prefix, int index) const { EXPECT_TRUE(!prefix.empty()); return base::StringPrintf("%s%d", prefix.c_str(), GetIDFromIndex(index)); } bool SplitIDString(const std::string& str, std::string* value, int* index) const { size_t pos = str.find(':'); if (pos != std::string::npos) { *value = str.substr(0, pos); *index = GetIndexFromID(atoi(str.substr(pos+1).c_str())); return (*index >= 0 && *index < static_cast(test_query_vector_.size())); } return false; } std::string GetIntString(int val) const { return base::StringPrintf("%d", val); } int GetIDFromIndex(int index) const { return id_offset_ + index; } int GetIndexFromID(int id) const { return id - id_offset_; } const std::string label_; const bool synchronous_; const int id_offset_; typedef std::vector TestQueryVector; TestQueryVector test_query_vector_; typedef std::set ObserverSet; ObserverSet observer_set_; // Set to true after all queries have been added. bool finalized_; // Set to true while queries are pending. bool running_; // Total number of queries that will manually complete. int manual_total_; // Number of queries that have been received. int received_count_; // Number of queries that have completed successfully. int manual_complete_count_; int auto_complete_count_; // If true any pending queries will receive an onFailure callback in addition // to be canceled. bool will_cancel_by_removing_handler_; // Should always be the last member. base::WeakPtrFactory weak_ptr_factory_; }; void MakeTestQueries(MultiQueryManager* manager, bool some, int many_count = 200) { if (some) { // Test some queries of arbitrary types. // Use a hard-coded list so the behavior is deterministic across test runs. MultiQueryManager::TestType types[] = { MultiQueryManager::PERSISTENT_AUTOCANCEL, MultiQueryManager::SUCCESS, MultiQueryManager::AUTOCANCEL, MultiQueryManager::PERSISTENT_FAILURE, MultiQueryManager::CANCEL, MultiQueryManager::FAILURE, MultiQueryManager::AUTOCANCEL, MultiQueryManager::SUCCESS, MultiQueryManager::PERSISTENT_SUCCESS, MultiQueryManager::SUCCESS, MultiQueryManager::PERSISTENT_AUTOCANCEL, MultiQueryManager::CANCEL, MultiQueryManager::PERSISTENT_SUCCESS, MultiQueryManager::FAILURE, }; for (size_t i = 0; i < sizeof(types) / sizeof(types[0]); ++i) { manager->AddTestQuery(types[i]); } } else { // Test every type of query. for (int i = 0; i < many_count; ++i) { MultiQueryManager::TestType type; switch (i % 7) { case 0: type = MultiQueryManager::SUCCESS; break; case 1: type = MultiQueryManager::FAILURE; break; case 2: type = MultiQueryManager::PERSISTENT_SUCCESS; break; case 3: type = MultiQueryManager::PERSISTENT_FAILURE; break; case 4: type = MultiQueryManager::CANCEL; break; case 5: type = MultiQueryManager::AUTOCANCEL; break; case 6: type = MultiQueryManager::PERSISTENT_AUTOCANCEL; break; } manager->AddTestQuery(type); } } manager->Finalize(); } // Test multiple queries in a single page load with a single frame. class MultiQuerySingleFrameTestHandler : public SingleLoadTestHandler, public MultiQueryManager::Observer { public: enum CancelType { CANCEL_BY_NAVIGATION, CANCEL_BY_REMOVING_HANDLER, CANCEL_BY_CLOSING_BROWSER, }; MultiQuerySingleFrameTestHandler( bool synchronous, CancelType cancel_type = CANCEL_BY_NAVIGATION) : manager_(std::string(), synchronous), cancel_type_(cancel_type) { manager_.AddObserver(this); } virtual std::string GetMainHTML() OVERRIDE { return manager_.GetHTML(true, true); } virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); manager_.OnNotify(browser, frame, message); } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); return manager_.OnQuery(browser, frame, query_id, request, persistent, callback); } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); manager_.OnQueryCanceled(browser, frame, query_id); } virtual void OnManualQueriesCompleted(MultiQueryManager* manager) OVERRIDE { EXPECT_EQ(manager, &manager_); if (manager_.HasAutoQueries()) { if (cancel_type_ == CANCEL_BY_NAVIGATION) { // Navigate somewhere else to terminate the auto queries. GetBrowser()->GetMainFrame()->LoadURL( std::string(kTestDomain1) + "cancel.html"); } else if (cancel_type_ == CANCEL_BY_REMOVING_HANDLER) { // Change the expected behavior in the manager. manager_.WillCancelByRemovingHandler(); GetRouter()->RemoveHandler(this); // All queries should be immediately canceled. AssertQueryCount(NULL, NULL, 0); } else if (cancel_type_ == CANCEL_BY_CLOSING_BROWSER) { // Change the expected behavior in the handler. SetSignalCompletionWhenAllBrowsersClose(false); GetBrowser()->GetHost()->CloseBrowser(false); } } } virtual void OnAllQueriesCompleted(MultiQueryManager* manager) OVERRIDE { EXPECT_EQ(manager, &manager_); // All queries should be canceled. AssertQueryCount(NULL, NULL, 0); DestroyTest(); if (!SignalCompletionWhenAllBrowsersClose()) { // Complete asynchronously so the call stack has a chance to unwind. CefPostTask(TID_UI, NewCefRunnableMethod(this, &MultiQuerySingleFrameTestHandler::TestComplete)); } } virtual void DestroyTest() OVERRIDE { manager_.AssertAllComplete(); TestHandler::DestroyTest(); } MultiQueryManager* GetManager() { return &manager_; } private: MultiQueryManager manager_; const CancelType cancel_type_; }; } // namespace #define MULTI_QUERY_SINGLE_FRAME_TYPE_TEST(name, type, synchronous) \ TEST(MessageRouterTest, name) { \ CefRefPtr handler = \ new MultiQuerySingleFrameTestHandler(synchronous); \ MultiQueryManager* manager = handler->GetManager(); \ manager->AddTestQuery(MultiQueryManager::type); \ manager->Finalize(); \ handler->ExecuteTest(); \ } // Test the query types individually. MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameSyncSuccess, SUCCESS, true); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameAsyncSuccess, SUCCESS, false); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameSyncFailure, FAILURE, true); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameAsyncFailure, FAILURE, false); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameSyncPersistentSuccess, PERSISTENT_SUCCESS, true); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameAsyncPersistentSuccess, PERSISTENT_SUCCESS, false); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameSyncPersistentFailure, PERSISTENT_FAILURE, true); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameAsyncPersistentFailure, PERSISTENT_FAILURE, false); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameCancel, CANCEL, true); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFrameAutoCancel, AUTOCANCEL, true); MULTI_QUERY_SINGLE_FRAME_TYPE_TEST( MultiQuerySingleFramePersistentAutoCancel, PERSISTENT_AUTOCANCEL, true); // Test that one frame can run some queries successfully in a synchronous // manner. TEST(MessageRouterTest, MultiQuerySingleFrameSyncSome) { CefRefPtr handler = new MultiQuerySingleFrameTestHandler(true); MakeTestQueries(handler->GetManager(), true); handler->ExecuteTest(); } // Test that one frame can run some queries successfully in an asynchronous // manner. TEST(MessageRouterTest, MultiQuerySingleFrameAsyncSome) { CefRefPtr handler = new MultiQuerySingleFrameTestHandler(false); MakeTestQueries(handler->GetManager(), true); handler->ExecuteTest(); } // Test that one frame can run many queries successfully in a synchronous // manner. TEST(MessageRouterTest, MultiQuerySingleFrameSyncMany) { CefRefPtr handler = new MultiQuerySingleFrameTestHandler(true); MakeTestQueries(handler->GetManager(), false); handler->ExecuteTest(); } // Test that one frame can run many queries successfully in an asynchronous // manner. TEST(MessageRouterTest, MultiQuerySingleFrameAsyncMany) { CefRefPtr handler = new MultiQuerySingleFrameTestHandler(false); MakeTestQueries(handler->GetManager(), false); handler->ExecuteTest(); } // Test that pending queries can be canceled by removing the handler. TEST(MessageRouterTest, MultiQuerySingleFrameCancelByRemovingHandler) { CefRefPtr handler = new MultiQuerySingleFrameTestHandler(false, MultiQuerySingleFrameTestHandler::CANCEL_BY_REMOVING_HANDLER); MakeTestQueries(handler->GetManager(), false); handler->ExecuteTest(); } // Test that pending queries can be canceled by closing the browser. TEST(MessageRouterTest, MultiQuerySingleFrameCancelByClosingBrowser) { CefRefPtr handler = new MultiQuerySingleFrameTestHandler(false, MultiQuerySingleFrameTestHandler::CANCEL_BY_CLOSING_BROWSER); MakeTestQueries(handler->GetManager(), false); handler->ExecuteTest(); } namespace { // Test multiple handlers. class MultiQueryMultiHandlerTestHandler : public SingleLoadTestHandler, public MultiQueryManager::Observer { public: class Handler : public CefMessageRouterBrowserSide::Handler { public: Handler(MultiQueryMultiHandlerTestHandler* test_handler, int index) : test_handler_(test_handler), index_(index), query_id_(0) { } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { // Each handler only handles a single request. const std::string& handled_request = base::StringPrintf("%s:%d", kMultiQueryRequest, index_); if (request != handled_request) return false; // Verify that handlers are called in the correct order. if (index_ == 0) { EXPECT_FALSE(test_handler_->got_query0_); EXPECT_FALSE(test_handler_->got_query1_); EXPECT_FALSE(test_handler_->got_query2_); test_handler_->got_query0_.yes(); } else if (index_ == 1) { EXPECT_TRUE(test_handler_->got_query0_); EXPECT_FALSE(test_handler_->got_query1_); EXPECT_FALSE(test_handler_->got_query2_); test_handler_->got_query1_.yes(); } else if (index_ == 2) { EXPECT_TRUE(test_handler_->got_query0_); EXPECT_TRUE(test_handler_->got_query1_); EXPECT_FALSE(test_handler_->got_query2_); test_handler_->got_query2_.yes(); } query_id_ = query_id; return test_handler_->OnQuery(browser, frame, query_id, request, persistent, callback); } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { // Verify that the correct handler is called for cancellation. EXPECT_EQ(query_id_, query_id); if (index_ == 0) { EXPECT_FALSE(test_handler_->got_query_canceled0_); test_handler_->got_query_canceled0_.yes(); } else if (index_ == 1) { EXPECT_FALSE(test_handler_->got_query_canceled1_); test_handler_->got_query_canceled1_.yes(); } else if (index_ == 2) { EXPECT_FALSE(test_handler_->got_query_canceled2_); test_handler_->got_query_canceled2_.yes(); } test_handler_->OnQueryCanceled(browser, frame, query_id); } private: MultiQueryMultiHandlerTestHandler* test_handler_; const int index_; int query_id_; }; MultiQueryMultiHandlerTestHandler(bool synchronous, bool cancel_by_removing_handler) : manager_(std::string(), synchronous, 0), handler0_(this, 0), handler1_(this, 1), handler2_(this, 2), cancel_by_removing_handler_(cancel_by_removing_handler) { manager_.AddObserver(this); // Each handler will handle one of the queries. manager_.AddTestQuery(MultiQueryManager::PERSISTENT_AUTOCANCEL); manager_.AddTestQuery(MultiQueryManager::PERSISTENT_AUTOCANCEL); manager_.AddTestQuery(MultiQueryManager::PERSISTENT_AUTOCANCEL); manager_.Finalize(); } virtual std::string GetMainHTML() OVERRIDE { return manager_.GetHTML(true, true); } virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); manager_.OnNotify(browser, frame, message); } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); return manager_.OnQuery(browser, frame, query_id, request, persistent, callback); } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { AssertMainBrowser(browser); AssertMainFrame(frame); manager_.OnQueryCanceled(browser, frame, query_id); } virtual void OnManualQueriesCompleted(MultiQueryManager* manager) OVERRIDE { EXPECT_EQ(manager, &manager_); EXPECT_TRUE(got_query0_); EXPECT_TRUE(got_query1_); EXPECT_TRUE(got_query2_); EXPECT_FALSE(got_query_canceled0_); EXPECT_FALSE(got_query_canceled1_); EXPECT_FALSE(got_query_canceled2_); EXPECT_TRUE(manager_.HasAutoQueries()); CefMessageRouterBrowserSide* router = GetRouter(); // Remove one handler to cancel a query. if (cancel_by_removing_handler_) { manager_.WillCancelByRemovingHandler(); // Each query should be canceled as the handler is removed. EXPECT_TRUE(router->RemoveHandler(&handler1_)); EXPECT_FALSE(got_query_canceled0_); EXPECT_TRUE(got_query_canceled1_); EXPECT_FALSE(got_query_canceled2_); EXPECT_TRUE(router->RemoveHandler(&handler2_)); EXPECT_FALSE(got_query_canceled0_); EXPECT_TRUE(got_query_canceled2_); EXPECT_TRUE(router->RemoveHandler(&handler0_)); EXPECT_TRUE(got_query_canceled0_); } else { GetBrowser()->GetMainFrame()->LoadURL( std::string(kTestDomain1) + "cancel.html"); } } virtual void OnAllQueriesCompleted(MultiQueryManager* manager) OVERRIDE { EXPECT_EQ(manager, &manager_); // All queries should be canceled. AssertQueryCount(NULL, NULL, 0); DestroyTest(); } virtual void DestroyTest() OVERRIDE { EXPECT_TRUE(got_query0_); EXPECT_TRUE(got_query1_); EXPECT_TRUE(got_query2_); EXPECT_TRUE(got_query_canceled0_); EXPECT_TRUE(got_query_canceled1_); EXPECT_TRUE(got_query_canceled2_); manager_.AssertAllComplete(); TestHandler::DestroyTest(); } protected: virtual void AddHandlers( CefRefPtr message_router) OVERRIDE { // OnQuery call order will verify that the first/last ordering works as // expected. EXPECT_TRUE(message_router->AddHandler(&handler1_, true)); EXPECT_TRUE(message_router->AddHandler(&handler0_, true)); EXPECT_TRUE(message_router->AddHandler(&handler2_, false)); // Can't add the same handler multiple times. EXPECT_FALSE(message_router->AddHandler(&handler1_, true)); } private: MultiQueryManager manager_; Handler handler0_; Handler handler1_; Handler handler2_; const bool cancel_by_removing_handler_; TrackCallback got_query0_; TrackCallback got_query1_; TrackCallback got_query2_; TrackCallback got_query_canceled0_; TrackCallback got_query_canceled1_; TrackCallback got_query_canceled2_; }; } // namespace // Test that multiple handlers behave correctly. TEST(MessageRouterTest, MultiQueryMultiHandler) { CefRefPtr handler = new MultiQueryMultiHandlerTestHandler(false, false); handler->ExecuteTest(); } // Test that multiple handlers behave correctly. Cancel by removing the // handlers. TEST(MessageRouterTest, MultiQueryMultiHandlerCancelByRemovingHandler) { CefRefPtr handler = new MultiQueryMultiHandlerTestHandler(false, true); handler->ExecuteTest(); } namespace { // Map of managers on a per-URL basis. class MultiQueryManagerMap : public CefMessageRouterBrowserSide::Handler, public MultiQueryManager::Observer { public: class Observer { public: // Called when all manual queries are complete. virtual void OnMapManualQueriesCompleted(MultiQueryManagerMap* map) {} // Called when all queries are complete. virtual void OnMapAllQueriesCompleted(MultiQueryManagerMap* map) {} protected: virtual ~Observer() {} }; MultiQueryManagerMap() : finalized_(false), running_(false), manual_complete_count_(0), total_complete_count_(0) { } virtual ~MultiQueryManagerMap() { RemoveAllManagers(); } void AddObserver(Observer* observer) { EXPECT_FALSE(running_); observer_set_.insert(observer); } void RemoveObserver(Observer* observer) { EXPECT_FALSE(running_); EXPECT_TRUE(observer_set_.erase(observer)); } MultiQueryManager* CreateManager(const std::string& url, bool synchronous) { EXPECT_FALSE(finalized_); // The sub-frame resource should not already exist. URLManagerMap::const_iterator it = manager_map_.find(url); EXPECT_EQ(it, manager_map_.end()); MultiQueryManager* manager = new MultiQueryManager(url, synchronous, static_cast(manager_map_.size()) * 1000); manager->AddObserver(this); manager_map_.insert(std::make_pair(url, manager)); return manager; } void Finalize() { EXPECT_FALSE(finalized_); finalized_ = true; } std::string GetMainHTML() const { EXPECT_TRUE(finalized_); EXPECT_FALSE(running_); std::string html = "\n"; URLManagerMap::const_iterator it = manager_map_.begin(); for (; it != manager_map_.end(); ++it) { const std::string& name = GetNameForURL(it->first); html += "\n"; } html += ""; return html; } void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) { EXPECT_TRUE(finalized_); if (!running_) running_ = true; MultiQueryManager* manager = GetManager(browser, frame); manager->OnNotify(browser, frame, message); } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { EXPECT_TRUE(finalized_); if (!running_) running_ = true; MultiQueryManager* manager = GetManager(browser, frame); return manager->OnQuery(browser, frame, query_id, request, persistent, callback); } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { EXPECT_TRUE(finalized_); if (!running_) running_ = true; MultiQueryManager* manager = GetManager(browser, frame); manager->OnQueryCanceled(browser, frame, query_id); } virtual void OnManualQueriesCompleted(MultiQueryManager* manager) OVERRIDE { const int size = static_cast(manager_map_.size()); EXPECT_LT(manual_complete_count_, size); if (++manual_complete_count_ == size) { running_ = false; // Notify observers. if (!observer_set_.empty()) { // Use a copy of the set in case an Observer is removed while we're // iterating. ObserverSet observer_set = observer_set_; ObserverSet::const_iterator it = observer_set.begin(); for (; it != observer_set.end(); ++it) { (*it)->OnMapManualQueriesCompleted(this); } } } } virtual void OnAllQueriesCompleted(MultiQueryManager* manager) OVERRIDE { const int size = static_cast(manager_map_.size()); EXPECT_LT(total_complete_count_, size); if (++total_complete_count_ == size) { running_ = false; // Notify observers. if (!observer_set_.empty()) { // Use a copy of the set in case an Observer is removed while we're // iterating. ObserverSet observer_set = observer_set_; ObserverSet::const_iterator it = observer_set.begin(); for (; it != observer_set.end(); ++it) { (*it)->OnMapAllQueriesCompleted(this); } } } } bool AllComplete() const { EXPECT_TRUE(finalized_); URLManagerMap::const_iterator it = manager_map_.begin(); for (; it != manager_map_.end(); ++it) { if (!it->second->IsAllComplete()) return false; } return true; } void AssertAllComplete() const { EXPECT_TRUE(finalized_); EXPECT_FALSE(running_); URLManagerMap::const_iterator it = manager_map_.begin(); for (; it != manager_map_.end(); ++it) it->second->AssertAllComplete(); } bool HasAutoQueries() const { if (manager_map_.empty()) return false; URLManagerMap::const_iterator it = manager_map_.begin(); for (; it != manager_map_.end(); ++it) { if (it->second->HasAutoQueries()) return true; } return false; } MultiQueryManager* GetManager(CefRefPtr browser, CefRefPtr frame) const { const std::string& url = frame->GetURL(); URLManagerMap::const_iterator it = manager_map_.find(url); EXPECT_NE(it, manager_map_.end()); return it->second; } void RemoveAllManagers() { if (manager_map_.empty()) return; URLManagerMap::const_iterator it = manager_map_.begin(); for (; it != manager_map_.end(); ++it) delete it->second; manager_map_.clear(); } std::string GetURLForManager(MultiQueryManager* manager) const { if (!manager_map_.empty()) { URLManagerMap::const_iterator it = manager_map_.begin(); for (; it != manager_map_.end(); ++it) { if (it->second == manager) return it->first; } } return std::string(); } static std::string GetNameForURL(const std::string& url) { // Extract the file name without extension. int pos1 = static_cast(url.rfind("/")); int pos2 = static_cast(url.rfind(".")); EXPECT_TRUE(pos1 >= 0 && pos2 >= 0 && pos1 < pos2); return url.substr(pos1 + 1, pos2 - pos1 - 1); } private: // Map of page URL to MultiQueryManager instance. typedef std::map URLManagerMap; URLManagerMap manager_map_; typedef std::set ObserverSet; ObserverSet observer_set_; // Set to true after all query managers have been added. bool finalized_; // Set to true while queries are pending. bool running_; // Number of managers that have completed. int manual_complete_count_; int total_complete_count_; }; // Test multiple queries in a single page load with multiple frames. class MultiQueryMultiFrameTestHandler : public SingleLoadTestHandler, public MultiQueryManagerMap::Observer { public: MultiQueryMultiFrameTestHandler(bool synchronous, bool cancel_with_subnav) : synchronous_(synchronous), cancel_with_subnav_(cancel_with_subnav) { manager_map_.AddObserver(this); } virtual void AddOtherResources() OVERRIDE { AddSubFrameResource("sub1"); AddSubFrameResource("sub2"); AddSubFrameResource("sub3"); manager_map_.Finalize(); if (manager_map_.HasAutoQueries()) { cancel_url_ = std::string(kTestDomain1) + "cancel.html"; AddResource(cancel_url_, "cancel", "text/html"); } } virtual std::string GetMainHTML() OVERRIDE { return manager_map_.GetMainHTML(); } virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) OVERRIDE { AssertMainBrowser(browser); EXPECT_FALSE(frame->IsMain()); manager_map_.OnNotify(browser, frame, message); } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { AssertMainBrowser(browser); EXPECT_FALSE(frame->IsMain()); return manager_map_.OnQuery(browser, frame, query_id, request, persistent, callback); } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { AssertMainBrowser(browser); EXPECT_FALSE(frame->IsMain()); manager_map_.OnQueryCanceled(browser, frame, query_id); } virtual void OnMapManualQueriesCompleted(MultiQueryManagerMap* map) OVERRIDE { EXPECT_EQ(map, &manager_map_); if (manager_map_.HasAutoQueries()) { CefRefPtr frame = GetBrowser()->GetMainFrame(); // Navigate somewhere else to terminate the auto queries. if (cancel_with_subnav_) { // Navigate each subframe individually. const std::string js = "document.getElementById('sub1').src = '" + cancel_url_ + "';" "document.getElementById('sub2').src = '" + cancel_url_ + "';" "document.getElementById('sub3').src = '" + cancel_url_ + "';"; frame->ExecuteJavaScript(js, frame->GetURL(), 0); } else { // Navigate the main frame. frame->LoadURL(cancel_url_); } } } virtual void OnMapAllQueriesCompleted(MultiQueryManagerMap* map) OVERRIDE { EXPECT_EQ(map, &manager_map_); DestroyTest(); } virtual void DestroyTest() OVERRIDE { manager_map_.AssertAllComplete(); TestHandler::DestroyTest(); } private: void AddSubFrameResource(const std::string& name) { const std::string& url = std::string(kTestDomain1) + name + ".html"; MultiQueryManager* manager = manager_map_.CreateManager(url, synchronous_); MakeTestQueries(manager, false, 100); const std::string& html = manager->GetHTML(false, false); AddResource(url, html, "text/html"); } const bool synchronous_; const bool cancel_with_subnav_; MultiQueryManagerMap manager_map_; std::string cancel_url_; }; } // namespace // Test that multiple frames can run many queries successfully in a synchronous // manner. TEST(MessageRouterTest, MultiQueryMultiFrameSync) { CefRefPtr handler = new MultiQueryMultiFrameTestHandler(true, false); handler->ExecuteTest(); } // Test that multiple frames can run many queries successfully in an // asynchronous manner. TEST(MessageRouterTest, MultiQueryMultiFrameAsync) { CefRefPtr handler = new MultiQueryMultiFrameTestHandler(false, false); handler->ExecuteTest(); } // Test that multiple frames can run many queries successfully in a synchronous // manner. Cancel auto queries with sub-frame navigation. TEST(MessageRouterTest, MultiQueryMultiFrameSyncSubnavCancel) { CefRefPtr handler = new MultiQueryMultiFrameTestHandler(true, true); handler->ExecuteTest(); } // Test that multiple frames can run many queries successfully in an // asynchronous manner. Cancel auto queries with sub-frame navigation. TEST(MessageRouterTest, MultiQueryMultiFrameAsyncSubnavCancel) { CefRefPtr handler = new MultiQueryMultiFrameTestHandler(false, true); handler->ExecuteTest(); } namespace { // Implementation of MRTestHandler that loads multiple pages and/or browsers and // executes multiple queries. class MultiQueryMultiLoadTestHandler : public MRTestHandler, public CefMessageRouterBrowserSide::Handler, public MultiQueryManagerMap::Observer, public MultiQueryManager::Observer { public: MultiQueryMultiLoadTestHandler(bool some, bool synchronous) : some_(some), synchronous_(synchronous) { manager_map_.AddObserver(this); } virtual void OnNotify(CefRefPtr browser, CefRefPtr frame, const std::string& message) OVERRIDE { manager_map_.OnNotify(browser, frame, message); } virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { return manager_map_.OnQuery(browser, frame, query_id, request, persistent, callback); } virtual void OnQueryCanceled(CefRefPtr browser, CefRefPtr frame, int64 query_id) OVERRIDE { manager_map_.OnQueryCanceled(browser, frame, query_id); } virtual void OnMapManualQueriesCompleted(MultiQueryManagerMap* map) OVERRIDE { EXPECT_EQ(map, &manager_map_); if (manager_map_.HasAutoQueries()) { // Navigate all browsers somewhere else to terminate the auto queries. BrowserMap map; GetAllBrowsers(&map); BrowserMap::const_iterator it = map.begin(); for (; it != map.end(); ++it) { it->second->GetMainFrame()->LoadURL(cancel_url_); } } } virtual void OnMapAllQueriesCompleted(MultiQueryManagerMap* map) OVERRIDE { EXPECT_EQ(map, &manager_map_); DestroyTest(); } virtual void DestroyTest() OVERRIDE { manager_map_.AssertAllComplete(); TestHandler::DestroyTest(); } protected: virtual void AddHandlers( CefRefPtr message_router) OVERRIDE { message_router->AddHandler(this, false); } void AddManagedResource(const std::string& url, bool assert_total, bool assert_browser) { MultiQueryManager* manager = manager_map_.CreateManager(url, synchronous_); manager->AddObserver(this); MakeTestQueries(manager, some_, 75); const std::string& html = manager->GetHTML(assert_total, assert_browser); AddResource(url, html, "text/html"); } void Finalize() { manager_map_.Finalize(); if (manager_map_.HasAutoQueries()) { cancel_url_ = std::string(kTestDomain1) + "cancel.html"; AddResource(cancel_url_, "cancel", "text/html"); } } MultiQueryManagerMap manager_map_; private: const bool some_; const bool synchronous_; std::string cancel_url_; }; // Test multiple browsers that send queries at the same time. class MultiQueryMultiBrowserTestHandler : public MultiQueryMultiLoadTestHandler { public: MultiQueryMultiBrowserTestHandler(bool synchronous, bool same_origin) : MultiQueryMultiLoadTestHandler(false, synchronous), same_origin_(same_origin) { } protected: virtual void RunMRTest() { const std::string& url1 = std::string(kTestDomain1) + "browser1.html"; const std::string& url2 = std::string(same_origin_ ? kTestDomain1 : kTestDomain2) + "browser2.html"; const std::string& url3 = std::string(same_origin_ ? kTestDomain1 : kTestDomain3) + "browser3.html"; AddManagedResource(url1, false, true); AddManagedResource(url2, false, true); AddManagedResource(url3, false, true); Finalize(); // Create 2 browsers simultaniously. CreateBrowser(url1, NULL); CreateBrowser(url2, NULL); CreateBrowser(url3, NULL); } private: bool same_origin_; }; } // namespace // Test that multiple browsers can query simultaniously from the same origin. TEST(MessageRouterTest, MultiQueryMultiBrowserSameOriginSync) { CefRefPtr handler = new MultiQueryMultiBrowserTestHandler(true, true); handler->ExecuteTest(); } // Test that multiple browsers can query simultaniously from the same origin. TEST(MessageRouterTest, MultiQueryMultiBrowserSameOriginAsync) { CefRefPtr handler = new MultiQueryMultiBrowserTestHandler(false, true); handler->ExecuteTest(); } // Test that multiple browsers can query simultaniously from different origins. TEST(MessageRouterTest, MultiQueryMultiBrowserDifferentOriginSync) { CefRefPtr handler = new MultiQueryMultiBrowserTestHandler(true, false); handler->ExecuteTest(); } // Test that multiple browsers can query simultaniously from different origins. TEST(MessageRouterTest, MultiQueryMultiBrowserDifferentOriginAsync) { CefRefPtr handler = new MultiQueryMultiBrowserTestHandler(false, false); handler->ExecuteTest(); } namespace { // Test multiple navigations that send queries sequentially. class MultiQueryMultiNavigateTestHandler : public MultiQueryMultiLoadTestHandler { public: MultiQueryMultiNavigateTestHandler(bool synchronous, bool same_origin) : MultiQueryMultiLoadTestHandler(false, synchronous), same_origin_(same_origin) { } virtual void OnManualQueriesCompleted(MultiQueryManager* manager) OVERRIDE { const std::string& url = manager_map_.GetURLForManager(manager); if (url == url1_) // 2. Load the 2nd url. GetBrowser()->GetMainFrame()->LoadURL(url2_); else if (url == url2_) // 3. Load the 3rd url. GetBrowser()->GetMainFrame()->LoadURL(url3_); } protected: virtual void RunMRTest() { url1_ = std::string(kTestDomain1) + "browser1.html"; url2_ = std::string(same_origin_ ? kTestDomain1 : kTestDomain2) + "browser2.html"; url3_ = std::string(same_origin_ ? kTestDomain1 : kTestDomain3) + "browser3.html"; AddManagedResource(url1_, true, true); AddManagedResource(url2_, true, true); AddManagedResource(url3_, true, true); Finalize(); // 1. Load the 1st url. CreateBrowser(url1_, NULL); } private: bool same_origin_; std::string url1_; std::string url2_; std::string url3_; }; } // namespace // Test that multiple navigations can query from the same origin. TEST(MessageRouterTest, MultiQueryMultiNavigateSameOriginSync) { CefRefPtr handler = new MultiQueryMultiNavigateTestHandler(true, true); handler->ExecuteTest(); } // Test that multiple navigations can query from the same origin. TEST(MessageRouterTest, MultiQueryMultiNavigateSameOriginAsync) { CefRefPtr handler = new MultiQueryMultiNavigateTestHandler(false, true); handler->ExecuteTest(); } // Test that multiple navigations can query from different origins. TEST(MessageRouterTest, MultiQueryMultiNavigateDifferentOriginSync) { CefRefPtr handler = new MultiQueryMultiNavigateTestHandler(true, false); handler->ExecuteTest(); } // Test that multiple navigations can query from different origins. TEST(MessageRouterTest, MultiQueryMultiNavigateDifferentOriginAsync) { CefRefPtr handler = new MultiQueryMultiNavigateTestHandler(false, false); handler->ExecuteTest(); }