// Copyright (c) 2012 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 this first to avoid type conflicts with CEF headers. #include "tests/unittests/chromium_includes.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/strings/stringprintf.h" #include "base/synchronization/waitable_event.h" #include "include/base/cef_bind.h" #include "include/cef_scheme.h" #include "include/cef_task.h" #include "include/cef_urlrequest.h" #include "include/wrapper/cef_closure_task.h" #include "testing/gtest/include/gtest/gtest.h" #include "tests/cefclient/common/client_app.h" #include "tests/unittests/test_handler.h" #include "tests/unittests/test_util.h" using client::ClientApp; // How to add a new test: // 1. Add a new value to the RequestTestMode enumeration. // 2. Add methods to set up and run the test in RequestTestRunner. // 3. Add a line for the test in the RequestTestRunner constructor. // 4. Add lines for the test in the "Define the tests" section at the bottom of // the file. namespace { // Unique values for URLRequest tests. const char* kRequestTestUrl = "http://tests/URLRequestTest.Test"; const char* kRequestTestMsg = "URLRequestTest.Test"; const char* kRequestScheme = "urcustom"; const char* kRequestHost = "test"; const char* kRequestOrigin = "urcustom://test"; const char* kRequestSendCookieName = "urcookie_send"; const char* kRequestSaveCookieName = "urcookie_save"; enum RequestTestMode { REQTEST_GET = 0, REQTEST_GET_NODATA, REQTEST_GET_ALLOWCOOKIES, REQTEST_GET_REDIRECT, REQTEST_POST, REQTEST_POST_FILE, REQTEST_POST_WITHPROGRESS, REQTEST_HEAD, }; struct RequestRunSettings { RequestRunSettings() : expect_upload_progress(false), expect_download_progress(true), expect_download_data(true), expected_status(UR_SUCCESS), expected_error_code(ERR_NONE), expect_send_cookie(false), expect_save_cookie(false), expect_follow_redirect(true) { } // Request that will be sent. CefRefPtr request; // Response that will be returned by the scheme handler. CefRefPtr response; // Optional response data that will be returned by the scheme handler. std::string response_data; // If true upload progress notification will be expected. bool expect_upload_progress; // If true download progress notification will be expected. bool expect_download_progress; // If true download data will be expected. bool expect_download_data; // Expected status value. CefURLRequest::Status expected_status; // Expected error code value. CefURLRequest::ErrorCode expected_error_code; // If true the request cookie should be sent to the server. bool expect_send_cookie; // If true the response cookie should be save. bool expect_save_cookie; // If specified the test will begin with this redirect request and response. CefRefPtr redirect_request; CefRefPtr redirect_response; // If true the redirect is expected to be followed. bool expect_follow_redirect; }; void SetUploadData(CefRefPtr request, const std::string& data) { CefRefPtr postData = CefPostData::Create(); CefRefPtr element = CefPostDataElement::Create(); element->SetToBytes(data.size(), data.c_str()); postData->AddElement(element); request->SetPostData(postData); } void SetUploadFile(CefRefPtr request, const base::FilePath& file) { CefRefPtr postData = CefPostData::Create(); CefRefPtr element = CefPostDataElement::Create(); element->SetToFile(file.value()); postData->AddElement(element); request->SetPostData(postData); } void GetUploadData(CefRefPtr request, std::string& data) { CefRefPtr postData = request->GetPostData(); EXPECT_TRUE(postData.get()); CefPostData::ElementVector elements; postData->GetElements(elements); EXPECT_EQ((size_t)1, elements.size()); CefRefPtr element = elements[0]; EXPECT_TRUE(element.get()); size_t size = element->GetBytesCount(); data.resize(size); EXPECT_EQ(size, data.size()); EXPECT_EQ(size, element->GetBytes(size, const_cast(data.c_str()))); } // Tests if the save cookie has been set. If set, it will be deleted at the same // time. void TestSaveCookie(base::WaitableEvent* event, bool* cookie_exists) { class Visitor : public CefCookieVisitor { public: Visitor(base::WaitableEvent* event, bool* cookie_exists) : event_(event), cookie_exists_(cookie_exists) { } ~Visitor() override { event_->Signal(); } bool Visit(const CefCookie& cookie, int count, int total, bool& deleteCookie) override { std::string cookie_name = CefString(&cookie.name); if (cookie_name == kRequestSaveCookieName) { *cookie_exists_ = true; deleteCookie = true; return false; } return true; } private: base::WaitableEvent* event_; bool* cookie_exists_; IMPLEMENT_REFCOUNTING(Visitor); }; CefRefPtr cookie_manager = CefCookieManager::GetGlobalManager(); EXPECT_TRUE(cookie_manager.get()); cookie_manager->VisitUrlCookies(kRequestOrigin, true, new Visitor(event, cookie_exists)); event->Wait(); } // Serves request responses. class RequestSchemeHandler : public CefResourceHandler { public: explicit RequestSchemeHandler(const RequestRunSettings& settings) : settings_(settings), offset_(0) { } bool ProcessRequest(CefRefPtr request, CefRefPtr callback) override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); // Shouldn't get here if we're not following redirects. EXPECT_TRUE(settings_.expect_follow_redirect); // Verify that the request was sent correctly. TestRequestEqual(settings_.request, request, true); // HEAD requests are identical to GET requests except no response data is // sent. if (request->GetMethod() == "HEAD") settings_.response_data.clear(); CefRequest::HeaderMap headerMap; CefRequest::HeaderMap::iterator headerIter; request->GetHeaderMap(headerMap); // Check if the default headers were sent. headerIter = headerMap.find("User-Agent"); EXPECT_TRUE(headerIter != headerMap.end() && !headerIter->second.empty()); headerIter = headerMap.find("Accept-Language"); EXPECT_TRUE(headerIter != headerMap.end() && !headerIter->second.empty()); // Check if the request cookie was sent. bool has_send_cookie = false; headerIter = headerMap.find("Cookie"); if (headerIter != headerMap.end()) { std::string cookie = headerIter->second; if (cookie.find(kRequestSendCookieName) != std::string::npos) has_send_cookie = true; } if (settings_.expect_send_cookie) EXPECT_TRUE(has_send_cookie); else EXPECT_FALSE(has_send_cookie); // Continue immediately. callback->Continue(); return true; } void GetResponseHeaders(CefRefPtr response, int64& response_length, CefString& redirectUrl) override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); response->SetStatus(settings_.response->GetStatus()); response->SetStatusText(settings_.response->GetStatusText()); response->SetMimeType(settings_.response->GetMimeType()); CefResponse::HeaderMap headerMap; settings_.response->GetHeaderMap(headerMap); if (settings_.expect_save_cookie) { std::string cookie = base::StringPrintf("%s=%s", kRequestSaveCookieName, "save-cookie-value"); headerMap.insert(std::make_pair("Set-Cookie", cookie)); } response->SetHeaderMap(headerMap); response_length = settings_.response_data.length(); } bool ReadResponse(void* response_data_out, int bytes_to_read, int& bytes_read, CefRefPtr callback) override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); bool has_data = false; bytes_read = 0; size_t size = settings_.response_data.length(); if (offset_ < size) { int transfer_size = std::min(bytes_to_read, static_cast(size - offset_)); memcpy(response_data_out, settings_.response_data.c_str() + offset_, transfer_size); offset_ += transfer_size; bytes_read = transfer_size; has_data = true; } return has_data; } void Cancel() override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); } private: RequestRunSettings settings_; size_t offset_; IMPLEMENT_REFCOUNTING(RequestSchemeHandler); }; // Serves redirect request responses. class RequestRedirectSchemeHandler : public CefResourceHandler { public: explicit RequestRedirectSchemeHandler(CefRefPtr request, CefRefPtr response) : request_(request), response_(response) { } bool ProcessRequest(CefRefPtr request, CefRefPtr callback) override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); // Verify that the request was sent correctly. TestRequestEqual(request_, request, true); // Continue immediately. callback->Continue(); return true; } void GetResponseHeaders(CefRefPtr response, int64& response_length, CefString& redirectUrl) override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); response->SetStatus(response_->GetStatus()); response->SetStatusText(response_->GetStatusText()); response->SetMimeType(response_->GetMimeType()); CefResponse::HeaderMap headerMap; response_->GetHeaderMap(headerMap); response->SetHeaderMap(headerMap); response_length = 0; } bool ReadResponse(void* response_data_out, int bytes_to_read, int& bytes_read, CefRefPtr callback) override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); NOTREACHED(); return false; } void Cancel() override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); } private: CefRefPtr request_; CefRefPtr response_; IMPLEMENT_REFCOUNTING(RequestRedirectSchemeHandler); }; class RequestSchemeHandlerFactory : public CefSchemeHandlerFactory { public: RequestSchemeHandlerFactory() { } CefRefPtr Create( CefRefPtr browser, CefRefPtr frame, const CefString& scheme_name, CefRefPtr request) override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); std::string url = request->GetURL(); // Try to find a test match. { HandlerMap::const_iterator it = handler_map_.find(url); if (it != handler_map_.end()) return new RequestSchemeHandler(it->second); } // Try to find a redirect match. { RedirectHandlerMap::const_iterator it = redirect_handler_map_.find(url); if (it != redirect_handler_map_.end()) { return new RequestRedirectSchemeHandler(it->second.first, it->second.second); } } // Unknown test. ADD_FAILURE(); return NULL; } void AddSchemeHandler(const RequestRunSettings& settings) { // Verify that the scheme is correct. std::string url = settings.request->GetURL(); EXPECT_EQ((unsigned long)0, url.find(kRequestScheme)); handler_map_.insert(std::make_pair(url, settings)); } void AddRedirectSchemeHandler(CefRefPtr redirect_request, CefRefPtr redirect_response) { // Verify that the scheme is correct. std::string url = redirect_request->GetURL(); EXPECT_EQ((unsigned long)0, url.find(kRequestScheme)); redirect_handler_map_.insert( std::make_pair(url, std::make_pair(redirect_request, redirect_response))); } private: typedef std::map HandlerMap; HandlerMap handler_map_; typedef std::map, CefRefPtr > > RedirectHandlerMap; RedirectHandlerMap redirect_handler_map_; IMPLEMENT_REFCOUNTING(RequestSchemeHandlerFactory); }; // Implementation of CefURLRequestClient that stores response information. class RequestClient : public CefURLRequestClient { public: class Delegate { public: // Used to notify the handler when the request has completed. virtual void OnRequestComplete(CefRefPtr client) =0; protected: virtual ~Delegate() {} }; static CefRefPtr Create(Delegate* delegate, CefRefPtr request) { CefRefPtr client = new RequestClient(delegate); CefURLRequest::Create(request, client.get()); return client; } void OnRequestComplete(CefRefPtr request) override { request_complete_ct_++; request_ = request->GetRequest(); EXPECT_TRUE(request_->IsReadOnly()); status_ = request->GetRequestStatus(); error_code_ = request->GetRequestError(); response_ = request->GetResponse(); EXPECT_TRUE(response_.get()); EXPECT_TRUE(response_->IsReadOnly()); delegate_->OnRequestComplete(this); } void OnUploadProgress(CefRefPtr request, int64 current, int64 total) override { upload_progress_ct_++; upload_total_ = total; } void OnDownloadProgress(CefRefPtr request, int64 current, int64 total) override { response_ = request->GetResponse(); EXPECT_TRUE(response_.get()); EXPECT_TRUE(response_->IsReadOnly()); download_progress_ct_++; download_total_ = total; } void OnDownloadData(CefRefPtr request, const void* data, size_t data_length) override { response_ = request->GetResponse(); EXPECT_TRUE(response_.get()); EXPECT_TRUE(response_->IsReadOnly()); download_data_ct_++; download_data_ += std::string(static_cast(data), data_length); } bool GetAuthCredentials(bool isProxy, const CefString& host, int port, const CefString& realm, const CefString& scheme, CefRefPtr callback) override { return false; } private: explicit RequestClient(Delegate* delegate) : delegate_(delegate), request_complete_ct_(0), upload_progress_ct_(0), download_progress_ct_(0), download_data_ct_(0), upload_total_(0), download_total_(0) { } Delegate* delegate_; public: int request_complete_ct_; int upload_progress_ct_; int download_progress_ct_; int download_data_ct_; uint64 upload_total_; uint64 download_total_; std::string download_data_; CefRefPtr request_; CefURLRequest::Status status_; CefURLRequest::ErrorCode error_code_; CefRefPtr response_; private: IMPLEMENT_REFCOUNTING(RequestClient); }; // Executes the tests. class RequestTestRunner { public: typedef base::Callback TestCallback; class Delegate { public: // Used to notify the handler when the test can be destroyed. virtual void DestroyTest(const RequestRunSettings& settings) =0; protected: virtual ~Delegate() {} }; RequestTestRunner(Delegate* delegate, bool is_browser_process) : delegate_(delegate), is_browser_process_(is_browser_process) { // Helper macro for registering test callbacks. #define REGISTER_TEST(test_mode, setup_method, run_method) \ RegisterTest(test_mode, \ base::Bind(&RequestTestRunner::setup_method, \ base::Unretained(this)), \ base::Bind(&RequestTestRunner::run_method, \ base::Unretained(this))); // Register the test callbacks. REGISTER_TEST(REQTEST_GET, SetupGetTest, GenericRunTest); REGISTER_TEST(REQTEST_GET_NODATA, SetupGetNoDataTest, GenericRunTest); REGISTER_TEST(REQTEST_GET_ALLOWCOOKIES, SetupGetAllowCookiesTest, GenericRunTest); REGISTER_TEST(REQTEST_GET_REDIRECT, SetupGetRedirectTest, GenericRunTest); REGISTER_TEST(REQTEST_POST, SetupPostTest, GenericRunTest); REGISTER_TEST(REQTEST_POST_FILE, SetupPostFileTest, GenericRunTest); REGISTER_TEST(REQTEST_POST_WITHPROGRESS, SetupPostWithProgressTest, GenericRunTest); REGISTER_TEST(REQTEST_HEAD, SetupHeadTest, GenericRunTest); } // Called in both the browser and render process to setup the test. void SetupTest(RequestTestMode test_mode) { TestMap::const_iterator it = test_map_.find(test_mode); if (it != test_map_.end()) { it->second.setup.Run(); AddSchemeHandler(); } else { // Unknown test. ADD_FAILURE(); } } // Called in either the browser or render process to run the test. void RunTest(RequestTestMode test_mode) { TestMap::const_iterator it = test_map_.find(test_mode); if (it != test_map_.end()) { it->second.run.Run(); } else { // Unknown test. ADD_FAILURE(); DestroyTest(); } } private: void SetupGetTest() { settings_.request = CefRequest::Create(); settings_.request->SetURL(MakeSchemeURL("GetTest.html")); settings_.request->SetMethod("GET"); settings_.response = CefResponse::Create(); settings_.response->SetMimeType("text/html"); settings_.response->SetStatus(200); settings_.response->SetStatusText("OK"); settings_.response_data = "GET TEST SUCCESS"; } void SetupGetNoDataTest() { // Start with the normal get test. SetupGetTest(); // Disable download data notifications. settings_.request->SetFlags(UR_FLAG_NO_DOWNLOAD_DATA); settings_.expect_download_data = false; } void SetupGetAllowCookiesTest() { // Start with the normal get test. SetupGetTest(); // Send cookies. settings_.request->SetFlags(UR_FLAG_ALLOW_CACHED_CREDENTIALS); settings_.expect_save_cookie = true; settings_.expect_send_cookie = true; } void SetupGetRedirectTest() { // Start with the normal get test. SetupGetTest(); // Add a redirect request. settings_.redirect_request = CefRequest::Create(); settings_.redirect_request->SetURL(MakeSchemeURL("redirect.html")); settings_.redirect_request->SetMethod("GET"); settings_.redirect_response = CefResponse::Create(); settings_.redirect_response->SetMimeType("text/html"); settings_.redirect_response->SetStatus(302); settings_.redirect_response->SetStatusText("Found"); CefResponse::HeaderMap headerMap; headerMap.insert(std::make_pair("Location", settings_.request->GetURL())); settings_.redirect_response->SetHeaderMap(headerMap); } void SetupPostTest() { settings_.request = CefRequest::Create(); settings_.request->SetURL(MakeSchemeURL("PostTest.html")); settings_.request->SetMethod("POST"); SetUploadData(settings_.request, "the_post_data"); settings_.response = CefResponse::Create(); settings_.response->SetMimeType("text/html"); settings_.response->SetStatus(200); settings_.response->SetStatusText("OK"); settings_.response_data = "POST TEST SUCCESS"; } void SetupPostFileTest() { settings_.request = CefRequest::Create(); settings_.request->SetURL(MakeSchemeURL("PostFileTest.html")); settings_.request->SetMethod("POST"); EXPECT_TRUE(post_file_tmpdir_.CreateUniqueTempDir()); const base::FilePath& path = post_file_tmpdir_.path().Append(FILE_PATH_LITERAL("example.txt")); const char content[] = "HELLO FRIEND!"; int write_ct = base::WriteFile(path, content, sizeof(content) - 1); EXPECT_EQ(static_cast(sizeof(content) - 1), write_ct); SetUploadFile(settings_.request, path); settings_.response = CefResponse::Create(); settings_.response->SetMimeType("text/html"); settings_.response->SetStatus(200); settings_.response->SetStatusText("OK"); settings_.response_data = "POST TEST SUCCESS"; } void SetupPostWithProgressTest() { // Start with the normal post test. SetupPostTest(); // Enable upload progress notifications. settings_.request->SetFlags(UR_FLAG_REPORT_UPLOAD_PROGRESS); settings_.expect_upload_progress = true; } void SetupHeadTest() { settings_.request = CefRequest::Create(); settings_.request->SetURL(MakeSchemeURL("HeadTest.html")); settings_.request->SetMethod("HEAD"); settings_.response = CefResponse::Create(); settings_.response->SetMimeType("text/html"); settings_.response->SetStatus(200); settings_.response->SetStatusText("OK"); // The scheme handler will disregard this value when it returns the result. settings_.response_data = "HEAD TEST SUCCESS"; settings_.expect_download_progress = false; settings_.expect_download_data = false; } // Generic test runner. void GenericRunTest() { class Test : public RequestClient::Delegate { public: Test(RequestTestRunner* runner, const RequestRunSettings& settings) : runner_(runner), settings_(settings) { } void OnRequestComplete(CefRefPtr client) override { CefRefPtr expected_request; CefRefPtr expected_response; if (runner_->settings_.redirect_request.get()) expected_request = runner_->settings_.redirect_request; else expected_request = runner_->settings_.request; if (runner_->settings_.redirect_response.get() && !runner_->settings_.expect_follow_redirect) { // A redirect response was sent but the redirect is not expected to be // followed. expected_response = runner_->settings_.redirect_response; } else { expected_response = runner_->settings_.response; } TestRequestEqual(expected_request, client->request_, false); EXPECT_EQ(settings_.expected_status, client->status_); EXPECT_EQ(settings_.expected_error_code, client->error_code_); TestResponseEqual(expected_response, client->response_, true); EXPECT_EQ(1, client->request_complete_ct_); if (settings_.expect_upload_progress) { EXPECT_LE(1, client->upload_progress_ct_); std::string upload_data; GetUploadData(expected_request, upload_data); EXPECT_EQ(upload_data.size(), client->upload_total_); } else { EXPECT_EQ(0, client->upload_progress_ct_); EXPECT_EQ((uint64)0, client->upload_total_); } if (settings_.expect_download_progress) { EXPECT_LE(1, client->download_progress_ct_); EXPECT_EQ(runner_->settings_.response_data.size(), client->download_total_); } else { EXPECT_EQ(0, client->download_progress_ct_); EXPECT_EQ((uint64)0, client->download_total_); } if (settings_.expect_download_data) { EXPECT_LE(1, client->download_data_ct_); EXPECT_STREQ(runner_->settings_.response_data.c_str(), client->download_data_.c_str()); } else { EXPECT_EQ(0, client->download_data_ct_); EXPECT_TRUE(client->download_data_.empty()); } runner_->DestroyTest(); } private: RequestTestRunner* runner_; RequestRunSettings settings_; }; CefRefPtr request; if (settings_.redirect_request.get()) request = settings_.redirect_request; else request = settings_.request; EXPECT_TRUE(request.get()); RequestClient::Create(new Test(this, settings_), request); } // Register a test. Called in the constructor. void RegisterTest(RequestTestMode test_mode, TestCallback setup, TestCallback run) { TestEntry entry = {setup, run}; test_map_.insert(std::make_pair(test_mode, entry)); } // Destroy the current test. Called when the test is complete. void DestroyTest() { if (scheme_factory_.get()) { // Remove the factory registration. CefRegisterSchemeHandlerFactory(kRequestScheme, kRequestHost, NULL); scheme_factory_ = NULL; } if (post_file_tmpdir_.IsValid()) EXPECT_TRUE(post_file_tmpdir_.Delete()); delegate_->DestroyTest(settings_); } // Return an appropriate scheme URL for the specified |path|. std::string MakeSchemeURL(const std::string& path) { return base::StringPrintf("%s/%s", kRequestOrigin, path.c_str()); } // Add a scheme handler for the current test. Called during test setup. void AddSchemeHandler() { // Scheme handlers are only registered in the browser process. if (!is_browser_process_) return; if (!scheme_factory_.get()) { // Add the factory registration. scheme_factory_ = new RequestSchemeHandlerFactory(); CefRegisterSchemeHandlerFactory(kRequestScheme, kRequestHost, scheme_factory_.get()); } EXPECT_TRUE(settings_.request.get()); EXPECT_TRUE(settings_.response.get()); scheme_factory_->AddSchemeHandler(settings_); if (settings_.redirect_request.get()) { scheme_factory_->AddRedirectSchemeHandler(settings_.redirect_request, settings_.redirect_response); } } Delegate* delegate_; bool is_browser_process_; struct TestEntry { TestCallback setup; TestCallback run; }; typedef std::map TestMap; TestMap test_map_; std::string scheme_name_; CefRefPtr scheme_factory_; base::ScopedTempDir post_file_tmpdir_; public: RequestRunSettings settings_; }; // Renderer side. class RequestRendererTest : public ClientApp::RenderDelegate, public RequestTestRunner::Delegate { public: RequestRendererTest() : test_runner_(this, false) { } bool OnProcessMessageReceived( CefRefPtr app, CefRefPtr browser, CefProcessId source_process, CefRefPtr message) override { if (message->GetName() == kRequestTestMsg) { app_ = app; browser_ = browser; RequestTestMode test_mode = static_cast(message->GetArgumentList()->GetInt(0)); // Setup the test. This will create the objects that we test against but // not register any scheme handlers (because we're in the render process). test_runner_.SetupTest(test_mode); // Run the test. test_runner_.RunTest(test_mode); return true; } // Message not handled. return false; } protected: // Return from the test. void DestroyTest(const RequestRunSettings& settings) override { // Check if the test has failed. bool result = !TestFailed(); // Return the result to the browser process. CefRefPtr return_msg = CefProcessMessage::Create(kRequestTestMsg); EXPECT_TRUE(return_msg->GetArgumentList()->SetBool(0, result)); EXPECT_TRUE(browser_->SendProcessMessage(PID_BROWSER, return_msg)); app_ = NULL; browser_ = NULL; } CefRefPtr app_; CefRefPtr browser_; RequestTestRunner test_runner_; IMPLEMENT_REFCOUNTING(RequestRendererTest); }; // Browser side. class RequestTestHandler : public TestHandler, public RequestTestRunner::Delegate { public: // Don't hide the DestroyTest method. using TestHandler::DestroyTest; RequestTestHandler(RequestTestMode test_mode, bool test_in_browser, const char* test_url) : test_mode_(test_mode), test_in_browser_(test_in_browser), test_url_(test_url), test_runner_(this, true) { } void RunTest() override { EXPECT_TRUE(test_url_ != NULL); AddResource(test_url_, "TEST", "text/html"); base::WaitableEvent event(false, false); SetTestCookie(&event); event.Wait(); // Setup the test. This will create the objects that we test against and // register any scheme handlers. test_runner_.SetupTest(test_mode_); CreateBrowser(test_url_); // Time out the test after a reasonable period of time. SetTestTimeout(); } CefRefPtr CreateTestMessage() { CefRefPtr msg = CefProcessMessage::Create(kRequestTestMsg); EXPECT_TRUE(msg->GetArgumentList()->SetInt(0, test_mode_)); return msg; } void OnLoadEnd(CefRefPtr browser, CefRefPtr frame, int httpStatusCode) override { if (frame->IsMain()) { if (test_in_browser_) { // Run the test in the browser process. test_runner_.RunTest(test_mode_); } else { // Send a message to the renderer process to run the test. EXPECT_TRUE(browser->SendProcessMessage(PID_RENDERER, CreateTestMessage())); } } } bool OnProcessMessageReceived( CefRefPtr browser, CefProcessId source_process, CefRefPtr message) override { EXPECT_TRUE(browser.get()); EXPECT_EQ(PID_RENDERER, source_process); EXPECT_TRUE(message.get()); EXPECT_TRUE(message->IsReadOnly()); got_message_.yes(); if (message->GetArgumentList()->GetBool(0)) got_success_.yes(); // Test is complete. DestroyTest(test_runner_.settings_); return true; } void DestroyTest(const RequestRunSettings& settings) override { base::WaitableEvent event(false, false); bool has_save_cookie = false; TestSaveCookie(&event, &has_save_cookie); if (settings.expect_save_cookie) EXPECT_TRUE(has_save_cookie); else EXPECT_FALSE(has_save_cookie); ClearTestCookie(&event); event.Wait(); TestHandler::DestroyTest(); } protected: // Set a cookie so that we can test if it's sent with the request. void SetTestCookie(base::WaitableEvent* event) { if (CefCurrentlyOn(TID_IO)) { CefRefPtr cookie_manager = CefCookieManager::GetGlobalManager(); EXPECT_TRUE(cookie_manager.get()); CefCookie cookie; CefString(&cookie.name) = kRequestSendCookieName; CefString(&cookie.value) = "send-cookie-value"; CefString(&cookie.domain) = kRequestHost; CefString(&cookie.path) = "/"; cookie.has_expires = false; EXPECT_TRUE(cookie_manager->SetCookie(kRequestOrigin, cookie)); event->Signal(); } else { // Execute on the IO thread. CefPostTask(TID_IO, base::Bind(&RequestTestHandler::SetTestCookie, this, event)); } } // Remove the cookie that we set above. void ClearTestCookie(base::WaitableEvent* event) { if (CefCurrentlyOn(TID_IO)) { CefRefPtr cookie_manager = CefCookieManager::GetGlobalManager(); EXPECT_TRUE(cookie_manager.get()); EXPECT_TRUE(cookie_manager->DeleteCookies(kRequestOrigin, kRequestSendCookieName)); event->Signal(); } else { // Execute on the IO thread. CefPostTask(TID_IO, base::Bind(&RequestTestHandler::ClearTestCookie, this, event)); } } RequestTestMode test_mode_; bool test_in_browser_; const char* test_url_; RequestTestRunner test_runner_; public: // Only used when the test runs in the render process. TrackCallback got_message_; TrackCallback got_success_; }; } // namespace // Entry point for creating URLRequest renderer test objects. // Called from client_app_delegates.cc. void CreateURLRequestRendererTests(ClientApp::RenderDelegateSet& delegates) { delegates.insert(new RequestRendererTest); } // Entry point for registering custom schemes. // Called from client_app_delegates.cc. void RegisterURLRequestCustomSchemes( CefRefPtr registrar, std::vector& cookiable_schemes) { registrar->AddCustomScheme(kRequestScheme, true, false, false); cookiable_schemes.push_back(kRequestScheme); } // Helpers for defining URLRequest tests. #define REQ_TEST_EX(name, test_mode, test_in_browser, test_url) \ TEST(URLRequestTest, name) { \ CefRefPtr handler = \ new RequestTestHandler(test_mode, test_in_browser, test_url); \ handler->ExecuteTest(); \ if (!test_in_browser) { \ EXPECT_TRUE(handler->got_message_); \ EXPECT_TRUE(handler->got_success_); \ } \ ReleaseAndWaitForDestructor(handler); \ } #define REQ_TEST(name, test_mode, test_in_browser) \ REQ_TEST_EX(name, test_mode, test_in_browser, kRequestTestUrl) // Define the tests. REQ_TEST(BrowserGET, REQTEST_GET, true); REQ_TEST(BrowserGETNoData, REQTEST_GET_NODATA, true); REQ_TEST(BrowserGETAllowCookies, REQTEST_GET_ALLOWCOOKIES, true); REQ_TEST(BrowserGETRedirect, REQTEST_GET_REDIRECT, true); REQ_TEST(BrowserPOST, REQTEST_POST, true); REQ_TEST(BrowserPOSTFile, REQTEST_POST_FILE, true); REQ_TEST(BrowserPOSTWithProgress, REQTEST_POST_WITHPROGRESS, true); REQ_TEST(BrowserHEAD, REQTEST_HEAD, true); REQ_TEST(RendererGET, REQTEST_GET, false); REQ_TEST(RendererGETNoData, REQTEST_GET_NODATA, false); REQ_TEST(RendererGETAllowCookies, REQTEST_GET_ALLOWCOOKIES, false); REQ_TEST(RendererGETRedirect, REQTEST_GET_REDIRECT, false); REQ_TEST(RendererPOST, REQTEST_POST, false); REQ_TEST(RendererPOSTWithProgress, REQTEST_POST_WITHPROGRESS, false); REQ_TEST(RendererHEAD, REQTEST_HEAD, false); namespace { class InvalidURLTestClient : public CefURLRequestClient { public: InvalidURLTestClient() : event_(false, false) { } void RunTest() { CefPostTask(TID_UI, base::Bind(&InvalidURLTestClient::RunOnUIThread, this)); // Wait for the test to complete. event_.Wait(); } void OnRequestComplete(CefRefPtr client) override { EXPECT_EQ(UR_FAILED, client->GetRequestStatus()); // Let the call stack unwind before signaling completion. CefPostTask(TID_UI, base::Bind(&InvalidURLTestClient::CompleteOnUIThread, this)); } void OnUploadProgress(CefRefPtr request, int64 current, int64 total) override { EXPECT_TRUE(false); // Not reached. } void OnDownloadProgress(CefRefPtr request, int64 current, int64 total) override { EXPECT_TRUE(false); // Not reached. } void OnDownloadData(CefRefPtr request, const void* data, size_t data_length) override { EXPECT_TRUE(false); // Not reached. } bool GetAuthCredentials( bool isProxy, const CefString& host, int port, const CefString& realm, const CefString& scheme, CefRefPtr callback) override { EXPECT_TRUE(false); // Not reached. return false; } private: void RunOnUIThread() { EXPECT_UI_THREAD(); CefRefPtr request = CefRequest::Create(); request->SetMethod("GET"); request->SetURL("foo://invalidurl"); CefURLRequest::Create(request, this); } void CompleteOnUIThread() { EXPECT_UI_THREAD(); // Signal that the test is complete. event_.Signal(); } base::WaitableEvent event_; IMPLEMENT_REFCOUNTING(InvalidURLTestClient); }; } // namespace // Verify that failed requests do not leak references. TEST(URLRequestTest, BrowserInvalidURL) { CefRefPtr client = new InvalidURLTestClient(); client->RunTest(); // Verify that there's only one reference to the client. EXPECT_TRUE(client->HasOneRef()); }