// Copyright (c) 2011 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/cef_request.h" #include "include/cef_runnable.h" #include "tests/cefclient/client_app.h" #include "tests/unittests/test_handler.h" #include "tests/unittests/test_util.h" #include "testing/gtest/include/gtest/gtest.h" // Verify Set/Get methods for CefRequest, CefPostData and CefPostDataElement. TEST(RequestTest, SetGet) { // CefRequest CreateRequest CefRefPtr request(CefRequest::Create()); ASSERT_TRUE(request.get() != NULL); CefString url = "http://tests/run.html"; CefString method = "POST"; CefRequest::HeaderMap setHeaders, getHeaders; setHeaders.insert(std::make_pair("HeaderA", "ValueA")); setHeaders.insert(std::make_pair("HeaderB", "ValueB")); // CefPostData CreatePostData CefRefPtr postData(CefPostData::Create()); ASSERT_TRUE(postData.get() != NULL); // CefPostDataElement CreatePostDataElement CefRefPtr element1(CefPostDataElement::Create()); ASSERT_TRUE(element1.get() != NULL); CefRefPtr element2(CefPostDataElement::Create()); ASSERT_TRUE(element2.get() != NULL); // CefPostDataElement SetToFile CefString file = "c:\\path\\to\\file.ext"; element1->SetToFile(file); ASSERT_EQ(PDE_TYPE_FILE, element1->GetType()); ASSERT_EQ(file, element1->GetFile()); // CefPostDataElement SetToBytes char bytes[] = "Test Bytes"; element2->SetToBytes(sizeof(bytes), bytes); ASSERT_EQ(PDE_TYPE_BYTES, element2->GetType()); ASSERT_EQ(sizeof(bytes), element2->GetBytesCount()); char bytesOut[sizeof(bytes)]; element2->GetBytes(sizeof(bytes), bytesOut); ASSERT_TRUE(!memcmp(bytes, bytesOut, sizeof(bytes))); // CefPostData AddElement postData->AddElement(element1); postData->AddElement(element2); ASSERT_EQ((size_t)2, postData->GetElementCount()); // CefPostData RemoveElement postData->RemoveElement(element1); ASSERT_EQ((size_t)1, postData->GetElementCount()); // CefPostData RemoveElements postData->RemoveElements(); ASSERT_EQ((size_t)0, postData->GetElementCount()); postData->AddElement(element1); postData->AddElement(element2); ASSERT_EQ((size_t)2, postData->GetElementCount()); CefPostData::ElementVector elements; postData->GetElements(elements); CefPostData::ElementVector::const_iterator it = elements.begin(); for (size_t i = 0; it != elements.end(); ++it, ++i) { if (i == 0) TestPostDataElementEqual(element1, (*it).get()); else if (i == 1) TestPostDataElementEqual(element2, (*it).get()); } // CefRequest SetURL request->SetURL(url); ASSERT_EQ(url, request->GetURL()); // CefRequest SetMethod request->SetMethod(method); ASSERT_EQ(method, request->GetMethod()); // CefRequest SetHeaderMap request->SetHeaderMap(setHeaders); request->GetHeaderMap(getHeaders); TestMapEqual(setHeaders, getHeaders, false); getHeaders.clear(); // CefRequest SetPostData request->SetPostData(postData); TestPostDataEqual(postData, request->GetPostData()); request = CefRequest::Create(); ASSERT_TRUE(request.get() != NULL); // CefRequest Set request->Set(url, method, postData, setHeaders); ASSERT_EQ(url, request->GetURL()); ASSERT_EQ(method, request->GetMethod()); request->GetHeaderMap(getHeaders); TestMapEqual(setHeaders, getHeaders, false); getHeaders.clear(); TestPostDataEqual(postData, request->GetPostData()); } namespace { void CreateRequest(CefRefPtr& request) { request = CefRequest::Create(); ASSERT_TRUE(request.get() != NULL); request->SetURL("http://tests/run.html"); request->SetMethod("POST"); CefRequest::HeaderMap headers; headers.insert(std::make_pair("HeaderA", "ValueA")); headers.insert(std::make_pair("HeaderB", "ValueB")); request->SetHeaderMap(headers); CefRefPtr postData(CefPostData::Create()); ASSERT_TRUE(postData.get() != NULL); CefRefPtr element1( CefPostDataElement::Create()); ASSERT_TRUE(element1.get() != NULL); char bytes[] = "Test Bytes"; element1->SetToBytes(sizeof(bytes), bytes); postData->AddElement(element1); request->SetPostData(postData); } class RequestSendRecvTestHandler : public TestHandler { public: RequestSendRecvTestHandler() {} virtual void RunTest() OVERRIDE { // Create the test request CreateRequest(request_); // Create the browser CreateBrowser("about:blank"); } virtual void OnAfterCreated(CefRefPtr browser) OVERRIDE { TestHandler::OnAfterCreated(browser); // Load the test request browser->GetMainFrame()->LoadRequest(request_); } virtual bool OnBeforeResourceLoad(CefRefPtr browser, CefRefPtr frame, CefRefPtr request) OVERRIDE { // Verify that the request is the same TestRequestEqual(request_, request, true); EXPECT_EQ(RT_MAIN_FRAME, request->GetResourceType()); EXPECT_EQ(TT_LINK, request->GetTransitionType()); got_before_resource_load_.yes(); return false; } virtual CefRefPtr GetResourceHandler( CefRefPtr browser, CefRefPtr frame, CefRefPtr request) OVERRIDE { // Verify that the request is the same TestRequestEqual(request_, request, true); EXPECT_EQ(RT_MAIN_FRAME, request->GetResourceType()); EXPECT_EQ(TT_LINK, request->GetTransitionType()); got_resource_handler_.yes(); DestroyTest(); // No results return NULL; } CefRefPtr request_; TrackCallback got_before_resource_load_; TrackCallback got_resource_handler_; }; } // namespace // Verify send and recieve TEST(RequestTest, SendRecv) { CefRefPtr handler = new RequestSendRecvTestHandler(); handler->ExecuteTest(); ASSERT_TRUE(handler->got_before_resource_load_); ASSERT_TRUE(handler->got_resource_handler_); } namespace { const char kTypeTestCompleteMsg[] = "RequestTest.Type"; const char kTypeTestOrigin[] = "http://tests-requesttt.com/"; static struct TypeExpected { const char* file; bool browser_side; // True if this expectation applies to the browser side. bool navigation; // True if this expectation represents a navigation. cef_transition_type_t transition_type; cef_resource_type_t resource_type; int expected_count; } g_type_expected[] = { // Initial main frame load due to browser creation. {"main.html", true, true, TT_EXPLICIT, RT_MAIN_FRAME, 1}, {"main.html", false, true, TT_EXPLICIT, RT_SUB_RESOURCE, 1}, // Sub frame load. {"sub.html", true, true, TT_LINK, RT_SUB_FRAME, 1}, {"sub.html", false, true, TT_EXPLICIT, RT_SUB_RESOURCE, 1}, // Stylesheet load. {"style.css", true, false, TT_LINK, RT_STYLESHEET, 1}, // Script load. {"script.js", true, false, TT_LINK, RT_SCRIPT, 1}, // Image load. {"image.png", true, false, TT_LINK, RT_IMAGE, 1}, // Font load. {"font.ttf", true, false, TT_LINK, RT_FONT_RESOURCE, 1}, // XHR load. {"xhr.html", true, false, TT_LINK, RT_XHR, 1}, }; class TypeExpectations { public: TypeExpectations(bool browser_side, bool navigation) : browser_side_(browser_side), navigation_(navigation) { // Build the map of relevant requests. for (size_t i = 0; i < sizeof(g_type_expected) / sizeof(TypeExpected); ++i) { if (g_type_expected[i].browser_side != browser_side_ || (navigation_ && g_type_expected[i].navigation != navigation_)) continue; request_count_.insert(std::make_pair(i, 0)); } } // Notify that a request has been received. Returns true if the request is // something we care about. bool GotRequest(CefRefPtr request) { const std::string& url = request->GetURL(); if (url.find(kTypeTestOrigin) != 0) return false; const std::string& file = url.substr(sizeof(kTypeTestOrigin)-1); cef_transition_type_t transition_type = request->GetTransitionType(); cef_resource_type_t resource_type = request->GetResourceType(); const int index = GetExpectedIndex(file, transition_type, resource_type); EXPECT_GE(index, 0) << "File: " << file.c_str() << "; Browser Side: " << browser_side_ << "; Navigation: " << navigation_ << "; Transition Type: " << transition_type << "; Resource Type: " << resource_type; RequestCount::iterator it = request_count_.find(index); EXPECT_TRUE(it != request_count_.end()); const int actual_count = ++it->second; const int expected_count = g_type_expected[index].expected_count; EXPECT_LE(actual_count, expected_count) << "File: " << file.c_str() << "; Browser Side: " << browser_side_ << "; Navigation: " << navigation_ << "; Transition Type: " << transition_type << "; Resource Type: " << resource_type; return true; } // Test if all expectations have been met. bool IsDone(bool assert) { for (size_t i = 0; i < sizeof(g_type_expected) / sizeof(TypeExpected); ++i) { if (g_type_expected[i].browser_side != browser_side_ || (navigation_ && g_type_expected[i].navigation != navigation_)) continue; RequestCount::const_iterator it = request_count_.find(i); EXPECT_TRUE(it != request_count_.end()); if (it->second != g_type_expected[i].expected_count) { if (assert) { EXPECT_EQ(g_type_expected[i].expected_count, it->second) << "File: " << g_type_expected[i].file << "; Browser Side: " << browser_side_ << "; Navigation: " << navigation_ << "; Transition Type: " << g_type_expected[i].transition_type << "; Resource Type: " << g_type_expected[i].resource_type; } return false; } } return true; } private: // Returns the index for the specified navigation. int GetExpectedIndex(const std::string& file, cef_transition_type_t transition_type, cef_resource_type_t resource_type) { for (size_t i = 0; i < sizeof(g_type_expected) / sizeof(TypeExpected); ++i) { if (g_type_expected[i].file == file && g_type_expected[i].browser_side == browser_side_ && (!navigation_ || g_type_expected[i].navigation == navigation_) && g_type_expected[i].transition_type == transition_type && g_type_expected[i].resource_type == resource_type) { return i; } } return -1; } bool browser_side_; bool navigation_; // Map of TypeExpected index to actual request count. typedef std::map RequestCount; RequestCount request_count_; }; // Renderer side. class TypeRendererTest : public ClientApp::RenderDelegate { public: TypeRendererTest() : expectations_(false, true) {} virtual bool OnBeforeNavigation(CefRefPtr app, CefRefPtr browser, CefRefPtr frame, CefRefPtr request, cef_navigation_type_t navigation_type, bool is_redirect) OVERRIDE { if (expectations_.GotRequest(request) && expectations_.IsDone(false)) SendTestResults(browser); return false; } private: // Send the test results. void SendTestResults(CefRefPtr browser) { // Check if the test has failed. bool result = !TestFailed(); // Return the result to the browser process. CefRefPtr return_msg = CefProcessMessage::Create(kTypeTestCompleteMsg); CefRefPtr args = return_msg->GetArgumentList(); EXPECT_TRUE(args.get()); EXPECT_TRUE(args->SetBool(0, result)); EXPECT_TRUE(browser->SendProcessMessage(PID_BROWSER, return_msg)); } TypeExpectations expectations_; IMPLEMENT_REFCOUNTING(TypeRendererTest); }; // Browser side. class TypeTestHandler : public TestHandler { public: TypeTestHandler() : browse_expectations_(true, true), load_expectations_(true, false), get_expectations_(true, false), completed_browser_side_(false), completed_render_side_(false), destroyed_(false) {} virtual void RunTest() OVERRIDE { AddResource(std::string(kTypeTestOrigin) + "main.html", "" "" "" "" "" "

Main

" "" "" "" "", "text/html"); AddResource(std::string(kTypeTestOrigin) + "sub.html", "Sub", "text/html"); AddResource(std::string(kTypeTestOrigin) + "style.css", "@font-face {" " font-family: custom_font;" " src: url('font.ttf');" "}" "p {" " font-family: custom_font;" "}", "text/css"); AddResource(std::string(kTypeTestOrigin) + "script.js", "", "text/javascript"); AddResource(std::string(kTypeTestOrigin) + "image.png", "", "image/png"); AddResource(std::string(kTypeTestOrigin) + "font.ttf", "", "font/ttf"); AddResource(std::string(kTypeTestOrigin) + "xhr.html", "XHR", "text/html"); CreateBrowser(std::string(kTypeTestOrigin) + "main.html"); // Time out the test after a reasonable period of time. CefPostDelayedTask(TID_UI, NewCefRunnableMethod(this, &TypeTestHandler::DestroyTest), 2000); } virtual bool OnBeforeBrowse(CefRefPtr browser, CefRefPtr frame, CefRefPtr request, bool is_redirect) OVERRIDE { browse_expectations_.GotRequest(request); return false; } virtual bool OnBeforeResourceLoad(CefRefPtr browser, CefRefPtr frame, CefRefPtr request) OVERRIDE { load_expectations_.GotRequest(request); return false; } virtual CefRefPtr GetResourceHandler( CefRefPtr browser, CefRefPtr frame, CefRefPtr request) OVERRIDE { if (get_expectations_.GotRequest(request) && get_expectations_.IsDone(false)) { completed_browser_side_ = true; // Destroy the test on the UI thread. CefPostTask(TID_UI, NewCefRunnableMethod(this, &TypeTestHandler::DestroyTestIfComplete)); } return TestHandler::GetResourceHandler(browser, frame, request); } virtual bool OnProcessMessageReceived( CefRefPtr browser, CefProcessId source_process, CefRefPtr message) OVERRIDE { const std::string& msg_name = message->GetName(); if (msg_name == kTypeTestCompleteMsg) { // Test that the renderer side succeeded. CefRefPtr args = message->GetArgumentList(); EXPECT_TRUE(args.get()); EXPECT_TRUE(args->GetBool(0)); completed_render_side_ = true; DestroyTestIfComplete(); return true; } // Message not handled. return false; } private: void DestroyTestIfComplete() { if (destroyed_) return; if (completed_browser_side_ && completed_render_side_) DestroyTest(); } virtual void DestroyTest() OVERRIDE { if (destroyed_) return; destroyed_ = true; // Verify test expectations. EXPECT_TRUE(completed_browser_side_); EXPECT_TRUE(completed_render_side_); EXPECT_TRUE(browse_expectations_.IsDone(true)); EXPECT_TRUE(load_expectations_.IsDone(true)); EXPECT_TRUE(get_expectations_.IsDone(true)); TestHandler::DestroyTest(); } TypeExpectations browse_expectations_; TypeExpectations load_expectations_; TypeExpectations get_expectations_; bool completed_browser_side_; bool completed_render_side_; bool destroyed_; }; } // namespace // Verify the order of navigation-related callbacks. TEST(RequestTest, ResourceAndTransitionType) { CefRefPtr handler = new TypeTestHandler(); handler->ExecuteTest(); } // Entry point for creating request renderer test objects. // Called from client_app_delegates.cc. void CreateRequestRendererTests(ClientApp::RenderDelegateSet& delegates) { delegates.insert(new TypeRendererTest); }