// 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/base/cef_bind.h" #include "include/base/cef_logging.h" #include "include/base/cef_ref_counted.h" #include "include/cef_cookie.h" #include "include/cef_request_context_handler.h" #include "include/cef_scheme.h" #include "include/cef_server.h" #include "include/cef_waitable_event.h" #include "include/wrapper/cef_closure_task.h" #include "tests/ceftests/routing_test_handler.h" #include "tests/ceftests/test_handler.h" #include "tests/ceftests/test_suite.h" #include "tests/ceftests/test_util.h" #include "tests/gtest/include/gtest/gtest.h" namespace { const char* kTestUrl = "http://www.test.com/path/to/cookietest/foo.html"; const char* kTestDomain = "www.test.com"; const char* kTestPath = "/path/to/cookietest"; const int kIgnoreNumDeleted = -2; typedef std::vector CookieVector; class TestCompletionCallback : public CefCompletionCallback { public: explicit TestCompletionCallback(CefRefPtr event) : event_(event) {} void OnComplete() override { EXPECT_TRUE(CefCurrentlyOn(TID_UI)); event_->Signal(); } private: CefRefPtr event_; IMPLEMENT_REFCOUNTING(TestCompletionCallback); DISALLOW_COPY_AND_ASSIGN(TestCompletionCallback); }; class TestSetCookieCallback : public CefSetCookieCallback { public: TestSetCookieCallback(bool expected_success, CefRefPtr event) : expected_success_(expected_success), event_(event) {} void OnComplete(bool success) override { EXPECT_TRUE(CefCurrentlyOn(TID_UI)); EXPECT_EQ(expected_success_, success); event_->Signal(); } private: bool expected_success_; CefRefPtr event_; IMPLEMENT_REFCOUNTING(TestSetCookieCallback); DISALLOW_COPY_AND_ASSIGN(TestSetCookieCallback); }; class TestDeleteCookiesCallback : public CefDeleteCookiesCallback { public: TestDeleteCookiesCallback(int expected_num_deleted, CefRefPtr event) : expected_num_deleted_(expected_num_deleted), event_(event) {} void OnComplete(int num_deleted) override { EXPECT_TRUE(CefCurrentlyOn(TID_UI)); if (expected_num_deleted_ != kIgnoreNumDeleted) { EXPECT_EQ(expected_num_deleted_, num_deleted); } event_->Signal(); } private: int expected_num_deleted_; CefRefPtr event_; IMPLEMENT_REFCOUNTING(TestDeleteCookiesCallback); DISALLOW_COPY_AND_ASSIGN(TestDeleteCookiesCallback); }; class TestVisitor : public CefCookieVisitor { public: TestVisitor(CookieVector* cookies, bool deleteCookies, const base::Closure& callback) : cookies_(cookies), delete_cookies_(deleteCookies), callback_(callback) { EXPECT_TRUE(cookies_); EXPECT_FALSE(callback_.is_null()); } ~TestVisitor() override { callback_.Run(); } bool Visit(const CefCookie& cookie, int count, int total, bool& deleteCookie) override { EXPECT_TRUE(CefCurrentlyOn(TID_UI)); cookies_->push_back(cookie); if (delete_cookies_) deleteCookie = true; return true; } private: CookieVector* cookies_; bool delete_cookies_; base::Closure callback_; IMPLEMENT_REFCOUNTING(TestVisitor); }; // Set the cookies. void SetCookies(CefRefPtr manager, const CefString& url, const CookieVector& cookies, bool expected_success, CefRefPtr event) { CookieVector::const_iterator it = cookies.begin(); for (; it != cookies.end(); ++it) { EXPECT_TRUE(manager->SetCookie( url, *it, new TestSetCookieCallback(expected_success, event))); event->Wait(); } } // Delete the cookie. void DeleteCookies(CefRefPtr manager, const CefString& url, const CefString& cookie_name, int expected_num_deleted, CefRefPtr event) { EXPECT_TRUE(manager->DeleteCookies( url, cookie_name, new TestDeleteCookiesCallback(expected_num_deleted, event))); event->Wait(); } // Create a test cookie. If |withDomain| is true a domain cookie will be // created, otherwise a host cookie will be created. void CreateCookie(CefRefPtr manager, CefCookie& cookie, bool withDomain, bool sessionCookie, CefRefPtr event) { CefString(&cookie.name).FromASCII("my_cookie"); CefString(&cookie.value).FromASCII("My Value"); if (withDomain) CefString(&cookie.domain).FromASCII(kTestDomain); CefString(&cookie.path).FromASCII(kTestPath); if (!sessionCookie) { cookie.has_expires = true; cookie.expires.year = 2200; cookie.expires.month = 4; cookie.expires.day_of_week = 5; cookie.expires.day_of_month = 11; } CookieVector cookies; cookies.push_back(cookie); SetCookies(manager, kTestUrl, cookies, true, event); } // Visit URL cookies. Execute |callback| on completion. void VisitUrlCookies(CefRefPtr manager, const CefString& url, bool includeHttpOnly, CookieVector& cookies, bool deleteCookies, const base::Closure& callback) { EXPECT_TRUE(manager->VisitUrlCookies( url, includeHttpOnly, new TestVisitor(&cookies, deleteCookies, callback))); } // Visit URL cookies. Block on |event|. void VisitUrlCookies(CefRefPtr manager, const CefString& url, bool includeHttpOnly, CookieVector& cookies, bool deleteCookies, CefRefPtr event) { VisitUrlCookies(manager, url, includeHttpOnly, cookies, deleteCookies, base::Bind(&CefWaitableEvent::Signal, event)); event->Wait(); } // Visit all cookies. Execute |callback| on completion. void VisitAllCookies(CefRefPtr manager, CookieVector& cookies, bool deleteCookies, const base::Closure& callback) { EXPECT_TRUE(manager->VisitAllCookies( new TestVisitor(&cookies, deleteCookies, callback))); } // Visit all cookies. Block on |event|. void VisitAllCookies(CefRefPtr manager, CookieVector& cookies, bool deleteCookies, CefRefPtr event) { VisitAllCookies(manager, cookies, deleteCookies, base::Bind(&CefWaitableEvent::Signal, event)); event->Wait(); } // Retrieve the test cookie. If |withDomain| is true check that the cookie // is a domain cookie, otherwise a host cookie. if |deleteCookies| is true // the cookie will be deleted when it's retrieved. void GetCookie(CefRefPtr manager, const CefCookie& cookie, bool withDomain, CefRefPtr event, bool deleteCookies) { CookieVector cookies; // Get the cookie and delete it. VisitUrlCookies(manager, kTestUrl, false, cookies, deleteCookies, event); EXPECT_EQ(1U, cookies.size()); if (cookies.size() != 1U) return; const CefCookie& cookie_read = cookies[0]; EXPECT_EQ(CefString(&cookie_read.name), "my_cookie"); EXPECT_EQ(CefString(&cookie_read.value), "My Value"); if (withDomain) EXPECT_EQ(CefString(&cookie_read.domain), ".www.test.com"); else EXPECT_EQ(CefString(&cookie_read.domain), kTestDomain); EXPECT_EQ(CefString(&cookie_read.path), kTestPath); EXPECT_EQ(cookie.has_expires, cookie_read.has_expires); EXPECT_EQ(cookie.expires.year, cookie_read.expires.year); EXPECT_EQ(cookie.expires.month, cookie_read.expires.month); EXPECT_EQ(cookie.expires.day_of_week, cookie_read.expires.day_of_week); EXPECT_EQ(cookie.expires.day_of_month, cookie_read.expires.day_of_month); EXPECT_EQ(cookie.expires.hour, cookie_read.expires.hour); EXPECT_EQ(cookie.expires.minute, cookie_read.expires.minute); EXPECT_EQ(cookie.expires.second, cookie_read.expires.second); EXPECT_EQ(cookie.expires.millisecond, cookie_read.expires.millisecond); } // Verify that no cookies exist. If |withUrl| is true it will only check for // cookies matching the URL. void VerifyNoCookies(CefRefPtr manager, CefRefPtr event, bool withUrl) { CookieVector cookies; // Verify that the cookie has been deleted. if (withUrl) { VisitUrlCookies(manager, kTestUrl, false, cookies, false, event); } else { VisitAllCookies(manager, cookies, false, event); } EXPECT_EQ(0U, cookies.size()); } // Delete all system cookies. void DeleteAllCookies(CefRefPtr manager, CefRefPtr event) { DeleteCookies(manager, CefString(), CefString(), kIgnoreNumDeleted, event); } void TestDomainCookie(CefRefPtr manager, CefRefPtr event) { CefCookie cookie; // Create a domain cookie. CreateCookie(manager, cookie, true, false, event); // Retrieve, verify and delete the domain cookie. GetCookie(manager, cookie, true, event, true); // Verify that the cookie was deleted. VerifyNoCookies(manager, event, true); } void TestHostCookie(CefRefPtr manager, CefRefPtr event) { CefCookie cookie; // Create a host cookie. CreateCookie(manager, cookie, false, false, event); // Retrieve, verify and delete the host cookie. GetCookie(manager, cookie, false, event, true); // Verify that the cookie was deleted. VerifyNoCookies(manager, event, true); } void TestInvalidCookie(CefRefPtr manager, CefRefPtr event) { CookieVector cookies; CefCookie cookie; const char* kUrl = "http://www.xyz.com"; CefString(&cookie.name).FromASCII("invalid1"); CefString(&cookie.value).FromASCII("invalid1"); CefString(&cookie.domain).FromASCII(".zyx.com"); // domain mismatch cookies.push_back(cookie); // No cookies will be set due to non canonical cookie SetCookies(manager, kUrl, cookies, false, event); } void TestMultipleCookies(CefRefPtr manager, CefRefPtr event) { std::stringstream ss; int i; CookieVector cookies; const int kNumCookies = 4; // Create the cookies. for (i = 0; i < kNumCookies; i++) { CefCookie cookie; ss << "my_cookie" << i; CefString(&cookie.name).FromASCII(ss.str().c_str()); ss.str(""); ss << "My Value " << i; CefString(&cookie.value).FromASCII(ss.str().c_str()); ss.str(""); cookies.push_back(cookie); } // Set the cookies. SetCookies(manager, kTestUrl, cookies, true, event); cookies.clear(); // Get the cookies without deleting them. VisitUrlCookies(manager, kTestUrl, false, cookies, false, event); EXPECT_EQ((CookieVector::size_type)kNumCookies, cookies.size()); CookieVector::const_iterator it = cookies.begin(); for (i = 0; it != cookies.end(); ++it, ++i) { const CefCookie& cookie = *it; ss << "my_cookie" << i; EXPECT_EQ(CefString(&cookie.name), ss.str()); ss.str(""); ss << "My Value " << i; EXPECT_EQ(CefString(&cookie.value), ss.str()); ss.str(""); } cookies.clear(); // Delete the 2nd cookie. DeleteCookies(manager, kTestUrl, CefString("my_cookie1"), 1, event); // Verify that the cookie has been deleted. VisitUrlCookies(manager, kTestUrl, false, cookies, false, event); EXPECT_EQ(3U, cookies.size()); if (cookies.size() != 3U) return; EXPECT_EQ(CefString(&cookies[0].name), "my_cookie0"); EXPECT_EQ(CefString(&cookies[1].name), "my_cookie2"); EXPECT_EQ(CefString(&cookies[2].name), "my_cookie3"); cookies.clear(); // Delete the rest of the cookies. DeleteCookies(manager, kTestUrl, CefString(), 3, event); // Verify that the cookies have been deleted. VisitUrlCookies(manager, kTestUrl, false, cookies, false, event); EXPECT_EQ(0U, cookies.size()); // Create the cookies. for (i = 0; i < kNumCookies; i++) { CefCookie cookie; ss << "my_cookie" << i; CefString(&cookie.name).FromASCII(ss.str().c_str()); ss.str(""); ss << "My Value " << i; CefString(&cookie.value).FromASCII(ss.str().c_str()); ss.str(""); cookies.push_back(cookie); } // Delete all of the cookies using the visitor. VisitUrlCookies(manager, kTestUrl, false, cookies, true, event); cookies.clear(); // Verify that the cookies have been deleted. VisitUrlCookies(manager, kTestUrl, false, cookies, false, event); EXPECT_EQ(0U, cookies.size()); } void TestAllCookies(CefRefPtr manager, CefRefPtr event) { CookieVector cookies; // Delete all system cookies just in case something is left over from a // different test. DeleteAllCookies(manager, event); // Verify that all system cookies have been deleted. VisitAllCookies(manager, cookies, false, event); EXPECT_EQ(0U, cookies.size()); // Create cookies with 2 separate hosts. CefCookie cookie1; const char* kUrl1 = "http://www.foo.com"; CefString(&cookie1.name).FromASCII("my_cookie1"); CefString(&cookie1.value).FromASCII("My Value 1"); cookies.push_back(cookie1); SetCookies(manager, kUrl1, cookies, true, event); cookies.clear(); CefCookie cookie2; const char* kUrl2 = "http://www.bar.com"; CefString(&cookie2.name).FromASCII("my_cookie2"); CefString(&cookie2.value).FromASCII("My Value 2"); cookies.push_back(cookie2); SetCookies(manager, kUrl2, cookies, true, event); cookies.clear(); // Verify that all system cookies can be retrieved. VisitAllCookies(manager, cookies, false, event); EXPECT_EQ(2U, cookies.size()); if (cookies.size() != 2U) return; EXPECT_EQ(CefString(&cookies[0].name), "my_cookie1"); EXPECT_EQ(CefString(&cookies[0].value), "My Value 1"); EXPECT_EQ(CefString(&cookies[0].domain), "www.foo.com"); EXPECT_EQ(CefString(&cookies[1].name), "my_cookie2"); EXPECT_EQ(CefString(&cookies[1].value), "My Value 2"); EXPECT_EQ(CefString(&cookies[1].domain), "www.bar.com"); cookies.clear(); // Verify that the cookies can be retrieved separately. VisitUrlCookies(manager, kUrl1, false, cookies, false, event); EXPECT_EQ(1U, cookies.size()); if (cookies.size() != 1U) return; EXPECT_EQ(CefString(&cookies[0].name), "my_cookie1"); EXPECT_EQ(CefString(&cookies[0].value), "My Value 1"); EXPECT_EQ(CefString(&cookies[0].domain), "www.foo.com"); cookies.clear(); VisitUrlCookies(manager, kUrl2, false, cookies, false, event); EXPECT_EQ(1U, cookies.size()); if (cookies.size() != 1U) return; EXPECT_EQ(CefString(&cookies[0].name), "my_cookie2"); EXPECT_EQ(CefString(&cookies[0].value), "My Value 2"); EXPECT_EQ(CefString(&cookies[0].domain), "www.bar.com"); cookies.clear(); // Delete all of the system cookies. DeleteAllCookies(manager, event); // Verify that all system cookies have been deleted. VerifyNoCookies(manager, event, false); } } // namespace // Test creation of a invalid cookie. TEST(CookieTest, BasicInvalidCookie) { CefRefPtr event = CefWaitableEvent::CreateWaitableEvent(true, false); CefRefPtr manager = CefCookieManager::GetGlobalManager(new TestCompletionCallback(event)); event->Wait(); EXPECT_TRUE(manager.get()); TestInvalidCookie(manager, event); } // Test creation of a domain cookie. TEST(CookieTest, BasicDomainCookie) { CefRefPtr event = CefWaitableEvent::CreateWaitableEvent(true, false); CefRefPtr manager = CefCookieManager::GetGlobalManager(new TestCompletionCallback(event)); event->Wait(); EXPECT_TRUE(manager.get()); TestDomainCookie(manager, event); } // Test creation of a host cookie. TEST(CookieTest, BasicHostCookie) { CefRefPtr event = CefWaitableEvent::CreateWaitableEvent(true, false); CefRefPtr manager = CefCookieManager::GetGlobalManager(new TestCompletionCallback(event)); event->Wait(); EXPECT_TRUE(manager.get()); TestHostCookie(manager, event); } // Test creation of multiple cookies. TEST(CookieTest, BasicMultipleCookies) { CefRefPtr event = CefWaitableEvent::CreateWaitableEvent(true, false); CefRefPtr manager = CefCookieManager::GetGlobalManager(new TestCompletionCallback(event)); event->Wait(); EXPECT_TRUE(manager.get()); TestMultipleCookies(manager, event); } TEST(CookieTest, BasicAllCookies) { CefRefPtr event = CefWaitableEvent::CreateWaitableEvent(true, false); CefRefPtr manager = CefCookieManager::GetGlobalManager(new TestCompletionCallback(event)); event->Wait(); EXPECT_TRUE(manager.get()); TestAllCookies(manager, event); } namespace { const char* kCookieJSUrl1 = "http://tests/cookie1.html"; const char* kCookieJSUrl2 = "http://tests/cookie2.html"; class CookieTestJSHandler : public TestHandler { public: CookieTestJSHandler() {} void RunTest() override { std::string page = "" "" "COOKIE TEST1"; AddResource(kCookieJSUrl1, page, "text/html"); page = "" "" "COOKIE TEST2"; AddResource(kCookieJSUrl2, page, "text/html"); // Create the request context that will use an in-memory cache. CefRequestContextSettings settings; CefRefPtr request_context = CefRequestContext::CreateContext(settings, NULL); manager_ = request_context->GetCookieManager(NULL); // Create the browser. CreateBrowser(kCookieJSUrl1, request_context); // Time out the test after a reasonable period of time. SetTestTimeout(); } // Go to the next URL. void LoadNextURL(CefRefPtr frame) { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&CookieTestJSHandler::LoadNextURL, this, frame)); return; } frame->LoadURL(kCookieJSUrl2); } void CompleteTest() { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&CookieTestJSHandler::CompleteTest, this)); return; } DestroyTest(); } void OnLoadEnd(CefRefPtr browser, CefRefPtr frame, int httpStatusCode) override { std::string url = frame->GetURL(); if (url == kCookieJSUrl1) { got_load_end1_.yes(); VerifyCookie(manager_, url, "name1", "value1", true, &got_cookie1_, base::Bind(&CookieTestJSHandler::LoadNextURL, this, frame)); } else { got_load_end2_.yes(); VerifyCookie(manager_, url, "name2", "value2", true, &got_cookie2_, base::Bind(&CookieTestJSHandler::CompleteTest, this)); } } // Verify that the cookie was set successfully. void VerifyCookie(CefRefPtr manager, const std::string& url, const std::string& name, const std::string& value, bool deleteCookie, TrackCallback* callback, const base::Closure& continue_callback) { // Get the cookie. EXPECT_TRUE(cookies_.empty()); VisitUrlCookies(manager, url, false, cookies_, deleteCookie, base::Bind(&CookieTestJSHandler::VerifyCookieComplete, this, name, value, callback, continue_callback)); } void VerifyCookieComplete(const std::string& name, const std::string& value, TrackCallback* callback, const base::Closure& continue_callback) { if (cookies_.size() == 1U && CefString(&cookies_[0].name) == name && CefString(&cookies_[0].value) == value) { callback->yes(); } cookies_.clear(); continue_callback.Run(); } CefRefPtr manager_; CookieVector cookies_; TrackCallback got_load_end1_; TrackCallback got_load_end2_; TrackCallback got_cookie1_; TrackCallback got_cookie2_; IMPLEMENT_REFCOUNTING(CookieTestJSHandler); }; } // namespace // Verify use of multiple cookie managers vis JS. TEST(CookieTest, GetCookieManagerJS) { CefRefPtr handler = new CookieTestJSHandler(); handler->ExecuteTest(); EXPECT_TRUE(handler->got_load_end1_); EXPECT_TRUE(handler->got_load_end2_); EXPECT_TRUE(handler->got_cookie1_); EXPECT_TRUE(handler->got_cookie2_); ReleaseAndWaitForDestructor(handler); } namespace { const char kCustomCookieScheme[] = "ccustom"; class CompletionCallback : public CefCompletionCallback { public: explicit CompletionCallback(const base::Closure& callback) : callback_(callback) {} void OnComplete() override { callback_.Run(); callback_.Reset(); } private: base::Closure callback_; IMPLEMENT_REFCOUNTING(CompletionCallback); }; class CookieTestSchemeHandler : public TestHandler { public: class SchemeHandler : public CefResourceHandler { public: explicit SchemeHandler(CookieTestSchemeHandler* handler) : handler_(handler), offset_(0) {} bool ProcessRequest(CefRefPtr request, CefRefPtr callback) override { std::string url = request->GetURL(); if (url == handler_->url1_) { content_ = "COOKIE TEST1"; cookie_ = "name1=value1"; handler_->got_process_request1_.yes(); } else if (url == handler_->url2_) { content_ = "COOKIE TEST2"; cookie_ = "name2=value2"; handler_->got_process_request2_.yes(); } else if (url == handler_->url3_) { content_ = "COOKIE TEST3"; handler_->got_process_request3_.yes(); // Verify that the cookie was passed in. CefRequest::HeaderMap headerMap; request->GetHeaderMap(headerMap); CefRequest::HeaderMap::iterator it = headerMap.find("Cookie"); if (it != headerMap.end() && it->second == "name2=value2") handler_->got_process_request_cookie_.yes(); } callback->Continue(); return true; } void GetResponseHeaders(CefRefPtr response, int64& response_length, CefString& redirectUrl) override { response_length = content_.size(); response->SetStatus(200); response->SetMimeType("text/html"); if (!cookie_.empty()) { CefResponse::HeaderMap headerMap; response->GetHeaderMap(headerMap); headerMap.insert(std::make_pair("Set-Cookie", cookie_)); response->SetHeaderMap(headerMap); } } bool ReadResponse(void* data_out, int bytes_to_read, int& bytes_read, CefRefPtr callback) override { bool has_data = false; bytes_read = 0; size_t size = content_.size(); if (offset_ < size) { int transfer_size = std::min(bytes_to_read, static_cast(size - offset_)); memcpy(data_out, content_.c_str() + offset_, transfer_size); offset_ += transfer_size; bytes_read = transfer_size; has_data = true; } return has_data; } void Cancel() override {} private: CookieTestSchemeHandler* handler_; std::string content_; size_t offset_; std::string cookie_; IMPLEMENT_REFCOUNTING(SchemeHandler); }; class SchemeHandlerFactory : public CefSchemeHandlerFactory { public: explicit SchemeHandlerFactory(CookieTestSchemeHandler* handler) : handler_(handler) {} CefRefPtr Create( CefRefPtr browser, CefRefPtr frame, const CefString& scheme_name, CefRefPtr request) override { std::string url = request->GetURL(); if (url == handler_->url3_) { // Verify that the cookie was not passed in. CefRequest::HeaderMap headerMap; request->GetHeaderMap(headerMap); CefRequest::HeaderMap::iterator it = headerMap.find("Cookie"); if (it != headerMap.end() && it->second == "name2=value2") handler_->got_create_cookie_.yes(); } return new SchemeHandler(handler_); } private: CookieTestSchemeHandler* handler_; IMPLEMENT_REFCOUNTING(SchemeHandlerFactory); }; CookieTestSchemeHandler(const std::string& scheme, bool use_global, bool block_cookies = false) : scheme_(scheme), use_global_(use_global), block_cookies_(block_cookies) { url1_ = scheme + "://cookie-tests/cookie1.html"; url2_ = scheme + "://cookie-tests/cookie2.html"; url3_ = scheme + "://cookie-tests/cookie3.html"; } void RunTest() override { if (use_global_) { request_context_ = CefRequestContext::GetGlobalContext(); } else { // Create the request context that will use an in-memory cache. CefRequestContextSettings settings; request_context_ = CefRequestContext::CreateContext(settings, NULL); } // Register the scheme handler. request_context_->RegisterSchemeHandlerFactory( scheme_, "cookie-tests", new SchemeHandlerFactory(this)); manager_ = request_context_->GetCookieManager(NULL); if (!use_global_ && (scheme_ == kCustomCookieScheme || block_cookies_)) { std::vector schemes; if (!block_cookies_) schemes.push_back(kCustomCookieScheme); // Need to wait for completion before creating the browser. manager_->SetSupportedSchemes( schemes, !block_cookies_ /* include_defaults */, new CompletionCallback(base::Bind( &CookieTestSchemeHandler::CreateBrowserContinue, this))); } else { CreateBrowserContinue(); } // Time out the test after a reasonable period of time. SetTestTimeout(); } void CreateBrowserContinue() { // Create the browser. CreateBrowser(url1_, request_context_); } // Go to the next URL. void LoadNextURL(CefRefPtr frame, const std::string& url) { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&CookieTestSchemeHandler::LoadNextURL, this, frame, url)); return; } frame->LoadURL(url); } void CompleteTest(CefRefPtr browser) { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&CookieTestSchemeHandler::CompleteTest, this, browser)); return; } // Unregister the scheme handler. browser->GetHost()->GetRequestContext()->RegisterSchemeHandlerFactory( scheme_, "cookie-tests", NULL); DestroyTest(); } void OnLoadEnd(CefRefPtr browser, CefRefPtr frame, int httpStatusCode) override { std::string url = frame->GetURL(); if (url == url1_) { got_load_end1_.yes(); VerifyCookie(manager_, url, "name1", "value1", true, &got_cookie1_, base::Bind(&CookieTestSchemeHandler::LoadNextURL, this, frame, url2_)); } else if (url == url2_) { got_load_end2_.yes(); VerifyCookie(manager_, url, "name2", "value2", false, &got_cookie2_, base::Bind(&CookieTestSchemeHandler::LoadNextURL, this, frame, url3_)); } else { got_load_end3_.yes(); VerifyCookie( manager_, url, "name2", "value2", true, &got_cookie3_, base::Bind(&CookieTestSchemeHandler::CompleteTest, this, browser)); } } void DestroyTest() override { EXPECT_TRUE(got_process_request1_); EXPECT_TRUE(got_process_request2_); EXPECT_TRUE(got_process_request3_); EXPECT_TRUE(got_load_end1_); EXPECT_TRUE(got_load_end2_); EXPECT_TRUE(got_load_end3_); if (block_cookies_) { EXPECT_FALSE(got_create_cookie_); EXPECT_FALSE(got_process_request_cookie_); EXPECT_FALSE(got_cookie1_); EXPECT_FALSE(got_cookie2_); EXPECT_FALSE(got_cookie3_); } else { if (IsNetworkServiceEnabled()) EXPECT_TRUE(got_create_cookie_); else EXPECT_FALSE(got_create_cookie_); EXPECT_TRUE(got_process_request_cookie_); EXPECT_TRUE(got_cookie1_); EXPECT_TRUE(got_cookie2_); EXPECT_TRUE(got_cookie3_); } // Unregister the scheme handler. request_context_->RegisterSchemeHandlerFactory(scheme_, "cookie-tests", NULL); request_context_ = NULL; TestHandler::DestroyTest(); } // Verify that the cookie was set successfully. void VerifyCookie(CefRefPtr manager, const std::string& url, const std::string& name, const std::string& value, bool deleteCookie, TrackCallback* callback, const base::Closure& continue_callback) { // Get the cookie. EXPECT_TRUE(cookies_.empty()); VisitUrlCookies(manager, url, false, cookies_, deleteCookie, base::Bind(&CookieTestSchemeHandler::VerifyCookieComplete, this, name, value, callback, continue_callback)); } void VerifyCookieComplete(const std::string& name, const std::string& value, TrackCallback* callback, const base::Closure& continue_callback) { if (cookies_.size() == 1U && CefString(&cookies_[0].name) == name && CefString(&cookies_[0].value) == value) { callback->yes(); } cookies_.clear(); continue_callback.Run(); } const std::string scheme_; const bool use_global_; const bool block_cookies_; std::string url1_; std::string url2_; std::string url3_; CefRefPtr request_context_; CefRefPtr manager_; CookieVector cookies_; TrackCallback got_process_request1_; TrackCallback got_process_request2_; TrackCallback got_process_request3_; TrackCallback got_create_cookie_; TrackCallback got_process_request_cookie_; TrackCallback got_load_end1_; TrackCallback got_load_end2_; TrackCallback got_load_end3_; TrackCallback got_cookie1_; TrackCallback got_cookie2_; TrackCallback got_cookie3_; IMPLEMENT_REFCOUNTING(CookieTestSchemeHandler); }; } // namespace // Verify use of the global cookie manager with HTTP. TEST(CookieTest, GetCookieManagerHttpGlobal) { CefRefPtr handler = new CookieTestSchemeHandler("http", true); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Verify use of an in-memory cookie manager with HTTP. TEST(CookieTest, GetCookieManagerHttpInMemory) { CefRefPtr handler = new CookieTestSchemeHandler("http", false); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Verify use of an in-memory cookie manager with HTTP to block all cookies. TEST(CookieTest, GetCookieManagerHttpInMemoryBlocked) { CefRefPtr handler = new CookieTestSchemeHandler("http", false, true); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Verify use of the global cookie manager with a custom scheme. TEST(CookieTest, GetCookieManagerCustomGlobal) { CefRefPtr handler = new CookieTestSchemeHandler(kCustomCookieScheme, true); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Verify use of an in-memory cookie manager with a custom scheme. TEST(CookieTest, GetCookieManagerCustomInMemory) { CefRefPtr handler = new CookieTestSchemeHandler(kCustomCookieScheme, false); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } namespace { const char kCookieAccessScheme[] = "http"; const char kCookieAccessDomain[] = "test-cookies.com"; const char kCookieAccessServerIP[] = "127.0.0.1"; const uint16 kCookieAccessServerPort = 8099; std::string GetCookieAccessOrigin(const std::string& scheme, bool server_backend) { std::stringstream ss; if (server_backend) { ss << scheme << "://" << kCookieAccessServerIP << ":" << kCookieAccessServerPort; } else { ss << scheme << "://" << kCookieAccessDomain; } ss << "/"; return ss.str(); } std::string GetCookieAccessUrl1(const std::string& scheme, bool server_backend) { return GetCookieAccessOrigin(scheme, server_backend) + "cookie1.html"; } std::string GetCookieAccessUrl2(const std::string& scheme, bool server_backend) { return GetCookieAccessOrigin(scheme, server_backend) + "cookie2.html"; } void TestCookieString(const std::string& cookie_str, int& cookie_js_ct, int& cookie_net_ct) { if (cookie_str.find("name_js=value_js") != std::string::npos) { cookie_js_ct++; } if (cookie_str.find("name_net=value_net") != std::string::npos) { cookie_net_ct++; } } struct CookieAccessData { CefRefPtr response; std::string response_data; int request_ct_ = 0; int cookie_js_ct_ = 0; int cookie_net_ct_ = 0; }; class CookieAccessResponseHandler { public: CookieAccessResponseHandler() {} virtual void AddResponse(const std::string& url, CookieAccessData* data) = 0; protected: virtual ~CookieAccessResponseHandler() {} }; std::string GetHeaderValue(const CefServer::HeaderMap& header_map, const std::string& header_name) { CefServer::HeaderMap::const_iterator it = header_map.find(header_name); if (it != header_map.end()) return it->second; return std::string(); } // Serves request responses. class CookieAccessSchemeHandler : public CefResourceHandler { public: explicit CookieAccessSchemeHandler(CookieAccessData* data) : data_(data), offset_(0) {} bool ProcessRequest(CefRefPtr request, CefRefPtr callback) override { EXPECT_IO_THREAD(); CefRequest::HeaderMap headerMap; request->GetHeaderMap(headerMap); const std::string& cookie_str = GetHeaderValue(headerMap, "Cookie"); TestCookieString(cookie_str, data_->cookie_js_ct_, data_->cookie_net_ct_); // Continue immediately. callback->Continue(); return true; } void GetResponseHeaders(CefRefPtr response, int64& response_length, CefString& redirectUrl) override { EXPECT_IO_THREAD(); response->SetStatus(data_->response->GetStatus()); response->SetStatusText(data_->response->GetStatusText()); response->SetMimeType(data_->response->GetMimeType()); CefResponse::HeaderMap headerMap; data_->response->GetHeaderMap(headerMap); response->SetHeaderMap(headerMap); response_length = data_->response_data.length(); } bool ReadResponse(void* response_data_out, int bytes_to_read, int& bytes_read, CefRefPtr callback) override { EXPECT_IO_THREAD(); bool has_data = false; bytes_read = 0; size_t size = data_->response_data.length(); if (offset_ < size) { int transfer_size = std::min(bytes_to_read, static_cast(size - offset_)); memcpy(response_data_out, data_->response_data.c_str() + offset_, transfer_size); offset_ += transfer_size; bytes_read = transfer_size; has_data = true; } return has_data; } void Cancel() override { EXPECT_IO_THREAD(); } private: static void TestCookie(const CefCookie& cookie, TrackCallback& got_cookie_js, TrackCallback& got_cookie_net) { const std::string& cookie_name = CefString(&cookie.name); const std::string& cookie_val = CefString(&cookie.value); if (cookie_name == "name_js") { EXPECT_STREQ("value_js", cookie_val.c_str()); got_cookie_js.yes(); } else if (cookie_name == "name_net") { EXPECT_STREQ("value_net", cookie_val.c_str()); got_cookie_net.yes(); } else { ADD_FAILURE() << "Unexpected cookie: " << cookie_name; } } // |data_| is not owned by this object. CookieAccessData* data_; size_t offset_; IMPLEMENT_REFCOUNTING(CookieAccessSchemeHandler); }; class CookieAccessSchemeHandlerFactory : public CefSchemeHandlerFactory, public CookieAccessResponseHandler { public: CookieAccessSchemeHandlerFactory() {} CefRefPtr Create(CefRefPtr browser, CefRefPtr frame, const CefString& scheme_name, CefRefPtr request) override { EXPECT_IO_THREAD(); const std::string& url = request->GetURL(); ResponseDataMap::const_iterator it = data_map_.find(url); if (it != data_map_.end()) { it->second->request_ct_++; return new CookieAccessSchemeHandler(it->second); } // Unknown test. ADD_FAILURE() << "Unexpected url: " << url; return nullptr; } void AddResponse(const std::string& url, CookieAccessData* data) override { data_map_.insert(std::make_pair(url, data)); } void Shutdown(const base::Closure& complete_callback) { if (!CefCurrentlyOn(TID_IO)) { CefPostTask(TID_IO, base::Bind(&CookieAccessSchemeHandlerFactory::Shutdown, this, complete_callback)); return; } complete_callback.Run(); } private: // Map of URL to Data. typedef std::map ResponseDataMap; ResponseDataMap data_map_; IMPLEMENT_REFCOUNTING(CookieAccessSchemeHandlerFactory); }; // HTTP server handler. class CookieAccessServerHandler : public CefServerHandler, public CookieAccessResponseHandler { public: CookieAccessServerHandler() : initialized_(false), expected_connection_ct_(-1), actual_connection_ct_(0), expected_http_request_ct_(-1), actual_http_request_ct_(0) {} virtual ~CookieAccessServerHandler() { RunCompleteCallback(); } // Must be called before CreateServer(). void AddResponse(const std::string& url, CookieAccessData* data) override { EXPECT_FALSE(initialized_); data_map_.insert(std::make_pair(url, data)); } // Must be called before CreateServer(). void SetExpectedRequestCount(int count) { EXPECT_FALSE(initialized_); expected_connection_ct_ = expected_http_request_ct_ = count; } // |complete_callback| will be executed on the UI thread after the server is // started. void CreateServer(const base::Closure& complete_callback) { EXPECT_UI_THREAD(); if (expected_connection_ct_ < 0) { // Default to the assumption of one request per registered URL. SetExpectedRequestCount(static_cast(data_map_.size())); } EXPECT_FALSE(initialized_); initialized_ = true; EXPECT_TRUE(complete_callback_.is_null()); complete_callback_ = complete_callback; CefServer::CreateServer(kCookieAccessServerIP, kCookieAccessServerPort, 10, this); } // Results in a call to VerifyResults() and eventual execution of the // |complete_callback| on the UI thread via CookieAccessServerHandler // destruction. void ShutdownServer(const base::Closure& complete_callback) { EXPECT_UI_THREAD(); EXPECT_TRUE(complete_callback_.is_null()); complete_callback_ = complete_callback; EXPECT_TRUE(server_); if (server_) server_->Shutdown(); } void OnServerCreated(CefRefPtr server) override { EXPECT_TRUE(server); EXPECT_TRUE(server->IsRunning()); EXPECT_FALSE(server->HasConnection()); EXPECT_FALSE(got_server_created_); got_server_created_.yes(); EXPECT_FALSE(server_); server_ = server; EXPECT_FALSE(server_runner_); server_runner_ = server_->GetTaskRunner(); EXPECT_TRUE(server_runner_); EXPECT_TRUE(server_runner_->BelongsToCurrentThread()); CefPostTask( TID_UI, base::Bind(&CookieAccessServerHandler::RunCompleteCallback, this)); } void OnServerDestroyed(CefRefPtr server) override { EXPECT_TRUE(VerifyServer(server)); EXPECT_FALSE(server->IsRunning()); EXPECT_FALSE(server->HasConnection()); EXPECT_FALSE(got_server_destroyed_); got_server_destroyed_.yes(); server_ = nullptr; VerifyResults(); } void OnClientConnected(CefRefPtr server, int connection_id) override { EXPECT_TRUE(VerifyServer(server)); EXPECT_TRUE(server->HasConnection()); EXPECT_TRUE(server->IsValidConnection(connection_id)); EXPECT_TRUE(connection_id_set_.find(connection_id) == connection_id_set_.end()); connection_id_set_.insert(connection_id); actual_connection_ct_++; } void OnClientDisconnected(CefRefPtr server, int connection_id) override { EXPECT_TRUE(VerifyServer(server)); EXPECT_FALSE(server->IsValidConnection(connection_id)); ConnectionIdSet::iterator it = connection_id_set_.find(connection_id); EXPECT_TRUE(it != connection_id_set_.end()); connection_id_set_.erase(it); } void OnHttpRequest(CefRefPtr server, int connection_id, const CefString& client_address, CefRefPtr request) override { EXPECT_TRUE(VerifyServer(server)); EXPECT_TRUE(VerifyConnection(connection_id)); EXPECT_FALSE(client_address.empty()); // Log the requests for better error reporting. request_log_ += request->GetMethod().ToString() + " " + request->GetURL().ToString() + "\n"; HandleRequest(server, connection_id, request); actual_http_request_ct_++; } void OnWebSocketRequest(CefRefPtr server, int connection_id, const CefString& client_address, CefRefPtr request, CefRefPtr callback) override { NOTREACHED(); } void OnWebSocketConnected(CefRefPtr server, int connection_id) override { NOTREACHED(); } void OnWebSocketMessage(CefRefPtr server, int connection_id, const void* data, size_t data_size) override { NOTREACHED(); } private: bool RunningOnServerThread() { return server_runner_ && server_runner_->BelongsToCurrentThread(); } bool VerifyServer(CefRefPtr server) { V_DECLARE(); V_EXPECT_TRUE(RunningOnServerThread()); V_EXPECT_TRUE(server); V_EXPECT_TRUE(server_); V_EXPECT_TRUE(server->GetAddress().ToString() == server_->GetAddress().ToString()); V_RETURN(); } bool VerifyConnection(int connection_id) { return connection_id_set_.find(connection_id) != connection_id_set_.end(); } void VerifyResults() { EXPECT_TRUE(RunningOnServerThread()); EXPECT_TRUE(got_server_created_); EXPECT_TRUE(got_server_destroyed_); EXPECT_TRUE(connection_id_set_.empty()); EXPECT_EQ(expected_connection_ct_, actual_connection_ct_) << request_log_; EXPECT_EQ(expected_http_request_ct_, actual_http_request_ct_) << request_log_; } void HandleRequest(CefRefPtr server, int connection_id, CefRefPtr request) { const std::string& url = request->GetURL(); ResponseDataMap::const_iterator it = data_map_.find(url); if (it != data_map_.end()) { it->second->request_ct_++; CefRequest::HeaderMap headerMap; request->GetHeaderMap(headerMap); const std::string& cookie_str = GetHeaderValue(headerMap, "cookie"); TestCookieString(cookie_str, it->second->cookie_js_ct_, it->second->cookie_net_ct_); SendResponse(server, connection_id, it->second->response, it->second->response_data); } else { // Unknown test. ADD_FAILURE() << "Unexpected url: " << url; server->SendHttp500Response(connection_id, "Unknown test"); } } void SendResponse(CefRefPtr server, int connection_id, CefRefPtr response, const std::string& response_data) { int response_code = response->GetStatus(); const CefString& content_type = response->GetMimeType(); int64 content_length = static_cast(response_data.size()); CefResponse::HeaderMap extra_headers; response->GetHeaderMap(extra_headers); server->SendHttpResponse(connection_id, response_code, content_type, content_length, extra_headers); if (content_length != 0) { server->SendRawData(connection_id, response_data.data(), response_data.size()); server->CloseConnection(connection_id); } // The connection should be closed. EXPECT_FALSE(server->IsValidConnection(connection_id)); } void RunCompleteCallback() { EXPECT_UI_THREAD(); EXPECT_FALSE(complete_callback_.is_null()); complete_callback_.Run(); complete_callback_.Reset(); } // Map of URL to Data. typedef std::map ResponseDataMap; ResponseDataMap data_map_; CefRefPtr server_; CefRefPtr server_runner_; bool initialized_; // Only accessed on the UI thread. base::Closure complete_callback_; // After initialization the below members are only accessed on the server // thread. TrackCallback got_server_created_; TrackCallback got_server_destroyed_; typedef std::set ConnectionIdSet; ConnectionIdSet connection_id_set_; int expected_connection_ct_; int actual_connection_ct_; int expected_http_request_ct_; int actual_http_request_ct_; std::string request_log_; IMPLEMENT_REFCOUNTING(CookieAccessServerHandler); DISALLOW_COPY_AND_ASSIGN(CookieAccessServerHandler); }; class CookieAccessTestHandler : public RoutingTestHandler, public CefCookieAccessFilter { public: enum TestMode { ALLOW = 0, BLOCK_READ = 1 << 0, BLOCK_WRITE = 1 << 1, BLOCK_READ_WRITE = BLOCK_READ | BLOCK_WRITE, ALLOW_NO_FILTER = 1 << 2, // Block all cookies using SetSupportedSchemes. Can only be used with a // non-global request context because it's too late (during test execution) // to call this method on the global context. BLOCK_ALL_COOKIES = 1 << 3, // Return nullptr from GetResourceRequestHandler. Can only be used in // combination with the SERVER or SCHEME_HANDLER backend (the // RESOURCE_HANDLER backend would not be called). ALLOW_NO_HANDLER = 1 << 4, }; enum TestBackend { // Test an HTTP server backend. SERVER, // Test a custom scheme handler backend. SCHEME_HANDLER, // Test that GetResourceHandler behaves the same as a custom scheme handler. RESOURCE_HANDLER, }; CookieAccessTestHandler(TestMode test_mode, TestBackend test_backend, bool custom_scheme, bool use_global) : test_mode_(test_mode), test_backend_(test_backend), scheme_(custom_scheme ? kCustomCookieScheme : kCookieAccessScheme), use_global_(use_global) { if (test_mode_ == BLOCK_ALL_COOKIES) CHECK(!use_global_); else if (test_mode_ == ALLOW_NO_HANDLER) CHECK_NE(RESOURCE_HANDLER, test_backend_); if (test_backend_ == SERVER) CHECK(!custom_scheme); } void RunTest() override { if (use_global_) { context_ = CefRequestContext::GetGlobalContext(); } else { // Create the request context that will use an in-memory cache. CefRequestContextSettings settings; context_ = CefRequestContext::CreateContext(settings, NULL); } cookie_manager_ = context_->GetCookieManager(nullptr); SetTestTimeout(); const bool block_cookies = (test_mode_ == BLOCK_ALL_COOKIES); if (!use_global_ && (scheme_ == kCustomCookieScheme || block_cookies)) { std::vector schemes; if (!block_cookies) schemes.push_back(kCustomCookieScheme); // Need to wait for completion before creating the browser. cookie_manager_->SetSupportedSchemes( schemes, !block_cookies /* include_defaults */, new CompletionCallback(base::Bind( &CookieAccessTestHandler::RunTestSetupContinue, this))); } else { RunTestSetupContinue(); } } void DestroyTest() override { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&CookieAccessTestHandler::DestroyTest, this)); return; } cookie_manager_ = NULL; context_ = NULL; // Got both network requests. EXPECT_EQ(1, data1_.request_ct_); EXPECT_EQ(1, data2_.request_ct_); if (test_mode_ == ALLOW_NO_FILTER || test_mode_ == ALLOW_NO_HANDLER) { EXPECT_EQ(0, can_save_cookie1_ct_); EXPECT_EQ(0, can_send_cookie2_ct_); } else { // Get 1 call to CanSaveCookie for the 1st network request due to the // network cookie. EXPECT_EQ(1, can_save_cookie1_ct_); if (test_mode_ == BLOCK_ALL_COOKIES) { // Never send any cookies. EXPECT_EQ(0, can_send_cookie2_ct_); } else if (test_mode_ & BLOCK_WRITE) { // Get 1 calls to CanSendCookie for the 2nd network request due to the // JS cookie (network cookie is blocked). EXPECT_EQ(1, can_send_cookie2_ct_); } else { // Get 2 calls to CanSendCookie for the 2nd network request due to the // network cookie + JS cookie. EXPECT_EQ(2, can_send_cookie2_ct_); } } if (test_mode_ == BLOCK_ALL_COOKIES) { // Never get the JS cookie via JS. EXPECT_EQ(0, cookie_js1_ct_); EXPECT_EQ(0, cookie_js2_ct_); EXPECT_EQ(0, cookie_js3_ct_); } else { // Always get the JS cookie via JS. EXPECT_EQ(1, cookie_js1_ct_); EXPECT_EQ(1, cookie_js2_ct_); EXPECT_EQ(1, cookie_js3_ct_); } // Only get the net cookie via JS if cookie write was allowed. if ((test_mode_ & BLOCK_WRITE) || test_mode_ == BLOCK_ALL_COOKIES) { EXPECT_EQ(0, cookie_net1_ct_); EXPECT_EQ(0, cookie_net2_ct_); EXPECT_EQ(0, cookie_net3_ct_); } else { EXPECT_EQ(1, cookie_net1_ct_); EXPECT_EQ(1, cookie_net2_ct_); EXPECT_EQ(1, cookie_net3_ct_); } // No cookies sent for the 1st network request. EXPECT_EQ(0, data1_.cookie_js_ct_); EXPECT_EQ(0, data1_.cookie_net_ct_); // 2nd network request... if ((test_mode_ & BLOCK_READ) || test_mode_ == BLOCK_ALL_COOKIES) { // No cookies sent if reading was blocked. EXPECT_EQ(0, data2_.cookie_js_ct_); EXPECT_EQ(0, data2_.cookie_net_ct_); } else if (test_mode_ & BLOCK_WRITE) { // Only JS cookie sent if writing was blocked. EXPECT_EQ(1, data2_.cookie_js_ct_); EXPECT_EQ(0, data2_.cookie_net_ct_); } else { // All cookies sent. EXPECT_EQ(1, data2_.cookie_js_ct_); EXPECT_EQ(1, data2_.cookie_net_ct_); } TestHandler::DestroyTest(); } CefRefPtr GetCookieAccessFilter( CefRefPtr browser, CefRefPtr frame, CefRefPtr request) override { EXPECT_IO_THREAD(); if (test_mode_ == ALLOW_NO_FILTER) return nullptr; return this; } CefRefPtr GetResourceRequestHandler( CefRefPtr browser, CefRefPtr frame, CefRefPtr request, bool is_navigation, bool is_download, const CefString& request_initiator, bool& disable_default_handling) override { if (test_mode_ == ALLOW_NO_HANDLER) return nullptr; return this; } CefRefPtr GetResourceHandler( CefRefPtr browser, CefRefPtr frame, CefRefPtr request) override { if (test_backend_ == RESOURCE_HANDLER) { return scheme_factory_->Create(browser, frame, scheme_, request); } return nullptr; } bool CanSendCookie(CefRefPtr browser, CefRefPtr frame, CefRefPtr request, const CefCookie& cookie) override { EXPECT_IO_THREAD(); const std::string& url = request->GetURL(); if (url == GetCookieAccessUrl2(scheme_, test_backend_ == SERVER)) { can_send_cookie2_ct_++; } else { ADD_FAILURE() << "Unexpected url: " << url; } return !(test_mode_ & BLOCK_READ); } bool CanSaveCookie(CefRefPtr browser, CefRefPtr frame, CefRefPtr request, CefRefPtr response, const CefCookie& cookie) override { EXPECT_IO_THREAD(); // Expecting the network cookie only. EXPECT_STREQ("name_net", CefString(&cookie.name).ToString().c_str()); EXPECT_STREQ("value_net", CefString(&cookie.value).ToString().c_str()); const std::string& url = request->GetURL(); if (url == GetCookieAccessUrl1(scheme_, test_backend_ == SERVER)) { can_save_cookie1_ct_++; } else { ADD_FAILURE() << "Unexpected url: " << url; } return !(test_mode_ & BLOCK_WRITE); } bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) override { const std::string& url = frame->GetURL(); const std::string& cookie_str = request.ToString(); if (url == GetCookieAccessUrl1(scheme_, test_backend_ == SERVER)) { TestCookieString(cookie_str, cookie_js1_ct_, cookie_net1_ct_); browser->GetMainFrame()->LoadURL( GetCookieAccessUrl2(scheme_, test_backend_ == SERVER)); } else if (url == GetCookieAccessUrl2(scheme_, test_backend_ == SERVER)) { TestCookieString(cookie_str, cookie_js2_ct_, cookie_net2_ct_); FinishTest(); } else { ADD_FAILURE() << "Unexpected url: " << url; } return true; } private: void AddResponses(CookieAccessResponseHandler* handler) { // 1st request sets a cookie via net response headers and JS, then retrieves // the cookies via JS. { data1_.response = CefResponse::Create(); data1_.response->SetMimeType("text/html"); data1_.response->SetStatus(200); data1_.response->SetStatusText("OK"); CefResponse::HeaderMap headerMap; data1_.response->GetHeaderMap(headerMap); headerMap.insert(std::make_pair("Set-Cookie", "name_net=value_net")); data1_.response->SetHeaderMap(headerMap); data1_.response_data = "" "" "COOKIE ACCESS TEST 1"; handler->AddResponse( GetCookieAccessUrl1(scheme_, test_backend_ == SERVER), &data1_); } // 2nd request retrieves the cookies via JS. { data2_.response = CefResponse::Create(); data2_.response->SetMimeType("text/html"); data2_.response->SetStatus(200); data2_.response->SetStatusText("OK"); data2_.response_data = "" "" "COOKIE ACCESS TEST 2"; handler->AddResponse( GetCookieAccessUrl2(scheme_, test_backend_ == SERVER), &data2_); } } void RunTestSetupContinue() { CefPostTask(TID_UI, base::Bind(&CookieAccessTestHandler::StartBackend, this, base::Bind(&CookieAccessTestHandler::RunTestContinue, this))); } void StartBackend(const base::Closure& complete_callback) { if (test_backend_ == SERVER) { StartServer(complete_callback); } else { StartSchemeHandler(complete_callback); } } void StartServer(const base::Closure& complete_callback) { EXPECT_FALSE(server_handler_); server_handler_ = new CookieAccessServerHandler(); AddResponses(server_handler_.get()); server_handler_->CreateServer(complete_callback); } void StartSchemeHandler(const base::Closure& complete_callback) { // Add the factory registration. scheme_factory_ = new CookieAccessSchemeHandlerFactory(); AddResponses(scheme_factory_.get()); if (test_backend_ == SCHEME_HANDLER) { context_->RegisterSchemeHandlerFactory(scheme_, kCookieAccessDomain, scheme_factory_.get()); } complete_callback.Run(); } void RunTestContinue() { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&CookieAccessTestHandler::RunTestContinue, this)); return; } CreateBrowser(GetCookieAccessUrl1(scheme_, test_backend_ == SERVER), context_); } void FinishTest() { // Verify that cookies were set correctly. class TestVisitor : public CefCookieVisitor { public: explicit TestVisitor(CookieAccessTestHandler* handler) : handler_(handler) {} ~TestVisitor() override { // Destroy the test. CefPostTask( TID_UI, base::Bind( &CookieAccessTestHandler::ShutdownBackend, handler_, base::Bind(&CookieAccessTestHandler::DestroyTest, handler_))); } bool Visit(const CefCookie& cookie, int count, int total, bool& deleteCookie) override { const std::string& name = CefString(&cookie.name); const std::string& value = CefString(&cookie.value); if (name == "name_js" && value == "value_js") handler_->cookie_js3_ct_++; else if (name == "name_net" && value == "value_net") handler_->cookie_net3_ct_++; // Clean up the cookies. deleteCookie = true; return true; } private: CookieAccessTestHandler* handler_; IMPLEMENT_REFCOUNTING(TestVisitor); }; cookie_manager_->VisitAllCookies(new TestVisitor(this)); } void ShutdownBackend(const base::Closure& complete_callback) { if (test_backend_ == SERVER) { ShutdownServer(complete_callback); } else { ShutdownSchemeHandler(complete_callback); } } void ShutdownServer(const base::Closure& complete_callback) { EXPECT_TRUE(server_handler_); server_handler_->ShutdownServer(complete_callback); server_handler_ = nullptr; } void ShutdownSchemeHandler(const base::Closure& complete_callback) { EXPECT_TRUE(scheme_factory_); if (test_backend_ == SCHEME_HANDLER) { context_->RegisterSchemeHandlerFactory(scheme_, kCookieAccessDomain, nullptr); } scheme_factory_->Shutdown(complete_callback); scheme_factory_ = nullptr; } const TestMode test_mode_; const TestBackend test_backend_; const std::string scheme_; const bool use_global_; CefRefPtr context_; CefRefPtr cookie_manager_; CefRefPtr server_handler_; CefRefPtr scheme_factory_; CookieAccessData data1_; CookieAccessData data2_; // 1st request. int can_save_cookie1_ct_ = 0; int cookie_js1_ct_ = 0; int cookie_net1_ct_ = 0; // 2nd request. int can_send_cookie2_ct_ = 0; int cookie_js2_ct_ = 0; int cookie_net2_ct_ = 0; // From cookie manager. int cookie_js3_ct_ = 0; int cookie_net3_ct_ = 0; DISALLOW_COPY_AND_ASSIGN(CookieAccessTestHandler); IMPLEMENT_REFCOUNTING(CookieAccessTestHandler); }; bool IsTestSupported(CookieAccessTestHandler::TestMode test_mode, CookieAccessTestHandler::TestBackend backend_mode, bool custom_scheme, bool use_global) { if (!IsNetworkServiceEnabled() && backend_mode == CookieAccessTestHandler::RESOURCE_HANDLER && custom_scheme) { // The old network implementation does not support the same functionality // for intercepting custom scheme requests via GetResourceHandler(). return false; } return true; } } // namespace #define ACCESS_TEST(name, test_mode, backend_mode, custom_scheme, use_global) \ TEST(CookieTest, Access##name) { \ if (!IsTestSupported(CookieAccessTestHandler::test_mode, \ CookieAccessTestHandler::backend_mode, custom_scheme, \ use_global)) { \ return; \ } \ CefRefPtr handler = new CookieAccessTestHandler( \ CookieAccessTestHandler::test_mode, \ CookieAccessTestHandler::backend_mode, custom_scheme, use_global); \ handler->ExecuteTest(); \ ReleaseAndWaitForDestructor(handler); \ } #define ACCESS_TEST_ALL_MODES(name, backend_mode, custom_scheme, use_global) \ ACCESS_TEST(name##Allow, ALLOW, backend_mode, custom_scheme, use_global) \ ACCESS_TEST(name##AllowNoFilter, ALLOW_NO_FILTER, backend_mode, \ custom_scheme, use_global) \ ACCESS_TEST(name##BlockRead, BLOCK_READ, backend_mode, custom_scheme, \ use_global) \ ACCESS_TEST(name##BlockWrite, BLOCK_WRITE, backend_mode, custom_scheme, \ use_global) \ ACCESS_TEST(name##BlockReadWrite, BLOCK_READ_WRITE, backend_mode, \ custom_scheme, use_global) // These tests only work with a non-global context. #define ACCESS_TEST_BLOCKALLCOOKIES_MODES(name, backend_mode, custom_scheme) \ ACCESS_TEST(name##BlockAllCookies, BLOCK_ALL_COOKIES, backend_mode, \ custom_scheme, false) // These tests only work with SERVER and SCHEME_HANDLER backends. #define ACCESS_TEST_ALLOWNOHANDLER_MODES(name, backend_mode, custom_scheme) \ ACCESS_TEST(name##GlobalAllowNoHandler, ALLOW_NO_HANDLER, backend_mode, \ custom_scheme, false) \ ACCESS_TEST(name##InMemoryAllowNoHandler, ALLOW_NO_HANDLER, backend_mode, \ custom_scheme, true) #define ACCESS_TEST_CUSTOM(name, backend_mode) \ ACCESS_TEST_ALL_MODES(name##CustomGlobal, backend_mode, true, true) \ ACCESS_TEST_ALL_MODES(name##CustomInMemory, backend_mode, true, false) \ ACCESS_TEST_BLOCKALLCOOKIES_MODES(name##CustomInMemory, backend_mode, true) #define ACCESS_TEST_STANDARD(name, backend_mode) \ ACCESS_TEST_ALL_MODES(name##StandardGlobal, backend_mode, false, true) \ ACCESS_TEST_ALL_MODES(name##StandardInMemory, backend_mode, false, false) \ ACCESS_TEST_BLOCKALLCOOKIES_MODES(name##StandardInMemory, backend_mode, false) // Server backend only works with standard schemes. ACCESS_TEST_STANDARD(Server, SERVER) ACCESS_TEST_ALLOWNOHANDLER_MODES(ServerStandard, SERVER, false) // Other backends work with all schemes. ACCESS_TEST_CUSTOM(Scheme, SCHEME_HANDLER) ACCESS_TEST_ALLOWNOHANDLER_MODES(SchemeCustom, SCHEME_HANDLER, true) ACCESS_TEST_STANDARD(Scheme, SCHEME_HANDLER) ACCESS_TEST_ALLOWNOHANDLER_MODES(SchemeStandard, SCHEME_HANDLER, false) ACCESS_TEST_CUSTOM(Resource, RESOURCE_HANDLER) ACCESS_TEST_STANDARD(Resource, RESOURCE_HANDLER) namespace { // Tests the behavior of restarting of a network request that sets cookies and // a network request that includes cookies. // 1. Begin loading URL1, then restart the request in OnResourceResponse. // No cookies are saved. // 2. Load URL1 successfully. Network and JS cookies are saved. // 3. Begin loading URL2, then restart the request in OnResourceResponse. // Cookies are sent with the request/response. // 4. Load URL2 successfully. Cookies are sent with the request/response. class CookieRestartTestHandler : public RoutingTestHandler, public CefCookieAccessFilter { public: explicit CookieRestartTestHandler(bool use_global) : scheme_(kCookieAccessScheme), use_global_(use_global) {} void RunTest() override { if (use_global_) { context_ = CefRequestContext::GetGlobalContext(); } else { // Create the request context that will use an in-memory cache. CefRequestContextSettings settings; context_ = CefRequestContext::CreateContext(settings, NULL); } cookie_manager_ = context_->GetCookieManager(nullptr); SetTestTimeout(); RunTestSetupContinue(); } void DestroyTest() override { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&CookieRestartTestHandler::DestroyTest, this)); return; } cookie_manager_ = NULL; context_ = NULL; // Get 2 network requests for each URL. EXPECT_EQ(2, data1_.request_ct_); EXPECT_EQ(2, data2_.request_ct_); // Get resource request callbacks for all requests (2 for each URL). EXPECT_EQ(4, before_resource_load_ct_); EXPECT_EQ(4, resource_response_ct_); // Get JS query callbacks for the successful requests (1 for each URL). EXPECT_EQ(2, query_ct_); // No cookies sent for the URL1 network requests because (a) we don't have // any cookies set initially and (b) we don't save cookies from the 1st URL1 // request which is restarted. EXPECT_EQ(0, data1_.cookie_js_ct_); EXPECT_EQ(0, data1_.cookie_net_ct_); // Net and JS cookies sent for both URL2 network requests. EXPECT_EQ(2, data2_.cookie_js_ct_); EXPECT_EQ(2, data2_.cookie_net_ct_); // 1 call to CanSaveCookie for the net cookie returned by the successful // URL1 request. EXPECT_EQ(1, can_save_cookie_ct_); // 4 calls to CanSendCookie because both net and JS cookies are sent for // each URL2 request. EXPECT_EQ(4, can_send_cookie_ct_); // Get the net and JS cookies from the JS query for the successful requests // (1 for each URL). EXPECT_EQ(1, cookie_js1_ct_); EXPECT_EQ(1, cookie_net1_ct_); EXPECT_EQ(1, cookie_js2_ct_); EXPECT_EQ(1, cookie_net2_ct_); // Get the net and JS cookies from the cookie manager at the end. EXPECT_EQ(1, cookie_manager_js_ct_); EXPECT_EQ(1, cookie_manager_net_ct_); TestHandler::DestroyTest(); } CefRefPtr GetCookieAccessFilter( CefRefPtr browser, CefRefPtr frame, CefRefPtr request) override { EXPECT_IO_THREAD(); return this; } CefRefPtr GetResourceRequestHandler( CefRefPtr browser, CefRefPtr frame, CefRefPtr request, bool is_navigation, bool is_download, const CefString& request_initiator, bool& disable_default_handling) override { return this; } CefRefPtr GetResourceHandler( CefRefPtr browser, CefRefPtr frame, CefRefPtr request) override { return nullptr; } bool CanSendCookie(CefRefPtr browser, CefRefPtr frame, CefRefPtr request, const CefCookie& cookie) override { EXPECT_IO_THREAD(); can_send_cookie_ct_++; // Called before the URL2 network requests. EXPECT_LE(2, before_resource_load_ct_); return true; } bool CanSaveCookie(CefRefPtr browser, CefRefPtr frame, CefRefPtr request, CefRefPtr response, const CefCookie& cookie) override { EXPECT_IO_THREAD(); can_save_cookie_ct_++; // Called after the successful URL1 network request. EXPECT_EQ(2, before_resource_load_ct_); // Expecting the network cookie only. EXPECT_STREQ("name_net", CefString(&cookie.name).ToString().c_str()); EXPECT_STREQ("value_net", CefString(&cookie.value).ToString().c_str()); return true; } cef_return_value_t OnBeforeResourceLoad( CefRefPtr browser, CefRefPtr frame, CefRefPtr request, CefRefPtr callback) override { EXPECT_IO_THREAD(); before_resource_load_ct_++; const std::string& url = request->GetURL(); if (before_resource_load_ct_ <= 2) { EXPECT_STREQ(GetCookieAccessUrl1(scheme_, true).c_str(), url.c_str()); } else { EXPECT_STREQ(GetCookieAccessUrl2(scheme_, true).c_str(), url.c_str()); } const std::string& cookie_str = request->GetHeaderByName("Cookie"); int cookie_js_ct = 0; int cookie_net_ct = 0; TestCookieString(cookie_str, cookie_js_ct, cookie_net_ct); // Expect both cookies with the URL2 requests only. if (before_resource_load_ct_ >= 3) { EXPECT_EQ(1, cookie_js_ct); EXPECT_EQ(1, cookie_net_ct); } else { EXPECT_EQ(0, cookie_js_ct); EXPECT_EQ(0, cookie_net_ct); } return RV_CONTINUE; } bool OnResourceResponse(CefRefPtr browser, CefRefPtr frame, CefRefPtr request, CefRefPtr response) override { EXPECT_IO_THREAD(); resource_response_ct_++; const std::string& url = request->GetURL(); const std::string& set_cookie_str = response->GetHeader("Set-Cookie"); // Expect the network cookie with URL1 requests only. if (resource_response_ct_ <= 2) { EXPECT_STREQ(GetCookieAccessUrl1(scheme_, true).c_str(), url.c_str()); EXPECT_STREQ("name_net=value_net", set_cookie_str.c_str()); } else { EXPECT_STREQ(GetCookieAccessUrl2(scheme_, true).c_str(), url.c_str()); EXPECT_TRUE(set_cookie_str.empty()); } if (resource_response_ct_ == 1 || resource_response_ct_ == 3) { // Restart the request loading this data. request->SetHeaderByName("X-Custom-Header", "value", false); return true; } return false; } bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) override { query_ct_++; const std::string& url = frame->GetURL(); const std::string& cookie_str = request.ToString(); if (url == GetCookieAccessUrl1(scheme_, true)) { TestCookieString(cookie_str, cookie_js1_ct_, cookie_net1_ct_); browser->GetMainFrame()->LoadURL(GetCookieAccessUrl2(scheme_, true)); } else if (url == GetCookieAccessUrl2(scheme_, true)) { TestCookieString(cookie_str, cookie_js2_ct_, cookie_net2_ct_); FinishTest(); } else { ADD_FAILURE() << "Unexpected url: " << url; } return true; } private: void AddResponses(CookieAccessResponseHandler* handler) { // Sets a cookie via net response headers and JS, then retrieves the cookies // via JS. { data1_.response = CefResponse::Create(); data1_.response->SetMimeType("text/html"); data1_.response->SetStatus(200); data1_.response->SetStatusText("OK"); CefResponse::HeaderMap headerMap; data1_.response->GetHeaderMap(headerMap); headerMap.insert(std::make_pair("Set-Cookie", "name_net=value_net")); data1_.response->SetHeaderMap(headerMap); data1_.response_data = "" "" "COOKIE RESTART TEST1"; handler->AddResponse(GetCookieAccessUrl1(scheme_, true), &data1_); } // Retrieves the cookies via JS. { data2_.response = CefResponse::Create(); data2_.response->SetMimeType("text/html"); data2_.response->SetStatus(200); data2_.response->SetStatusText("OK"); data2_.response_data = "" "" "COOKIE RESTART TEST2"; handler->AddResponse(GetCookieAccessUrl2(scheme_, true), &data2_); } } void RunTestSetupContinue() { CefPostTask( TID_UI, base::Bind( &CookieRestartTestHandler::StartServer, this, base::Bind(&CookieRestartTestHandler::RunTestContinue, this))); } void StartServer(const base::Closure& complete_callback) { EXPECT_FALSE(server_handler_); server_handler_ = new CookieAccessServerHandler(); AddResponses(server_handler_.get()); // 2 requests for each URL. server_handler_->SetExpectedRequestCount(4); server_handler_->CreateServer(complete_callback); } void RunTestContinue() { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&CookieRestartTestHandler::RunTestContinue, this)); return; } CreateBrowser(GetCookieAccessUrl1(scheme_, true), context_); } void FinishTest() { // Verify that cookies were set correctly. class TestVisitor : public CefCookieVisitor { public: explicit TestVisitor(CookieRestartTestHandler* handler) : handler_(handler) {} ~TestVisitor() override { // Destroy the test. CefPostTask( TID_UI, base::Bind( &CookieRestartTestHandler::ShutdownServer, handler_, base::Bind(&CookieRestartTestHandler::DestroyTest, handler_))); } bool Visit(const CefCookie& cookie, int count, int total, bool& deleteCookie) override { const std::string& name = CefString(&cookie.name); const std::string& value = CefString(&cookie.value); if (name == "name_js" && value == "value_js") handler_->cookie_manager_js_ct_++; else if (name == "name_net" && value == "value_net") handler_->cookie_manager_net_ct_++; // Clean up the cookies. deleteCookie = true; return true; } private: CookieRestartTestHandler* handler_; IMPLEMENT_REFCOUNTING(TestVisitor); }; cookie_manager_->VisitAllCookies(new TestVisitor(this)); } void ShutdownServer(const base::Closure& complete_callback) { EXPECT_TRUE(server_handler_); server_handler_->ShutdownServer(complete_callback); server_handler_ = nullptr; } const std::string scheme_; const bool use_global_; CefRefPtr context_; CefRefPtr cookie_manager_; CefRefPtr server_handler_; CookieAccessData data1_; CookieAccessData data2_; int before_resource_load_ct_ = 0; int resource_response_ct_ = 0; int query_ct_ = 0; // From network requests. int can_save_cookie_ct_ = 0; int can_send_cookie_ct_ = 0; int cookie_js1_ct_ = 0; int cookie_net1_ct_ = 0; int cookie_js2_ct_ = 0; int cookie_net2_ct_ = 0; // From cookie manager. int cookie_manager_js_ct_ = 0; int cookie_manager_net_ct_ = 0; DISALLOW_COPY_AND_ASSIGN(CookieRestartTestHandler); IMPLEMENT_REFCOUNTING(CookieRestartTestHandler); }; } // namespace TEST(CookieTest, RestartGlobal) { if (!IsNetworkServiceEnabled()) return; CefRefPtr handler = new CookieRestartTestHandler(true); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } TEST(CookieTest, RestartInMemory) { if (!IsNetworkServiceEnabled()) return; CefRefPtr handler = new CookieRestartTestHandler(false); handler->ExecuteTest(); ReleaseAndWaitForDestructor(handler); } // Entry point for registering custom schemes. // Called from client_app_delegates.cc. void RegisterCookieCustomSchemes(CefRawPtr registrar, std::vector& cookiable_schemes) { // Used by GetCookieManagerCustom* tests. registrar->AddCustomScheme( kCustomCookieScheme, CEF_SCHEME_OPTION_STANDARD | CEF_SCHEME_OPTION_CORS_ENABLED); cookiable_schemes.push_back(kCustomCookieScheme); }