// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/url_request/url_fetcher_impl.h" #include #include "base/bind.h" #include "base/file_util.h" #include "base/message_loop_proxy.h" #include "base/scoped_temp_dir.h" #include "base/synchronization/waitable_event.h" #include "base/threading/thread.h" #include "build/build_config.h" #include "crypto/nss_util.h" #include "net/http/http_response_headers.h" #include "net/test/test_server.h" #include "net/url_request/url_fetcher_delegate.h" #include "net/url_request/url_request_context_getter.h" #include "net/url_request/url_request_test_util.h" #include "net/url_request/url_request_throttler_manager.h" #include "testing/gtest/include/gtest/gtest.h" #if defined(USE_NSS) #include "net/ocsp/nss_ocsp.h" #endif namespace net { using base::Time; using base::TimeDelta; // TODO(eroman): Add a regression test for http://crbug.com/40505. namespace { // TODO(akalin): Move all the test data to somewhere under net/. const FilePath::CharType kDocRoot[] = FILE_PATH_LITERAL("chrome/test/data"); const char kTestServerFilePrefix[] = "files/"; class ThrottlingTestURLRequestContext : public TestURLRequestContext { public: ThrottlingTestURLRequestContext() : TestURLRequestContext(true) { set_throttler_manager(&throttler_manager_); Init(); DCHECK(throttler_manager() != NULL); } private: URLRequestThrottlerManager throttler_manager_; }; class ThrottlingTestURLRequestContextGetter : public TestURLRequestContextGetter { public: ThrottlingTestURLRequestContextGetter( base::MessageLoopProxy* io_message_loop_proxy, TestURLRequestContext* request_context) : TestURLRequestContextGetter(io_message_loop_proxy), context_(request_context) { } virtual TestURLRequestContext* GetURLRequestContext() OVERRIDE { return context_; } protected: virtual ~ThrottlingTestURLRequestContextGetter() {} TestURLRequestContext* const context_; }; } // namespace class URLFetcherTest : public testing::Test, public URLFetcherDelegate { public: URLFetcherTest() : fetcher_(NULL), context_(new ThrottlingTestURLRequestContext()) { } static int GetNumFetcherCores() { return URLFetcherImpl::GetNumFetcherCores(); } // Creates a URLFetcher, using the program's main thread to do IO. virtual void CreateFetcher(const GURL& url); // URLFetcherDelegate // Subclasses that override this should either call this function or // CleanupAfterFetchComplete() at the end of their processing, depending on // whether they want to check for a non-empty HTTP 200 response or not. virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; // Deletes |fetcher| and terminates the message loop. void CleanupAfterFetchComplete(); scoped_refptr io_message_loop_proxy() { return io_message_loop_proxy_; } TestURLRequestContext* request_context() { return context_.get(); } protected: virtual void SetUp() OVERRIDE { testing::Test::SetUp(); io_message_loop_proxy_ = base::MessageLoopProxy::current(); #if defined(USE_NSS) crypto::EnsureNSSInit(); EnsureNSSHttpIOInit(); #endif } virtual void TearDown() OVERRIDE { #if defined(USE_NSS) ShutdownNSSHttpIO(); #endif } // URLFetcher is designed to run on the main UI thread, but in our tests // we assume that the current thread is the IO thread where the URLFetcher // dispatches its requests to. When we wish to simulate being used from // a UI thread, we dispatch a worker thread to do so. scoped_refptr io_message_loop_proxy_; URLFetcherImpl* fetcher_; const scoped_ptr context_; }; void URLFetcherTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); fetcher_->Start(); } void URLFetcherTest::OnURLFetchComplete(const URLFetcher* source) { EXPECT_TRUE(source->GetStatus().is_success()); EXPECT_EQ(200, source->GetResponseCode()); // HTTP OK std::string data; EXPECT_TRUE(source->GetResponseAsString(&data)); EXPECT_FALSE(data.empty()); CleanupAfterFetchComplete(); } void URLFetcherTest::CleanupAfterFetchComplete() { delete fetcher_; // Have to delete this here and not in the destructor, // because the destructor won't necessarily run on the // same thread that CreateFetcher() did. io_message_loop_proxy()->PostTask(FROM_HERE, MessageLoop::QuitClosure()); // If the current message loop is not the IO loop, it will be shut down when // the main loop returns and this thread subsequently goes out of scope. } namespace { // Version of URLFetcherTest that does a POST instead class URLFetcherPostTest : public URLFetcherTest { public: // URLFetcherTest override. virtual void CreateFetcher(const GURL& url) OVERRIDE; // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; }; // Version of URLFetcherTest that does a POST instead with empty upload body class URLFetcherEmptyPostTest : public URLFetcherTest { public: // URLFetcherTest override. virtual void CreateFetcher(const GURL& url) OVERRIDE; // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; }; // Version of URLFetcherTest that tests download progress reports. class URLFetcherDownloadProgressTest : public URLFetcherTest { public: // URLFetcherTest override. virtual void CreateFetcher(const GURL& url) OVERRIDE; // URLFetcherDelegate virtual void OnURLFetchDownloadProgress(const URLFetcher* source, int64 current, int64 total) OVERRIDE; protected: int64 previous_progress_; int64 expected_total_; }; /// Version of URLFetcherTest that tests progress reports at cancellation. class URLFetcherDownloadProgressCancelTest : public URLFetcherTest { public: // URLFetcherTest override. virtual void CreateFetcher(const GURL& url) OVERRIDE; // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; virtual void OnURLFetchDownloadProgress(const URLFetcher* source, int64 current, int64 total) OVERRIDE; protected: bool cancelled_; }; // Version of URLFetcherTest that tests upload progress reports. class URLFetcherUploadProgressTest : public URLFetcherTest { public: virtual void CreateFetcher(const GURL& url); // URLFetcherDelegate virtual void OnURLFetchUploadProgress(const URLFetcher* source, int64 current, int64 total); protected: int64 previous_progress_; std::string chunk_; int64 number_of_chunks_added_; }; // Version of URLFetcherTest that tests headers. class URLFetcherHeadersTest : public URLFetcherTest { public: // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; }; // Version of URLFetcherTest that tests SocketAddress. class URLFetcherSocketAddressTest : public URLFetcherTest { public: // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; protected: std::string expected_host_; uint16 expected_port_; }; // Version of URLFetcherTest that tests stopping on a redirect. class URLFetcherStopOnRedirectTest : public URLFetcherTest { public: URLFetcherStopOnRedirectTest(); virtual ~URLFetcherStopOnRedirectTest(); // URLFetcherTest override. virtual void CreateFetcher(const GURL& url) OVERRIDE; // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; protected: // The URL we should be redirected to. static const char* kRedirectTarget; bool callback_called_; // Set to true in OnURLFetchComplete(). }; // Version of URLFetcherTest that tests overload protection. class URLFetcherProtectTest : public URLFetcherTest { public: // URLFetcherTest override. virtual void CreateFetcher(const GURL& url) OVERRIDE; // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; private: Time start_time_; }; // Version of URLFetcherTest that tests overload protection, when responses // passed through. class URLFetcherProtectTestPassedThrough : public URLFetcherTest { public: // URLFetcherTest override. virtual void CreateFetcher(const GURL& url) OVERRIDE; // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; private: Time start_time_; }; // Version of URLFetcherTest that tests bad HTTPS requests. class URLFetcherBadHTTPSTest : public URLFetcherTest { public: URLFetcherBadHTTPSTest(); // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; private: FilePath cert_dir_; }; // Version of URLFetcherTest that tests request cancellation on shutdown. class URLFetcherCancelTest : public URLFetcherTest { public: // URLFetcherTest override. virtual void CreateFetcher(const GURL& url) OVERRIDE; // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; void CancelRequest(); }; // Version of TestURLRequestContext that posts a Quit task to the IO // thread once it is deleted. class CancelTestURLRequestContext : public ThrottlingTestURLRequestContext { public: explicit CancelTestURLRequestContext() { } private: virtual ~CancelTestURLRequestContext() { // The d'tor should execute in the IO thread. Post the quit task to the // current thread. MessageLoop::current()->PostTask(FROM_HERE, MessageLoop::QuitClosure()); } }; class CancelTestURLRequestContextGetter : public TestURLRequestContextGetter { public: CancelTestURLRequestContextGetter( base::MessageLoopProxy* io_message_loop_proxy, const GURL& throttle_for_url) : TestURLRequestContextGetter(io_message_loop_proxy), io_message_loop_proxy_(io_message_loop_proxy), context_created_(false, false), throttle_for_url_(throttle_for_url) { } virtual TestURLRequestContext* GetURLRequestContext() OVERRIDE { if (!context_.get()) { context_.reset(new CancelTestURLRequestContext()); DCHECK(context_->throttler_manager()); // Registers an entry for test url. The backoff time is calculated by: // new_backoff = 2.0 * old_backoff + 0 // The initial backoff is 2 seconds and maximum backoff is 4 seconds. // Maximum retries allowed is set to 2. scoped_refptr entry( new URLRequestThrottlerEntry( context_->throttler_manager(), "", 200, 3, 2000, 2.0, 0.0, 4000)); context_->throttler_manager()->OverrideEntryForTests( throttle_for_url_, entry); context_created_.Signal(); } return context_.get(); } virtual scoped_refptr GetIOMessageLoopProxy() const { return io_message_loop_proxy_; } void WaitForContextCreation() { context_created_.Wait(); } protected: virtual ~CancelTestURLRequestContextGetter() {} private: scoped_ptr context_; scoped_refptr io_message_loop_proxy_; base::WaitableEvent context_created_; GURL throttle_for_url_; }; // Version of URLFetcherTest that tests retying the same request twice. class URLFetcherMultipleAttemptTest : public URLFetcherTest { public: // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; private: std::string data_; }; class URLFetcherFileTest : public URLFetcherTest { public: URLFetcherFileTest() : take_ownership_of_file_(false), expected_file_error_(base::PLATFORM_FILE_OK) {} void CreateFetcherForFile(const GURL& url, const FilePath& file_path); void CreateFetcherForTempFile(const GURL& url); // URLFetcherDelegate virtual void OnURLFetchComplete(const URLFetcher* source) OVERRIDE; protected: FilePath expected_file_; FilePath file_path_; // Set by the test. Used in OnURLFetchComplete() to decide if // the URLFetcher should own the temp file, so that we can test // disowning prevents the file from being deleted. bool take_ownership_of_file_; // Expected file error code for the test. // PLATFORM_FILE_OK when expecting success. base::PlatformFileError expected_file_error_; }; void URLFetcherPostTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::POST, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); fetcher_->SetUploadData("application/x-www-form-urlencoded", "bobsyeruncle"); fetcher_->Start(); } void URLFetcherPostTest::OnURLFetchComplete(const URLFetcher* source) { std::string data; EXPECT_TRUE(source->GetResponseAsString(&data)); EXPECT_EQ(std::string("bobsyeruncle"), data); URLFetcherTest::OnURLFetchComplete(source); } void URLFetcherEmptyPostTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::POST, this); fetcher_->SetRequestContext(new TestURLRequestContextGetter( io_message_loop_proxy())); fetcher_->SetUploadData("text/plain", ""); fetcher_->Start(); } void URLFetcherEmptyPostTest::OnURLFetchComplete(const URLFetcher* source) { EXPECT_TRUE(source->GetStatus().is_success()); EXPECT_EQ(200, source->GetResponseCode()); // HTTP OK std::string data; EXPECT_TRUE(source->GetResponseAsString(&data)); EXPECT_TRUE(data.empty()); CleanupAfterFetchComplete(); // Do not call the super class method URLFetcherTest::OnURLFetchComplete, // since it expects a non-empty response. } void URLFetcherDownloadProgressTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); previous_progress_ = 0; fetcher_->Start(); } void URLFetcherDownloadProgressTest::OnURLFetchDownloadProgress( const URLFetcher* source, int64 current, int64 total) { // Increasing between 0 and total. EXPECT_LE(0, current); EXPECT_GE(total, current); EXPECT_LE(previous_progress_, current); previous_progress_ = current; EXPECT_EQ(expected_total_, total); } void URLFetcherDownloadProgressCancelTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); cancelled_ = false; fetcher_->Start(); } void URLFetcherDownloadProgressCancelTest::OnURLFetchDownloadProgress( const URLFetcher* source, int64 current, int64 total) { EXPECT_FALSE(cancelled_); if (!cancelled_) { cancelled_ = true; CleanupAfterFetchComplete(); } } void URLFetcherDownloadProgressCancelTest::OnURLFetchComplete( const URLFetcher* source) { // Should have been cancelled. ADD_FAILURE(); CleanupAfterFetchComplete(); } void URLFetcherUploadProgressTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::POST, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); previous_progress_ = 0; // Large enough data to require more than one read from UploadDataStream. chunk_.assign(1<<16, 'a'); // Use chunked upload to wait for a timer event of progress notification. fetcher_->SetChunkedUpload("application/x-www-form-urlencoded"); fetcher_->Start(); number_of_chunks_added_ = 1; fetcher_->AppendChunkToUpload(chunk_, false); } void URLFetcherUploadProgressTest::OnURLFetchUploadProgress( const URLFetcher* source, int64 current, int64 total) { // Increasing between 0 and total. EXPECT_LE(0, current); EXPECT_GE(static_cast(chunk_.size()) * number_of_chunks_added_, current); EXPECT_LE(previous_progress_, current); previous_progress_ = current; EXPECT_EQ(-1, total); if (number_of_chunks_added_ < 2) { number_of_chunks_added_ += 1; fetcher_->AppendChunkToUpload(chunk_, true); } } void URLFetcherHeadersTest::OnURLFetchComplete( const URLFetcher* source) { std::string header; EXPECT_TRUE(source->GetResponseHeaders()->GetNormalizedHeader("cache-control", &header)); EXPECT_EQ("private", header); URLFetcherTest::OnURLFetchComplete(source); } void URLFetcherSocketAddressTest::OnURLFetchComplete( const URLFetcher* source) { EXPECT_EQ("127.0.0.1", source->GetSocketAddress().host()); EXPECT_EQ(expected_port_, source->GetSocketAddress().port()); URLFetcherTest::OnURLFetchComplete(source); } // static const char* URLFetcherStopOnRedirectTest::kRedirectTarget = "http://redirect.target.com"; URLFetcherStopOnRedirectTest::URLFetcherStopOnRedirectTest() : callback_called_(false) { } URLFetcherStopOnRedirectTest::~URLFetcherStopOnRedirectTest() { } void URLFetcherStopOnRedirectTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); fetcher_->SetStopOnRedirect(true); fetcher_->Start(); } void URLFetcherStopOnRedirectTest::OnURLFetchComplete( const URLFetcher* source) { callback_called_ = true; EXPECT_EQ(GURL(kRedirectTarget), source->GetURL()); EXPECT_EQ(URLRequestStatus::CANCELED, source->GetStatus().status()); EXPECT_EQ(ERR_ABORTED, source->GetStatus().error()); EXPECT_EQ(301, source->GetResponseCode()); CleanupAfterFetchComplete(); } void URLFetcherProtectTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); start_time_ = Time::Now(); fetcher_->SetMaxRetries(11); fetcher_->Start(); } void URLFetcherProtectTest::OnURLFetchComplete(const URLFetcher* source) { const TimeDelta one_second = TimeDelta::FromMilliseconds(1000); if (source->GetResponseCode() >= 500) { // Now running ServerUnavailable test. // It takes more than 1 second to finish all 11 requests. EXPECT_TRUE(Time::Now() - start_time_ >= one_second); EXPECT_TRUE(source->GetStatus().is_success()); std::string data; EXPECT_TRUE(source->GetResponseAsString(&data)); EXPECT_FALSE(data.empty()); CleanupAfterFetchComplete(); } else { // Now running Overload test. static int count = 0; count++; if (count < 20) { fetcher_->SetRequestContext( new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); fetcher_->Start(); } else { // We have already sent 20 requests continuously. And we expect that // it takes more than 1 second due to the overload protection settings. EXPECT_TRUE(Time::Now() - start_time_ >= one_second); URLFetcherTest::OnURLFetchComplete(source); } } } void URLFetcherProtectTestPassedThrough::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); fetcher_->SetAutomaticallyRetryOn5xx(false); start_time_ = Time::Now(); fetcher_->SetMaxRetries(11); fetcher_->Start(); } void URLFetcherProtectTestPassedThrough::OnURLFetchComplete( const URLFetcher* source) { const TimeDelta one_minute = TimeDelta::FromMilliseconds(60000); if (source->GetResponseCode() >= 500) { // Now running ServerUnavailable test. // It should get here on the first attempt, so almost immediately and // *not* to attempt to execute all 11 requests (2.5 minutes). EXPECT_TRUE(Time::Now() - start_time_ < one_minute); EXPECT_TRUE(source->GetStatus().is_success()); // Check that suggested back off time is bigger than 0. EXPECT_GT(fetcher_->GetBackoffDelay().InMicroseconds(), 0); std::string data; EXPECT_TRUE(source->GetResponseAsString(&data)); EXPECT_FALSE(data.empty()); } else { // We should not get here! ADD_FAILURE(); } CleanupAfterFetchComplete(); } URLFetcherBadHTTPSTest::URLFetcherBadHTTPSTest() { PathService::Get(base::DIR_SOURCE_ROOT, &cert_dir_); cert_dir_ = cert_dir_.AppendASCII("chrome"); cert_dir_ = cert_dir_.AppendASCII("test"); cert_dir_ = cert_dir_.AppendASCII("data"); cert_dir_ = cert_dir_.AppendASCII("ssl"); cert_dir_ = cert_dir_.AppendASCII("certificates"); } // The "server certificate expired" error should result in automatic // cancellation of the request by // URLRequest::Delegate::OnSSLCertificateError. void URLFetcherBadHTTPSTest::OnURLFetchComplete( const URLFetcher* source) { // This part is different from URLFetcherTest::OnURLFetchComplete // because this test expects the request to be cancelled. EXPECT_EQ(URLRequestStatus::CANCELED, source->GetStatus().status()); EXPECT_EQ(ERR_ABORTED, source->GetStatus().error()); EXPECT_EQ(-1, source->GetResponseCode()); EXPECT_TRUE(source->GetCookies().empty()); std::string data; EXPECT_TRUE(source->GetResponseAsString(&data)); EXPECT_TRUE(data.empty()); CleanupAfterFetchComplete(); } void URLFetcherCancelTest::CreateFetcher(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); CancelTestURLRequestContextGetter* context_getter = new CancelTestURLRequestContextGetter(io_message_loop_proxy(), url); fetcher_->SetRequestContext(context_getter); fetcher_->SetMaxRetries(2); fetcher_->Start(); // We need to wait for the creation of the URLRequestContext, since we // rely on it being destroyed as a signal to end the test. context_getter->WaitForContextCreation(); CancelRequest(); } void URLFetcherCancelTest::OnURLFetchComplete( const URLFetcher* source) { // We should have cancelled the request before completion. ADD_FAILURE(); CleanupAfterFetchComplete(); } void URLFetcherCancelTest::CancelRequest() { delete fetcher_; // The URLFetcher's test context will post a Quit task once it is // deleted. So if this test simply hangs, it means cancellation // did not work. } void URLFetcherMultipleAttemptTest::OnURLFetchComplete( const URLFetcher* source) { EXPECT_TRUE(source->GetStatus().is_success()); EXPECT_EQ(200, source->GetResponseCode()); // HTTP OK std::string data; EXPECT_TRUE(source->GetResponseAsString(&data)); EXPECT_FALSE(data.empty()); if (!data.empty() && data_.empty()) { data_ = data; fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); fetcher_->Start(); } else { EXPECT_EQ(data, data_); CleanupAfterFetchComplete(); } } void URLFetcherFileTest::CreateFetcherForFile(const GURL& url, const FilePath& file_path) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); // Use the IO message loop to do the file operations in this test. fetcher_->SaveResponseToFileAtPath(file_path, io_message_loop_proxy()); fetcher_->Start(); } void URLFetcherFileTest::CreateFetcherForTempFile(const GURL& url) { fetcher_ = new URLFetcherImpl(url, URLFetcher::GET, this); fetcher_->SetRequestContext(new ThrottlingTestURLRequestContextGetter( io_message_loop_proxy(), request_context())); // Use the IO message loop to do the file operations in this test. fetcher_->SaveResponseToTemporaryFile(io_message_loop_proxy()); fetcher_->Start(); } void URLFetcherFileTest::OnURLFetchComplete(const URLFetcher* source) { if (expected_file_error_ == base::PLATFORM_FILE_OK) { EXPECT_TRUE(source->GetStatus().is_success()); EXPECT_EQ(source->GetResponseCode(), 200); base::PlatformFileError error_code = base::PLATFORM_FILE_OK; EXPECT_FALSE(fetcher_->FileErrorOccurred(&error_code)); EXPECT_TRUE(source->GetResponseAsFilePath( take_ownership_of_file_, &file_path_)); EXPECT_TRUE(file_util::ContentsEqual(expected_file_, file_path_)); } else { base::PlatformFileError error_code = base::PLATFORM_FILE_OK; EXPECT_TRUE(fetcher_->FileErrorOccurred(&error_code)); EXPECT_EQ(expected_file_error_, error_code); } CleanupAfterFetchComplete(); } TEST_F(URLFetcherTest, SameThreadsTest) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); // Create the fetcher on the main thread. Since IO will happen on the main // thread, this will test URLFetcher's ability to do everything on one // thread. CreateFetcher(test_server.GetURL("defaultresponse")); MessageLoop::current()->Run(); } #if defined(OS_MACOSX) // SIGSEGV on Mac: http://crbug.com/60426 TEST_F(URLFetcherTest, DISABLED_DifferentThreadsTest) { #else TEST_F(URLFetcherTest, DifferentThreadsTest) { #endif TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); // Create a separate thread that will create the URLFetcher. The current // (main) thread will do the IO, and when the fetch is complete it will // terminate the main thread's message loop; then the other thread's // message loop will be shut down automatically as the thread goes out of // scope. base::Thread t("URLFetcher test thread"); ASSERT_TRUE(t.Start()); t.message_loop()->PostTask( FROM_HERE, base::Bind(&URLFetcherTest::CreateFetcher, base::Unretained(this), test_server.GetURL("defaultresponse"))); MessageLoop::current()->Run(); } void CancelAllOnIO() { EXPECT_EQ(1, URLFetcherTest::GetNumFetcherCores()); URLFetcherImpl::CancelAll(); EXPECT_EQ(0, URLFetcherTest::GetNumFetcherCores()); } // Tests to make sure CancelAll() will successfully cancel existing URLFetchers. TEST_F(URLFetcherTest, CancelAll) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); EXPECT_EQ(0, GetNumFetcherCores()); CreateFetcher(test_server.GetURL("defaultresponse")); io_message_loop_proxy()->PostTaskAndReply( FROM_HERE, base::Bind(&CancelAllOnIO), MessageLoop::QuitClosure()); MessageLoop::current()->Run(); EXPECT_EQ(0, GetNumFetcherCores()); delete fetcher_; } #if defined(OS_MACOSX) // SIGSEGV on Mac: http://crbug.com/60426 TEST_F(URLFetcherPostTest, DISABLED_Basic) { #else TEST_F(URLFetcherPostTest, Basic) { #endif TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); CreateFetcher(test_server.GetURL("echo")); MessageLoop::current()->Run(); } TEST_F(URLFetcherEmptyPostTest, Basic) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); CreateFetcher(test_server.GetURL("echo")); MessageLoop::current()->Run(); } #if defined(OS_MACOSX) // SIGSEGV on Mac: http://crbug.com/60426 TEST_F(URLFetcherUploadProgressTest, DISABLED_Basic) { #else TEST_F(URLFetcherUploadProgressTest, Basic) { #endif TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); CreateFetcher(test_server.GetURL("echo")); MessageLoop::current()->Run(); } TEST_F(URLFetcherDownloadProgressTest, Basic) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); // Get a file large enough to require more than one read into // URLFetcher::Core's IOBuffer. static const char kFileToFetch[] = "animate1.gif"; file_util::GetFileSize(test_server.document_root().AppendASCII(kFileToFetch), &expected_total_); CreateFetcher(test_server.GetURL( std::string(kTestServerFilePrefix) + kFileToFetch)); MessageLoop::current()->Run(); } TEST_F(URLFetcherDownloadProgressCancelTest, CancelWhileProgressReport) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); // Get a file large enough to require more than one read into // URLFetcher::Core's IOBuffer. static const char kFileToFetch[] = "animate1.gif"; CreateFetcher(test_server.GetURL( std::string(kTestServerFilePrefix) + kFileToFetch)); MessageLoop::current()->Run(); } TEST_F(URLFetcherHeadersTest, Headers) { TestServer test_server( TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(FILE_PATH_LITERAL("net/data/url_request_unittest"))); ASSERT_TRUE(test_server.Start()); CreateFetcher(test_server.GetURL("files/with-headers.html")); MessageLoop::current()->Run(); // The actual tests are in the URLFetcherHeadersTest fixture. } TEST_F(URLFetcherSocketAddressTest, SocketAddress) { TestServer test_server( TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(FILE_PATH_LITERAL("net/data/url_request_unittest"))); ASSERT_TRUE(test_server.Start()); expected_port_ = test_server.host_port_pair().port(); // Reusing "with-headers.html" but doesn't really matter. CreateFetcher(test_server.GetURL("files/with-headers.html")); MessageLoop::current()->Run(); // The actual tests are in the URLFetcherSocketAddressTest fixture. } TEST_F(URLFetcherStopOnRedirectTest, StopOnRedirect) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); CreateFetcher( test_server.GetURL(std::string("server-redirect?") + kRedirectTarget)); MessageLoop::current()->Run(); EXPECT_TRUE(callback_called_); } TEST_F(URLFetcherProtectTest, Overload) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); GURL url(test_server.GetURL("defaultresponse")); // Registers an entry for test url. It only allows 3 requests to be sent // in 200 milliseconds. scoped_refptr entry( new URLRequestThrottlerEntry( request_context()->throttler_manager(), "", 200, 3, 1, 2.0, 0.0, 256)); request_context()->throttler_manager()->OverrideEntryForTests(url, entry); CreateFetcher(url); MessageLoop::current()->Run(); } TEST_F(URLFetcherProtectTest, ServerUnavailable) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); GURL url(test_server.GetURL("files/server-unavailable.html")); // Registers an entry for test url. The backoff time is calculated by: // new_backoff = 2.0 * old_backoff + 0 // and maximum backoff time is 256 milliseconds. // Maximum retries allowed is set to 11. scoped_refptr entry( new URLRequestThrottlerEntry( request_context()->throttler_manager(), "", 200, 3, 1, 2.0, 0.0, 256)); request_context()->throttler_manager()->OverrideEntryForTests(url, entry); CreateFetcher(url); MessageLoop::current()->Run(); } TEST_F(URLFetcherProtectTestPassedThrough, ServerUnavailablePropagateResponse) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); GURL url(test_server.GetURL("files/server-unavailable.html")); // Registers an entry for test url. The backoff time is calculated by: // new_backoff = 2.0 * old_backoff + 0 // and maximum backoff time is 150000 milliseconds. // Maximum retries allowed is set to 11. scoped_refptr entry( new URLRequestThrottlerEntry( request_context()->throttler_manager(), "", 200, 3, 100, 2.0, 0.0, 150000)); // Total time if *not* for not doing automatic backoff would be 150s. // In reality it should be "as soon as server responds". request_context()->throttler_manager()->OverrideEntryForTests(url, entry); CreateFetcher(url); MessageLoop::current()->Run(); } #if defined(OS_MACOSX) // SIGSEGV on Mac: http://crbug.com/60426 TEST_F(URLFetcherBadHTTPSTest, DISABLED_BadHTTPSTest) { #else TEST_F(URLFetcherBadHTTPSTest, BadHTTPSTest) { #endif TestServer::SSLOptions ssl_options( TestServer::SSLOptions::CERT_EXPIRED); TestServer test_server(TestServer::TYPE_HTTPS, ssl_options, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); CreateFetcher(test_server.GetURL("defaultresponse")); MessageLoop::current()->Run(); } #if defined(OS_MACOSX) // SIGSEGV on Mac: http://crbug.com/60426 TEST_F(URLFetcherCancelTest, DISABLED_ReleasesContext) { #else TEST_F(URLFetcherCancelTest, ReleasesContext) { #endif TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); GURL url(test_server.GetURL("files/server-unavailable.html")); // Create a separate thread that will create the URLFetcher. The current // (main) thread will do the IO, and when the fetch is complete it will // terminate the main thread's message loop; then the other thread's // message loop will be shut down automatically as the thread goes out of // scope. base::Thread t("URLFetcher test thread"); ASSERT_TRUE(t.Start()); t.message_loop()->PostTask( FROM_HERE, base::Bind(&URLFetcherCancelTest::CreateFetcher, base::Unretained(this), url)); MessageLoop::current()->Run(); } TEST_F(URLFetcherCancelTest, CancelWhileDelayedStartTaskPending) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); GURL url(test_server.GetURL("files/server-unavailable.html")); // Register an entry for test url. // Using a sliding window of 4 seconds, and max of 1 request, under a fast // run we expect to have a 4 second delay when posting the Start task. scoped_refptr entry( new URLRequestThrottlerEntry( request_context()->throttler_manager(), "", 4000, 1, 2000, 2.0, 0.0, 4000)); request_context()->throttler_manager()->OverrideEntryForTests(url, entry); // Fake that a request has just started. entry->ReserveSendingTimeForNextRequest(base::TimeTicks()); // The next request we try to send will be delayed by ~4 seconds. // The slower the test runs, the less the delay will be (since it takes the // time difference from now). base::Thread t("URLFetcher test thread"); ASSERT_TRUE(t.Start()); t.message_loop()->PostTask( FROM_HERE, base::Bind(&URLFetcherTest::CreateFetcher, base::Unretained(this), url)); MessageLoop::current()->Run(); } TEST_F(URLFetcherMultipleAttemptTest, SameData) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); // Create the fetcher on the main thread. Since IO will happen on the main // thread, this will test URLFetcher's ability to do everything on one // thread. CreateFetcher(test_server.GetURL("defaultresponse")); MessageLoop::current()->Run(); } TEST_F(URLFetcherFileTest, SmallGet) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); // Get a small file. static const char kFileToFetch[] = "simple.html"; expected_file_ = test_server.document_root().AppendASCII(kFileToFetch); CreateFetcherForFile( test_server.GetURL(std::string(kTestServerFilePrefix) + kFileToFetch), temp_dir.path().AppendASCII(kFileToFetch)); MessageLoop::current()->Run(); // OnURLFetchComplete() will Quit(). ASSERT_FALSE(file_util::PathExists(file_path_)) << file_path_.value() << " not removed."; } TEST_F(URLFetcherFileTest, LargeGet) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); // Get a file large enough to require more than one read into // URLFetcher::Core's IOBuffer. static const char kFileToFetch[] = "animate1.gif"; expected_file_ = test_server.document_root().AppendASCII(kFileToFetch); CreateFetcherForFile( test_server.GetURL(std::string(kTestServerFilePrefix) + kFileToFetch), temp_dir.path().AppendASCII(kFileToFetch)); MessageLoop::current()->Run(); // OnURLFetchComplete() will Quit(). } TEST_F(URLFetcherFileTest, CanTakeOwnershipOfFile) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); // Get a small file. static const char kFileToFetch[] = "simple.html"; expected_file_ = test_server.document_root().AppendASCII(kFileToFetch); CreateFetcherForFile( test_server.GetURL(std::string(kTestServerFilePrefix) + kFileToFetch), temp_dir.path().AppendASCII(kFileToFetch)); MessageLoop::current()->Run(); // OnURLFetchComplete() will Quit(). MessageLoop::current()->RunAllPending(); ASSERT_FALSE(file_util::PathExists(file_path_)) << file_path_.value() << " not removed."; } TEST_F(URLFetcherFileTest, OverwriteExistingFile) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); // Create a file before trying to fetch. static const char kFileToFetch[] = "simple.html"; static const char kData[] = "abcdefghijklmnopqrstuvwxyz"; file_path_ = temp_dir.path().AppendASCII(kFileToFetch); const int data_size = arraysize(kData); ASSERT_EQ(file_util::WriteFile(file_path_, kData, data_size), data_size); ASSERT_TRUE(file_util::PathExists(file_path_)); expected_file_ = test_server.document_root().AppendASCII(kFileToFetch); ASSERT_FALSE(file_util::ContentsEqual(file_path_, expected_file_)); // Get a small file. CreateFetcherForFile( test_server.GetURL(std::string(kTestServerFilePrefix) + kFileToFetch), file_path_); MessageLoop::current()->Run(); // OnURLFetchComplete() will Quit(). } TEST_F(URLFetcherFileTest, TryToOverwriteDirectory) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); // Create a directory before trying to fetch. static const char kFileToFetch[] = "simple.html"; file_path_ = temp_dir.path().AppendASCII(kFileToFetch); ASSERT_TRUE(file_util::CreateDirectory(file_path_)); ASSERT_TRUE(file_util::PathExists(file_path_)); // Get a small file. expected_file_error_ = base::PLATFORM_FILE_ERROR_ACCESS_DENIED; expected_file_ = test_server.document_root().AppendASCII(kFileToFetch); CreateFetcherForFile( test_server.GetURL(std::string(kTestServerFilePrefix) + kFileToFetch), file_path_); MessageLoop::current()->Run(); // OnURLFetchComplete() will Quit(). MessageLoop::current()->RunAllPending(); } TEST_F(URLFetcherFileTest, SmallGetToTempFile) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); // Get a small file. static const char kFileToFetch[] = "simple.html"; expected_file_ = test_server.document_root().AppendASCII(kFileToFetch); CreateFetcherForTempFile( test_server.GetURL(std::string(kTestServerFilePrefix) + kFileToFetch)); MessageLoop::current()->Run(); // OnURLFetchComplete() will Quit(). ASSERT_FALSE(file_util::PathExists(file_path_)) << file_path_.value() << " not removed."; } TEST_F(URLFetcherFileTest, LargeGetToTempFile) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); // Get a file large enough to require more than one read into // URLFetcher::Core's IOBuffer. static const char kFileToFetch[] = "animate1.gif"; expected_file_ = test_server.document_root().AppendASCII(kFileToFetch); CreateFetcherForTempFile(test_server.GetURL( std::string(kTestServerFilePrefix) + kFileToFetch)); MessageLoop::current()->Run(); // OnURLFetchComplete() will Quit(). } TEST_F(URLFetcherFileTest, CanTakeOwnershipOfTempFile) { TestServer test_server(TestServer::TYPE_HTTP, TestServer::kLocalhost, FilePath(kDocRoot)); ASSERT_TRUE(test_server.Start()); // Get a small file. static const char kFileToFetch[] = "simple.html"; expected_file_ = test_server.document_root().AppendASCII(kFileToFetch); CreateFetcherForTempFile(test_server.GetURL( std::string(kTestServerFilePrefix) + kFileToFetch)); MessageLoop::current()->Run(); // OnURLFetchComplete() will Quit(). MessageLoop::current()->RunAllPending(); ASSERT_FALSE(file_util::PathExists(file_path_)) << file_path_.value() << " not removed."; } } // namespace } // namespace net