// 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 #include #include "base/bind.h" #include "base/bind_helpers.h" #include "base/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/memory/scoped_vector.h" #include "base/run_loop.h" #include "base/stl_util.h" #include "base/strings/string_piece.h" #include "base/test/test_file_util.h" #include "net/base/auth.h" #include "net/base/net_log_unittest.h" #include "net/base/request_priority.h" #include "net/base/upload_bytes_element_reader.h" #include "net/base/upload_data_stream.h" #include "net/base/upload_file_element_reader.h" #include "net/http/http_network_session_peer.h" #include "net/http/http_network_transaction.h" #include "net/http/http_server_properties.h" #include "net/http/http_transaction_test_util.h" #include "net/socket/client_socket_pool_base.h" #include "net/socket/next_proto.h" #include "net/spdy/buffered_spdy_framer.h" #include "net/spdy/spdy_http_stream.h" #include "net/spdy/spdy_http_utils.h" #include "net/spdy/spdy_session.h" #include "net/spdy/spdy_session_pool.h" #include "net/spdy/spdy_test_util_common.h" #include "net/spdy/spdy_test_utils.h" #include "net/ssl/ssl_connection_status_flags.h" #include "net/url_request/url_request_test_util.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/platform_test.h" //----------------------------------------------------------------------------- namespace net { namespace { using testing::Each; using testing::Eq; const char kRequestUrl[] = "http://www.google.com/"; enum SpdyNetworkTransactionTestSSLType { SPDYNPN, SPDYNOSSL, SPDYSSL, }; struct SpdyNetworkTransactionTestParams { SpdyNetworkTransactionTestParams() : protocol(kProtoSPDY3), ssl_type(SPDYNPN) {} SpdyNetworkTransactionTestParams( NextProto protocol, SpdyNetworkTransactionTestSSLType ssl_type) : protocol(protocol), ssl_type(ssl_type) {} NextProto protocol; SpdyNetworkTransactionTestSSLType ssl_type; }; void UpdateSpdySessionDependencies( SpdyNetworkTransactionTestParams test_params, SpdySessionDependencies* session_deps) { switch (test_params.ssl_type) { case SPDYNPN: session_deps->http_server_properties.SetAlternateProtocol( HostPortPair("www.google.com", 80), 443, AlternateProtocolFromNextProto(test_params.protocol)); session_deps->use_alternate_protocols = true; session_deps->next_protos = SpdyNextProtos(); break; case SPDYNOSSL: session_deps->force_spdy_over_ssl = false; session_deps->force_spdy_always = true; break; case SPDYSSL: session_deps->force_spdy_over_ssl = true; session_deps->force_spdy_always = true; break; default: NOTREACHED(); } } SpdySessionDependencies* CreateSpdySessionDependencies( SpdyNetworkTransactionTestParams test_params) { SpdySessionDependencies* session_deps = new SpdySessionDependencies(test_params.protocol); UpdateSpdySessionDependencies(test_params, session_deps); return session_deps; } SpdySessionDependencies* CreateSpdySessionDependencies( SpdyNetworkTransactionTestParams test_params, ProxyService* proxy_service) { SpdySessionDependencies* session_deps = new SpdySessionDependencies(test_params.protocol, proxy_service); UpdateSpdySessionDependencies(test_params, session_deps); return session_deps; } } // namespace class SpdyNetworkTransactionTest : public ::testing::TestWithParam { protected: SpdyNetworkTransactionTest() : spdy_util_(GetParam().protocol) { LOG(INFO) << __FUNCTION__; } virtual ~SpdyNetworkTransactionTest() { LOG(INFO) << __FUNCTION__; // UploadDataStream posts deletion tasks back to the message loop on // destruction. upload_data_stream_.reset(); base::RunLoop().RunUntilIdle(); LOG(INFO) << __FUNCTION__; } virtual void SetUp() { LOG(INFO) << __FUNCTION__; google_get_request_initialized_ = false; google_post_request_initialized_ = false; google_chunked_post_request_initialized_ = false; ASSERT_TRUE(temp_dir_.CreateUniqueTempDir()); LOG(INFO) << __FUNCTION__; } struct TransactionHelperResult { int rv; std::string status_line; std::string response_data; HttpResponseInfo response_info; }; // A helper class that handles all the initial npn/ssl setup. class NormalSpdyTransactionHelper { public: NormalSpdyTransactionHelper(const HttpRequestInfo& request, RequestPriority priority, const BoundNetLog& log, SpdyNetworkTransactionTestParams test_params, SpdySessionDependencies* session_deps) : request_(request), priority_(priority), session_deps_(session_deps == NULL ? CreateSpdySessionDependencies(test_params) : session_deps), session_(SpdySessionDependencies::SpdyCreateSession( session_deps_.get())), log_(log), test_params_(test_params), deterministic_(false), spdy_enabled_(true) { switch (test_params_.ssl_type) { case SPDYNOSSL: case SPDYSSL: port_ = 80; break; case SPDYNPN: port_ = 443; break; default: NOTREACHED(); } } ~NormalSpdyTransactionHelper() { // Any test which doesn't close the socket by sending it an EOF will // have a valid session left open, which leaks the entire session pool. // This is just fine - in fact, some of our tests intentionally do this // so that we can check consistency of the SpdySessionPool as the test // finishes. If we had put an EOF on the socket, the SpdySession would // have closed and we wouldn't be able to check the consistency. // Forcefully close existing sessions here. session()->spdy_session_pool()->CloseAllSessions(); } void SetDeterministic() { session_ = SpdySessionDependencies::SpdyCreateSessionDeterministic( session_deps_.get()); deterministic_ = true; } void SetSpdyDisabled() { spdy_enabled_ = false; port_ = 80; } void RunPreTestSetup() { LOG(INFO) << __FUNCTION__; if (!session_deps_.get()) session_deps_.reset(CreateSpdySessionDependencies(test_params_)); if (!session_.get()) { session_ = SpdySessionDependencies::SpdyCreateSession( session_deps_.get()); } // We're now ready to use SSL-npn SPDY. trans_.reset(new HttpNetworkTransaction(priority_, session_.get())); LOG(INFO) << __FUNCTION__; } // Start the transaction, read some data, finish. void RunDefaultTest() { LOG(INFO) << __FUNCTION__; if (!StartDefaultTest()) return; FinishDefaultTest(); LOG(INFO) << __FUNCTION__; } bool StartDefaultTest() { output_.rv = trans_->Start(&request_, callback_.callback(), log_); // We expect an IO Pending or some sort of error. EXPECT_LT(output_.rv, 0); return output_.rv == ERR_IO_PENDING; } void FinishDefaultTest() { output_.rv = callback_.WaitForResult(); if (output_.rv != OK) { session_->spdy_session_pool()->CloseCurrentSessions(net::ERR_ABORTED); return; } // Verify responses. const HttpResponseInfo* response = trans_->GetResponseInfo(); ASSERT_TRUE(response != NULL); ASSERT_TRUE(response->headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response->headers->GetStatusLine()); EXPECT_EQ(spdy_enabled_, response->was_fetched_via_spdy); if (HttpStreamFactory::spdy_enabled()) { EXPECT_EQ( HttpResponseInfo::ConnectionInfoFromNextProto( test_params_.protocol), response->connection_info); } else { EXPECT_EQ(HttpResponseInfo::CONNECTION_INFO_HTTP1, response->connection_info); } if (test_params_.ssl_type == SPDYNPN && spdy_enabled_) { EXPECT_TRUE(response->was_npn_negotiated); } else { EXPECT_TRUE(!response->was_npn_negotiated); } // If SPDY is not enabled, a HTTP request should not be diverted // over a SSL session. if (!spdy_enabled_) { EXPECT_EQ(request_.url.SchemeIs("https"), response->was_npn_negotiated); } EXPECT_EQ("127.0.0.1", response->socket_address.host()); EXPECT_EQ(port_, response->socket_address.port()); output_.status_line = response->headers->GetStatusLine(); output_.response_info = *response; // Make a copy so we can verify. output_.rv = ReadTransaction(trans_.get(), &output_.response_data); } // Most tests will want to call this function. In particular, the MockReads // should end with an empty read, and that read needs to be processed to // ensure proper deletion of the spdy_session_pool. void VerifyDataConsumed() { for (DataVector::iterator it = data_vector_.begin(); it != data_vector_.end(); ++it) { EXPECT_TRUE((*it)->at_read_eof()) << "Read count: " << (*it)->read_count() << " Read index: " << (*it)->read_index(); EXPECT_TRUE((*it)->at_write_eof()) << "Write count: " << (*it)->write_count() << " Write index: " << (*it)->write_index(); } } // Occasionally a test will expect to error out before certain reads are // processed. In that case we want to explicitly ensure that the reads were // not processed. void VerifyDataNotConsumed() { for (DataVector::iterator it = data_vector_.begin(); it != data_vector_.end(); ++it) { EXPECT_TRUE(!(*it)->at_read_eof()) << "Read count: " << (*it)->read_count() << " Read index: " << (*it)->read_index(); EXPECT_TRUE(!(*it)->at_write_eof()) << "Write count: " << (*it)->write_count() << " Write index: " << (*it)->write_index(); } } void RunToCompletion(StaticSocketDataProvider* data) { RunPreTestSetup(); AddData(data); RunDefaultTest(); VerifyDataConsumed(); } void RunToCompletionWithSSLData( StaticSocketDataProvider* data, scoped_ptr ssl_provider) { RunPreTestSetup(); AddDataWithSSLSocketDataProvider(data, ssl_provider.Pass()); RunDefaultTest(); VerifyDataConsumed(); } void AddData(StaticSocketDataProvider* data) { scoped_ptr ssl_provider( new SSLSocketDataProvider(ASYNC, OK)); AddDataWithSSLSocketDataProvider(data, ssl_provider.Pass()); } void AddDataWithSSLSocketDataProvider( StaticSocketDataProvider* data, scoped_ptr ssl_provider) { DCHECK(!deterministic_); data_vector_.push_back(data); if (test_params_.ssl_type == SPDYNPN) ssl_provider->SetNextProto(test_params_.protocol); if (test_params_.ssl_type == SPDYNPN || test_params_.ssl_type == SPDYSSL) { session_deps_->socket_factory->AddSSLSocketDataProvider( ssl_provider.get()); } ssl_vector_.push_back(ssl_provider.release()); session_deps_->socket_factory->AddSocketDataProvider(data); if (test_params_.ssl_type == SPDYNPN) { MockConnect never_finishing_connect(SYNCHRONOUS, ERR_IO_PENDING); StaticSocketDataProvider* hanging_non_alternate_protocol_socket = new StaticSocketDataProvider(NULL, 0, NULL, 0); hanging_non_alternate_protocol_socket->set_connect_data( never_finishing_connect); session_deps_->socket_factory->AddSocketDataProvider( hanging_non_alternate_protocol_socket); alternate_vector_.push_back(hanging_non_alternate_protocol_socket); } } void AddDeterministicData(DeterministicSocketData* data) { DCHECK(deterministic_); data_vector_.push_back(data); SSLSocketDataProvider* ssl_provider = new SSLSocketDataProvider(ASYNC, OK); if (test_params_.ssl_type == SPDYNPN) ssl_provider->SetNextProto(test_params_.protocol); ssl_vector_.push_back(ssl_provider); if (test_params_.ssl_type == SPDYNPN || test_params_.ssl_type == SPDYSSL) { session_deps_->deterministic_socket_factory-> AddSSLSocketDataProvider(ssl_provider); } session_deps_->deterministic_socket_factory->AddSocketDataProvider(data); if (test_params_.ssl_type == SPDYNPN) { MockConnect never_finishing_connect(SYNCHRONOUS, ERR_IO_PENDING); DeterministicSocketData* hanging_non_alternate_protocol_socket = new DeterministicSocketData(NULL, 0, NULL, 0); hanging_non_alternate_protocol_socket->set_connect_data( never_finishing_connect); session_deps_->deterministic_socket_factory->AddSocketDataProvider( hanging_non_alternate_protocol_socket); alternate_deterministic_vector_.push_back( hanging_non_alternate_protocol_socket); } } void SetSession(const scoped_refptr& session) { session_ = session; } HttpNetworkTransaction* trans() { return trans_.get(); } void ResetTrans() { trans_.reset(); } TransactionHelperResult& output() { return output_; } const HttpRequestInfo& request() const { return request_; } const scoped_refptr& session() const { return session_; } scoped_ptr& session_deps() { return session_deps_; } int port() const { return port_; } SpdyNetworkTransactionTestParams test_params() const { return test_params_; } private: typedef std::vector DataVector; typedef ScopedVector SSLVector; typedef ScopedVector AlternateVector; typedef ScopedVector AlternateDeterministicVector; HttpRequestInfo request_; RequestPriority priority_; scoped_ptr session_deps_; scoped_refptr session_; TransactionHelperResult output_; scoped_ptr first_transaction_; SSLVector ssl_vector_; TestCompletionCallback callback_; scoped_ptr trans_; scoped_ptr trans_http_; DataVector data_vector_; AlternateVector alternate_vector_; AlternateDeterministicVector alternate_deterministic_vector_; const BoundNetLog& log_; SpdyNetworkTransactionTestParams test_params_; int port_; bool deterministic_; bool spdy_enabled_; }; void ConnectStatusHelperWithExpectedStatus(const MockRead& status, int expected_status); void ConnectStatusHelper(const MockRead& status); const HttpRequestInfo& CreateGetPushRequest() { google_get_push_request_.method = "GET"; google_get_push_request_.url = GURL("http://www.google.com/foo.dat"); google_get_push_request_.load_flags = 0; return google_get_push_request_; } const HttpRequestInfo& CreateGetRequest() { if (!google_get_request_initialized_) { google_get_request_.method = "GET"; google_get_request_.url = GURL(kDefaultURL); google_get_request_.load_flags = 0; google_get_request_initialized_ = true; } return google_get_request_; } const HttpRequestInfo& CreateGetRequestWithUserAgent() { if (!google_get_request_initialized_) { google_get_request_.method = "GET"; google_get_request_.url = GURL(kDefaultURL); google_get_request_.load_flags = 0; google_get_request_.extra_headers.SetHeader("User-Agent", "Chrome"); google_get_request_initialized_ = true; } return google_get_request_; } const HttpRequestInfo& CreatePostRequest() { if (!google_post_request_initialized_) { ScopedVector element_readers; element_readers.push_back( new UploadBytesElementReader(kUploadData, kUploadDataSize)); upload_data_stream_.reset( new UploadDataStream(element_readers.Pass(), 0)); google_post_request_.method = "POST"; google_post_request_.url = GURL(kDefaultURL); google_post_request_.upload_data_stream = upload_data_stream_.get(); google_post_request_initialized_ = true; } return google_post_request_; } const HttpRequestInfo& CreateFilePostRequest() { if (!google_post_request_initialized_) { base::FilePath file_path; CHECK(base::CreateTemporaryFileInDir(temp_dir_.path(), &file_path)); CHECK_EQ(static_cast(kUploadDataSize), base::WriteFile(file_path, kUploadData, kUploadDataSize)); ScopedVector element_readers; element_readers.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), file_path, 0, kUploadDataSize, base::Time())); upload_data_stream_.reset( new UploadDataStream(element_readers.Pass(), 0)); google_post_request_.method = "POST"; google_post_request_.url = GURL(kDefaultURL); google_post_request_.upload_data_stream = upload_data_stream_.get(); google_post_request_initialized_ = true; } return google_post_request_; } const HttpRequestInfo& CreateUnreadableFilePostRequest() { if (google_post_request_initialized_) return google_post_request_; base::FilePath file_path; CHECK(base::CreateTemporaryFileInDir(temp_dir_.path(), &file_path)); CHECK_EQ(static_cast(kUploadDataSize), base::WriteFile(file_path, kUploadData, kUploadDataSize)); CHECK(file_util::MakeFileUnreadable(file_path)); ScopedVector element_readers; element_readers.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), file_path, 0, kUploadDataSize, base::Time())); upload_data_stream_.reset( new UploadDataStream(element_readers.Pass(), 0)); google_post_request_.method = "POST"; google_post_request_.url = GURL(kDefaultURL); google_post_request_.upload_data_stream = upload_data_stream_.get(); google_post_request_initialized_ = true; return google_post_request_; } const HttpRequestInfo& CreateComplexPostRequest() { if (!google_post_request_initialized_) { const int kFileRangeOffset = 1; const int kFileRangeLength = 3; CHECK_LT(kFileRangeOffset + kFileRangeLength, kUploadDataSize); base::FilePath file_path; CHECK(base::CreateTemporaryFileInDir(temp_dir_.path(), &file_path)); CHECK_EQ(static_cast(kUploadDataSize), base::WriteFile(file_path, kUploadData, kUploadDataSize)); ScopedVector element_readers; element_readers.push_back( new UploadBytesElementReader(kUploadData, kFileRangeOffset)); element_readers.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), file_path, kFileRangeOffset, kFileRangeLength, base::Time())); element_readers.push_back(new UploadBytesElementReader( kUploadData + kFileRangeOffset + kFileRangeLength, kUploadDataSize - (kFileRangeOffset + kFileRangeLength))); upload_data_stream_.reset( new UploadDataStream(element_readers.Pass(), 0)); google_post_request_.method = "POST"; google_post_request_.url = GURL(kDefaultURL); google_post_request_.upload_data_stream = upload_data_stream_.get(); google_post_request_initialized_ = true; } return google_post_request_; } const HttpRequestInfo& CreateChunkedPostRequest() { if (!google_chunked_post_request_initialized_) { upload_data_stream_.reset( new UploadDataStream(UploadDataStream::CHUNKED, 0)); google_chunked_post_request_.method = "POST"; google_chunked_post_request_.url = GURL(kDefaultURL); google_chunked_post_request_.upload_data_stream = upload_data_stream_.get(); google_chunked_post_request_initialized_ = true; } return google_chunked_post_request_; } // Read the result of a particular transaction, knowing that we've got // multiple transactions in the read pipeline; so as we read, we may have // to skip over data destined for other transactions while we consume // the data for |trans|. int ReadResult(HttpNetworkTransaction* trans, StaticSocketDataProvider* data, std::string* result) { const int kSize = 3000; int bytes_read = 0; scoped_refptr buf(new net::IOBufferWithSize(kSize)); TestCompletionCallback callback; while (true) { int rv = trans->Read(buf.get(), kSize, callback.callback()); if (rv == ERR_IO_PENDING) { // Multiple transactions may be in the data set. Keep pulling off // reads until we complete our callback. while (!callback.have_result()) { data->CompleteRead(); base::RunLoop().RunUntilIdle(); } rv = callback.WaitForResult(); } else if (rv <= 0) { break; } result->append(buf->data(), rv); bytes_read += rv; } return bytes_read; } void VerifyStreamsClosed(const NormalSpdyTransactionHelper& helper) { // This lengthy block is reaching into the pool to dig out the active // session. Once we have the session, we verify that the streams are // all closed and not leaked at this point. const GURL& url = helper.request().url; int port = helper.test_params().ssl_type == SPDYNPN ? 443 : 80; HostPortPair host_port_pair(url.host(), port); SpdySessionKey key(host_port_pair, ProxyServer::Direct(), PRIVACY_MODE_DISABLED); BoundNetLog log; const scoped_refptr& session = helper.session(); base::WeakPtr spdy_session = session->spdy_session_pool()->FindAvailableSession(key, log); ASSERT_TRUE(spdy_session != NULL); EXPECT_EQ(0u, spdy_session->num_active_streams()); EXPECT_EQ(0u, spdy_session->num_unclaimed_pushed_streams()); } void RunServerPushTest(OrderedSocketData* data, HttpResponseInfo* response, HttpResponseInfo* push_response, const std::string& expected) { NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(data); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); // Request the pushed path. scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); rv = trans2->Start( &CreateGetPushRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); base::RunLoop().RunUntilIdle(); // The data for the pushed path may be coming in more than 1 frame. Compile // the results into a single string. // Read the server push body. std::string result2; ReadResult(trans2.get(), data, &result2); // Read the response body. std::string result; ReadResult(trans, data, &result); // Verify that we consumed all test data. EXPECT_TRUE(data->at_read_eof()); EXPECT_TRUE(data->at_write_eof()); // Verify that the received push data is same as the expected push data. EXPECT_EQ(result2.compare(expected), 0) << "Received data: " << result2 << "||||| Expected data: " << expected; // Verify the SYN_REPLY. // Copy the response info, because trans goes away. *response = *trans->GetResponseInfo(); *push_response = *trans2->GetResponseInfo(); VerifyStreamsClosed(helper); } static void DeleteSessionCallback(NormalSpdyTransactionHelper* helper, int result) { helper->ResetTrans(); } static void StartTransactionCallback( const scoped_refptr& session, int result) { scoped_ptr trans( new HttpNetworkTransaction(DEFAULT_PRIORITY, session.get())); TestCompletionCallback callback; HttpRequestInfo request; request.method = "GET"; request.url = GURL("http://www.google.com/"); request.load_flags = 0; int rv = trans->Start(&request, callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); callback.WaitForResult(); } SpdyTestUtil spdy_util_; private: scoped_ptr upload_data_stream_; bool google_get_request_initialized_; bool google_post_request_initialized_; bool google_chunked_post_request_initialized_; HttpRequestInfo google_get_request_; HttpRequestInfo google_post_request_; HttpRequestInfo google_chunked_post_request_; HttpRequestInfo google_get_push_request_; base::ScopedTempDir temp_dir_; }; //----------------------------------------------------------------------------- // All tests are run with three different connection types: SPDY after NPN // negotiation, SPDY without SSL, and SPDY with SSL. // // TODO(akalin): Use ::testing::Combine() when we are able to use // . INSTANTIATE_TEST_CASE_P( Spdy, SpdyNetworkTransactionTest, ::testing::Values( SpdyNetworkTransactionTestParams(kProtoDeprecatedSPDY2, SPDYNOSSL), SpdyNetworkTransactionTestParams(kProtoDeprecatedSPDY2, SPDYSSL), SpdyNetworkTransactionTestParams(kProtoDeprecatedSPDY2, SPDYNPN), SpdyNetworkTransactionTestParams(kProtoSPDY3, SPDYNOSSL), SpdyNetworkTransactionTestParams(kProtoSPDY3, SPDYSSL), SpdyNetworkTransactionTestParams(kProtoSPDY3, SPDYNPN), SpdyNetworkTransactionTestParams(kProtoSPDY31, SPDYNOSSL), SpdyNetworkTransactionTestParams(kProtoSPDY31, SPDYSSL), SpdyNetworkTransactionTestParams(kProtoSPDY31, SPDYNPN), SpdyNetworkTransactionTestParams(kProtoSPDY4, SPDYNOSSL), SpdyNetworkTransactionTestParams(kProtoSPDY4, SPDYSSL), SpdyNetworkTransactionTestParams(kProtoSPDY4, SPDYNPN))); // Verify HttpNetworkTransaction constructor. TEST_P(SpdyNetworkTransactionTest, Constructor) { LOG(INFO) << __FUNCTION__; scoped_ptr session_deps( CreateSpdySessionDependencies(GetParam())); LOG(INFO) << __FUNCTION__; scoped_refptr session( SpdySessionDependencies::SpdyCreateSession(session_deps.get())); LOG(INFO) << __FUNCTION__; scoped_ptr trans( new HttpNetworkTransaction(DEFAULT_PRIORITY, session.get())); LOG(INFO) << __FUNCTION__; } TEST_P(SpdyNetworkTransactionTest, Get) { LOG(INFO) << __FUNCTION__; // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } TEST_P(SpdyNetworkTransactionTest, GetAtEachPriority) { for (RequestPriority p = MINIMUM_PRIORITY; p <= MAXIMUM_PRIORITY; p = RequestPriority(p + 1)) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, p, true)); MockWrite writes[] = { CreateMockWrite(*req) }; SpdyPriority spdy_prio = 0; EXPECT_TRUE(GetSpdyPriority(spdy_util_.spdy_version(), *req, &spdy_prio)); // this repeats the RequestPriority-->SpdyPriority mapping from // SpdyFramer::ConvertRequestPriorityToSpdyPriority to make // sure it's being done right. if (spdy_util_.spdy_version() < SPDY3) { switch(p) { case HIGHEST: EXPECT_EQ(0, spdy_prio); break; case MEDIUM: EXPECT_EQ(1, spdy_prio); break; case LOW: case LOWEST: EXPECT_EQ(2, spdy_prio); break; case IDLE: EXPECT_EQ(3, spdy_prio); break; default: FAIL(); } } else { switch(p) { case HIGHEST: EXPECT_EQ(0, spdy_prio); break; case MEDIUM: EXPECT_EQ(1, spdy_prio); break; case LOW: EXPECT_EQ(2, spdy_prio); break; case LOWEST: EXPECT_EQ(3, spdy_prio); break; case IDLE: EXPECT_EQ(4, spdy_prio); break; default: FAIL(); } } scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); HttpRequestInfo http_req = CreateGetRequest(); NormalSpdyTransactionHelper helper(http_req, p, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } } // Start three gets simultaniously; making sure that multiplexed // streams work properly. // This can't use the TransactionHelper method, since it only // handles a single transaction, and finishes them as soon // as it launches them. // TODO(gavinp): create a working generalized TransactionHelper that // can allow multiple streams in flight. TEST_P(SpdyNetworkTransactionTest, ThreeGets) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr fbody(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, LOWEST, true)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(3, false)); scoped_ptr fbody2(spdy_util_.ConstructSpdyBodyFrame(3, true)); scoped_ptr req3( spdy_util_.ConstructSpdyGet(NULL, 0, false, 5, LOWEST, true)); scoped_ptr resp3(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 5)); scoped_ptr body3(spdy_util_.ConstructSpdyBodyFrame(5, false)); scoped_ptr fbody3(spdy_util_.ConstructSpdyBodyFrame(5, true)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*req2), CreateMockWrite(*req3), }; MockRead reads[] = { CreateMockRead(*resp, 1), CreateMockRead(*body), CreateMockRead(*resp2, 4), CreateMockRead(*body2), CreateMockRead(*resp3, 7), CreateMockRead(*body3), CreateMockRead(*fbody), CreateMockRead(*fbody2), CreateMockRead(*fbody3), MockRead(ASYNC, 0, 0), // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); OrderedSocketData data_placeholder(NULL, 0, NULL, 0); BoundNetLog log; TransactionHelperResult out; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); // We require placeholder data because three get requests are sent out, so // there needs to be three sets of SSL connection data. helper.AddData(&data_placeholder); helper.AddData(&data_placeholder); scoped_ptr trans1( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans3( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); TestCompletionCallback callback1; TestCompletionCallback callback2; TestCompletionCallback callback3; HttpRequestInfo httpreq1 = CreateGetRequest(); HttpRequestInfo httpreq2 = CreateGetRequest(); HttpRequestInfo httpreq3 = CreateGetRequest(); out.rv = trans1->Start(&httpreq1, callback1.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = trans2->Start(&httpreq2, callback2.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = trans3->Start(&httpreq3, callback3.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = callback1.WaitForResult(); ASSERT_EQ(OK, out.rv); out.rv = callback3.WaitForResult(); ASSERT_EQ(OK, out.rv); const HttpResponseInfo* response1 = trans1->GetResponseInfo(); EXPECT_TRUE(response1->headers.get() != NULL); EXPECT_TRUE(response1->was_fetched_via_spdy); out.status_line = response1->headers->GetStatusLine(); out.response_info = *response1; trans2->GetResponseInfo(); out.rv = ReadTransaction(trans1.get(), &out.response_data); helper.VerifyDataConsumed(); EXPECT_EQ(OK, out.rv); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); } TEST_P(SpdyNetworkTransactionTest, TwoGetsLateBinding) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr fbody(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, LOWEST, true)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(3, false)); scoped_ptr fbody2(spdy_util_.ConstructSpdyBodyFrame(3, true)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*req2), }; MockRead reads[] = { CreateMockRead(*resp, 1), CreateMockRead(*body), CreateMockRead(*resp2, 4), CreateMockRead(*body2), CreateMockRead(*fbody), CreateMockRead(*fbody2), MockRead(ASYNC, 0, 0), // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); MockConnect never_finishing_connect(SYNCHRONOUS, ERR_IO_PENDING); OrderedSocketData data_placeholder(NULL, 0, NULL, 0); data_placeholder.set_connect_data(never_finishing_connect); BoundNetLog log; TransactionHelperResult out; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); // We require placeholder data because two get requests are sent out, so // there needs to be two sets of SSL connection data. helper.AddData(&data_placeholder); scoped_ptr trans1( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); TestCompletionCallback callback1; TestCompletionCallback callback2; HttpRequestInfo httpreq1 = CreateGetRequest(); HttpRequestInfo httpreq2 = CreateGetRequest(); out.rv = trans1->Start(&httpreq1, callback1.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = trans2->Start(&httpreq2, callback2.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = callback1.WaitForResult(); ASSERT_EQ(OK, out.rv); out.rv = callback2.WaitForResult(); ASSERT_EQ(OK, out.rv); const HttpResponseInfo* response1 = trans1->GetResponseInfo(); EXPECT_TRUE(response1->headers.get() != NULL); EXPECT_TRUE(response1->was_fetched_via_spdy); out.status_line = response1->headers->GetStatusLine(); out.response_info = *response1; out.rv = ReadTransaction(trans1.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); const HttpResponseInfo* response2 = trans2->GetResponseInfo(); EXPECT_TRUE(response2->headers.get() != NULL); EXPECT_TRUE(response2->was_fetched_via_spdy); out.status_line = response2->headers->GetStatusLine(); out.response_info = *response2; out.rv = ReadTransaction(trans2.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); helper.VerifyDataConsumed(); } TEST_P(SpdyNetworkTransactionTest, TwoGetsLateBindingFromPreconnect) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr fbody(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, LOWEST, true)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(3, false)); scoped_ptr fbody2(spdy_util_.ConstructSpdyBodyFrame(3, true)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*req2), }; MockRead reads[] = { CreateMockRead(*resp, 1), CreateMockRead(*body), CreateMockRead(*resp2, 4), CreateMockRead(*body2), CreateMockRead(*fbody), CreateMockRead(*fbody2), MockRead(ASYNC, 0, 0), // EOF }; OrderedSocketData preconnect_data(reads, arraysize(reads), writes, arraysize(writes)); MockConnect never_finishing_connect(ASYNC, ERR_IO_PENDING); OrderedSocketData data_placeholder(NULL, 0, NULL, 0); data_placeholder.set_connect_data(never_finishing_connect); BoundNetLog log; TransactionHelperResult out; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&preconnect_data); // We require placeholder data because 3 connections are attempted (first is // the preconnect, 2nd and 3rd are the never finished connections. helper.AddData(&data_placeholder); helper.AddData(&data_placeholder); scoped_ptr trans1( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); TestCompletionCallback callback1; TestCompletionCallback callback2; HttpRequestInfo httpreq = CreateGetRequest(); // Preconnect the first. SSLConfig preconnect_ssl_config; helper.session()->ssl_config_service()->GetSSLConfig(&preconnect_ssl_config); HttpStreamFactory* http_stream_factory = helper.session()->http_stream_factory(); helper.session()->GetNextProtos(&preconnect_ssl_config.next_protos); http_stream_factory->PreconnectStreams( 1, httpreq, DEFAULT_PRIORITY, preconnect_ssl_config, preconnect_ssl_config); out.rv = trans1->Start(&httpreq, callback1.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = trans2->Start(&httpreq, callback2.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = callback1.WaitForResult(); ASSERT_EQ(OK, out.rv); out.rv = callback2.WaitForResult(); ASSERT_EQ(OK, out.rv); const HttpResponseInfo* response1 = trans1->GetResponseInfo(); EXPECT_TRUE(response1->headers.get() != NULL); EXPECT_TRUE(response1->was_fetched_via_spdy); out.status_line = response1->headers->GetStatusLine(); out.response_info = *response1; out.rv = ReadTransaction(trans1.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); const HttpResponseInfo* response2 = trans2->GetResponseInfo(); EXPECT_TRUE(response2->headers.get() != NULL); EXPECT_TRUE(response2->was_fetched_via_spdy); out.status_line = response2->headers->GetStatusLine(); out.response_info = *response2; out.rv = ReadTransaction(trans2.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); helper.VerifyDataConsumed(); } // Similar to ThreeGets above, however this test adds a SETTINGS // frame. The SETTINGS frame is read during the IO loop waiting on // the first transaction completion, and sets a maximum concurrent // stream limit of 1. This means that our IO loop exists after the // second transaction completes, so we can assert on read_index(). TEST_P(SpdyNetworkTransactionTest, ThreeGetsWithMaxConcurrent) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr fbody(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, LOWEST, true)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(3, false)); scoped_ptr fbody2(spdy_util_.ConstructSpdyBodyFrame(3, true)); scoped_ptr req3( spdy_util_.ConstructSpdyGet(NULL, 0, false, 5, LOWEST, true)); scoped_ptr resp3(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 5)); scoped_ptr body3(spdy_util_.ConstructSpdyBodyFrame(5, false)); scoped_ptr fbody3(spdy_util_.ConstructSpdyBodyFrame(5, true)); SettingsMap settings; const uint32 max_concurrent_streams = 1; settings[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, max_concurrent_streams); scoped_ptr settings_frame( spdy_util_.ConstructSpdySettings(settings)); scoped_ptr settings_ack(spdy_util_.ConstructSpdySettingsAck()); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*settings_ack, 2), CreateMockWrite(*req2), CreateMockWrite(*req3), }; MockRead reads[] = { CreateMockRead(*settings_frame, 1), CreateMockRead(*resp), CreateMockRead(*body), CreateMockRead(*fbody), CreateMockRead(*resp2, 8), CreateMockRead(*body2), CreateMockRead(*fbody2), CreateMockRead(*resp3, 13), CreateMockRead(*body3), CreateMockRead(*fbody3), MockRead(ASYNC, 0, 0), // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); OrderedSocketData data_placeholder(NULL, 0, NULL, 0); BoundNetLog log; TransactionHelperResult out; { NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); // We require placeholder data because three get requests are sent out, so // there needs to be three sets of SSL connection data. helper.AddData(&data_placeholder); helper.AddData(&data_placeholder); scoped_ptr trans1( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans3( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); TestCompletionCallback callback1; TestCompletionCallback callback2; TestCompletionCallback callback3; HttpRequestInfo httpreq1 = CreateGetRequest(); HttpRequestInfo httpreq2 = CreateGetRequest(); HttpRequestInfo httpreq3 = CreateGetRequest(); out.rv = trans1->Start(&httpreq1, callback1.callback(), log); ASSERT_EQ(out.rv, ERR_IO_PENDING); // Run transaction 1 through quickly to force a read of our SETTINGS // frame. out.rv = callback1.WaitForResult(); ASSERT_EQ(OK, out.rv); out.rv = trans2->Start(&httpreq2, callback2.callback(), log); ASSERT_EQ(out.rv, ERR_IO_PENDING); out.rv = trans3->Start(&httpreq3, callback3.callback(), log); ASSERT_EQ(out.rv, ERR_IO_PENDING); out.rv = callback2.WaitForResult(); ASSERT_EQ(OK, out.rv); EXPECT_EQ(7U, data.read_index()); // i.e. the third trans was queued out.rv = callback3.WaitForResult(); ASSERT_EQ(OK, out.rv); const HttpResponseInfo* response1 = trans1->GetResponseInfo(); ASSERT_TRUE(response1 != NULL); EXPECT_TRUE(response1->headers.get() != NULL); EXPECT_TRUE(response1->was_fetched_via_spdy); out.status_line = response1->headers->GetStatusLine(); out.response_info = *response1; out.rv = ReadTransaction(trans1.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); const HttpResponseInfo* response2 = trans2->GetResponseInfo(); out.status_line = response2->headers->GetStatusLine(); out.response_info = *response2; out.rv = ReadTransaction(trans2.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); const HttpResponseInfo* response3 = trans3->GetResponseInfo(); out.status_line = response3->headers->GetStatusLine(); out.response_info = *response3; out.rv = ReadTransaction(trans3.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); helper.VerifyDataConsumed(); } EXPECT_EQ(OK, out.rv); } // Similar to ThreeGetsWithMaxConcurrent above, however this test adds // a fourth transaction. The third and fourth transactions have // different data ("hello!" vs "hello!hello!") and because of the // user specified priority, we expect to see them inverted in // the response from the server. TEST_P(SpdyNetworkTransactionTest, FourGetsWithMaxConcurrentPriority) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr fbody(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, LOWEST, true)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(3, false)); scoped_ptr fbody2(spdy_util_.ConstructSpdyBodyFrame(3, true)); scoped_ptr req4( spdy_util_.ConstructSpdyGet(NULL, 0, false, 5, HIGHEST, true)); scoped_ptr resp4(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 5)); scoped_ptr fbody4(spdy_util_.ConstructSpdyBodyFrame(5, true)); scoped_ptr req3( spdy_util_.ConstructSpdyGet(NULL, 0, false, 7, LOWEST, true)); scoped_ptr resp3(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 7)); scoped_ptr body3(spdy_util_.ConstructSpdyBodyFrame(7, false)); scoped_ptr fbody3(spdy_util_.ConstructSpdyBodyFrame(7, true)); SettingsMap settings; const uint32 max_concurrent_streams = 1; settings[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, max_concurrent_streams); scoped_ptr settings_frame( spdy_util_.ConstructSpdySettings(settings)); scoped_ptr settings_ack(spdy_util_.ConstructSpdySettingsAck()); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*settings_ack, 2), CreateMockWrite(*req2), CreateMockWrite(*req4), CreateMockWrite(*req3), }; MockRead reads[] = { CreateMockRead(*settings_frame, 1), CreateMockRead(*resp), CreateMockRead(*body), CreateMockRead(*fbody), CreateMockRead(*resp2, 8), CreateMockRead(*body2), CreateMockRead(*fbody2), CreateMockRead(*resp4, 14), CreateMockRead(*fbody4), CreateMockRead(*resp3, 17), CreateMockRead(*body3), CreateMockRead(*fbody3), MockRead(ASYNC, 0, 0), // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); OrderedSocketData data_placeholder(NULL, 0, NULL, 0); BoundNetLog log; TransactionHelperResult out; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); // We require placeholder data because four get requests are sent out, so // there needs to be four sets of SSL connection data. helper.AddData(&data_placeholder); helper.AddData(&data_placeholder); helper.AddData(&data_placeholder); scoped_ptr trans1( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans3( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans4( new HttpNetworkTransaction(HIGHEST, helper.session().get())); TestCompletionCallback callback1; TestCompletionCallback callback2; TestCompletionCallback callback3; TestCompletionCallback callback4; HttpRequestInfo httpreq1 = CreateGetRequest(); HttpRequestInfo httpreq2 = CreateGetRequest(); HttpRequestInfo httpreq3 = CreateGetRequest(); HttpRequestInfo httpreq4 = CreateGetRequest(); out.rv = trans1->Start(&httpreq1, callback1.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); // Run transaction 1 through quickly to force a read of our SETTINGS frame. out.rv = callback1.WaitForResult(); ASSERT_EQ(OK, out.rv); out.rv = trans2->Start(&httpreq2, callback2.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = trans3->Start(&httpreq3, callback3.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = trans4->Start(&httpreq4, callback4.callback(), log); ASSERT_EQ(ERR_IO_PENDING, out.rv); out.rv = callback2.WaitForResult(); ASSERT_EQ(OK, out.rv); EXPECT_EQ(data.read_index(), 7U); // i.e. the third & fourth trans queued out.rv = callback3.WaitForResult(); ASSERT_EQ(OK, out.rv); const HttpResponseInfo* response1 = trans1->GetResponseInfo(); EXPECT_TRUE(response1->headers.get() != NULL); EXPECT_TRUE(response1->was_fetched_via_spdy); out.status_line = response1->headers->GetStatusLine(); out.response_info = *response1; out.rv = ReadTransaction(trans1.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); const HttpResponseInfo* response2 = trans2->GetResponseInfo(); out.status_line = response2->headers->GetStatusLine(); out.response_info = *response2; out.rv = ReadTransaction(trans2.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); // notice: response3 gets two hellos, response4 gets one // hello, so we know dequeuing priority was respected. const HttpResponseInfo* response3 = trans3->GetResponseInfo(); out.status_line = response3->headers->GetStatusLine(); out.response_info = *response3; out.rv = ReadTransaction(trans3.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); out.rv = callback4.WaitForResult(); EXPECT_EQ(OK, out.rv); const HttpResponseInfo* response4 = trans4->GetResponseInfo(); out.status_line = response4->headers->GetStatusLine(); out.response_info = *response4; out.rv = ReadTransaction(trans4.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); helper.VerifyDataConsumed(); EXPECT_EQ(OK, out.rv); } // Similar to ThreeGetsMaxConcurrrent above, however, this test // deletes a session in the middle of the transaction to insure // that we properly remove pendingcreatestream objects from // the spdy_session TEST_P(SpdyNetworkTransactionTest, ThreeGetsWithMaxConcurrentDelete) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr fbody(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, LOWEST, true)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(3, false)); scoped_ptr fbody2(spdy_util_.ConstructSpdyBodyFrame(3, true)); SettingsMap settings; const uint32 max_concurrent_streams = 1; settings[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, max_concurrent_streams); scoped_ptr settings_frame( spdy_util_.ConstructSpdySettings(settings)); scoped_ptr settings_ack(spdy_util_.ConstructSpdySettingsAck()); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*settings_ack, 2), CreateMockWrite(*req2), }; MockRead reads[] = { CreateMockRead(*settings_frame, 1), CreateMockRead(*resp), CreateMockRead(*body), CreateMockRead(*fbody), CreateMockRead(*resp2, 8), CreateMockRead(*body2), CreateMockRead(*fbody2), MockRead(ASYNC, 0, 0), // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); OrderedSocketData data_placeholder(NULL, 0, NULL, 0); BoundNetLog log; TransactionHelperResult out; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); // We require placeholder data because three get requests are sent out, so // there needs to be three sets of SSL connection data. helper.AddData(&data_placeholder); helper.AddData(&data_placeholder); scoped_ptr trans1( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); scoped_ptr trans3( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); TestCompletionCallback callback1; TestCompletionCallback callback2; TestCompletionCallback callback3; HttpRequestInfo httpreq1 = CreateGetRequest(); HttpRequestInfo httpreq2 = CreateGetRequest(); HttpRequestInfo httpreq3 = CreateGetRequest(); out.rv = trans1->Start(&httpreq1, callback1.callback(), log); ASSERT_EQ(out.rv, ERR_IO_PENDING); // Run transaction 1 through quickly to force a read of our SETTINGS frame. out.rv = callback1.WaitForResult(); ASSERT_EQ(OK, out.rv); out.rv = trans2->Start(&httpreq2, callback2.callback(), log); ASSERT_EQ(out.rv, ERR_IO_PENDING); out.rv = trans3->Start(&httpreq3, callback3.callback(), log); delete trans3.release(); ASSERT_EQ(out.rv, ERR_IO_PENDING); out.rv = callback2.WaitForResult(); ASSERT_EQ(OK, out.rv); EXPECT_EQ(8U, data.read_index()); const HttpResponseInfo* response1 = trans1->GetResponseInfo(); ASSERT_TRUE(response1 != NULL); EXPECT_TRUE(response1->headers.get() != NULL); EXPECT_TRUE(response1->was_fetched_via_spdy); out.status_line = response1->headers->GetStatusLine(); out.response_info = *response1; out.rv = ReadTransaction(trans1.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); const HttpResponseInfo* response2 = trans2->GetResponseInfo(); ASSERT_TRUE(response2 != NULL); out.status_line = response2->headers->GetStatusLine(); out.response_info = *response2; out.rv = ReadTransaction(trans2.get(), &out.response_data); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!hello!", out.response_data); helper.VerifyDataConsumed(); EXPECT_EQ(OK, out.rv); } namespace { // The KillerCallback will delete the transaction on error as part of the // callback. class KillerCallback : public TestCompletionCallbackBase { public: explicit KillerCallback(HttpNetworkTransaction* transaction) : transaction_(transaction), callback_(base::Bind(&KillerCallback::OnComplete, base::Unretained(this))) { } virtual ~KillerCallback() {} const CompletionCallback& callback() const { return callback_; } private: void OnComplete(int result) { if (result < 0) delete transaction_; SetResult(result); } HttpNetworkTransaction* transaction_; CompletionCallback callback_; }; } // namespace // Similar to ThreeGetsMaxConcurrrentDelete above, however, this test // closes the socket while we have a pending transaction waiting for // a pending stream creation. http://crbug.com/52901 TEST_P(SpdyNetworkTransactionTest, ThreeGetsWithMaxConcurrentSocketClose) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr fin_body(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, LOWEST, true)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); SettingsMap settings; const uint32 max_concurrent_streams = 1; settings[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, max_concurrent_streams); scoped_ptr settings_frame( spdy_util_.ConstructSpdySettings(settings)); scoped_ptr settings_ack(spdy_util_.ConstructSpdySettingsAck()); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*settings_ack, 2), CreateMockWrite(*req2), }; MockRead reads[] = { CreateMockRead(*settings_frame, 1), CreateMockRead(*resp), CreateMockRead(*body), CreateMockRead(*fin_body), CreateMockRead(*resp2, 8), MockRead(ASYNC, ERR_CONNECTION_RESET, 0), // Abort! }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); OrderedSocketData data_placeholder(NULL, 0, NULL, 0); BoundNetLog log; TransactionHelperResult out; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); // We require placeholder data because three get requests are sent out, so // there needs to be three sets of SSL connection data. helper.AddData(&data_placeholder); helper.AddData(&data_placeholder); HttpNetworkTransaction trans1(DEFAULT_PRIORITY, helper.session().get()); HttpNetworkTransaction trans2(DEFAULT_PRIORITY, helper.session().get()); HttpNetworkTransaction* trans3( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); TestCompletionCallback callback1; TestCompletionCallback callback2; KillerCallback callback3(trans3); HttpRequestInfo httpreq1 = CreateGetRequest(); HttpRequestInfo httpreq2 = CreateGetRequest(); HttpRequestInfo httpreq3 = CreateGetRequest(); out.rv = trans1.Start(&httpreq1, callback1.callback(), log); ASSERT_EQ(out.rv, ERR_IO_PENDING); // Run transaction 1 through quickly to force a read of our SETTINGS frame. out.rv = callback1.WaitForResult(); ASSERT_EQ(OK, out.rv); out.rv = trans2.Start(&httpreq2, callback2.callback(), log); ASSERT_EQ(out.rv, ERR_IO_PENDING); out.rv = trans3->Start(&httpreq3, callback3.callback(), log); ASSERT_EQ(out.rv, ERR_IO_PENDING); out.rv = callback3.WaitForResult(); ASSERT_EQ(ERR_ABORTED, out.rv); EXPECT_EQ(6U, data.read_index()); const HttpResponseInfo* response1 = trans1.GetResponseInfo(); ASSERT_TRUE(response1 != NULL); EXPECT_TRUE(response1->headers.get() != NULL); EXPECT_TRUE(response1->was_fetched_via_spdy); out.status_line = response1->headers->GetStatusLine(); out.response_info = *response1; out.rv = ReadTransaction(&trans1, &out.response_data); EXPECT_EQ(OK, out.rv); const HttpResponseInfo* response2 = trans2.GetResponseInfo(); ASSERT_TRUE(response2 != NULL); out.status_line = response2->headers->GetStatusLine(); out.response_info = *response2; out.rv = ReadTransaction(&trans2, &out.response_data); EXPECT_EQ(ERR_CONNECTION_RESET, out.rv); helper.VerifyDataConsumed(); } // Test that a simple PUT request works. TEST_P(SpdyNetworkTransactionTest, Put) { // Setup the request HttpRequestInfo request; request.method = "PUT"; request.url = GURL("http://www.google.com/"); const SpdyHeaderInfo kSynStartHeader = { SYN_STREAM, // Kind = Syn 1, // Stream ID 0, // Associated stream ID ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), kSpdyCredentialSlotUnused, CONTROL_FLAG_FIN, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; scoped_ptr put_headers( spdy_util_.ConstructPutHeaderBlock("http://www.google.com", 0)); scoped_ptr req(spdy_util_.ConstructSpdyFrame( kSynStartHeader, put_headers.Pass())); MockWrite writes[] = { CreateMockWrite(*req), }; scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); const SpdyHeaderInfo kSynReplyHeader = { SYN_REPLY, // Kind = SynReply 1, // Stream ID 0, // Associated stream ID ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), kSpdyCredentialSlotUnused, CONTROL_FLAG_NONE, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; scoped_ptr reply_headers(new SpdyHeaderBlock()); (*reply_headers)[spdy_util_.GetStatusKey()] = "200"; (*reply_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; (*reply_headers)["content-length"] = "1234"; scoped_ptr resp(spdy_util_.ConstructSpdyFrame( kSynReplyHeader, reply_headers.Pass())); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); } // Test that a simple HEAD request works. TEST_P(SpdyNetworkTransactionTest, Head) { // Setup the request HttpRequestInfo request; request.method = "HEAD"; request.url = GURL("http://www.google.com/"); const SpdyHeaderInfo kSynStartHeader = { SYN_STREAM, // Kind = Syn 1, // Stream ID 0, // Associated stream ID ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), kSpdyCredentialSlotUnused, CONTROL_FLAG_FIN, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; scoped_ptr head_headers( spdy_util_.ConstructHeadHeaderBlock("http://www.google.com", 0)); scoped_ptr req(spdy_util_.ConstructSpdyFrame( kSynStartHeader, head_headers.Pass())); MockWrite writes[] = { CreateMockWrite(*req), }; scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); const SpdyHeaderInfo kSynReplyHeader = { SYN_REPLY, // Kind = SynReply 1, // Stream ID 0, // Associated stream ID ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), kSpdyCredentialSlotUnused, CONTROL_FLAG_NONE, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; scoped_ptr reply_headers(new SpdyHeaderBlock()); (*reply_headers)[spdy_util_.GetStatusKey()] = "200"; (*reply_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; (*reply_headers)["content-length"] = "1234"; scoped_ptr resp(spdy_util_.ConstructSpdyFrame( kSynReplyHeader, reply_headers.Pass())); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); } // Test that a simple POST works. TEST_P(SpdyNetworkTransactionTest, Post) { scoped_ptr req( spdy_util_.ConstructSpdyPost( kRequestUrl, 1, kUploadDataSize, LOWEST, NULL, 0)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*body), // POST upload frame }; scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(2, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreatePostRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } // Test that a POST with a file works. TEST_P(SpdyNetworkTransactionTest, FilePost) { scoped_ptr req( spdy_util_.ConstructSpdyPost( kRequestUrl, 1, kUploadDataSize, LOWEST, NULL, 0)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*body), // POST upload frame }; scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(2, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateFilePostRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } // Test that a POST with a unreadable file fails. TEST_P(SpdyNetworkTransactionTest, UnreadableFilePost) { MockWrite writes[] = { MockWrite(ASYNC, 0, 0) // EOF }; MockRead reads[] = { MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateUnreadableFilePostRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); helper.RunDefaultTest(); base::RunLoop().RunUntilIdle(); helper.VerifyDataNotConsumed(); EXPECT_EQ(ERR_ACCESS_DENIED, helper.output().rv); } // Test that a complex POST works. TEST_P(SpdyNetworkTransactionTest, ComplexPost) { scoped_ptr req( spdy_util_.ConstructSpdyPost( kRequestUrl, 1, kUploadDataSize, LOWEST, NULL, 0)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*body), // POST upload frame }; scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(2, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateComplexPostRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } // Test that a chunked POST works. TEST_P(SpdyNetworkTransactionTest, ChunkedPost) { scoped_ptr req(spdy_util_.ConstructChunkedSpdyPost(NULL, 0)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*body), }; scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(2, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateChunkedPostRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); // These chunks get merged into a single frame when being sent. const int kFirstChunkSize = kUploadDataSize/2; helper.request().upload_data_stream->AppendChunk( kUploadData, kFirstChunkSize, false); helper.request().upload_data_stream->AppendChunk( kUploadData + kFirstChunkSize, kUploadDataSize - kFirstChunkSize, true); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ(kUploadData, out.response_data); } // Test that a chunked POST works with chunks appended after transaction starts. TEST_P(SpdyNetworkTransactionTest, DelayedChunkedPost) { scoped_ptr req(spdy_util_.ConstructChunkedSpdyPost(NULL, 0)); scoped_ptr chunk1(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr chunk2(spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr chunk3(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*chunk1), CreateMockWrite(*chunk2), CreateMockWrite(*chunk3), }; scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*chunk1), CreateMockRead(*chunk2), CreateMockRead(*chunk3), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(4, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateChunkedPostRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.request().upload_data_stream->AppendChunk( kUploadData, kUploadDataSize, false); helper.RunPreTestSetup(); helper.AddData(&data); ASSERT_TRUE(helper.StartDefaultTest()); base::RunLoop().RunUntilIdle(); helper.request().upload_data_stream->AppendChunk( kUploadData, kUploadDataSize, false); base::RunLoop().RunUntilIdle(); helper.request().upload_data_stream->AppendChunk( kUploadData, kUploadDataSize, true); helper.FinishDefaultTest(); helper.VerifyDataConsumed(); std::string expected_response; expected_response += kUploadData; expected_response += kUploadData; expected_response += kUploadData; TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ(expected_response, out.response_data); } // Test that a POST without any post data works. TEST_P(SpdyNetworkTransactionTest, NullPost) { BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); // Setup the request HttpRequestInfo request; request.method = "POST"; request.url = GURL(kRequestUrl); // Create an empty UploadData. request.upload_data_stream = NULL; // When request.upload_data_stream is NULL for post, content-length is // expected to be 0. SpdySynStreamIR syn_ir(1); syn_ir.set_name_value_block( *spdy_util_.ConstructPostHeaderBlock(kRequestUrl, 0)); syn_ir.set_fin(true); // No body. syn_ir.set_priority(ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version())); scoped_ptr req(framer.SerializeFrame(syn_ir)); MockWrite writes[] = { CreateMockWrite(*req), }; scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } // Test that a simple POST works. TEST_P(SpdyNetworkTransactionTest, EmptyPost) { BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); // Create an empty UploadDataStream. ScopedVector element_readers; UploadDataStream stream(element_readers.Pass(), 0); // Setup the request HttpRequestInfo request; request.method = "POST"; request.url = GURL(kRequestUrl); request.upload_data_stream = &stream; const uint64 kContentLength = 0; SpdySynStreamIR syn_ir(1); syn_ir.set_name_value_block( *spdy_util_.ConstructPostHeaderBlock(kRequestUrl, kContentLength)); syn_ir.set_fin(true); // No body. syn_ir.set_priority(ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version())); scoped_ptr req(framer.SerializeFrame(syn_ir)); MockWrite writes[] = { CreateMockWrite(*req), }; scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } // While we're doing a post, the server sends the reply before upload completes. TEST_P(SpdyNetworkTransactionTest, ResponseBeforePostCompletes) { scoped_ptr req(spdy_util_.ConstructChunkedSpdyPost(NULL, 0)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*req, 0), CreateMockWrite(*body, 3), }; scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); MockRead reads[] = { CreateMockRead(*resp, 1), CreateMockRead(*body, 2), MockRead(ASYNC, 0, 4) // EOF }; // Write the request headers, and read the complete response // while still waiting for chunked request data. DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateChunkedPostRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.RunPreTestSetup(); helper.AddDeterministicData(&data); ASSERT_TRUE(helper.StartDefaultTest()); // Process the request headers, SYN_REPLY, and response body. // The request body is still in flight. data.RunFor(3); const HttpResponseInfo* response = helper.trans()->GetResponseInfo(); EXPECT_EQ("HTTP/1.1 200 OK", response->headers->GetStatusLine()); // Finish sending the request body. helper.request().upload_data_stream->AppendChunk( kUploadData, kUploadDataSize, true); data.RunFor(2); std::string response_body; EXPECT_EQ(OK, ReadTransaction(helper.trans(), &response_body)); EXPECT_EQ(kUploadData, response_body); helper.VerifyDataConsumed(); } // The client upon cancellation tries to send a RST_STREAM frame. The mock // socket causes the TCP write to return zero. This test checks that the client // tries to queue up the RST_STREAM frame again. TEST_P(SpdyNetworkTransactionTest, SocketWriteReturnsZero) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_CANCEL)); MockWrite writes[] = { CreateMockWrite(*req.get(), 0, SYNCHRONOUS), MockWrite(SYNCHRONOUS, 0, 0, 2), CreateMockWrite(*rst.get(), 3, SYNCHRONOUS), }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp.get(), 1, ASYNC), MockRead(ASYNC, 0, 0, 4) // EOF }; DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.RunPreTestSetup(); helper.AddDeterministicData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.SetStop(2); data.Run(); helper.ResetTrans(); data.SetStop(20); data.Run(); helper.VerifyDataConsumed(); } // Test that the transaction doesn't crash when we don't have a reply. TEST_P(SpdyNetworkTransactionTest, ResponseWithoutSynReply) { scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), NULL, 0); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, out.rv); } // Test that the transaction doesn't crash when we get two replies on the same // stream ID. See http://crbug.com/45639. TEST_P(SpdyNetworkTransactionTest, ResponseWithTwoSynReplies) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*rst), }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); const HttpResponseInfo* response = trans->GetResponseInfo(); ASSERT_TRUE(response != NULL); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); std::string response_data; rv = ReadTransaction(trans, &response_data); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, rv); helper.VerifyDataConsumed(); } TEST_P(SpdyNetworkTransactionTest, ResetReplyWithTransferEncoding) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*rst), }; const char* const headers[] = { "transfer-encoding", "chunked" }; scoped_ptr resp( spdy_util_.ConstructSpdyGetSynReply(headers, 1, 1)); scoped_ptr body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, out.rv); helper.session()->spdy_session_pool()->CloseAllSessions(); helper.VerifyDataConsumed(); } TEST_P(SpdyNetworkTransactionTest, ResetPushWithTransferEncoding) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*rst), }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); const char* const headers[] = { "transfer-encoding", "chunked" }; scoped_ptr push( spdy_util_.ConstructSpdyPush(headers, arraysize(headers) / 2, 2, 1, "http://www.google.com/1")); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*push), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); helper.session()->spdy_session_pool()->CloseAllSessions(); helper.VerifyDataConsumed(); } TEST_P(SpdyNetworkTransactionTest, CancelledTransaction) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req), }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp), // This following read isn't used by the test, except during the // RunUntilIdle() call at the end since the SpdySession survives the // HttpNetworkTransaction and still tries to continue Read()'ing. Any // MockRead will do here. MockRead(ASYNC, 0, 0) // EOF }; StaticSocketDataProvider data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); helper.ResetTrans(); // Cancel the transaction. // Flush the MessageLoop while the SpdySessionDependencies (in particular, the // MockClientSocketFactory) are still alive. base::RunLoop().RunUntilIdle(); helper.VerifyDataNotConsumed(); } // Verify that the client sends a Rst Frame upon cancelling the stream. TEST_P(SpdyNetworkTransactionTest, CancelledTransactionSendRst) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_CANCEL)); MockWrite writes[] = { CreateMockWrite(*req, 0, SYNCHRONOUS), CreateMockWrite(*rst, 2, SYNCHRONOUS), }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 0, 3) // EOF }; DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.RunPreTestSetup(); helper.AddDeterministicData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.SetStop(2); data.Run(); helper.ResetTrans(); data.SetStop(20); data.Run(); helper.VerifyDataConsumed(); } // Verify that the client can correctly deal with the user callback attempting // to start another transaction on a session that is closing down. See // http://crbug.com/47455 TEST_P(SpdyNetworkTransactionTest, StartTransactionOnReadCallback) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; MockWrite writes2[] = { CreateMockWrite(*req) }; // The indicated length of this frame is longer than its actual length. When // the session receives an empty frame after this one, it shuts down the // session, and calls the read callback with the incomplete data. const uint8 kGetBodyFrame2[] = { 0x00, 0x00, 0x00, 0x01, 0x01, 0x00, 0x00, 0x07, 'h', 'e', 'l', 'l', 'o', '!', }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), // Force a pause MockRead(ASYNC, reinterpret_cast(kGetBodyFrame2), arraysize(kGetBodyFrame2), 4), MockRead(ASYNC, ERR_IO_PENDING, 5), // Force a pause MockRead(ASYNC, 0, 0, 6), // EOF }; MockRead reads2[] = { CreateMockRead(*resp, 2), MockRead(ASYNC, 0, 0, 3), // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); DelayedSocketData data2(1, reads2, arraysize(reads2), writes2, arraysize(writes2)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); helper.AddData(&data2); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); const int kSize = 3000; scoped_refptr buf(new net::IOBuffer(kSize)); rv = trans->Read( buf.get(), kSize, base::Bind(&SpdyNetworkTransactionTest::StartTransactionCallback, helper.session())); // This forces an err_IO_pending, which sets the callback. data.CompleteRead(); // This finishes the read. data.CompleteRead(); helper.VerifyDataConsumed(); } // Verify that the client can correctly deal with the user callback deleting the // transaction. Failures will usually be valgrind errors. See // http://crbug.com/46925 TEST_P(SpdyNetworkTransactionTest, DeleteSessionOnReadCallback) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp.get(), 2), MockRead(ASYNC, ERR_IO_PENDING, 3), // Force a pause CreateMockRead(*body.get(), 4), MockRead(ASYNC, 0, 0, 5), // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); // Setup a user callback which will delete the session, and clear out the // memory holding the stream object. Note that the callback deletes trans. const int kSize = 3000; scoped_refptr buf(new net::IOBuffer(kSize)); rv = trans->Read( buf.get(), kSize, base::Bind(&SpdyNetworkTransactionTest::DeleteSessionCallback, base::Unretained(&helper))); ASSERT_EQ(ERR_IO_PENDING, rv); data.CompleteRead(); // Finish running rest of tasks. base::RunLoop().RunUntilIdle(); helper.VerifyDataConsumed(); } // Send a spdy request to www.google.com that gets redirected to www.foo.com. TEST_P(SpdyNetworkTransactionTest, RedirectGetRequest) { const SpdyHeaderInfo kSynStartHeader = spdy_util_.MakeSpdyHeader(SYN_STREAM); scoped_ptr headers( spdy_util_.ConstructGetHeaderBlock("http://www.google.com/")); (*headers)["user-agent"] = ""; (*headers)["accept-encoding"] = "gzip,deflate"; scoped_ptr headers2( spdy_util_.ConstructGetHeaderBlock("http://www.foo.com/index.php")); (*headers2)["user-agent"] = ""; (*headers2)["accept-encoding"] = "gzip,deflate"; // Setup writes/reads to www.google.com scoped_ptr req(spdy_util_.ConstructSpdyFrame( kSynStartHeader, headers.Pass())); scoped_ptr req2(spdy_util_.ConstructSpdyFrame( kSynStartHeader, headers2.Pass())); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReplyRedirect(1)); MockWrite writes[] = { CreateMockWrite(*req, 1), }; MockRead reads[] = { CreateMockRead(*resp, 2), MockRead(ASYNC, 0, 0, 3) // EOF }; // Setup writes/reads to www.foo.com scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes2[] = { CreateMockWrite(*req2, 1), }; MockRead reads2[] = { CreateMockRead(*resp2, 2), CreateMockRead(*body2, 3), MockRead(ASYNC, 0, 0, 4) // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); OrderedSocketData data2(reads2, arraysize(reads2), writes2, arraysize(writes2)); // TODO(erikchen): Make test support SPDYSSL, SPDYNPN TestDelegate d; { SpdyURLRequestContext spdy_url_request_context( GetParam().protocol, false /* force_spdy_over_ssl*/, true /* force_spdy_always */); net::URLRequest r(GURL("http://www.google.com/"), DEFAULT_PRIORITY, &d, &spdy_url_request_context); spdy_url_request_context.socket_factory(). AddSocketDataProvider(&data); spdy_url_request_context.socket_factory(). AddSocketDataProvider(&data2); d.set_quit_on_redirect(true); r.Start(); base::RunLoop().Run(); EXPECT_EQ(1, d.received_redirect_count()); r.FollowDeferredRedirect(); base::RunLoop().Run(); EXPECT_EQ(1, d.response_started_count()); EXPECT_FALSE(d.received_data_before_response()); EXPECT_EQ(net::URLRequestStatus::SUCCESS, r.status().status()); std::string contents("hello!"); EXPECT_EQ(contents, d.data_received()); } EXPECT_TRUE(data.at_read_eof()); EXPECT_TRUE(data.at_write_eof()); EXPECT_TRUE(data2.at_read_eof()); EXPECT_TRUE(data2.at_write_eof()); } // Send a spdy request to www.google.com. Get a pushed stream that redirects to // www.foo.com. TEST_P(SpdyNetworkTransactionTest, RedirectServerPush) { const SpdyHeaderInfo kSynStartHeader = spdy_util_.MakeSpdyHeader(SYN_STREAM); scoped_ptr headers( spdy_util_.ConstructGetHeaderBlock("http://www.google.com/")); (*headers)["user-agent"] = ""; (*headers)["accept-encoding"] = "gzip,deflate"; // Setup writes/reads to www.google.com scoped_ptr req( spdy_util_.ConstructSpdyFrame(kSynStartHeader, headers.Pass())); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr rep( spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, "http://www.google.com/foo.dat", "301 Moved Permanently", "http://www.foo.com/index.php")); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_CANCEL)); MockWrite writes[] = { CreateMockWrite(*req, 1), CreateMockWrite(*rst, 6), }; MockRead reads[] = { CreateMockRead(*resp, 2), CreateMockRead(*rep, 3), CreateMockRead(*body, 4), MockRead(ASYNC, ERR_IO_PENDING, 5), // Force a pause MockRead(ASYNC, 0, 0, 7) // EOF }; // Setup writes/reads to www.foo.com scoped_ptr headers2( spdy_util_.ConstructGetHeaderBlock("http://www.foo.com/index.php")); (*headers2)["user-agent"] = ""; (*headers2)["accept-encoding"] = "gzip,deflate"; scoped_ptr req2( spdy_util_.ConstructSpdyFrame(kSynStartHeader, headers2.Pass())); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes2[] = { CreateMockWrite(*req2, 1), }; MockRead reads2[] = { CreateMockRead(*resp2, 2), CreateMockRead(*body2, 3), MockRead(ASYNC, 0, 0, 5) // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); OrderedSocketData data2(reads2, arraysize(reads2), writes2, arraysize(writes2)); // TODO(erikchen): Make test support SPDYSSL, SPDYNPN TestDelegate d; TestDelegate d2; SpdyURLRequestContext spdy_url_request_context( GetParam().protocol, false /* force_spdy_over_ssl*/, true /* force_spdy_always */); { net::URLRequest r(GURL("http://www.google.com/"), DEFAULT_PRIORITY, &d, &spdy_url_request_context); spdy_url_request_context.socket_factory(). AddSocketDataProvider(&data); r.Start(); base::RunLoop().Run(); EXPECT_EQ(0, d.received_redirect_count()); std::string contents("hello!"); EXPECT_EQ(contents, d.data_received()); net::URLRequest r2(GURL("http://www.google.com/foo.dat"), DEFAULT_PRIORITY, &d2, &spdy_url_request_context); spdy_url_request_context.socket_factory(). AddSocketDataProvider(&data2); d2.set_quit_on_redirect(true); r2.Start(); base::RunLoop().Run(); EXPECT_EQ(1, d2.received_redirect_count()); r2.FollowDeferredRedirect(); base::RunLoop().Run(); EXPECT_EQ(1, d2.response_started_count()); EXPECT_FALSE(d2.received_data_before_response()); EXPECT_EQ(net::URLRequestStatus::SUCCESS, r2.status().status()); std::string contents2("hello!"); EXPECT_EQ(contents2, d2.data_received()); } data.CompleteRead(); data2.CompleteRead(); EXPECT_TRUE(data.at_read_eof()); EXPECT_TRUE(data.at_write_eof()); EXPECT_TRUE(data2.at_read_eof()); EXPECT_TRUE(data2.at_write_eof()); } TEST_P(SpdyNetworkTransactionTest, ServerPushSingleDataFrame) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, "http://www.google.com/foo.dat")); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream1_body, 4, SYNCHRONOUS), CreateMockRead(*stream2_body, 5), MockRead(ASYNC, ERR_IO_PENDING, 6), // Force a pause }; HttpResponseInfo response; HttpResponseInfo response2; std::string expected_push_result("pushed"); OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); RunServerPushTest(&data, &response, &response2, expected_push_result); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushBeforeSynReply) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, "http://www.google.com/foo.dat")); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); MockRead reads[] = { CreateMockRead(*stream2_syn, 2), CreateMockRead(*stream1_reply, 3), CreateMockRead(*stream1_body, 4, SYNCHRONOUS), CreateMockRead(*stream2_body, 5), MockRead(ASYNC, ERR_IO_PENDING, 6), // Force a pause }; HttpResponseInfo response; HttpResponseInfo response2; std::string expected_push_result("pushed"); OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); RunServerPushTest(&data, &response, &response2, expected_push_result); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushSingleDataFrame2) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, "http://www.google.com/foo.dat")); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); scoped_ptr stream1_body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream2_body, 4), CreateMockRead(*stream1_body, 5, SYNCHRONOUS), MockRead(ASYNC, ERR_IO_PENDING, 6), // Force a pause }; HttpResponseInfo response; HttpResponseInfo response2; std::string expected_push_result("pushed"); OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); RunServerPushTest(&data, &response, &response2, expected_push_result); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushServerAborted) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, "http://www.google.com/foo.dat")); scoped_ptr stream2_rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_PROTOCOL_ERROR)); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream2_rst, 4), CreateMockRead(*stream1_body, 5, SYNCHRONOUS), MockRead(ASYNC, ERR_IO_PENDING, 6), // Force a pause }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()) << "Read count: " << data.read_count() << " Read index: " << data.read_index(); EXPECT_TRUE(data.at_write_eof()) << "Write count: " << data.write_count() << " Write index: " << data.write_index(); // Verify the SYN_REPLY. HttpResponseInfo response = *trans->GetResponseInfo(); EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); } // Verify that we don't leak streams and that we properly send a reset // if the server pushes the same stream twice. TEST_P(SpdyNetworkTransactionTest, ServerPushDuplicate) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr stream3_rst( spdy_util_.ConstructSpdyRstStream(4, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), CreateMockWrite(*stream3_rst, 5), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, "http://www.google.com/foo.dat")); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); scoped_ptr stream3_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 4, 1, "http://www.google.com/foo.dat")); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream3_syn, 4), CreateMockRead(*stream1_body, 6, SYNCHRONOUS), CreateMockRead(*stream2_body, 7), MockRead(ASYNC, ERR_IO_PENDING, 8), // Force a pause }; HttpResponseInfo response; HttpResponseInfo response2; std::string expected_push_result("pushed"); OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); RunServerPushTest(&data, &response, &response2, expected_push_result); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushMultipleDataFrame) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, "http://www.google.com/foo.dat")); static const char kPushedData[] = "pushed my darling hello my baby"; scoped_ptr stream2_body_base( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); const size_t kChunkSize = strlen(kPushedData) / 4; scoped_ptr stream2_body1( new SpdyFrame(stream2_body_base->data(), kChunkSize, false)); scoped_ptr stream2_body2( new SpdyFrame(stream2_body_base->data() + kChunkSize, kChunkSize, false)); scoped_ptr stream2_body3( new SpdyFrame(stream2_body_base->data() + 2 * kChunkSize, kChunkSize, false)); scoped_ptr stream2_body4( new SpdyFrame(stream2_body_base->data() + 3 * kChunkSize, stream2_body_base->size() - 3 * kChunkSize, false)); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream2_body1, 4), CreateMockRead(*stream2_body2, 5), CreateMockRead(*stream2_body3, 6), CreateMockRead(*stream2_body4, 7), CreateMockRead(*stream1_body, 8, SYNCHRONOUS), MockRead(ASYNC, ERR_IO_PENDING, 9), // Force a pause }; HttpResponseInfo response; HttpResponseInfo response2; std::string expected_push_result("pushed my darling hello my baby"); OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); RunServerPushTest(&data, &response, &response2, kPushedData); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushMultipleDataFrameInterrupted) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, "http://www.google.com/foo.dat")); static const char kPushedData[] = "pushed my darling hello my baby"; scoped_ptr stream2_body_base( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); const size_t kChunkSize = strlen(kPushedData) / 4; scoped_ptr stream2_body1( new SpdyFrame(stream2_body_base->data(), kChunkSize, false)); scoped_ptr stream2_body2( new SpdyFrame(stream2_body_base->data() + kChunkSize, kChunkSize, false)); scoped_ptr stream2_body3( new SpdyFrame(stream2_body_base->data() + 2 * kChunkSize, kChunkSize, false)); scoped_ptr stream2_body4( new SpdyFrame(stream2_body_base->data() + 3 * kChunkSize, stream2_body_base->size() - 3 * kChunkSize, false)); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream2_body1, 4), CreateMockRead(*stream2_body2, 5), MockRead(ASYNC, ERR_IO_PENDING, 6), // Force a pause CreateMockRead(*stream2_body3, 7), CreateMockRead(*stream2_body4, 8), CreateMockRead(*stream1_body.get(), 9, SYNCHRONOUS), MockRead(ASYNC, ERR_IO_PENDING, 10) // Force a pause. }; HttpResponseInfo response; HttpResponseInfo response2; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); RunServerPushTest(&data, &response, &response2, kPushedData); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushInvalidAssociatedStreamID0) { if (spdy_util_.spdy_version() == SPDY4) { // TODO(jgraettinger): We don't support associated stream // checks in SPDY4 yet. return; } scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr stream2_rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), CreateMockWrite(*stream2_rst, 4), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 0, "http://www.google.com/foo.dat")); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream1_body, 4), MockRead(ASYNC, ERR_IO_PENDING, 5) // Force a pause }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()) << "Read count: " << data.read_count() << " Read index: " << data.read_index(); EXPECT_TRUE(data.at_write_eof()) << "Write count: " << data.write_count() << " Write index: " << data.write_index(); // Verify the SYN_REPLY. HttpResponseInfo response = *trans->GetResponseInfo(); EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushInvalidAssociatedStreamID9) { if (spdy_util_.spdy_version() == SPDY4) { // TODO(jgraettinger): We don't support associated stream // checks in SPDY4 yet. return; } scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr stream2_rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_INVALID_STREAM)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), CreateMockWrite(*stream2_rst, 4), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 9, "http://www.google.com/foo.dat")); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream1_body, 4), MockRead(ASYNC, ERR_IO_PENDING, 5), // Force a pause }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()) << "Read count: " << data.read_count() << " Read index: " << data.read_index(); EXPECT_TRUE(data.at_write_eof()) << "Write count: " << data.write_count() << " Write index: " << data.write_index(); // Verify the SYN_REPLY. HttpResponseInfo response = *trans->GetResponseInfo(); EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushNoURL) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr stream2_rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), CreateMockWrite(*stream2_rst, 4), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr incomplete_headers(new SpdyHeaderBlock()); (*incomplete_headers)["hello"] = "bye"; (*incomplete_headers)[spdy_util_.GetStatusKey()] = "200 OK"; (*incomplete_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; scoped_ptr stream2_syn( spdy_util_.ConstructSpdyControlFrame(incomplete_headers.Pass(), false, 2, // Stream ID LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, // Associated stream ID 1)); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream1_body, 4), MockRead(ASYNC, ERR_IO_PENDING, 5) // Force a pause }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()) << "Read count: " << data.read_count() << " Read index: " << data.read_index(); EXPECT_TRUE(data.at_write_eof()) << "Write count: " << data.write_count() << " Write index: " << data.write_index(); // Verify the SYN_REPLY. HttpResponseInfo response = *trans->GetResponseInfo(); EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); } // Verify that various SynReply headers parse correctly through the // HTTP layer. TEST_P(SpdyNetworkTransactionTest, SynReplyHeaders) { struct SynReplyHeadersTests { int num_headers; const char* extra_headers[5]; SpdyHeaderBlock expected_headers; } test_cases[] = { // This uses a multi-valued cookie header. { 2, { "cookie", "val1", "cookie", "val2", // will get appended separated by NULL NULL }, }, // This is the minimalist set of headers. { 0, { NULL }, }, // Headers with a comma separated list. { 1, { "cookie", "val1,val2", NULL }, } }; test_cases[0].expected_headers["cookie"] = "val1"; test_cases[0].expected_headers["cookie"] += '\0'; test_cases[0].expected_headers["cookie"] += "val2"; test_cases[0].expected_headers["hello"] = "bye"; test_cases[0].expected_headers["status"] = "200"; test_cases[1].expected_headers["hello"] = "bye"; test_cases[1].expected_headers["status"] = "200"; test_cases[2].expected_headers["cookie"] = "val1,val2"; test_cases[2].expected_headers["hello"] = "bye"; test_cases[2].expected_headers["status"] = "200"; if (spdy_util_.spdy_version() < SPDY4) { // SPDY4/HTTP2 eliminates use of the :version header. test_cases[0].expected_headers["version"] = "HTTP/1.1"; test_cases[1].expected_headers["version"] = "HTTP/1.1"; test_cases[2].expected_headers["version"] = "HTTP/1.1"; } for (size_t i = 0; i < ARRAYSIZE_UNSAFE(test_cases); ++i) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; scoped_ptr resp( spdy_util_.ConstructSpdyGetSynReply(test_cases[i].extra_headers, test_cases[i].num_headers, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); scoped_refptr headers = out.response_info.headers; EXPECT_TRUE(headers.get() != NULL); void* iter = NULL; std::string name, value; SpdyHeaderBlock header_block; while (headers->EnumerateHeaderLines(&iter, &name, &value)) { if (header_block[name].empty()) { header_block[name] = value; } else { header_block[name] += '\0'; header_block[name] += value; } } EXPECT_EQ(test_cases[i].expected_headers, header_block); } } // Verify that various SynReply headers parse vary fields correctly // through the HTTP layer, and the response matches the request. TEST_P(SpdyNetworkTransactionTest, SynReplyHeadersVary) { static const SpdyHeaderInfo syn_reply_info = { SYN_REPLY, // Syn Reply 1, // Stream ID 0, // Associated Stream ID ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), kSpdyCredentialSlotUnused, CONTROL_FLAG_NONE, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Data Length DATA_FLAG_NONE // Data Flags }; // Modify the following data to change/add test cases: struct SynReplyTests { const SpdyHeaderInfo* syn_reply; bool vary_matches; int num_headers[2]; const char* extra_headers[2][16]; } test_cases[] = { // Test the case of a multi-valued cookie. When the value is delimited // with NUL characters, it needs to be unfolded into multiple headers. { &syn_reply_info, true, { 1, 4 }, { { "cookie", "val1,val2", NULL }, { "vary", "cookie", spdy_util_.GetStatusKey(), "200", spdy_util_.GetPathKey(), "/index.php", spdy_util_.GetVersionKey(), "HTTP/1.1", NULL } } }, { // Multiple vary fields. &syn_reply_info, true, { 2, 5 }, { { "friend", "barney", "enemy", "snaggletooth", NULL }, { "vary", "friend", "vary", "enemy", spdy_util_.GetStatusKey(), "200", spdy_util_.GetPathKey(), "/index.php", spdy_util_.GetVersionKey(), "HTTP/1.1", NULL } } }, { // Test a '*' vary field. &syn_reply_info, false, { 1, 4 }, { { "cookie", "val1,val2", NULL }, { "vary", "*", spdy_util_.GetStatusKey(), "200", spdy_util_.GetPathKey(), "/index.php", spdy_util_.GetVersionKey(), "HTTP/1.1", NULL } } }, { // Multiple comma-separated vary fields. &syn_reply_info, true, { 2, 4 }, { { "friend", "barney", "enemy", "snaggletooth", NULL }, { "vary", "friend,enemy", spdy_util_.GetStatusKey(), "200", spdy_util_.GetPathKey(), "/index.php", spdy_util_.GetVersionKey(), "HTTP/1.1", NULL } } } }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(test_cases); ++i) { // Construct the request. scoped_ptr frame_req( spdy_util_.ConstructSpdyGet(test_cases[i].extra_headers[0], test_cases[i].num_headers[0], false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*frame_req), }; // Construct the reply. scoped_ptr frame_reply( spdy_util_.ConstructSpdyFrame(*test_cases[i].syn_reply, test_cases[i].extra_headers[1], test_cases[i].num_headers[1], NULL, 0)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*frame_reply), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; // Attach the headers to the request. int header_count = test_cases[i].num_headers[0]; HttpRequestInfo request = CreateGetRequest(); for (int ct = 0; ct < header_count; ct++) { const char* header_key = test_cases[i].extra_headers[0][ct * 2]; const char* header_value = test_cases[i].extra_headers[0][ct * 2 + 1]; request.extra_headers.SetHeader(header_key, header_value); } DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv) << i; EXPECT_EQ("HTTP/1.1 200 OK", out.status_line) << i; EXPECT_EQ("hello!", out.response_data) << i; // Test the response information. EXPECT_TRUE(out.response_info.response_time > out.response_info.request_time) << i; base::TimeDelta test_delay = out.response_info.response_time - out.response_info.request_time; base::TimeDelta min_expected_delay; min_expected_delay.FromMilliseconds(10); EXPECT_GT(test_delay.InMillisecondsF(), min_expected_delay.InMillisecondsF()) << i; EXPECT_EQ(out.response_info.vary_data.is_valid(), test_cases[i].vary_matches) << i; // Check the headers. scoped_refptr headers = out.response_info.headers; ASSERT_TRUE(headers.get() != NULL) << i; void* iter = NULL; std::string name, value, lines; while (headers->EnumerateHeaderLines(&iter, &name, &value)) { lines.append(name); lines.append(": "); lines.append(value); lines.append("\n"); } // Construct the expected header reply string. SpdyHeaderBlock reply_headers; AppendToHeaderBlock(test_cases[i].extra_headers[1], test_cases[i].num_headers[1], &reply_headers); std::string expected_reply = spdy_util_.ConstructSpdyReplyString(reply_headers); EXPECT_EQ(expected_reply, lines) << i; } } // Verify that we don't crash on invalid SynReply responses. TEST_P(SpdyNetworkTransactionTest, InvalidSynReply) { const SpdyHeaderInfo kSynStartHeader = { SYN_REPLY, // Kind = SynReply 1, // Stream ID 0, // Associated stream ID ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), kSpdyCredentialSlotUnused, CONTROL_FLAG_NONE, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; struct InvalidSynReplyTests { int num_headers; const char* headers[10]; } test_cases[] = { // SYN_REPLY missing status header { 4, { "cookie", "val1", "cookie", "val2", spdy_util_.GetPathKey(), "/index.php", spdy_util_.GetVersionKey(), "HTTP/1.1", NULL }, }, // SYN_REPLY missing version header { 2, { "status", "200", spdy_util_.GetPathKey(), "/index.php", NULL }, }, // SYN_REPLY with no headers { 0, { NULL }, }, }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(test_cases); ++i) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*rst), }; scoped_ptr resp( spdy_util_.ConstructSpdyFrame(kSynStartHeader, NULL, 0, test_cases[i].headers, test_cases[i].num_headers)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, out.rv); } } // Verify that we don't crash on some corrupt frames. // TODO(jgraettinger): SPDY4 and up treats a header decompression failure as a // connection error. I'd like to backport this behavior to SPDY3 as well. TEST_P(SpdyNetworkTransactionTest, CorruptFrameSessionError) { if (spdy_util_.spdy_version() >= SPDY4) { return; } // This is the length field that's too short. scoped_ptr syn_reply_wrong_length( spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); size_t right_size = (spdy_util_.spdy_version() < SPDY4) ? syn_reply_wrong_length->size() - framer.GetControlFrameHeaderSize() : syn_reply_wrong_length->size(); size_t wrong_size = right_size - 4; test::SetFrameLength(syn_reply_wrong_length.get(), wrong_size, spdy_util_.spdy_version()); struct SynReplyTests { const SpdyFrame* syn_reply; } test_cases[] = { { syn_reply_wrong_length.get(), }, }; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(test_cases); ++i) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*rst), }; scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { MockRead(ASYNC, test_cases[i].syn_reply->data(), wrong_size), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, out.rv); } } // SPDY4 treats a header decompression failure as a connection-level error. TEST_P(SpdyNetworkTransactionTest, CorruptFrameSessionErrorSpdy4) { if (spdy_util_.spdy_version() < SPDY4) { return; } // This is the length field that's too short. scoped_ptr syn_reply_wrong_length( spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); size_t right_size = syn_reply_wrong_length->size() - framer.GetControlFrameHeaderSize(); size_t wrong_size = right_size - 4; test::SetFrameLength(syn_reply_wrong_length.get(), wrong_size, spdy_util_.spdy_version()); // TODO(jgraettinger): SpdySession::OnError() should send a GOAWAY before // breaking the connection. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req), }; scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { MockRead(ASYNC, syn_reply_wrong_length->data(), syn_reply_wrong_length->size() - 4), }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, out.rv); } // Test that we shutdown correctly on write errors. TEST_P(SpdyNetworkTransactionTest, WriteError) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { // We'll write 10 bytes successfully MockWrite(ASYNC, req->data(), 10, 0), // Followed by ERROR! MockWrite(ASYNC, ERR_FAILED, 1), }; MockRead reads[] = { MockRead(ASYNC, 0, 2) // EOF }; DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.RunPreTestSetup(); helper.AddDeterministicData(&data); EXPECT_TRUE(helper.StartDefaultTest()); data.RunFor(2); helper.FinishDefaultTest(); EXPECT_TRUE(data.at_write_eof()); EXPECT_TRUE(!data.at_read_eof()); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_FAILED, out.rv); } // Test that partial writes work. TEST_P(SpdyNetworkTransactionTest, PartialWrite) { // Chop the SYN_STREAM frame into 5 chunks. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); const int kChunks = 5; scoped_ptr writes(ChopWriteFrame(*req.get(), kChunks)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(kChunks, reads, arraysize(reads), writes.get(), kChunks); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } // In this test, we enable compression, but get a uncompressed SynReply from // the server. Verify that teardown is all clean. TEST_P(SpdyNetworkTransactionTest, DecompressFailureOnSynReply) { if (spdy_util_.spdy_version() >= SPDY4) { // HPACK doesn't use deflate compression. return; } scoped_ptr compressed( spdy_util_.ConstructSpdyGet(NULL, 0, true, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*compressed), }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); SpdySessionDependencies* session_deps = CreateSpdySessionDependencies(GetParam()); session_deps->enable_compression = true; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), session_deps); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, out.rv); data.Reset(); } // Test that the NetLog contains good data for a simple GET request. TEST_P(SpdyNetworkTransactionTest, NetLog) { static const char* const kExtraHeaders[] = { "user-agent", "Chrome", }; scoped_ptr req( spdy_util_.ConstructSpdyGet(kExtraHeaders, 1, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; CapturingBoundNetLog log; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequestWithUserAgent(), DEFAULT_PRIORITY, log.bound(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); // Check that the NetLog was filled reasonably. // This test is intentionally non-specific about the exact ordering of the // log; instead we just check to make sure that certain events exist, and that // they are in the right order. net::CapturingNetLog::CapturedEntryList entries; log.GetEntries(&entries); EXPECT_LT(0u, entries.size()); int pos = 0; pos = net::ExpectLogContainsSomewhere(entries, 0, net::NetLog::TYPE_HTTP_TRANSACTION_SEND_REQUEST, net::NetLog::PHASE_BEGIN); pos = net::ExpectLogContainsSomewhere(entries, pos + 1, net::NetLog::TYPE_HTTP_TRANSACTION_SEND_REQUEST, net::NetLog::PHASE_END); pos = net::ExpectLogContainsSomewhere(entries, pos + 1, net::NetLog::TYPE_HTTP_TRANSACTION_READ_HEADERS, net::NetLog::PHASE_BEGIN); pos = net::ExpectLogContainsSomewhere(entries, pos + 1, net::NetLog::TYPE_HTTP_TRANSACTION_READ_HEADERS, net::NetLog::PHASE_END); pos = net::ExpectLogContainsSomewhere(entries, pos + 1, net::NetLog::TYPE_HTTP_TRANSACTION_READ_BODY, net::NetLog::PHASE_BEGIN); pos = net::ExpectLogContainsSomewhere(entries, pos + 1, net::NetLog::TYPE_HTTP_TRANSACTION_READ_BODY, net::NetLog::PHASE_END); // Check that we logged all the headers correctly pos = net::ExpectLogContainsSomewhere( entries, 0, net::NetLog::TYPE_SPDY_SESSION_SYN_STREAM, net::NetLog::PHASE_NONE); base::ListValue* header_list; ASSERT_TRUE(entries[pos].params.get()); ASSERT_TRUE(entries[pos].params->GetList("headers", &header_list)); std::vector expected; expected.push_back(std::string(spdy_util_.GetHostKey()) + ": www.google.com"); expected.push_back(std::string(spdy_util_.GetPathKey()) + ": /"); expected.push_back(std::string(spdy_util_.GetSchemeKey()) + ": http"); expected.push_back(std::string(spdy_util_.GetMethodKey()) + ": GET"); expected.push_back("user-agent: Chrome"); if (spdy_util_.spdy_version() < SPDY4) { // SPDY4/HTTP2 eliminates use of the :version header. expected.push_back(std::string(spdy_util_.GetVersionKey()) + ": HTTP/1.1"); } EXPECT_EQ(expected.size(), header_list->GetSize()); for (std::vector::const_iterator it = expected.begin(); it != expected.end(); ++it) { base::StringValue header(*it); EXPECT_NE(header_list->end(), header_list->Find(header)) << "Header not found: " << *it; } } // Since we buffer the IO from the stream to the renderer, this test verifies // that when we read out the maximum amount of data (e.g. we received 50 bytes // on the network, but issued a Read for only 5 of those bytes) that the data // flow still works correctly. TEST_P(SpdyNetworkTransactionTest, BufferFull) { BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; // 2 data frames in a single read. scoped_ptr data_frame_1( framer.CreateDataFrame(1, "goodby", 6, DATA_FLAG_NONE)); scoped_ptr data_frame_2( framer.CreateDataFrame(1, "e worl", 6, DATA_FLAG_NONE)); const SpdyFrame* data_frames[2] = { data_frame_1.get(), data_frame_2.get(), }; char combined_data_frames[100]; int combined_data_frames_len = CombineFrames(data_frames, arraysize(data_frames), combined_data_frames, arraysize(combined_data_frames)); scoped_ptr last_frame( framer.CreateDataFrame(1, "d", 1, DATA_FLAG_FIN)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp), MockRead(ASYNC, ERR_IO_PENDING), // Force a pause MockRead(ASYNC, combined_data_frames, combined_data_frames_len), MockRead(ASYNC, ERR_IO_PENDING), // Force a pause CreateMockRead(*last_frame), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); TestCompletionCallback callback; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); TransactionHelperResult out = helper.output(); out.rv = callback.WaitForResult(); EXPECT_EQ(out.rv, OK); const HttpResponseInfo* response = trans->GetResponseInfo(); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); out.status_line = response->headers->GetStatusLine(); out.response_info = *response; // Make a copy so we can verify. // Read Data TestCompletionCallback read_callback; std::string content; do { // Read small chunks at a time. const int kSmallReadSize = 3; scoped_refptr buf(new net::IOBuffer(kSmallReadSize)); rv = trans->Read(buf.get(), kSmallReadSize, read_callback.callback()); if (rv == net::ERR_IO_PENDING) { data.CompleteRead(); rv = read_callback.WaitForResult(); } if (rv > 0) { content.append(buf->data(), rv); } else if (rv < 0) { NOTREACHED(); } } while (rv > 0); out.response_data.swap(content); // Flush the MessageLoop while the SpdySessionDependencies (in particular, the // MockClientSocketFactory) are still alive. base::RunLoop().RunUntilIdle(); // Verify that we consumed all test data. helper.VerifyDataConsumed(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("goodbye world", out.response_data); } // Verify that basic buffering works; when multiple data frames arrive // at the same time, ensure that we don't notify a read completion for // each data frame individually. TEST_P(SpdyNetworkTransactionTest, Buffering) { BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; // 4 data frames in a single read. scoped_ptr data_frame( framer.CreateDataFrame(1, "message", 7, DATA_FLAG_NONE)); scoped_ptr data_frame_fin( framer.CreateDataFrame(1, "message", 7, DATA_FLAG_FIN)); const SpdyFrame* data_frames[4] = { data_frame.get(), data_frame.get(), data_frame.get(), data_frame_fin.get() }; char combined_data_frames[100]; int combined_data_frames_len = CombineFrames(data_frames, arraysize(data_frames), combined_data_frames, arraysize(combined_data_frames)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp), MockRead(ASYNC, ERR_IO_PENDING), // Force a pause MockRead(ASYNC, combined_data_frames, combined_data_frames_len), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); TransactionHelperResult out = helper.output(); out.rv = callback.WaitForResult(); EXPECT_EQ(out.rv, OK); const HttpResponseInfo* response = trans->GetResponseInfo(); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); out.status_line = response->headers->GetStatusLine(); out.response_info = *response; // Make a copy so we can verify. // Read Data TestCompletionCallback read_callback; std::string content; int reads_completed = 0; do { // Read small chunks at a time. const int kSmallReadSize = 14; scoped_refptr buf(new net::IOBuffer(kSmallReadSize)); rv = trans->Read(buf.get(), kSmallReadSize, read_callback.callback()); if (rv == net::ERR_IO_PENDING) { data.CompleteRead(); rv = read_callback.WaitForResult(); } if (rv > 0) { EXPECT_EQ(kSmallReadSize, rv); content.append(buf->data(), rv); } else if (rv < 0) { FAIL() << "Unexpected read error: " << rv; } reads_completed++; } while (rv > 0); EXPECT_EQ(3, reads_completed); // Reads are: 14 bytes, 14 bytes, 0 bytes. out.response_data.swap(content); // Flush the MessageLoop while the SpdySessionDependencies (in particular, the // MockClientSocketFactory) are still alive. base::RunLoop().RunUntilIdle(); // Verify that we consumed all test data. helper.VerifyDataConsumed(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("messagemessagemessagemessage", out.response_data); } // Verify the case where we buffer data but read it after it has been buffered. TEST_P(SpdyNetworkTransactionTest, BufferedAll) { BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; // 5 data frames in a single read. SpdySynReplyIR reply_ir(1); reply_ir.SetHeader(spdy_util_.GetStatusKey(), "200"); reply_ir.SetHeader(spdy_util_.GetVersionKey(), "HTTP/1.1"); scoped_ptr syn_reply(framer.SerializeFrame(reply_ir)); scoped_ptr data_frame( framer.CreateDataFrame(1, "message", 7, DATA_FLAG_NONE)); scoped_ptr data_frame_fin( framer.CreateDataFrame(1, "message", 7, DATA_FLAG_FIN)); const SpdyFrame* frames[5] = { syn_reply.get(), data_frame.get(), data_frame.get(), data_frame.get(), data_frame_fin.get() }; char combined_frames[200]; int combined_frames_len = CombineFrames(frames, arraysize(frames), combined_frames, arraysize(combined_frames)); MockRead reads[] = { MockRead(ASYNC, combined_frames, combined_frames_len), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); TransactionHelperResult out = helper.output(); out.rv = callback.WaitForResult(); EXPECT_EQ(out.rv, OK); const HttpResponseInfo* response = trans->GetResponseInfo(); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); out.status_line = response->headers->GetStatusLine(); out.response_info = *response; // Make a copy so we can verify. // Read Data TestCompletionCallback read_callback; std::string content; int reads_completed = 0; do { // Read small chunks at a time. const int kSmallReadSize = 14; scoped_refptr buf(new net::IOBuffer(kSmallReadSize)); rv = trans->Read(buf.get(), kSmallReadSize, read_callback.callback()); if (rv > 0) { EXPECT_EQ(kSmallReadSize, rv); content.append(buf->data(), rv); } else if (rv < 0) { FAIL() << "Unexpected read error: " << rv; } reads_completed++; } while (rv > 0); EXPECT_EQ(3, reads_completed); out.response_data.swap(content); // Flush the MessageLoop while the SpdySessionDependencies (in particular, the // MockClientSocketFactory) are still alive. base::RunLoop().RunUntilIdle(); // Verify that we consumed all test data. helper.VerifyDataConsumed(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("messagemessagemessagemessage", out.response_data); } // Verify the case where we buffer data and close the connection. TEST_P(SpdyNetworkTransactionTest, BufferedClosed) { BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; // All data frames in a single read. // NOTE: We don't FIN the stream. scoped_ptr data_frame( framer.CreateDataFrame(1, "message", 7, DATA_FLAG_NONE)); const SpdyFrame* data_frames[4] = { data_frame.get(), data_frame.get(), data_frame.get(), data_frame.get() }; char combined_data_frames[100]; int combined_data_frames_len = CombineFrames(data_frames, arraysize(data_frames), combined_data_frames, arraysize(combined_data_frames)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp), MockRead(ASYNC, ERR_IO_PENDING), // Force a wait MockRead(ASYNC, combined_data_frames, combined_data_frames_len), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); TransactionHelperResult out = helper.output(); out.rv = callback.WaitForResult(); EXPECT_EQ(out.rv, OK); const HttpResponseInfo* response = trans->GetResponseInfo(); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); out.status_line = response->headers->GetStatusLine(); out.response_info = *response; // Make a copy so we can verify. // Read Data TestCompletionCallback read_callback; std::string content; int reads_completed = 0; do { // Read small chunks at a time. const int kSmallReadSize = 14; scoped_refptr buf(new net::IOBuffer(kSmallReadSize)); rv = trans->Read(buf.get(), kSmallReadSize, read_callback.callback()); if (rv == net::ERR_IO_PENDING) { data.CompleteRead(); rv = read_callback.WaitForResult(); } if (rv > 0) { content.append(buf->data(), rv); } else if (rv < 0) { // This test intentionally closes the connection, and will get an error. EXPECT_EQ(ERR_CONNECTION_CLOSED, rv); break; } reads_completed++; } while (rv > 0); EXPECT_EQ(0, reads_completed); out.response_data.swap(content); // Flush the MessageLoop while the SpdySessionDependencies (in particular, the // MockClientSocketFactory) are still alive. base::RunLoop().RunUntilIdle(); // Verify that we consumed all test data. helper.VerifyDataConsumed(); } // Verify the case where we buffer data and cancel the transaction. TEST_P(SpdyNetworkTransactionTest, BufferedCancelled) { BufferedSpdyFramer framer(spdy_util_.spdy_version(), false); scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; // NOTE: We don't FIN the stream. scoped_ptr data_frame( framer.CreateDataFrame(1, "message", 7, DATA_FLAG_NONE)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp), MockRead(ASYNC, ERR_IO_PENDING), // Force a wait CreateMockRead(*data_frame), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); TransactionHelperResult out = helper.output(); out.rv = callback.WaitForResult(); EXPECT_EQ(out.rv, OK); const HttpResponseInfo* response = trans->GetResponseInfo(); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); out.status_line = response->headers->GetStatusLine(); out.response_info = *response; // Make a copy so we can verify. // Read Data TestCompletionCallback read_callback; const int kReadSize = 256; scoped_refptr buf(new net::IOBuffer(kReadSize)); rv = trans->Read(buf.get(), kReadSize, read_callback.callback()); ASSERT_EQ(net::ERR_IO_PENDING, rv) << "Unexpected read: " << rv; // Complete the read now, which causes buffering to start. data.CompleteRead(); // Destroy the transaction, causing the stream to get cancelled // and orphaning the buffered IO task. helper.ResetTrans(); // Flush the MessageLoop; this will cause the buffered IO task // to run for the final time. base::RunLoop().RunUntilIdle(); // Verify that we consumed all test data. helper.VerifyDataConsumed(); } // Test that if the server requests persistence of settings, that we save // the settings in the HttpServerProperties. TEST_P(SpdyNetworkTransactionTest, SettingsSaved) { if (spdy_util_.spdy_version() >= SPDY4) { // SPDY4 doesn't support flags on individual settings, and // has no concept of settings persistence. return; } static const SpdyHeaderInfo kSynReplyInfo = { SYN_REPLY, // Syn Reply 1, // Stream ID 0, // Associated Stream ID ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), kSpdyCredentialSlotUnused, CONTROL_FLAG_NONE, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Data Length DATA_FLAG_NONE // Data Flags }; BoundNetLog net_log; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, net_log, GetParam(), NULL); helper.RunPreTestSetup(); // Verify that no settings exist initially. HostPortPair host_port_pair("www.google.com", helper.port()); SpdySessionPool* spdy_session_pool = helper.session()->spdy_session_pool(); EXPECT_TRUE(spdy_session_pool->http_server_properties()->GetSpdySettings( host_port_pair).empty()); // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; // Construct the reply. scoped_ptr reply_headers(new SpdyHeaderBlock()); (*reply_headers)[spdy_util_.GetStatusKey()] = "200"; (*reply_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; scoped_ptr reply( spdy_util_.ConstructSpdyFrame(kSynReplyInfo, reply_headers.Pass())); const SpdySettingsIds kSampleId1 = SETTINGS_UPLOAD_BANDWIDTH; unsigned int kSampleValue1 = 0x0a0a0a0a; const SpdySettingsIds kSampleId2 = SETTINGS_DOWNLOAD_BANDWIDTH; unsigned int kSampleValue2 = 0x0b0b0b0b; const SpdySettingsIds kSampleId3 = SETTINGS_ROUND_TRIP_TIME; unsigned int kSampleValue3 = 0x0c0c0c0c; scoped_ptr settings_frame; { // Construct the SETTINGS frame. SettingsMap settings; // First add a persisted setting. settings[kSampleId1] = SettingsFlagsAndValue(SETTINGS_FLAG_PLEASE_PERSIST, kSampleValue1); // Next add a non-persisted setting. settings[kSampleId2] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, kSampleValue2); // Next add another persisted setting. settings[kSampleId3] = SettingsFlagsAndValue(SETTINGS_FLAG_PLEASE_PERSIST, kSampleValue3); settings_frame.reset(spdy_util_.ConstructSpdySettings(settings)); } scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*reply), CreateMockRead(*body), CreateMockRead(*settings_frame), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); helper.AddData(&data); helper.RunDefaultTest(); helper.VerifyDataConsumed(); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); { // Verify we had two persisted settings. const SettingsMap& settings_map = spdy_session_pool->http_server_properties()->GetSpdySettings( host_port_pair); ASSERT_EQ(2u, settings_map.size()); // Verify the first persisted setting. SettingsMap::const_iterator it1 = settings_map.find(kSampleId1); EXPECT_TRUE(it1 != settings_map.end()); SettingsFlagsAndValue flags_and_value1 = it1->second; EXPECT_EQ(SETTINGS_FLAG_PERSISTED, flags_and_value1.first); EXPECT_EQ(kSampleValue1, flags_and_value1.second); // Verify the second persisted setting. SettingsMap::const_iterator it3 = settings_map.find(kSampleId3); EXPECT_TRUE(it3 != settings_map.end()); SettingsFlagsAndValue flags_and_value3 = it3->second; EXPECT_EQ(SETTINGS_FLAG_PERSISTED, flags_and_value3.first); EXPECT_EQ(kSampleValue3, flags_and_value3.second); } } // Test that when there are settings saved that they are sent back to the // server upon session establishment. TEST_P(SpdyNetworkTransactionTest, SettingsPlayback) { // TODO(jgraettinger): Remove settings persistence mechanisms altogether. static const SpdyHeaderInfo kSynReplyInfo = { SYN_REPLY, // Syn Reply 1, // Stream ID 0, // Associated Stream ID ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), kSpdyCredentialSlotUnused, CONTROL_FLAG_NONE, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Data Length DATA_FLAG_NONE // Data Flags }; BoundNetLog net_log; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, net_log, GetParam(), NULL); helper.RunPreTestSetup(); SpdySessionPool* spdy_session_pool = helper.session()->spdy_session_pool(); SpdySessionPoolPeer pool_peer(spdy_session_pool); pool_peer.SetEnableSendingInitialData(true); // Verify that no settings exist initially. HostPortPair host_port_pair("www.google.com", helper.port()); EXPECT_TRUE(spdy_session_pool->http_server_properties()->GetSpdySettings( host_port_pair).empty()); const SpdySettingsIds kSampleId1 = SETTINGS_MAX_CONCURRENT_STREAMS; unsigned int kSampleValue1 = 0x0a0a0a0a; const SpdySettingsIds kSampleId2 = SETTINGS_INITIAL_WINDOW_SIZE; unsigned int kSampleValue2 = 0x0c0c0c0c; // First add a persisted setting. spdy_session_pool->http_server_properties()->SetSpdySetting( host_port_pair, kSampleId1, SETTINGS_FLAG_PLEASE_PERSIST, kSampleValue1); // Next add another persisted setting. spdy_session_pool->http_server_properties()->SetSpdySetting( host_port_pair, kSampleId2, SETTINGS_FLAG_PLEASE_PERSIST, kSampleValue2); EXPECT_EQ(2u, spdy_session_pool->http_server_properties()->GetSpdySettings( host_port_pair).size()); // Construct the initial SETTINGS frame. SettingsMap initial_settings; initial_settings[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, kMaxConcurrentPushedStreams); scoped_ptr initial_settings_frame( spdy_util_.ConstructSpdySettings(initial_settings)); // Construct the initial window update. scoped_ptr initial_window_update( spdy_util_.ConstructSpdyWindowUpdate( kSessionFlowControlStreamId, kDefaultInitialRecvWindowSize - kSpdySessionInitialWindowSize)); // Construct the persisted SETTINGS frame. const SettingsMap& settings = spdy_session_pool->http_server_properties()->GetSpdySettings( host_port_pair); scoped_ptr settings_frame( spdy_util_.ConstructSpdySettings(settings)); // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); std::vector writes; if (GetParam().protocol == kProtoSPDY4) { writes.push_back( MockWrite(ASYNC, kHttp2ConnectionHeaderPrefix, kHttp2ConnectionHeaderPrefixSize)); } writes.push_back(CreateMockWrite(*initial_settings_frame)); if (GetParam().protocol >= kProtoSPDY31) { writes.push_back(CreateMockWrite(*initial_window_update)); }; writes.push_back(CreateMockWrite(*settings_frame)); writes.push_back(CreateMockWrite(*req)); // Construct the reply. scoped_ptr reply_headers(new SpdyHeaderBlock()); (*reply_headers)[spdy_util_.GetStatusKey()] = "200"; (*reply_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; scoped_ptr reply( spdy_util_.ConstructSpdyFrame(kSynReplyInfo, reply_headers.Pass())); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*reply), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(2, reads, arraysize(reads), vector_as_array(&writes), writes.size()); helper.AddData(&data); helper.RunDefaultTest(); helper.VerifyDataConsumed(); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); { // Verify we had two persisted settings. const SettingsMap& settings_map = spdy_session_pool->http_server_properties()->GetSpdySettings( host_port_pair); ASSERT_EQ(2u, settings_map.size()); // Verify the first persisted setting. SettingsMap::const_iterator it1 = settings_map.find(kSampleId1); EXPECT_TRUE(it1 != settings_map.end()); SettingsFlagsAndValue flags_and_value1 = it1->second; EXPECT_EQ(SETTINGS_FLAG_PERSISTED, flags_and_value1.first); EXPECT_EQ(kSampleValue1, flags_and_value1.second); // Verify the second persisted setting. SettingsMap::const_iterator it2 = settings_map.find(kSampleId2); EXPECT_TRUE(it2 != settings_map.end()); SettingsFlagsAndValue flags_and_value2 = it2->second; EXPECT_EQ(SETTINGS_FLAG_PERSISTED, flags_and_value2.first); EXPECT_EQ(kSampleValue2, flags_and_value2.second); } } TEST_P(SpdyNetworkTransactionTest, GoAwayWithActiveStream) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; scoped_ptr go_away(spdy_util_.ConstructSpdyGoAway()); MockRead reads[] = { CreateMockRead(*go_away), }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.AddData(&data); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_ABORTED, out.rv); } TEST_P(SpdyNetworkTransactionTest, CloseWithActiveStream) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req) }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); MockRead reads[] = { CreateMockRead(*resp), MockRead(SYNCHRONOUS, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); BoundNetLog log; NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, log, GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; TransactionHelperResult out; out.rv = trans->Start(&CreateGetRequest(), callback.callback(), log); EXPECT_EQ(out.rv, ERR_IO_PENDING); out.rv = callback.WaitForResult(); EXPECT_EQ(out.rv, OK); const HttpResponseInfo* response = trans->GetResponseInfo(); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); out.rv = ReadTransaction(trans, &out.response_data); EXPECT_EQ(ERR_CONNECTION_CLOSED, out.rv); // Verify that we consumed all test data. helper.VerifyDataConsumed(); } // Test to make sure we can correctly connect through a proxy. TEST_P(SpdyNetworkTransactionTest, ProxyConnect) { NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.session_deps().reset(CreateSpdySessionDependencies( GetParam(), ProxyService::CreateFixedFromPacResult("PROXY myproxy:70"))); helper.SetSession(make_scoped_refptr( SpdySessionDependencies::SpdyCreateSession(helper.session_deps().get()))); helper.RunPreTestSetup(); HttpNetworkTransaction* trans = helper.trans(); const char kConnect443[] = {"CONNECT www.google.com:443 HTTP/1.1\r\n" "Host: www.google.com\r\n" "Proxy-Connection: keep-alive\r\n\r\n"}; const char kConnect80[] = {"CONNECT www.google.com:80 HTTP/1.1\r\n" "Host: www.google.com\r\n" "Proxy-Connection: keep-alive\r\n\r\n"}; const char kHTTP200[] = {"HTTP/1.1 200 OK\r\n\r\n"}; scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes_SPDYNPN[] = { MockWrite(SYNCHRONOUS, kConnect443, arraysize(kConnect443) - 1, 0), CreateMockWrite(*req, 2), }; MockRead reads_SPDYNPN[] = { MockRead(SYNCHRONOUS, kHTTP200, arraysize(kHTTP200) - 1, 1), CreateMockRead(*resp, 3), CreateMockRead(*body.get(), 4), MockRead(ASYNC, 0, 0, 5), }; MockWrite writes_SPDYSSL[] = { MockWrite(SYNCHRONOUS, kConnect80, arraysize(kConnect80) - 1, 0), CreateMockWrite(*req, 2), }; MockRead reads_SPDYSSL[] = { MockRead(SYNCHRONOUS, kHTTP200, arraysize(kHTTP200) - 1, 1), CreateMockRead(*resp, 3), CreateMockRead(*body.get(), 4), MockRead(ASYNC, 0, 0, 5), }; MockWrite writes_SPDYNOSSL[] = { CreateMockWrite(*req, 0), }; MockRead reads_SPDYNOSSL[] = { CreateMockRead(*resp, 1), CreateMockRead(*body.get(), 2), MockRead(ASYNC, 0, 0, 3), }; scoped_ptr data; switch(GetParam().ssl_type) { case SPDYNOSSL: data.reset(new OrderedSocketData(reads_SPDYNOSSL, arraysize(reads_SPDYNOSSL), writes_SPDYNOSSL, arraysize(writes_SPDYNOSSL))); break; case SPDYSSL: data.reset(new OrderedSocketData(reads_SPDYSSL, arraysize(reads_SPDYSSL), writes_SPDYSSL, arraysize(writes_SPDYSSL))); break; case SPDYNPN: data.reset(new OrderedSocketData(reads_SPDYNPN, arraysize(reads_SPDYNPN), writes_SPDYNPN, arraysize(writes_SPDYNPN))); break; default: NOTREACHED(); } helper.AddData(data.get()); TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); EXPECT_EQ(0, rv); // Verify the SYN_REPLY. HttpResponseInfo response = *trans->GetResponseInfo(); EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); std::string response_data; ASSERT_EQ(OK, ReadTransaction(trans, &response_data)); EXPECT_EQ("hello!", response_data); helper.VerifyDataConsumed(); } // Test to make sure we can correctly connect through a proxy to www.google.com, // if there already exists a direct spdy connection to www.google.com. See // http://crbug.com/49874 TEST_P(SpdyNetworkTransactionTest, DirectConnectProxyReconnect) { // When setting up the first transaction, we store the SpdySessionPool so that // we can use the same pool in the second transaction. NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); // Use a proxy service which returns a proxy fallback list from DIRECT to // myproxy:70. For this test there will be no fallback, so it is equivalent // to simply DIRECT. The reason for appending the second proxy is to verify // that the session pool key used does is just "DIRECT". helper.session_deps().reset(CreateSpdySessionDependencies( GetParam(), ProxyService::CreateFixedFromPacResult("DIRECT; PROXY myproxy:70"))); helper.SetSession(make_scoped_refptr( SpdySessionDependencies::SpdyCreateSession(helper.session_deps().get()))); SpdySessionPool* spdy_session_pool = helper.session()->spdy_session_pool(); helper.RunPreTestSetup(); // Construct and send a simple GET request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req, 1), }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp, 2), CreateMockRead(*body, 3), MockRead(ASYNC, ERR_IO_PENDING, 4), // Force a pause MockRead(ASYNC, 0, 5) // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; TransactionHelperResult out; out.rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(out.rv, ERR_IO_PENDING); out.rv = callback.WaitForResult(); EXPECT_EQ(out.rv, OK); const HttpResponseInfo* response = trans->GetResponseInfo(); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); out.rv = ReadTransaction(trans, &out.response_data); EXPECT_EQ(OK, out.rv); out.status_line = response->headers->GetStatusLine(); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); // Check that the SpdySession is still in the SpdySessionPool. HostPortPair host_port_pair("www.google.com", helper.port()); SpdySessionKey session_pool_key_direct( host_port_pair, ProxyServer::Direct(), PRIVACY_MODE_DISABLED); EXPECT_TRUE(HasSpdySession(spdy_session_pool, session_pool_key_direct)); SpdySessionKey session_pool_key_proxy( host_port_pair, ProxyServer::FromURI("www.foo.com", ProxyServer::SCHEME_HTTP), PRIVACY_MODE_DISABLED); EXPECT_FALSE(HasSpdySession(spdy_session_pool, session_pool_key_proxy)); // Set up data for the proxy connection. const char kConnect443[] = {"CONNECT www.google.com:443 HTTP/1.1\r\n" "Host: www.google.com\r\n" "Proxy-Connection: keep-alive\r\n\r\n"}; const char kConnect80[] = {"CONNECT www.google.com:80 HTTP/1.1\r\n" "Host: www.google.com\r\n" "Proxy-Connection: keep-alive\r\n\r\n"}; const char kHTTP200[] = {"HTTP/1.1 200 OK\r\n\r\n"}; scoped_ptr req2(spdy_util_.ConstructSpdyGet( "http://www.google.com/foo.dat", false, 1, LOWEST)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes_SPDYNPN[] = { MockWrite(SYNCHRONOUS, kConnect443, arraysize(kConnect443) - 1, 0), CreateMockWrite(*req2, 2), }; MockRead reads_SPDYNPN[] = { MockRead(SYNCHRONOUS, kHTTP200, arraysize(kHTTP200) - 1, 1), CreateMockRead(*resp2, 3), CreateMockRead(*body2, 4), MockRead(ASYNC, 0, 5) // EOF }; MockWrite writes_SPDYNOSSL[] = { CreateMockWrite(*req2, 0), }; MockRead reads_SPDYNOSSL[] = { CreateMockRead(*resp2, 1), CreateMockRead(*body2, 2), MockRead(ASYNC, 0, 3) // EOF }; MockWrite writes_SPDYSSL[] = { MockWrite(SYNCHRONOUS, kConnect80, arraysize(kConnect80) - 1, 0), CreateMockWrite(*req2, 2), }; MockRead reads_SPDYSSL[] = { MockRead(SYNCHRONOUS, kHTTP200, arraysize(kHTTP200) - 1, 1), CreateMockRead(*resp2, 3), CreateMockRead(*body2, 4), MockRead(ASYNC, 0, 0, 5), }; scoped_ptr data_proxy; switch(GetParam().ssl_type) { case SPDYNPN: data_proxy.reset(new OrderedSocketData(reads_SPDYNPN, arraysize(reads_SPDYNPN), writes_SPDYNPN, arraysize(writes_SPDYNPN))); break; case SPDYNOSSL: data_proxy.reset(new OrderedSocketData(reads_SPDYNOSSL, arraysize(reads_SPDYNOSSL), writes_SPDYNOSSL, arraysize(writes_SPDYNOSSL))); break; case SPDYSSL: data_proxy.reset(new OrderedSocketData(reads_SPDYSSL, arraysize(reads_SPDYSSL), writes_SPDYSSL, arraysize(writes_SPDYSSL))); break; default: NOTREACHED(); } // Create another request to www.google.com, but this time through a proxy. HttpRequestInfo request_proxy; request_proxy.method = "GET"; request_proxy.url = GURL("http://www.google.com/foo.dat"); request_proxy.load_flags = 0; scoped_ptr ssd_proxy( CreateSpdySessionDependencies(GetParam())); // Ensure that this transaction uses the same SpdySessionPool. scoped_refptr session_proxy( SpdySessionDependencies::SpdyCreateSession(ssd_proxy.get())); NormalSpdyTransactionHelper helper_proxy(request_proxy, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); HttpNetworkSessionPeer session_peer(session_proxy); scoped_ptr proxy_service( ProxyService::CreateFixedFromPacResult("PROXY myproxy:70")); session_peer.SetProxyService(proxy_service.get()); helper_proxy.session_deps().swap(ssd_proxy); helper_proxy.SetSession(session_proxy); helper_proxy.RunPreTestSetup(); helper_proxy.AddData(data_proxy.get()); HttpNetworkTransaction* trans_proxy = helper_proxy.trans(); TestCompletionCallback callback_proxy; int rv = trans_proxy->Start( &request_proxy, callback_proxy.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback_proxy.WaitForResult(); EXPECT_EQ(0, rv); HttpResponseInfo response_proxy = *trans_proxy->GetResponseInfo(); EXPECT_TRUE(response_proxy.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response_proxy.headers->GetStatusLine()); std::string response_data; ASSERT_EQ(OK, ReadTransaction(trans_proxy, &response_data)); EXPECT_EQ("hello!", response_data); data.CompleteRead(); helper_proxy.VerifyDataConsumed(); } // When we get a TCP-level RST, we need to retry a HttpNetworkTransaction // on a new connection, if the connection was previously known to be good. // This can happen when a server reboots without saying goodbye, or when // we're behind a NAT that masked the RST. TEST_P(SpdyNetworkTransactionTest, VerifyRetryOnConnectionReset) { scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, ERR_IO_PENDING), MockRead(ASYNC, ERR_CONNECTION_RESET), }; MockRead reads2[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; // This test has a couple of variants. enum { // Induce the RST while waiting for our transaction to send. VARIANT_RST_DURING_SEND_COMPLETION, // Induce the RST while waiting for our transaction to read. // In this case, the send completed - everything copied into the SNDBUF. VARIANT_RST_DURING_READ_COMPLETION }; for (int variant = VARIANT_RST_DURING_SEND_COMPLETION; variant <= VARIANT_RST_DURING_READ_COMPLETION; ++variant) { DelayedSocketData data1(1, reads, arraysize(reads), NULL, 0); DelayedSocketData data2(1, reads2, arraysize(reads2), NULL, 0); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.AddData(&data1); helper.AddData(&data2); helper.RunPreTestSetup(); for (int i = 0; i < 2; ++i) { scoped_ptr trans( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); TestCompletionCallback callback; int rv = trans->Start( &helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); // On the second transaction, we trigger the RST. if (i == 1) { if (variant == VARIANT_RST_DURING_READ_COMPLETION) { // Writes to the socket complete asynchronously on SPDY by running // through the message loop. Complete the write here. base::RunLoop().RunUntilIdle(); } // Now schedule the ERR_CONNECTION_RESET. EXPECT_EQ(3u, data1.read_index()); data1.CompleteRead(); EXPECT_EQ(4u, data1.read_index()); } rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); const HttpResponseInfo* response = trans->GetResponseInfo(); ASSERT_TRUE(response != NULL); EXPECT_TRUE(response->headers.get() != NULL); EXPECT_TRUE(response->was_fetched_via_spdy); std::string response_data; rv = ReadTransaction(trans.get(), &response_data); EXPECT_EQ(OK, rv); EXPECT_EQ("HTTP/1.1 200 OK", response->headers->GetStatusLine()); EXPECT_EQ("hello!", response_data); } helper.VerifyDataConsumed(); } } // Test that turning SPDY on and off works properly. TEST_P(SpdyNetworkTransactionTest, SpdyOnOffToggle) { HttpStreamFactory::set_spdy_enabled(true); scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); MockWrite spdy_writes[] = { CreateMockWrite(*req) }; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead spdy_reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, spdy_reads, arraysize(spdy_reads), spdy_writes, arraysize(spdy_writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); net::HttpStreamFactory::set_spdy_enabled(false); MockRead http_reads[] = { MockRead("HTTP/1.1 200 OK\r\n\r\n"), MockRead("hello from http"), MockRead(SYNCHRONOUS, OK), }; DelayedSocketData data2(1, http_reads, arraysize(http_reads), NULL, 0); NormalSpdyTransactionHelper helper2(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper2.SetSpdyDisabled(); helper2.RunToCompletion(&data2); TransactionHelperResult out2 = helper2.output(); EXPECT_EQ(OK, out2.rv); EXPECT_EQ("HTTP/1.1 200 OK", out2.status_line); EXPECT_EQ("hello from http", out2.response_data); net::HttpStreamFactory::set_spdy_enabled(true); } // Tests that Basic authentication works over SPDY TEST_P(SpdyNetworkTransactionTest, SpdyBasicAuth) { net::HttpStreamFactory::set_spdy_enabled(true); // The first request will be a bare GET, the second request will be a // GET with an Authorization header. scoped_ptr req_get( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); const char* const kExtraAuthorizationHeaders[] = { "authorization", "Basic Zm9vOmJhcg==" }; scoped_ptr req_get_authorization( spdy_util_.ConstructSpdyGet(kExtraAuthorizationHeaders, arraysize(kExtraAuthorizationHeaders) / 2, false, 3, LOWEST, true)); MockWrite spdy_writes[] = { CreateMockWrite(*req_get, 1), CreateMockWrite(*req_get_authorization, 4), }; // The first response is a 401 authentication challenge, and the second // response will be a 200 response since the second request includes a valid // Authorization header. const char* const kExtraAuthenticationHeaders[] = { "www-authenticate", "Basic realm=\"MyRealm\"" }; scoped_ptr resp_authentication( spdy_util_.ConstructSpdySynReplyError( "401 Authentication Required", kExtraAuthenticationHeaders, arraysize(kExtraAuthenticationHeaders) / 2, 1)); scoped_ptr body_authentication( spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr resp_data( spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body_data(spdy_util_.ConstructSpdyBodyFrame(3, true)); MockRead spdy_reads[] = { CreateMockRead(*resp_authentication, 2), CreateMockRead(*body_authentication, 3), CreateMockRead(*resp_data, 5), CreateMockRead(*body_data, 6), MockRead(ASYNC, 0, 7), }; OrderedSocketData data(spdy_reads, arraysize(spdy_reads), spdy_writes, arraysize(spdy_writes)); HttpRequestInfo request(CreateGetRequest()); BoundNetLog net_log; NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, net_log, GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; const int rv_start = trans->Start(&request, callback.callback(), net_log); EXPECT_EQ(ERR_IO_PENDING, rv_start); const int rv_start_complete = callback.WaitForResult(); EXPECT_EQ(OK, rv_start_complete); // Make sure the response has an auth challenge. const HttpResponseInfo* const response_start = trans->GetResponseInfo(); ASSERT_TRUE(response_start != NULL); ASSERT_TRUE(response_start->headers.get() != NULL); EXPECT_EQ(401, response_start->headers->response_code()); EXPECT_TRUE(response_start->was_fetched_via_spdy); AuthChallengeInfo* auth_challenge = response_start->auth_challenge.get(); ASSERT_TRUE(auth_challenge != NULL); EXPECT_FALSE(auth_challenge->is_proxy); EXPECT_EQ("basic", auth_challenge->scheme); EXPECT_EQ("MyRealm", auth_challenge->realm); // Restart with a username/password. AuthCredentials credentials(base::ASCIIToUTF16("foo"), base::ASCIIToUTF16("bar")); TestCompletionCallback callback_restart; const int rv_restart = trans->RestartWithAuth( credentials, callback_restart.callback()); EXPECT_EQ(ERR_IO_PENDING, rv_restart); const int rv_restart_complete = callback_restart.WaitForResult(); EXPECT_EQ(OK, rv_restart_complete); // TODO(cbentzel): This is actually the same response object as before, but // data has changed. const HttpResponseInfo* const response_restart = trans->GetResponseInfo(); ASSERT_TRUE(response_restart != NULL); ASSERT_TRUE(response_restart->headers.get() != NULL); EXPECT_EQ(200, response_restart->headers->response_code()); EXPECT_TRUE(response_restart->auth_challenge.get() == NULL); } TEST_P(SpdyNetworkTransactionTest, ServerPushWithHeaders) { scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), }; scoped_ptr initial_headers(new SpdyHeaderBlock()); spdy_util_.AddUrlToHeaderBlock( "http://www.google.com/foo.dat", initial_headers.get()); scoped_ptr stream2_syn( spdy_util_.ConstructSpdyControlFrame(initial_headers.Pass(), false, 2, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, 1)); scoped_ptr late_headers(new SpdyHeaderBlock()); (*late_headers)["hello"] = "bye"; (*late_headers)[spdy_util_.GetStatusKey()] = "200"; (*late_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; scoped_ptr stream2_headers( spdy_util_.ConstructSpdyControlFrame(late_headers.Pass(), false, 2, LOWEST, HEADERS, CONTROL_FLAG_NONE, 0)); scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream2_headers, 4), CreateMockRead(*stream1_body, 5, SYNCHRONOUS), CreateMockRead(*stream2_body, 5), MockRead(ASYNC, ERR_IO_PENDING, 7), // Force a pause }; HttpResponseInfo response; HttpResponseInfo response2; std::string expected_push_result("pushed"); OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); RunServerPushTest(&data, &response, &response2, expected_push_result); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, ServerPushClaimBeforeHeaders) { // We push a stream and attempt to claim it before the headers come down. scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 0, SYNCHRONOUS), }; scoped_ptr initial_headers(new SpdyHeaderBlock()); spdy_util_.AddUrlToHeaderBlock( "http://www.google.com/foo.dat", initial_headers.get()); scoped_ptr stream2_syn( spdy_util_.ConstructSpdyControlFrame(initial_headers.Pass(), false, 2, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, 1)); scoped_ptr late_headers(new SpdyHeaderBlock()); (*late_headers)["hello"] = "bye"; (*late_headers)[spdy_util_.GetStatusKey()] = "200"; (*late_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; scoped_ptr stream2_headers( spdy_util_.ConstructSpdyControlFrame(late_headers.Pass(), false, 2, LOWEST, HEADERS, CONTROL_FLAG_NONE, 0)); scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); MockRead reads[] = { CreateMockRead(*stream1_reply, 1), CreateMockRead(*stream2_syn, 2), CreateMockRead(*stream1_body, 3), CreateMockRead(*stream2_headers, 4), CreateMockRead(*stream2_body, 5), MockRead(ASYNC, 0, 6), // EOF }; HttpResponseInfo response; HttpResponseInfo response2; std::string expected_push_result("pushed"); DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.AddDeterministicData(&data); helper.RunPreTestSetup(); HttpNetworkTransaction* trans = helper.trans(); // Run until we've received the primary SYN_STREAM, the pushed SYN_STREAM, // and the body of the primary stream, but before we've received the HEADERS // for the pushed stream. data.SetStop(3); // Start the transaction. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.Run(); rv = callback.WaitForResult(); EXPECT_EQ(0, rv); // Request the pushed path. At this point, we've received the push, but the // headers are not yet complete. scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); rv = trans2->Start( &CreateGetPushRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.RunFor(3); base::RunLoop().RunUntilIdle(); // Read the server push body. std::string result2; ReadResult(trans2.get(), &data, &result2); // Read the response body. std::string result; ReadResult(trans, &data, &result); // Verify that the received push data is same as the expected push data. EXPECT_EQ(result2.compare(expected_push_result), 0) << "Received data: " << result2 << "||||| Expected data: " << expected_push_result; // Verify the SYN_REPLY. // Copy the response info, because trans goes away. response = *trans->GetResponseInfo(); response2 = *trans2->GetResponseInfo(); VerifyStreamsClosed(helper); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); // Read the final EOF (which will close the session) data.RunFor(1); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()); EXPECT_TRUE(data.at_write_eof()); } TEST_P(SpdyNetworkTransactionTest, ServerPushWithTwoHeaderFrames) { // We push a stream and attempt to claim it before the headers come down. scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 0, SYNCHRONOUS), }; scoped_ptr initial_headers(new SpdyHeaderBlock()); spdy_util_.AddUrlToHeaderBlock( "http://www.google.com/foo.dat", initial_headers.get()); scoped_ptr stream2_syn( spdy_util_.ConstructSpdyControlFrame(initial_headers.Pass(), false, 2, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, 1)); scoped_ptr middle_headers(new SpdyHeaderBlock()); (*middle_headers)["hello"] = "bye"; scoped_ptr stream2_headers1( spdy_util_.ConstructSpdyControlFrame(middle_headers.Pass(), false, 2, LOWEST, HEADERS, CONTROL_FLAG_NONE, 0)); scoped_ptr late_headers(new SpdyHeaderBlock()); (*late_headers)[spdy_util_.GetStatusKey()] = "200"; if (spdy_util_.spdy_version() < SPDY4) { // SPDY4/HTTP2 eliminates use of the :version header. (*late_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; } scoped_ptr stream2_headers2( spdy_util_.ConstructSpdyControlFrame(late_headers.Pass(), false, 2, LOWEST, HEADERS, CONTROL_FLAG_NONE, 0)); scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); MockRead reads[] = { CreateMockRead(*stream1_reply, 1), CreateMockRead(*stream2_syn, 2), CreateMockRead(*stream1_body, 3), CreateMockRead(*stream2_headers1, 4), CreateMockRead(*stream2_headers2, 5), CreateMockRead(*stream2_body, 6), MockRead(ASYNC, 0, 7), // EOF }; HttpResponseInfo response; HttpResponseInfo response2; std::string expected_push_result("pushed"); DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.AddDeterministicData(&data); helper.RunPreTestSetup(); HttpNetworkTransaction* trans = helper.trans(); // Run until we've received the primary SYN_STREAM, the pushed SYN_STREAM, // the first HEADERS frame, and the body of the primary stream, but before // we've received the final HEADERS for the pushed stream. data.SetStop(4); // Start the transaction. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.Run(); rv = callback.WaitForResult(); EXPECT_EQ(0, rv); // Request the pushed path. At this point, we've received the push, but the // headers are not yet complete. scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); rv = trans2->Start( &CreateGetPushRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.RunFor(3); base::RunLoop().RunUntilIdle(); // Read the server push body. std::string result2; ReadResult(trans2.get(), &data, &result2); // Read the response body. std::string result; ReadResult(trans, &data, &result); // Verify that the received push data is same as the expected push data. EXPECT_EQ(expected_push_result, result2); // Verify the SYN_REPLY. // Copy the response info, because trans goes away. response = *trans->GetResponseInfo(); response2 = *trans2->GetResponseInfo(); VerifyStreamsClosed(helper); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Verify the pushed stream. EXPECT_TRUE(response2.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response2.headers->GetStatusLine()); // Verify we got all the headers if (spdy_util_.spdy_version() < SPDY3) { EXPECT_TRUE(response2.headers->HasHeaderValue( "url", "http://www.google.com/foo.dat")); } else { EXPECT_TRUE(response2.headers->HasHeaderValue( "scheme", "http")); EXPECT_TRUE(response2.headers->HasHeaderValue( "path", "/foo.dat")); if (spdy_util_.spdy_version() < SPDY4) { EXPECT_TRUE(response2.headers->HasHeaderValue( "host", "www.google.com")); } else { EXPECT_TRUE(response2.headers->HasHeaderValue( "authority", "www.google.com")); } } EXPECT_TRUE(response2.headers->HasHeaderValue("hello", "bye")); EXPECT_TRUE(response2.headers->HasHeaderValue("status", "200")); // Read the final EOF (which will close the session) data.RunFor(1); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()); EXPECT_TRUE(data.at_write_eof()); } TEST_P(SpdyNetworkTransactionTest, ServerPushWithNoStatusHeaderFrames) { // We push a stream and attempt to claim it before the headers come down. scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 0, SYNCHRONOUS), }; scoped_ptr initial_headers(new SpdyHeaderBlock()); spdy_util_.AddUrlToHeaderBlock( "http://www.google.com/foo.dat", initial_headers.get()); scoped_ptr stream2_syn( spdy_util_.ConstructSpdyControlFrame(initial_headers.Pass(), false, 2, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, 1)); scoped_ptr middle_headers(new SpdyHeaderBlock()); (*middle_headers)["hello"] = "bye"; scoped_ptr stream2_headers1( spdy_util_.ConstructSpdyControlFrame(middle_headers.Pass(), false, 2, LOWEST, HEADERS, CONTROL_FLAG_NONE, 0)); scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); MockRead reads[] = { CreateMockRead(*stream1_reply, 1), CreateMockRead(*stream2_syn, 2), CreateMockRead(*stream1_body, 3), CreateMockRead(*stream2_headers1, 4), CreateMockRead(*stream2_body, 5), MockRead(ASYNC, 0, 6), // EOF }; DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.AddDeterministicData(&data); helper.RunPreTestSetup(); HttpNetworkTransaction* trans = helper.trans(); // Run until we've received the primary SYN_STREAM, the pushed SYN_STREAM, // the first HEADERS frame, and the body of the primary stream, but before // we've received the final HEADERS for the pushed stream. data.SetStop(4); // Start the transaction. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.Run(); rv = callback.WaitForResult(); EXPECT_EQ(0, rv); // Request the pushed path. At this point, we've received the push, but the // headers are not yet complete. scoped_ptr trans2( new HttpNetworkTransaction(DEFAULT_PRIORITY, helper.session().get())); rv = trans2->Start( &CreateGetPushRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.RunFor(2); base::RunLoop().RunUntilIdle(); // Read the server push body. std::string result2; ReadResult(trans2.get(), &data, &result2); // Read the response body. std::string result; ReadResult(trans, &data, &result); EXPECT_EQ("hello!", result); // Verify that we haven't received any push data. EXPECT_EQ("", result2); // Verify the SYN_REPLY. // Copy the response info, because trans goes away. HttpResponseInfo response = *trans->GetResponseInfo(); ASSERT_TRUE(trans2->GetResponseInfo() == NULL); VerifyStreamsClosed(helper); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); // Read the final EOF (which will close the session). data.RunFor(1); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()); EXPECT_TRUE(data.at_write_eof()); } TEST_P(SpdyNetworkTransactionTest, SynReplyWithHeaders) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*rst), }; scoped_ptr initial_headers(new SpdyHeaderBlock()); (*initial_headers)[spdy_util_.GetStatusKey()] = "200 OK"; (*initial_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; scoped_ptr stream1_reply( spdy_util_.ConstructSpdyControlFrame(initial_headers.Pass(), false, 1, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, 0)); scoped_ptr late_headers(new SpdyHeaderBlock()); (*late_headers)["hello"] = "bye"; scoped_ptr stream1_headers( spdy_util_.ConstructSpdyControlFrame(late_headers.Pass(), false, 1, LOWEST, HEADERS, CONTROL_FLAG_NONE, 0)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*stream1_reply), CreateMockRead(*stream1_headers), CreateMockRead(*stream1_body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, out.rv); } TEST_P(SpdyNetworkTransactionTest, SynReplyWithLateHeaders) { scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_PROTOCOL_ERROR)); MockWrite writes[] = { CreateMockWrite(*req), CreateMockWrite(*rst), }; scoped_ptr initial_headers(new SpdyHeaderBlock()); (*initial_headers)[spdy_util_.GetStatusKey()] = "200 OK"; (*initial_headers)[spdy_util_.GetVersionKey()] = "HTTP/1.1"; scoped_ptr stream1_reply( spdy_util_.ConstructSpdyControlFrame(initial_headers.Pass(), false, 1, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, 0)); scoped_ptr late_headers(new SpdyHeaderBlock()); (*late_headers)["hello"] = "bye"; scoped_ptr stream1_headers( spdy_util_.ConstructSpdyControlFrame(late_headers.Pass(), false, 1, LOWEST, HEADERS, CONTROL_FLAG_NONE, 0)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, false)); scoped_ptr stream1_body2( spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*stream1_reply), CreateMockRead(*stream1_body), CreateMockRead(*stream1_headers), CreateMockRead(*stream1_body2), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data(1, reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletion(&data); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, out.rv); } TEST_P(SpdyNetworkTransactionTest, ServerPushCrossOriginCorrectness) { if (spdy_util_.spdy_version() == SPDY4) { // TODO(jgraettinger): We don't support associated stream // checks in SPDY4 yet. return; } // In this test we want to verify that we can't accidentally push content // which can't be pushed by this content server. // This test assumes that: // - if we're requesting http://www.foo.com/barbaz // - the browser has made a connection to "www.foo.com". // A list of the URL to fetch, followed by the URL being pushed. static const char* const kTestCases[] = { "http://www.google.com/foo.html", "http://www.google.com:81/foo.js", // Bad port "http://www.google.com/foo.html", "https://www.google.com/foo.js", // Bad protocol "http://www.google.com/foo.html", "ftp://www.google.com/foo.js", // Invalid Protocol "http://www.google.com/foo.html", "http://blat.www.google.com/foo.js", // Cross subdomain "http://www.google.com/foo.html", "http://www.foo.com/foo.js", // Cross domain }; for (size_t index = 0; index < arraysize(kTestCases); index += 2) { const char* url_to_fetch = kTestCases[index]; const char* url_to_push = kTestCases[index + 1]; scoped_ptr stream1_syn( spdy_util_.ConstructSpdyGet(url_to_fetch, false, 1, LOWEST)); scoped_ptr stream1_body( spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr push_rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = { CreateMockWrite(*stream1_syn, 1), CreateMockWrite(*push_rst, 4), }; scoped_ptr stream1_reply(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr stream2_syn(spdy_util_.ConstructSpdyPush(NULL, 0, 2, 1, url_to_push)); const char kPushedData[] = "pushed"; scoped_ptr stream2_body( spdy_util_.ConstructSpdyBodyFrame( 2, kPushedData, strlen(kPushedData), true)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_CANCEL)); MockRead reads[] = { CreateMockRead(*stream1_reply, 2), CreateMockRead(*stream2_syn, 3), CreateMockRead(*stream1_body, 5, SYNCHRONOUS), CreateMockRead(*stream2_body, 6), MockRead(ASYNC, ERR_IO_PENDING, 7), // Force a pause }; HttpResponseInfo response; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); HttpRequestInfo request; request.method = "GET"; request.url = GURL(url_to_fetch); request.load_flags = 0; // Enable cross-origin push. Since we are not using a proxy, this should // not actually enable cross-origin SPDY push. scoped_ptr session_deps( CreateSpdySessionDependencies(GetParam())); session_deps->trusted_spdy_proxy = "123.45.67.89:8080"; NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), session_deps.release()); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start(&request, callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); // Read the response body. std::string result; ReadResult(trans, &data, &result); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()); EXPECT_TRUE(data.at_write_eof()); // Verify the SYN_REPLY. // Copy the response info, because trans goes away. response = *trans->GetResponseInfo(); VerifyStreamsClosed(helper); // Verify the SYN_REPLY. EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); } } TEST_P(SpdyNetworkTransactionTest, RetryAfterRefused) { // Construct the request. scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(*req, 1), CreateMockWrite(*req2, 3), }; scoped_ptr refused( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_REFUSED_STREAM)); scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(3, true)); MockRead reads[] = { CreateMockRead(*refused, 2), CreateMockRead(*resp, 4), CreateMockRead(*body, 5), MockRead(ASYNC, 0, 6) // EOF }; OrderedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunPreTestSetup(); helper.AddData(&data); HttpNetworkTransaction* trans = helper.trans(); // Start the transaction with basic parameters. TestCompletionCallback callback; int rv = trans->Start( &CreateGetRequest(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); // Verify that we consumed all test data. EXPECT_TRUE(data.at_read_eof()) << "Read count: " << data.read_count() << " Read index: " << data.read_index(); EXPECT_TRUE(data.at_write_eof()) << "Write count: " << data.write_count() << " Write index: " << data.write_index(); // Verify the SYN_REPLY. HttpResponseInfo response = *trans->GetResponseInfo(); EXPECT_TRUE(response.headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response.headers->GetStatusLine()); } TEST_P(SpdyNetworkTransactionTest, OutOfOrderSynStream) { // This first request will start to establish the SpdySession. // Then we will start the second (MEDIUM priority) and then third // (HIGHEST priority) request in such a way that the third will actually // start before the second, causing the second to be numbered differently // than the order they were created. scoped_ptr req1( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr req2( spdy_util_.ConstructSpdyGet(NULL, 0, false, 3, HIGHEST, true)); scoped_ptr req3( spdy_util_.ConstructSpdyGet(NULL, 0, false, 5, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(*req1, 0), CreateMockWrite(*req2, 3), CreateMockWrite(*req3, 4), }; scoped_ptr resp1(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body1(spdy_util_.ConstructSpdyBodyFrame(1, true)); scoped_ptr resp2(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 3)); scoped_ptr body2(spdy_util_.ConstructSpdyBodyFrame(3, true)); scoped_ptr resp3(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 5)); scoped_ptr body3(spdy_util_.ConstructSpdyBodyFrame(5, true)); MockRead reads[] = { CreateMockRead(*resp1, 1), CreateMockRead(*body1, 2), CreateMockRead(*resp2, 5), CreateMockRead(*body2, 6), CreateMockRead(*resp3, 7), CreateMockRead(*body3, 8), MockRead(ASYNC, 0, 9) // EOF }; DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); NormalSpdyTransactionHelper helper(CreateGetRequest(), LOWEST, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.RunPreTestSetup(); helper.AddDeterministicData(&data); // Start the first transaction to set up the SpdySession HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; HttpRequestInfo info1 = CreateGetRequest(); int rv = trans->Start(&info1, callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); // Run the message loop, but do not allow the write to complete. // This leaves the SpdySession with a write pending, which prevents // SpdySession from attempting subsequent writes until this write completes. base::RunLoop().RunUntilIdle(); // Now, start both new transactions HttpRequestInfo info2 = CreateGetRequest(); TestCompletionCallback callback2; scoped_ptr trans2( new HttpNetworkTransaction(MEDIUM, helper.session().get())); rv = trans2->Start(&info2, callback2.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); base::RunLoop().RunUntilIdle(); HttpRequestInfo info3 = CreateGetRequest(); TestCompletionCallback callback3; scoped_ptr trans3( new HttpNetworkTransaction(HIGHEST, helper.session().get())); rv = trans3->Start(&info3, callback3.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); base::RunLoop().RunUntilIdle(); // We now have two SYN_STREAM frames queued up which will be // dequeued only once the first write completes, which we // now allow to happen. data.RunFor(2); EXPECT_EQ(OK, callback.WaitForResult()); // And now we can allow everything else to run to completion. data.SetStop(10); data.Run(); EXPECT_EQ(OK, callback2.WaitForResult()); EXPECT_EQ(OK, callback3.WaitForResult()); helper.VerifyDataConsumed(); } // The tests below are only for SPDY/3 and above. // Test that sent data frames and received WINDOW_UPDATE frames change // the send_window_size_ correctly. // WINDOW_UPDATE is different than most other frames in that it can arrive // while the client is still sending the request body. In order to enforce // this scenario, we feed a couple of dummy frames and give a delay of 0 to // socket data provider, so that initial read that is done as soon as the // stream is created, succeeds and schedules another read. This way reads // and writes are interleaved; after doing a full frame write, SpdyStream // will break out of DoLoop and will read and process a WINDOW_UPDATE. // Once our WINDOW_UPDATE is read, we cannot send SYN_REPLY right away // since request has not been completely written, therefore we feed // enough number of WINDOW_UPDATEs to finish the first read and cause a // write, leading to a complete write of request body; after that we send // a reply with a body, to cause a graceful shutdown. // TODO(agayev): develop a socket data provider where both, reads and // writes are ordered so that writing tests like these are easy and rewrite // all these tests using it. Right now we are working around the // limitations as described above and it's not deterministic, tests may // fail under specific circumstances. TEST_P(SpdyNetworkTransactionTest, WindowUpdateReceived) { if (GetParam().protocol < kProtoSPDY3) return; static int kFrameCount = 2; scoped_ptr content( new std::string(kMaxSpdyFrameChunkSize, 'a')); scoped_ptr req(spdy_util_.ConstructSpdyPost( kRequestUrl, 1, kMaxSpdyFrameChunkSize * kFrameCount, LOWEST, NULL, 0)); scoped_ptr body( spdy_util_.ConstructSpdyBodyFrame( 1, content->c_str(), content->size(), false)); scoped_ptr body_end( spdy_util_.ConstructSpdyBodyFrame( 1, content->c_str(), content->size(), true)); MockWrite writes[] = { CreateMockWrite(*req, 0), CreateMockWrite(*body, 1), CreateMockWrite(*body_end, 2), }; static const int32 kDeltaWindowSize = 0xff; static const int kDeltaCount = 4; scoped_ptr window_update( spdy_util_.ConstructSpdyWindowUpdate(1, kDeltaWindowSize)); scoped_ptr window_update_dummy( spdy_util_.ConstructSpdyWindowUpdate(2, kDeltaWindowSize)); scoped_ptr resp(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); MockRead reads[] = { CreateMockRead(*window_update_dummy, 3), CreateMockRead(*window_update_dummy, 4), CreateMockRead(*window_update_dummy, 5), CreateMockRead(*window_update, 6), // Four updates, therefore window CreateMockRead(*window_update, 7), // size should increase by CreateMockRead(*window_update, 8), // kDeltaWindowSize * 4 CreateMockRead(*window_update, 9), CreateMockRead(*resp, 10), CreateMockRead(*body_end, 11), MockRead(ASYNC, 0, 0, 12) // EOF }; DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); ScopedVector element_readers; for (int i = 0; i < kFrameCount; ++i) { element_readers.push_back( new UploadBytesElementReader(content->c_str(), content->size())); } UploadDataStream upload_data_stream(element_readers.Pass(), 0); // Setup the request HttpRequestInfo request; request.method = "POST"; request.url = GURL(kDefaultURL); request.upload_data_stream = &upload_data_stream; NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.AddDeterministicData(&data); helper.RunPreTestSetup(); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.RunFor(11); SpdyHttpStream* stream = static_cast(trans->stream_.get()); ASSERT_TRUE(stream != NULL); ASSERT_TRUE(stream->stream() != NULL); EXPECT_EQ(static_cast(kSpdyStreamInitialWindowSize) + kDeltaWindowSize * kDeltaCount - kMaxSpdyFrameChunkSize * kFrameCount, stream->stream()->send_window_size()); data.RunFor(1); rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); helper.VerifyDataConsumed(); } // Test that received data frames and sent WINDOW_UPDATE frames change // the recv_window_size_ correctly. TEST_P(SpdyNetworkTransactionTest, WindowUpdateSent) { if (GetParam().protocol < kProtoSPDY3) return; // Amount of body required to trigger a sent window update. const size_t kTargetSize = kSpdyStreamInitialWindowSize / 2 + 1; scoped_ptr req( spdy_util_.ConstructSpdyGet(NULL, 0, false, 1, LOWEST, true)); scoped_ptr session_window_update( spdy_util_.ConstructSpdyWindowUpdate(0, kTargetSize)); scoped_ptr window_update( spdy_util_.ConstructSpdyWindowUpdate(1, kTargetSize)); std::vector writes; writes.push_back(CreateMockWrite(*req)); if (GetParam().protocol >= kProtoSPDY31) writes.push_back(CreateMockWrite(*session_window_update)); writes.push_back(CreateMockWrite(*window_update)); std::vector reads; scoped_ptr resp( spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); reads.push_back(CreateMockRead(*resp)); ScopedVector body_frames; const std::string body_data(4096, 'x'); for (size_t remaining = kTargetSize; remaining != 0;) { size_t frame_size = std::min(remaining, body_data.size()); body_frames.push_back(spdy_util_.ConstructSpdyBodyFrame( 1, body_data.data(), frame_size, false)); reads.push_back(CreateMockRead(*body_frames.back())); remaining -= frame_size; } reads.push_back(MockRead(ASYNC, ERR_IO_PENDING, 0)); // Yield. DelayedSocketData data(1, vector_as_array(&reads), reads.size(), vector_as_array(&writes), writes.size()); NormalSpdyTransactionHelper helper(CreateGetRequest(), DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.AddData(&data); helper.RunPreTestSetup(); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); rv = callback.WaitForResult(); EXPECT_EQ(OK, rv); SpdyHttpStream* stream = static_cast(trans->stream_.get()); ASSERT_TRUE(stream != NULL); ASSERT_TRUE(stream->stream() != NULL); // All data has been read, but not consumed. The window reflects this. EXPECT_EQ(static_cast(kSpdyStreamInitialWindowSize - kTargetSize), stream->stream()->recv_window_size()); const HttpResponseInfo* response = trans->GetResponseInfo(); ASSERT_TRUE(response != NULL); ASSERT_TRUE(response->headers.get() != NULL); EXPECT_EQ("HTTP/1.1 200 OK", response->headers->GetStatusLine()); EXPECT_TRUE(response->was_fetched_via_spdy); // Issue a read which will cause a WINDOW_UPDATE to be sent and window // size increased to default. scoped_refptr buf(new net::IOBuffer(kTargetSize)); EXPECT_EQ(static_cast(kTargetSize), trans->Read(buf.get(), kTargetSize, CompletionCallback())); EXPECT_EQ(static_cast(kSpdyStreamInitialWindowSize), stream->stream()->recv_window_size()); EXPECT_THAT(base::StringPiece(buf->data(), kTargetSize), Each(Eq('x'))); // Allow scheduled WINDOW_UPDATE frames to write. base::RunLoop().RunUntilIdle(); helper.VerifyDataConsumed(); } // Test that WINDOW_UPDATE frame causing overflow is handled correctly. TEST_P(SpdyNetworkTransactionTest, WindowUpdateOverflow) { if (GetParam().protocol < kProtoSPDY3) return; // Number of full frames we hope to write (but will not, used to // set content-length header correctly) static int kFrameCount = 3; scoped_ptr content( new std::string(kMaxSpdyFrameChunkSize, 'a')); scoped_ptr req(spdy_util_.ConstructSpdyPost( kRequestUrl, 1, kMaxSpdyFrameChunkSize * kFrameCount, LOWEST, NULL, 0)); scoped_ptr body( spdy_util_.ConstructSpdyBodyFrame( 1, content->c_str(), content->size(), false)); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_FLOW_CONTROL_ERROR)); // We're not going to write a data frame with FIN, we'll receive a bad // WINDOW_UPDATE while sending a request and will send a RST_STREAM frame. MockWrite writes[] = { CreateMockWrite(*req, 0), CreateMockWrite(*body, 2), CreateMockWrite(*rst, 3), }; static const int32 kDeltaWindowSize = 0x7fffffff; // cause an overflow scoped_ptr window_update( spdy_util_.ConstructSpdyWindowUpdate(1, kDeltaWindowSize)); MockRead reads[] = { CreateMockRead(*window_update, 1), MockRead(ASYNC, 0, 4) // EOF }; DeterministicSocketData data(reads, arraysize(reads), writes, arraysize(writes)); ScopedVector element_readers; for (int i = 0; i < kFrameCount; ++i) { element_readers.push_back( new UploadBytesElementReader(content->c_str(), content->size())); } UploadDataStream upload_data_stream(element_readers.Pass(), 0); // Setup the request HttpRequestInfo request; request.method = "POST"; request.url = GURL("http://www.google.com/"); request.upload_data_stream = &upload_data_stream; NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.RunPreTestSetup(); helper.AddDeterministicData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); ASSERT_EQ(ERR_IO_PENDING, rv); data.RunFor(5); ASSERT_TRUE(callback.have_result()); EXPECT_EQ(ERR_SPDY_PROTOCOL_ERROR, callback.WaitForResult()); helper.VerifyDataConsumed(); } // Test that after hitting a send window size of 0, the write process // stalls and upon receiving WINDOW_UPDATE frame write resumes. // This test constructs a POST request followed by enough data frames // containing 'a' that would make the window size 0, followed by another // data frame containing default content (which is "hello!") and this frame // also contains a FIN flag. DelayedSocketData is used to enforce all // writes go through before a read could happen. However, the last frame // ("hello!") is not supposed to go through since by the time its turn // arrives, window size is 0. At this point MessageLoop::Run() called via // callback would block. Therefore we call MessageLoop::RunUntilIdle() // which returns after performing all possible writes. We use DCHECKS to // ensure that last data frame is still there and stream has stalled. // After that, next read is artifically enforced, which causes a // WINDOW_UPDATE to be read and I/O process resumes. TEST_P(SpdyNetworkTransactionTest, FlowControlStallResume) { if (GetParam().protocol < kProtoSPDY3) return; // Number of frames we need to send to zero out the window size: data // frames plus SYN_STREAM plus the last data frame; also we need another // data frame that we will send once the WINDOW_UPDATE is received, // therefore +3. size_t num_writes = kSpdyStreamInitialWindowSize / kMaxSpdyFrameChunkSize + 3; // Calculate last frame's size; 0 size data frame is legal. size_t last_frame_size = kSpdyStreamInitialWindowSize % kMaxSpdyFrameChunkSize; // Construct content for a data frame of maximum size. std::string content(kMaxSpdyFrameChunkSize, 'a'); scoped_ptr req(spdy_util_.ConstructSpdyPost( kRequestUrl, 1, kSpdyStreamInitialWindowSize + kUploadDataSize, LOWEST, NULL, 0)); // Full frames. scoped_ptr body1( spdy_util_.ConstructSpdyBodyFrame( 1, content.c_str(), content.size(), false)); // Last frame to zero out the window size. scoped_ptr body2( spdy_util_.ConstructSpdyBodyFrame( 1, content.c_str(), last_frame_size, false)); // Data frame to be sent once WINDOW_UPDATE frame is received. scoped_ptr body3(spdy_util_.ConstructSpdyBodyFrame(1, true)); // Fill in mock writes. scoped_ptr writes(new MockWrite[num_writes]); size_t i = 0; writes[i] = CreateMockWrite(*req); for (i = 1; i < num_writes - 2; i++) writes[i] = CreateMockWrite(*body1); writes[i++] = CreateMockWrite(*body2); writes[i] = CreateMockWrite(*body3); // Construct read frame, give enough space to upload the rest of the // data. scoped_ptr session_window_update( spdy_util_.ConstructSpdyWindowUpdate(0, kUploadDataSize)); scoped_ptr window_update( spdy_util_.ConstructSpdyWindowUpdate(1, kUploadDataSize)); scoped_ptr reply(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); MockRead reads[] = { CreateMockRead(*session_window_update), CreateMockRead(*session_window_update), CreateMockRead(*window_update), CreateMockRead(*window_update), CreateMockRead(*reply), CreateMockRead(*body2), CreateMockRead(*body3), MockRead(ASYNC, 0, 0) // EOF }; // Skip the session window updates unless we're using SPDY/3.1 and // above. size_t read_offset = (GetParam().protocol >= kProtoSPDY31) ? 0 : 2; size_t num_reads = arraysize(reads) - read_offset; // Force all writes to happen before any read, last write will not // actually queue a frame, due to window size being 0. DelayedSocketData data(num_writes, reads + read_offset, num_reads, writes.get(), num_writes); ScopedVector element_readers; std::string upload_data_string(kSpdyStreamInitialWindowSize, 'a'); upload_data_string.append(kUploadData, kUploadDataSize); element_readers.push_back(new UploadBytesElementReader( upload_data_string.c_str(), upload_data_string.size())); UploadDataStream upload_data_stream(element_readers.Pass(), 0); HttpRequestInfo request; request.method = "POST"; request.url = GURL("http://www.google.com/"); request.upload_data_stream = &upload_data_stream; NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.AddData(&data); helper.RunPreTestSetup(); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); base::RunLoop().RunUntilIdle(); // Write as much as we can. SpdyHttpStream* stream = static_cast(trans->stream_.get()); ASSERT_TRUE(stream != NULL); ASSERT_TRUE(stream->stream() != NULL); EXPECT_EQ(0, stream->stream()->send_window_size()); // All the body data should have been read. // TODO(satorux): This is because of the weirdness in reading the request // body in OnSendBodyComplete(). See crbug.com/113107. EXPECT_TRUE(upload_data_stream.IsEOF()); // But the body is not yet fully sent (kUploadData is not yet sent) // since we're send-stalled. EXPECT_TRUE(stream->stream()->send_stalled_by_flow_control()); data.ForceNextRead(); // Read in WINDOW_UPDATE frame. rv = callback.WaitForResult(); helper.VerifyDataConsumed(); } // Test we correctly handle the case where the SETTINGS frame results in // unstalling the send window. TEST_P(SpdyNetworkTransactionTest, FlowControlStallResumeAfterSettings) { if (GetParam().protocol < kProtoSPDY3) return; // Number of frames we need to send to zero out the window size: data // frames plus SYN_STREAM plus the last data frame; also we need another // data frame that we will send once the SETTING is received, therefore +3. size_t num_writes = kSpdyStreamInitialWindowSize / kMaxSpdyFrameChunkSize + 3; // Calculate last frame's size; 0 size data frame is legal. size_t last_frame_size = kSpdyStreamInitialWindowSize % kMaxSpdyFrameChunkSize; // Construct content for a data frame of maximum size. std::string content(kMaxSpdyFrameChunkSize, 'a'); scoped_ptr req(spdy_util_.ConstructSpdyPost( kRequestUrl, 1, kSpdyStreamInitialWindowSize + kUploadDataSize, LOWEST, NULL, 0)); // Full frames. scoped_ptr body1( spdy_util_.ConstructSpdyBodyFrame( 1, content.c_str(), content.size(), false)); // Last frame to zero out the window size. scoped_ptr body2( spdy_util_.ConstructSpdyBodyFrame( 1, content.c_str(), last_frame_size, false)); // Data frame to be sent once SETTINGS frame is received. scoped_ptr body3(spdy_util_.ConstructSpdyBodyFrame(1, true)); // Fill in mock reads/writes. std::vector reads; std::vector writes; size_t i = 0; writes.push_back(CreateMockWrite(*req, i++)); while (i < num_writes - 2) writes.push_back(CreateMockWrite(*body1, i++)); writes.push_back(CreateMockWrite(*body2, i++)); // Construct read frame for SETTINGS that gives enough space to upload the // rest of the data. SettingsMap settings; settings[SETTINGS_INITIAL_WINDOW_SIZE] = SettingsFlagsAndValue( SETTINGS_FLAG_NONE, kSpdyStreamInitialWindowSize * 2); scoped_ptr settings_frame_large( spdy_util_.ConstructSpdySettings(settings)); reads.push_back(CreateMockRead(*settings_frame_large, i++)); scoped_ptr session_window_update( spdy_util_.ConstructSpdyWindowUpdate(0, kUploadDataSize)); if (GetParam().protocol >= kProtoSPDY31) reads.push_back(CreateMockRead(*session_window_update, i++)); scoped_ptr settings_ack(spdy_util_.ConstructSpdySettingsAck()); writes.push_back(CreateMockWrite(*settings_ack, i++)); writes.push_back(CreateMockWrite(*body3, i++)); scoped_ptr reply(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); reads.push_back(CreateMockRead(*reply, i++)); reads.push_back(CreateMockRead(*body2, i++)); reads.push_back(CreateMockRead(*body3, i++)); reads.push_back(MockRead(ASYNC, 0, i++)); // EOF // Force all writes to happen before any read, last write will not // actually queue a frame, due to window size being 0. DeterministicSocketData data(vector_as_array(&reads), reads.size(), vector_as_array(&writes), writes.size()); ScopedVector element_readers; std::string upload_data_string(kSpdyStreamInitialWindowSize, 'a'); upload_data_string.append(kUploadData, kUploadDataSize); element_readers.push_back(new UploadBytesElementReader( upload_data_string.c_str(), upload_data_string.size())); UploadDataStream upload_data_stream(element_readers.Pass(), 0); HttpRequestInfo request; request.method = "POST"; request.url = GURL("http://www.google.com/"); request.upload_data_stream = &upload_data_stream; NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.RunPreTestSetup(); helper.AddDeterministicData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.RunFor(num_writes - 1); // Write as much as we can. SpdyHttpStream* stream = static_cast(trans->stream_.get()); ASSERT_TRUE(stream != NULL); ASSERT_TRUE(stream->stream() != NULL); EXPECT_EQ(0, stream->stream()->send_window_size()); // All the body data should have been read. // TODO(satorux): This is because of the weirdness in reading the request // body in OnSendBodyComplete(). See crbug.com/113107. EXPECT_TRUE(upload_data_stream.IsEOF()); // But the body is not yet fully sent (kUploadData is not yet sent) // since we're send-stalled. EXPECT_TRUE(stream->stream()->send_stalled_by_flow_control()); data.RunFor(7); // Read in SETTINGS frame to unstall. rv = callback.WaitForResult(); helper.VerifyDataConsumed(); // If stream is NULL, that means it was unstalled and closed. EXPECT_TRUE(stream->stream() == NULL); } // Test we correctly handle the case where the SETTINGS frame results in a // negative send window size. TEST_P(SpdyNetworkTransactionTest, FlowControlNegativeSendWindowSize) { if (GetParam().protocol < kProtoSPDY3) return; // Number of frames we need to send to zero out the window size: data // frames plus SYN_STREAM plus the last data frame; also we need another // data frame that we will send once the SETTING is received, therefore +3. size_t num_writes = kSpdyStreamInitialWindowSize / kMaxSpdyFrameChunkSize + 3; // Calculate last frame's size; 0 size data frame is legal. size_t last_frame_size = kSpdyStreamInitialWindowSize % kMaxSpdyFrameChunkSize; // Construct content for a data frame of maximum size. std::string content(kMaxSpdyFrameChunkSize, 'a'); scoped_ptr req(spdy_util_.ConstructSpdyPost( kRequestUrl, 1, kSpdyStreamInitialWindowSize + kUploadDataSize, LOWEST, NULL, 0)); // Full frames. scoped_ptr body1( spdy_util_.ConstructSpdyBodyFrame( 1, content.c_str(), content.size(), false)); // Last frame to zero out the window size. scoped_ptr body2( spdy_util_.ConstructSpdyBodyFrame( 1, content.c_str(), last_frame_size, false)); // Data frame to be sent once SETTINGS frame is received. scoped_ptr body3(spdy_util_.ConstructSpdyBodyFrame(1, true)); // Fill in mock reads/writes. std::vector reads; std::vector writes; size_t i = 0; writes.push_back(CreateMockWrite(*req, i++)); while (i < num_writes - 2) writes.push_back(CreateMockWrite(*body1, i++)); writes.push_back(CreateMockWrite(*body2, i++)); // Construct read frame for SETTINGS that makes the send_window_size // negative. SettingsMap new_settings; new_settings[SETTINGS_INITIAL_WINDOW_SIZE] = SettingsFlagsAndValue( SETTINGS_FLAG_NONE, kSpdyStreamInitialWindowSize / 2); scoped_ptr settings_frame_small( spdy_util_.ConstructSpdySettings(new_settings)); // Construct read frames for WINDOW_UPDATE that makes the send_window_size // positive. scoped_ptr session_window_update_init_size( spdy_util_.ConstructSpdyWindowUpdate(0, kSpdyStreamInitialWindowSize)); scoped_ptr window_update_init_size( spdy_util_.ConstructSpdyWindowUpdate(1, kSpdyStreamInitialWindowSize)); reads.push_back(CreateMockRead(*settings_frame_small, i++)); if (GetParam().protocol >= kProtoSPDY3) reads.push_back(CreateMockRead(*session_window_update_init_size, i++)); reads.push_back(CreateMockRead(*window_update_init_size, i++)); scoped_ptr settings_ack(spdy_util_.ConstructSpdySettingsAck()); writes.push_back(CreateMockWrite(*settings_ack, i++)); writes.push_back(CreateMockWrite(*body3, i++)); scoped_ptr reply(spdy_util_.ConstructSpdyPostSynReply(NULL, 0)); reads.push_back(CreateMockRead(*reply, i++)); reads.push_back(CreateMockRead(*body2, i++)); reads.push_back(CreateMockRead(*body3, i++)); reads.push_back(MockRead(ASYNC, 0, i++)); // EOF // Force all writes to happen before any read, last write will not // actually queue a frame, due to window size being 0. DeterministicSocketData data(vector_as_array(&reads), reads.size(), vector_as_array(&writes), writes.size()); ScopedVector element_readers; std::string upload_data_string(kSpdyStreamInitialWindowSize, 'a'); upload_data_string.append(kUploadData, kUploadDataSize); element_readers.push_back(new UploadBytesElementReader( upload_data_string.c_str(), upload_data_string.size())); UploadDataStream upload_data_stream(element_readers.Pass(), 0); HttpRequestInfo request; request.method = "POST"; request.url = GURL("http://www.google.com/"); request.upload_data_stream = &upload_data_stream; NormalSpdyTransactionHelper helper(request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.SetDeterministic(); helper.RunPreTestSetup(); helper.AddDeterministicData(&data); HttpNetworkTransaction* trans = helper.trans(); TestCompletionCallback callback; int rv = trans->Start(&helper.request(), callback.callback(), BoundNetLog()); EXPECT_EQ(ERR_IO_PENDING, rv); data.RunFor(num_writes - 1); // Write as much as we can. SpdyHttpStream* stream = static_cast(trans->stream_.get()); ASSERT_TRUE(stream != NULL); ASSERT_TRUE(stream->stream() != NULL); EXPECT_EQ(0, stream->stream()->send_window_size()); // All the body data should have been read. // TODO(satorux): This is because of the weirdness in reading the request // body in OnSendBodyComplete(). See crbug.com/113107. EXPECT_TRUE(upload_data_stream.IsEOF()); // But the body is not yet fully sent (kUploadData is not yet sent) // since we're send-stalled. EXPECT_TRUE(stream->stream()->send_stalled_by_flow_control()); // Read in WINDOW_UPDATE or SETTINGS frame. data.RunFor((GetParam().protocol >= kProtoSPDY31) ? 9 : 8); rv = callback.WaitForResult(); helper.VerifyDataConsumed(); } class SpdyNetworkTransactionNoTLSUsageCheckTest : public SpdyNetworkTransactionTest { protected: void RunNoTLSUsageCheckTest(scoped_ptr ssl_provider) { // Construct the request. scoped_ptr req(spdy_util_.ConstructSpdyGet( "https://www.google.com/", false, 1, LOWEST)); MockWrite writes[] = {CreateMockWrite(*req)}; scoped_ptr resp(spdy_util_.ConstructSpdyGetSynReply(NULL, 0, 1)); scoped_ptr body(spdy_util_.ConstructSpdyBodyFrame(1, true)); MockRead reads[] = { CreateMockRead(*resp), CreateMockRead(*body), MockRead(ASYNC, 0, 0) // EOF }; DelayedSocketData data( 1, reads, arraysize(reads), writes, arraysize(writes)); HttpRequestInfo request; request.method = "GET"; request.url = GURL("https://www.google.com/"); NormalSpdyTransactionHelper helper( request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletionWithSSLData(&data, ssl_provider.Pass()); TransactionHelperResult out = helper.output(); EXPECT_EQ(OK, out.rv); EXPECT_EQ("HTTP/1.1 200 OK", out.status_line); EXPECT_EQ("hello!", out.response_data); } }; //----------------------------------------------------------------------------- // All tests are run with three different connection types: SPDY after NPN // negotiation, SPDY without SSL, and SPDY with SSL. // // TODO(akalin): Use ::testing::Combine() when we are able to use // . INSTANTIATE_TEST_CASE_P( Spdy, SpdyNetworkTransactionNoTLSUsageCheckTest, ::testing::Values(SpdyNetworkTransactionTestParams(kProtoDeprecatedSPDY2, SPDYNPN), SpdyNetworkTransactionTestParams(kProtoSPDY3, SPDYNPN), SpdyNetworkTransactionTestParams(kProtoSPDY31, SPDYNPN))); TEST_P(SpdyNetworkTransactionNoTLSUsageCheckTest, TLSVersionTooOld) { scoped_ptr ssl_provider( new SSLSocketDataProvider(ASYNC, OK)); SSLConnectionStatusSetVersion(SSL_CONNECTION_VERSION_SSL3, &ssl_provider->connection_status); RunNoTLSUsageCheckTest(ssl_provider.Pass()); } TEST_P(SpdyNetworkTransactionNoTLSUsageCheckTest, TLSCipherSuiteSucky) { scoped_ptr ssl_provider( new SSLSocketDataProvider(ASYNC, OK)); // Set to TLS_RSA_WITH_NULL_MD5 SSLConnectionStatusSetCipherSuite(0x1, &ssl_provider->connection_status); RunNoTLSUsageCheckTest(ssl_provider.Pass()); } class SpdyNetworkTransactionTLSUsageCheckTest : public SpdyNetworkTransactionTest { protected: void RunTLSUsageCheckTest(scoped_ptr ssl_provider) { // TODO(willchan): Fix crbug.com/375033 to send GOAWAYs. // scoped_ptr goaway(spdy_util_.ConstructSpdyGoAway()); // MockWrite writes[] = { // CreateMockWrite(*goaway) // }; // DelayedSocketData data(1, NULL, 0, writes, arraysize(writes)); DelayedSocketData data(1, NULL, 0, NULL, 0); HttpRequestInfo request; request.method = "GET"; request.url = GURL("https://www.google.com/"); NormalSpdyTransactionHelper helper( request, DEFAULT_PRIORITY, BoundNetLog(), GetParam(), NULL); helper.RunToCompletionWithSSLData(&data, ssl_provider.Pass()); TransactionHelperResult out = helper.output(); EXPECT_EQ(ERR_SPDY_INADEQUATE_TRANSPORT_SECURITY, out.rv); } }; INSTANTIATE_TEST_CASE_P( Spdy, SpdyNetworkTransactionTLSUsageCheckTest, ::testing::Values(SpdyNetworkTransactionTestParams(kProtoSPDY4, SPDYNPN))); TEST_P(SpdyNetworkTransactionTLSUsageCheckTest, TLSVersionTooOld) { scoped_ptr ssl_provider( new SSLSocketDataProvider(ASYNC, OK)); SSLConnectionStatusSetVersion(SSL_CONNECTION_VERSION_SSL3, &ssl_provider->connection_status); RunTLSUsageCheckTest(ssl_provider.Pass()); } TEST_P(SpdyNetworkTransactionTLSUsageCheckTest, TLSCipherSuiteSucky) { scoped_ptr ssl_provider( new SSLSocketDataProvider(ASYNC, OK)); // Set to TLS_RSA_WITH_NULL_MD5 SSLConnectionStatusSetCipherSuite(0x1, &ssl_provider->connection_status); RunTLSUsageCheckTest(ssl_provider.Pass()); } } // namespace net