// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/quic/quic_http_stream.h" #include #include "net/base/net_errors.h" #include "net/base/test_completion_callback.h" #include "net/base/upload_bytes_element_reader.h" #include "net/base/upload_data_stream.h" #include "net/http/http_response_headers.h" #include "net/quic/congestion_control/receive_algorithm_interface.h" #include "net/quic/congestion_control/send_algorithm_interface.h" #include "net/quic/quic_client_session.h" #include "net/quic/quic_connection.h" #include "net/quic/quic_connection_helper.h" #include "net/quic/test_tools/mock_clock.h" #include "net/quic/test_tools/quic_connection_peer.h" #include "net/quic/test_tools/quic_test_utils.h" #include "net/quic/test_tools/test_task_runner.h" #include "net/socket/socket_test_util.h" #include "net/spdy/spdy_frame_builder.h" #include "net/spdy/spdy_framer.h" #include "net/spdy/spdy_http_utils.h" #include "net/spdy/spdy_protocol.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" using testing::_; namespace net { namespace test { namespace { const char kUploadData[] = "hello world!"; class TestQuicConnection : public QuicConnection { public: TestQuicConnection(QuicGuid guid, IPEndPoint address, QuicConnectionHelper* helper) : QuicConnection(guid, address, helper) { } void SetSendAlgorithm(SendAlgorithmInterface* send_algorithm) { QuicConnectionPeer::SetSendAlgorithm(this, send_algorithm); } void SetReceiveAlgorithm(ReceiveAlgorithmInterface* receive_algorithm) { QuicConnectionPeer::SetReceiveAlgorithm(this, receive_algorithm); } }; class TestReceiveAlgorithm : public ReceiveAlgorithmInterface { public: explicit TestReceiveAlgorithm(QuicCongestionFeedbackFrame* feedback) : feedback_(feedback) { } bool GenerateCongestionFeedback( QuicCongestionFeedbackFrame* congestion_feedback) { if (feedback_ == NULL) { return false; } *congestion_feedback = *feedback_; return true; } MOCK_METHOD4(RecordIncomingPacket, void(QuicByteCount, QuicPacketSequenceNumber, QuicTime, bool)); private: MockClock clock_; QuicCongestionFeedbackFrame* feedback_; DISALLOW_COPY_AND_ASSIGN(TestReceiveAlgorithm); }; // Subclass of QuicHttpStream that closes itself when the first piece of data // is received. class AutoClosingStream : public QuicHttpStream { public: AutoClosingStream(QuicReliableClientStream* stream, bool use_spdy) : QuicHttpStream(stream, use_spdy) { } virtual int OnDataReceived(const char* data, int length) OVERRIDE { Close(false); return OK; } }; } // namespace class QuicHttpStreamTest : public ::testing::TestWithParam { protected: const static bool kFin = true; // Holds a packet to be written to the wire, and the IO mode that should // be used by the mock socket when performing the write. struct PacketToWrite { PacketToWrite(IoMode mode, QuicEncryptedPacket* packet) : mode(mode), packet(packet) { } IoMode mode; QuicEncryptedPacket* packet; }; QuicHttpStreamTest() : net_log_(BoundNetLog()), use_closing_stream_(false), read_buffer_(new IOBufferWithSize(4096)), guid_(2), framer_(QuicDecrypter::Create(kNULL), QuicEncrypter::Create(kNULL)), creator_(guid_, &framer_) { IPAddressNumber ip; CHECK(ParseIPLiteralToNumber("192.0.2.33", &ip)); peer_addr_ = IPEndPoint(ip, 443); self_addr_ = IPEndPoint(ip, 8435); // Do null initialization for simple tests. Initialize(); } ~QuicHttpStreamTest() { for (size_t i = 0; i < writes_.size(); i++) { delete writes_[i].packet; } } // Adds a packet to the list of expected writes. void AddWrite(IoMode mode, QuicEncryptedPacket* packet) { writes_.push_back(PacketToWrite(mode, packet)); } // Returns the packet to be written at position |pos|. QuicEncryptedPacket* GetWrite(size_t pos) { return writes_[pos].packet; } bool AtEof() { return socket_data_->at_read_eof() && socket_data_->at_write_eof(); } void ProcessPacket(const QuicEncryptedPacket& packet) { connection_->ProcessUdpPacket(self_addr_, peer_addr_, packet); } // Configures the test fixture to use the list of expected writes. void Initialize() { mock_writes_.reset(new MockWrite[writes_.size()]); for (size_t i = 0; i < writes_.size(); i++) { mock_writes_[i] = MockWrite(writes_[i].mode, writes_[i].packet->data(), writes_[i].packet->length()); }; socket_data_.reset(new StaticSocketDataProvider(NULL, 0, mock_writes_.get(), writes_.size())); MockUDPClientSocket* socket = new MockUDPClientSocket(socket_data_.get(), net_log_.net_log()); socket->Connect(peer_addr_); runner_ = new TestTaskRunner(&clock_); send_algorithm_ = new MockSendAlgorithm(); receive_algorithm_ = new TestReceiveAlgorithm(NULL); EXPECT_CALL(*send_algorithm_, TimeUntilSend(_)). WillRepeatedly(testing::Return(QuicTime::Delta::Zero())); helper_ = new QuicConnectionHelper(runner_.get(), &clock_, &random_generator_, socket); connection_ = new TestQuicConnection(guid_, peer_addr_, helper_); connection_->set_visitor(&visitor_); connection_->SetSendAlgorithm(send_algorithm_); connection_->SetReceiveAlgorithm(receive_algorithm_); session_.reset(new QuicClientSession(connection_, helper_, NULL, "www.google.com")); CryptoHandshakeMessage message; message.tag = kSHLO; session_->GetCryptoStream()->OnHandshakeMessage(message); EXPECT_TRUE(session_->IsCryptoHandshakeComplete()); QuicReliableClientStream* stream = session_->CreateOutgoingReliableStream(); stream_.reset(use_closing_stream_ ? new AutoClosingStream(stream, GetParam()) : new QuicHttpStream(stream, GetParam())); } void SetRequestString(const std::string& method, const std::string& path) { if (GetParam() == true) { SpdyHeaderBlock headers; headers[":method"] = method; headers[":host"] = "www.google.com"; headers[":path"] = path; headers[":scheme"] = "http"; headers[":version"] = "HTTP/1.1"; request_data_ = SerializeHeaderBlock(headers); } else { request_data_ = method + " " + path + " HTTP/1.1\r\n\r\n"; } } void SetResponseString(const std::string& status, const std::string& body) { if (GetParam() == true) { SpdyHeaderBlock headers; headers[":status"] = status; headers[":version"] = "HTTP/1.1"; headers["content-type"] = "text/plain"; response_data_ = SerializeHeaderBlock(headers) + body; } else { response_data_ = "HTTP/1.1 " + status + " \r\n" "Content-Type: text/plain\r\n\r\n" + body; } } std::string SerializeHeaderBlock(const SpdyHeaderBlock& headers) { size_t len = SpdyFramer::GetSerializedLength(3, &headers); SpdyFrameBuilder builder(len); SpdyFramer::WriteHeaderBlock(&builder, 3, &headers); scoped_ptr frame(builder.take()); return std::string(frame->data(), len); } // Returns a newly created packet to send kData on stream 1. QuicEncryptedPacket* ConstructDataPacket( QuicPacketSequenceNumber sequence_number, bool fin, QuicStreamOffset offset, base::StringPiece data) { InitializeHeader(sequence_number); QuicStreamFrame frame(3, fin, offset, data); return ConstructPacket(header_, QuicFrame(&frame)); } // Returns a newly created packet to send ack data. QuicEncryptedPacket* ConstructAckPacket( QuicPacketSequenceNumber sequence_number, QuicPacketSequenceNumber largest_received, QuicPacketSequenceNumber least_unacked) { InitializeHeader(sequence_number); QuicAckFrame ack(largest_received, least_unacked); return ConstructPacket(header_, QuicFrame(&ack)); } // Returns a newly created packet to send ack data. QuicEncryptedPacket* ConstructRstPacket( QuicPacketSequenceNumber sequence_number, QuicStreamId stream_id, QuicStreamOffset offset) { InitializeHeader(sequence_number); QuicRstStreamFrame rst(stream_id, offset, QUIC_NO_ERROR); return ConstructPacket(header_, QuicFrame(&rst)); } BoundNetLog net_log_; bool use_closing_stream_; MockSendAlgorithm* send_algorithm_; TestReceiveAlgorithm* receive_algorithm_; scoped_refptr runner_; scoped_array mock_writes_; MockClock clock_; MockRandom random_generator_; TestQuicConnection* connection_; QuicConnectionHelper* helper_; testing::StrictMock visitor_; scoped_ptr stream_; scoped_ptr session_; TestCompletionCallback callback_; HttpRequestInfo request_; HttpRequestHeaders headers_; HttpResponseInfo response_; scoped_refptr read_buffer_; std::string request_data_; std::string response_data_; private: void InitializeHeader(QuicPacketSequenceNumber sequence_number) { header_.public_header.guid = guid_; header_.public_header.flags = PACKET_PUBLIC_FLAGS_NONE; header_.packet_sequence_number = sequence_number; header_.fec_group = 0; header_.private_flags = PACKET_PRIVATE_FLAGS_NONE; } QuicEncryptedPacket* ConstructPacket(const QuicPacketHeader& header, const QuicFrame& frame) { QuicFrames frames; frames.push_back(frame); scoped_ptr packet( framer_.ConstructFrameDataPacket(header_, frames)); return framer_.EncryptPacket(*packet); } const QuicGuid guid_; QuicFramer framer_; IPEndPoint self_addr_; IPEndPoint peer_addr_; QuicPacketCreator creator_; QuicPacketHeader header_; scoped_ptr socket_data_; std::vector writes_; }; // All tests are run with two different serializations, HTTP/SPDY INSTANTIATE_TEST_CASE_P(QuicHttpStreamTests, QuicHttpStreamTest, ::testing::Values(true, false)); TEST_P(QuicHttpStreamTest, RenewStreamForAuth) { EXPECT_EQ(NULL, stream_->RenewStreamForAuth()); } TEST_P(QuicHttpStreamTest, CanFindEndOfResponse) { EXPECT_TRUE(stream_->CanFindEndOfResponse()); } TEST_P(QuicHttpStreamTest, IsMoreDataBuffered) { EXPECT_FALSE(stream_->IsMoreDataBuffered()); } TEST_P(QuicHttpStreamTest, IsConnectionReusable) { EXPECT_FALSE(stream_->IsConnectionReusable()); } TEST_P(QuicHttpStreamTest, GetRequest) { SetRequestString("GET", "/"); AddWrite(SYNCHRONOUS, ConstructDataPacket(1, kFin, 0, request_data_)); AddWrite(SYNCHRONOUS, ConstructAckPacket(2, 2, 2)); Initialize(); request_.method = "GET"; request_.url = GURL("http://www.google.com/"); EXPECT_EQ(OK, stream_->InitializeStream(&request_, net_log_, callback_.callback())); EXPECT_EQ(OK, stream_->SendRequest(headers_, &response_, callback_.callback())); EXPECT_EQ(&response_, stream_->GetResponseInfo()); // Ack the request. scoped_ptr ack(ConstructAckPacket(1, 1, 1)); ProcessPacket(*ack); EXPECT_EQ(ERR_IO_PENDING, stream_->ReadResponseHeaders(callback_.callback())); // Send the response without a body. SetResponseString("404 Not Found", ""); scoped_ptr resp( ConstructDataPacket(2, kFin, 0, response_data_)); ProcessPacket(*resp); // Now that the headers have been processed, the callback will return. EXPECT_EQ(OK, callback_.WaitForResult()); ASSERT_TRUE(response_.headers != NULL); EXPECT_EQ(404, response_.headers->response_code()); EXPECT_TRUE(response_.headers->HasHeaderValue("Content-Type", "text/plain")); // There is no body, so this should return immediately. EXPECT_EQ(0, stream_->ReadResponseBody(read_buffer_.get(), read_buffer_->size(), callback_.callback())); EXPECT_TRUE(stream_->IsResponseBodyComplete()); EXPECT_TRUE(AtEof()); } TEST_P(QuicHttpStreamTest, GetRequestFullResponseInSinglePacket) { SetRequestString("GET", "/"); AddWrite(SYNCHRONOUS, ConstructDataPacket(1, kFin, 0, request_data_)); AddWrite(SYNCHRONOUS, ConstructAckPacket(2, 2, 2)); Initialize(); request_.method = "GET"; request_.url = GURL("http://www.google.com/"); EXPECT_EQ(OK, stream_->InitializeStream(&request_, net_log_, callback_.callback())); EXPECT_EQ(OK, stream_->SendRequest(headers_, &response_, callback_.callback())); EXPECT_EQ(&response_, stream_->GetResponseInfo()); // Ack the request. scoped_ptr ack(ConstructAckPacket(1, 1, 1)); ProcessPacket(*ack); EXPECT_EQ(ERR_IO_PENDING, stream_->ReadResponseHeaders(callback_.callback())); // Send the response with a body. SetResponseString("200 OK", "hello world!"); scoped_ptr resp( ConstructDataPacket(2, kFin, 0, response_data_)); ProcessPacket(*resp); // Now that the headers have been processed, the callback will return. EXPECT_EQ(OK, callback_.WaitForResult()); ASSERT_TRUE(response_.headers != NULL); EXPECT_EQ(200, response_.headers->response_code()); EXPECT_TRUE(response_.headers->HasHeaderValue("Content-Type", "text/plain")); // There is no body, so this should return immediately. // Since the body has already arrived, this should return immediately. EXPECT_EQ(12, stream_->ReadResponseBody(read_buffer_.get(), read_buffer_->size(), callback_.callback())); EXPECT_TRUE(stream_->IsResponseBodyComplete()); EXPECT_TRUE(AtEof()); } TEST_P(QuicHttpStreamTest, SendPostRequest) { SetRequestString("POST", "/"); AddWrite(SYNCHRONOUS, ConstructDataPacket(1, !kFin, 0, request_data_)); AddWrite(SYNCHRONOUS, ConstructDataPacket(2, kFin, request_data_.length(), kUploadData)); AddWrite(SYNCHRONOUS, ConstructAckPacket(3, 2, 3)); Initialize(); ScopedVector element_readers; element_readers.push_back( new UploadBytesElementReader(kUploadData, strlen(kUploadData))); UploadDataStream upload_data_stream(&element_readers, 0); request_.method = "POST"; request_.url = GURL("http://www.google.com/"); request_.upload_data_stream = &upload_data_stream; ASSERT_EQ(OK, request_.upload_data_stream->Init(CompletionCallback())); EXPECT_EQ(OK, stream_->InitializeStream(&request_, net_log_, callback_.callback())); EXPECT_EQ(OK, stream_->SendRequest(headers_, &response_, callback_.callback())); EXPECT_EQ(&response_, stream_->GetResponseInfo()); // Ack both packets in the request. scoped_ptr ack(ConstructAckPacket(1, 2, 1)); ProcessPacket(*ack); // Send the response headers (but not the body). SetResponseString("200 OK", ""); scoped_ptr resp( ConstructDataPacket(2, !kFin, 0, response_data_)); ProcessPacket(*resp); // Since the headers have already arrived, this should return immediately. EXPECT_EQ(OK, stream_->ReadResponseHeaders(callback_.callback())); ASSERT_TRUE(response_.headers != NULL); EXPECT_EQ(200, response_.headers->response_code()); EXPECT_TRUE(response_.headers->HasHeaderValue("Content-Type", "text/plain")); // Send the response body. const char kResponseBody[] = "Hello world!"; scoped_ptr resp_body( ConstructDataPacket(3, kFin, response_data_.length(), kResponseBody)); ProcessPacket(*resp_body); // Since the body has already arrived, this should return immediately. EXPECT_EQ(static_cast(strlen(kResponseBody)), stream_->ReadResponseBody(read_buffer_.get(), read_buffer_->size(), callback_.callback())); EXPECT_TRUE(stream_->IsResponseBodyComplete()); EXPECT_TRUE(AtEof()); } TEST_P(QuicHttpStreamTest, DestroyedEarly) { SetRequestString("GET", "/"); AddWrite(SYNCHRONOUS, ConstructDataPacket(1, kFin, 0, request_data_)); AddWrite(SYNCHRONOUS, ConstructRstPacket(2, 3, request_data_.length())); AddWrite(SYNCHRONOUS, ConstructAckPacket(3, 2, 2)); use_closing_stream_ = true; Initialize(); request_.method = "GET"; request_.url = GURL("http://www.google.com/"); EXPECT_EQ(OK, stream_->InitializeStream(&request_, net_log_, callback_.callback())); EXPECT_EQ(OK, stream_->SendRequest(headers_, &response_, callback_.callback())); EXPECT_EQ(&response_, stream_->GetResponseInfo()); // Ack the request. scoped_ptr ack(ConstructAckPacket(1, 1, 1)); ProcessPacket(*ack); EXPECT_EQ(ERR_IO_PENDING, stream_->ReadResponseHeaders(callback_.callback())); // Send the response with a body. const char kResponseHeaders[] = "HTTP/1.1 404 OK\r\n" "Content-Type: text/plain\r\n\r\nhello world!"; scoped_ptr resp( ConstructDataPacket(2, kFin, 0, kResponseHeaders)); // In the course of processing this packet, the QuicHttpStream close itself. ProcessPacket(*resp); EXPECT_TRUE(AtEof()); } } // namespace test } // namespace net