// 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/spdy/spdy_proxy_client_socket.h" #include "base/bind.h" #include "base/bind_helpers.h" #include "base/strings/utf_string_conversions.h" #include "net/base/address_list.h" #include "net/base/capturing_net_log.h" #include "net/base/net_log.h" #include "net/base/net_log_unittest.h" #include "net/base/test_completion_callback.h" #include "net/base/winsock_init.h" #include "net/dns/mock_host_resolver.h" #include "net/http/http_response_headers.h" #include "net/http/http_response_info.h" #include "net/socket/client_socket_factory.h" #include "net/socket/next_proto.h" #include "net/socket/socket_test_util.h" #include "net/socket/tcp_client_socket.h" #include "net/spdy/buffered_spdy_framer.h" #include "net/spdy/spdy_http_utils.h" #include "net/spdy/spdy_protocol.h" #include "net/spdy/spdy_session_pool.h" #include "net/spdy/spdy_test_util_common.h" #include "testing/gtest/include/gtest/gtest.h" #include "testing/platform_test.h" //----------------------------------------------------------------------------- namespace { static const char kRequestUrl[] = "https://www.google.com/"; static const char kOriginHost[] = "www.google.com"; static const int kOriginPort = 443; static const char kOriginHostPort[] = "www.google.com:443"; static const char kProxyUrl[] = "https://myproxy:6121/"; static const char kProxyHost[] = "myproxy"; static const int kProxyPort = 6121; static const char kUserAgent[] = "Mozilla/1.0"; static const int kStreamId = 1; static const char kMsg1[] = "\0hello!\xff"; static const int kLen1 = 8; static const char kMsg2[] = "\00012345678\0"; static const int kLen2 = 10; static const char kMsg3[] = "bye!"; static const int kLen3 = 4; static const char kMsg33[] = "bye!bye!"; static const int kLen33 = kLen3 + kLen3; static const char kMsg333[] = "bye!bye!bye!"; static const int kLen333 = kLen3 + kLen3 + kLen3; static const char kRedirectUrl[] = "https://example.com/"; } // anonymous namespace namespace net { class SpdyProxyClientSocketTest : public PlatformTest, public testing::WithParamInterface { public: SpdyProxyClientSocketTest(); virtual void TearDown(); protected: void Initialize(MockRead* reads, size_t reads_count, MockWrite* writes, size_t writes_count); SpdyFrame* ConstructConnectRequestFrame(); SpdyFrame* ConstructConnectAuthRequestFrame(); SpdyFrame* ConstructConnectReplyFrame(); SpdyFrame* ConstructConnectAuthReplyFrame(); SpdyFrame* ConstructConnectRedirectReplyFrame(); SpdyFrame* ConstructConnectErrorReplyFrame(); SpdyFrame* ConstructBodyFrame(const char* data, int length); scoped_refptr CreateBuffer(const char* data, int size); void AssertConnectSucceeds(); void AssertConnectFails(int result); void AssertConnectionEstablished(); void AssertSyncReadEquals(const char* data, int len); void AssertAsyncReadEquals(const char* data, int len); void AssertReadStarts(const char* data, int len); void AssertReadReturns(const char* data, int len); void AssertAsyncWriteSucceeds(const char* data, int len); void AssertWriteReturns(const char* data, int len, int rv); void AssertWriteLength(int len); void AssertAsyncWriteWithReadsSucceeds(const char* data, int len, int num_reads); void AddAuthToCache() { const base::string16 kFoo(ASCIIToUTF16("foo")); const base::string16 kBar(ASCIIToUTF16("bar")); session_->http_auth_cache()->Add(GURL(kProxyUrl), "MyRealm1", HttpAuth::AUTH_SCHEME_BASIC, "Basic realm=MyRealm1", AuthCredentials(kFoo, kBar), "/"); } void Run(int steps) { data_->StopAfter(steps); data_->Run(); } void CloseSpdySession(net::Error error, const std::string& description) { spdy_session_->CloseSessionOnError(error, description); } SpdyTestUtil spdy_util_; scoped_ptr sock_; TestCompletionCallback read_callback_; TestCompletionCallback write_callback_; scoped_ptr data_; CapturingBoundNetLog net_log_; private: scoped_refptr session_; scoped_refptr read_buf_; SpdySessionDependencies session_deps_; MockConnect connect_data_; base::WeakPtr spdy_session_; BufferedSpdyFramer framer_; std::string user_agent_; GURL url_; HostPortPair proxy_host_port_; HostPortPair endpoint_host_port_pair_; ProxyServer proxy_; SpdySessionKey endpoint_spdy_session_key_; DISALLOW_COPY_AND_ASSIGN(SpdyProxyClientSocketTest); }; INSTANTIATE_TEST_CASE_P( NextProto, SpdyProxyClientSocketTest, testing::Values(kProtoDeprecatedSPDY2, kProtoSPDY3, kProtoSPDY31, kProtoSPDY4a2, kProtoHTTP2Draft04)); SpdyProxyClientSocketTest::SpdyProxyClientSocketTest() : spdy_util_(GetParam()), session_(NULL), read_buf_(NULL), session_deps_(GetParam()), connect_data_(SYNCHRONOUS, OK), framer_(spdy_util_.spdy_version(), false), user_agent_(kUserAgent), url_(kRequestUrl), proxy_host_port_(kProxyHost, kProxyPort), endpoint_host_port_pair_(kOriginHost, kOriginPort), proxy_(ProxyServer::SCHEME_HTTPS, proxy_host_port_), endpoint_spdy_session_key_(endpoint_host_port_pair_, proxy_, kPrivacyModeDisabled) { session_deps_.net_log = net_log_.bound().net_log(); } void SpdyProxyClientSocketTest::TearDown() { sock_.reset(NULL); if (session_.get() != NULL) session_->spdy_session_pool()->CloseAllSessions(); // Empty the current queue. base::MessageLoop::current()->RunUntilIdle(); PlatformTest::TearDown(); } void SpdyProxyClientSocketTest::Initialize(MockRead* reads, size_t reads_count, MockWrite* writes, size_t writes_count) { data_.reset(new DeterministicSocketData(reads, reads_count, writes, writes_count)); data_->set_connect_data(connect_data_); data_->SetStop(2); session_deps_.deterministic_socket_factory->AddSocketDataProvider( data_.get()); session_deps_.host_resolver->set_synchronous_mode(true); session_ = SpdySessionDependencies::SpdyCreateSessionDeterministic( &session_deps_); // Creates the SPDY session and stream. spdy_session_ = CreateInsecureSpdySession( session_, endpoint_spdy_session_key_, BoundNetLog()); base::WeakPtr spdy_stream( CreateStreamSynchronously( SPDY_BIDIRECTIONAL_STREAM, spdy_session_, url_, LOWEST, net_log_.bound())); ASSERT_TRUE(spdy_stream.get() != NULL); // Create the SpdyProxyClientSocket. sock_.reset( new SpdyProxyClientSocket(spdy_stream, user_agent_, endpoint_host_port_pair_, url_, proxy_host_port_, net_log_.bound(), session_->http_auth_cache(), session_->http_auth_handler_factory())); } scoped_refptr SpdyProxyClientSocketTest::CreateBuffer( const char* data, int size) { scoped_refptr buf(new IOBufferWithSize(size)); memcpy(buf->data(), data, size); return buf; } void SpdyProxyClientSocketTest::AssertConnectSucceeds() { ASSERT_EQ(ERR_IO_PENDING, sock_->Connect(read_callback_.callback())); data_->Run(); ASSERT_EQ(OK, read_callback_.WaitForResult()); } void SpdyProxyClientSocketTest::AssertConnectFails(int result) { ASSERT_EQ(ERR_IO_PENDING, sock_->Connect(read_callback_.callback())); data_->Run(); ASSERT_EQ(result, read_callback_.WaitForResult()); } void SpdyProxyClientSocketTest::AssertConnectionEstablished() { const HttpResponseInfo* response = sock_->GetConnectResponseInfo(); ASSERT_TRUE(response != NULL); ASSERT_EQ(200, response->headers->response_code()); ASSERT_EQ("Connection Established", response->headers->GetStatusText()); } void SpdyProxyClientSocketTest::AssertSyncReadEquals(const char* data, int len) { scoped_refptr buf(new IOBuffer(len)); ASSERT_EQ(len, sock_->Read(buf.get(), len, CompletionCallback())); ASSERT_EQ(std::string(data, len), std::string(buf->data(), len)); ASSERT_TRUE(sock_->IsConnected()); } void SpdyProxyClientSocketTest::AssertAsyncReadEquals(const char* data, int len) { data_->StopAfter(1); // Issue the read, which will be completed asynchronously scoped_refptr buf(new IOBuffer(len)); ASSERT_EQ(ERR_IO_PENDING, sock_->Read(buf.get(), len, read_callback_.callback())); EXPECT_TRUE(sock_->IsConnected()); data_->Run(); EXPECT_TRUE(sock_->IsConnected()); // Now the read will return EXPECT_EQ(len, read_callback_.WaitForResult()); ASSERT_EQ(std::string(data, len), std::string(buf->data(), len)); } void SpdyProxyClientSocketTest::AssertReadStarts(const char* data, int len) { data_->StopAfter(1); // Issue the read, which will be completed asynchronously read_buf_ = new IOBuffer(len); ASSERT_EQ(ERR_IO_PENDING, sock_->Read(read_buf_.get(), len, read_callback_.callback())); EXPECT_TRUE(sock_->IsConnected()); } void SpdyProxyClientSocketTest::AssertReadReturns(const char* data, int len) { EXPECT_TRUE(sock_->IsConnected()); // Now the read will return EXPECT_EQ(len, read_callback_.WaitForResult()); ASSERT_EQ(std::string(data, len), std::string(read_buf_->data(), len)); } void SpdyProxyClientSocketTest::AssertAsyncWriteSucceeds(const char* data, int len) { AssertWriteReturns(data, len, ERR_IO_PENDING); data_->RunFor(1); AssertWriteLength(len); } void SpdyProxyClientSocketTest::AssertWriteReturns(const char* data, int len, int rv) { scoped_refptr buf(CreateBuffer(data, len)); EXPECT_EQ(rv, sock_->Write(buf.get(), buf->size(), write_callback_.callback())); } void SpdyProxyClientSocketTest::AssertWriteLength(int len) { EXPECT_EQ(len, write_callback_.WaitForResult()); } void SpdyProxyClientSocketTest::AssertAsyncWriteWithReadsSucceeds( const char* data, int len, int num_reads) { scoped_refptr buf(CreateBuffer(data, len)); EXPECT_EQ(ERR_IO_PENDING, sock_->Write(buf.get(), buf->size(), write_callback_.callback())); for (int i = 0; i < num_reads; i++) { Run(1); AssertSyncReadEquals(kMsg2, kLen2); } write_callback_.WaitForResult(); } // Constructs a standard SPDY SYN_STREAM frame for a CONNECT request. SpdyFrame* SpdyProxyClientSocketTest::ConstructConnectRequestFrame() { const SpdyHeaderInfo kSynStartHeader = { SYN_STREAM, kStreamId, 0, net::ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), 0, CONTROL_FLAG_NONE, false, RST_STREAM_INVALID, NULL, 0, DATA_FLAG_NONE }; bool spdy2 = spdy_util_.is_spdy2(); const char* const kConnectHeaders[] = { spdy2 ? "method" : ":method", "CONNECT", spdy2 ? "url" : ":path", kOriginHostPort, spdy2 ? "host" : ":host", kOriginHost, "user-agent", kUserAgent, spdy2 ? "version" : ":version", "HTTP/1.1", }; return spdy_util_.ConstructSpdyFrame( kSynStartHeader, NULL, 0, kConnectHeaders, arraysize(kConnectHeaders)/2); } // Constructs a SPDY SYN_STREAM frame for a CONNECT request which includes // Proxy-Authorization headers. SpdyFrame* SpdyProxyClientSocketTest::ConstructConnectAuthRequestFrame() { const SpdyHeaderInfo kSynStartHeader = { SYN_STREAM, kStreamId, 0, net::ConvertRequestPriorityToSpdyPriority( LOWEST, spdy_util_.spdy_version()), 0, CONTROL_FLAG_NONE, false, RST_STREAM_INVALID, NULL, 0, DATA_FLAG_NONE }; bool spdy2 = spdy_util_.is_spdy2(); const char* const kConnectHeaders[] = { spdy2 ? "method" : ":method", "CONNECT", spdy2 ? "url" : ":path", kOriginHostPort, spdy2 ? "host" : ":host", kOriginHost, "user-agent", kUserAgent, spdy2 ? "version" : ":version", "HTTP/1.1", "proxy-authorization", "Basic Zm9vOmJhcg==", }; return spdy_util_.ConstructSpdyFrame( kSynStartHeader, NULL, 0, kConnectHeaders, arraysize(kConnectHeaders)/2); } // Constructs a standard SPDY SYN_REPLY frame to match the SPDY CONNECT. SpdyFrame* SpdyProxyClientSocketTest::ConstructConnectReplyFrame() { bool spdy2 = spdy_util_.is_spdy2(); const char* const kStandardReplyHeaders[] = { spdy2 ? "status" : ":status", "200 Connection Established", spdy2 ? "version" : ":version", "HTTP/1.1" }; return spdy_util_.ConstructSpdyControlFrame(NULL, 0, false, kStreamId, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, kStandardReplyHeaders, arraysize(kStandardReplyHeaders), 0); } // Constructs a standard SPDY SYN_REPLY frame to match the SPDY CONNECT. SpdyFrame* SpdyProxyClientSocketTest::ConstructConnectAuthReplyFrame() { bool spdy2 = spdy_util_.is_spdy2(); const char* const kStandardReplyHeaders[] = { spdy2 ? "status" : ":status", "407 Proxy Authentication Required", spdy2 ? "version" : ":version", "HTTP/1.1", "proxy-authenticate", "Basic realm=\"MyRealm1\"", }; return spdy_util_.ConstructSpdyControlFrame(NULL, 0, false, kStreamId, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, kStandardReplyHeaders, arraysize(kStandardReplyHeaders), 0); } // Constructs a SPDY SYN_REPLY frame with an HTTP 302 redirect. SpdyFrame* SpdyProxyClientSocketTest::ConstructConnectRedirectReplyFrame() { bool spdy2 = spdy_util_.is_spdy2(); const char* const kStandardReplyHeaders[] = { spdy2 ? "status" : ":status", "302 Found", spdy2 ? "version" : ":version", "HTTP/1.1", "location", kRedirectUrl, "set-cookie", "foo=bar" }; return spdy_util_.ConstructSpdyControlFrame(NULL, 0, false, kStreamId, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, kStandardReplyHeaders, arraysize(kStandardReplyHeaders), 0); } // Constructs a SPDY SYN_REPLY frame with an HTTP 500 error. SpdyFrame* SpdyProxyClientSocketTest::ConstructConnectErrorReplyFrame() { bool spdy2 = spdy_util_.is_spdy2(); const char* const kStandardReplyHeaders[] = { spdy2 ? "status" : ":status", "500 Internal Server Error", spdy2 ? "version" : ":version", "HTTP/1.1", }; return spdy_util_.ConstructSpdyControlFrame(NULL, 0, false, kStreamId, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, kStandardReplyHeaders, arraysize(kStandardReplyHeaders), 0); } SpdyFrame* SpdyProxyClientSocketTest::ConstructBodyFrame( const char* data, int length) { return framer_.CreateDataFrame(kStreamId, data, length, DATA_FLAG_NONE); } // ----------- Connect TEST_P(SpdyProxyClientSocketTest, ConnectSendsCorrectRequest) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); ASSERT_FALSE(sock_->IsConnected()); AssertConnectSucceeds(); AssertConnectionEstablished(); } TEST_P(SpdyProxyClientSocketTest, ConnectWithAuthRequested) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectAuthReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectFails(ERR_PROXY_AUTH_REQUESTED); const HttpResponseInfo* response = sock_->GetConnectResponseInfo(); ASSERT_TRUE(response != NULL); ASSERT_EQ(407, response->headers->response_code()); ASSERT_EQ("Proxy Authentication Required", response->headers->GetStatusText()); } TEST_P(SpdyProxyClientSocketTest, ConnectWithAuthCredentials) { scoped_ptr conn(ConstructConnectAuthRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AddAuthToCache(); AssertConnectSucceeds(); AssertConnectionEstablished(); } TEST_P(SpdyProxyClientSocketTest, ConnectRedirects) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectRedirectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectFails(ERR_HTTPS_PROXY_TUNNEL_RESPONSE); const HttpResponseInfo* response = sock_->GetConnectResponseInfo(); ASSERT_TRUE(response != NULL); const HttpResponseHeaders* headers = response->headers.get(); ASSERT_EQ(302, headers->response_code()); ASSERT_FALSE(headers->HasHeader("set-cookie")); ASSERT_TRUE(headers->HasHeaderValue("content-length", "0")); std::string location; ASSERT_TRUE(headers->IsRedirect(&location)); ASSERT_EQ(location, kRedirectUrl); } TEST_P(SpdyProxyClientSocketTest, ConnectFails) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { MockRead(ASYNC, 0, 1), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); ASSERT_FALSE(sock_->IsConnected()); AssertConnectFails(ERR_CONNECTION_CLOSED); ASSERT_FALSE(sock_->IsConnected()); } // ----------- WasEverUsed TEST_P(SpdyProxyClientSocketTest, WasEverUsedReturnsCorrectValues) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); EXPECT_FALSE(sock_->WasEverUsed()); AssertConnectSucceeds(); EXPECT_TRUE(sock_->WasEverUsed()); sock_->Disconnect(); EXPECT_TRUE(sock_->WasEverUsed()); } // ----------- GetPeerAddress TEST_P(SpdyProxyClientSocketTest, GetPeerAddressReturnsCorrectValues) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); net::IPEndPoint addr; EXPECT_EQ(ERR_SOCKET_NOT_CONNECTED, sock_->GetPeerAddress(&addr)); AssertConnectSucceeds(); EXPECT_TRUE(sock_->IsConnected()); EXPECT_EQ(OK, sock_->GetPeerAddress(&addr)); Run(1); EXPECT_FALSE(sock_->IsConnected()); EXPECT_EQ(ERR_SOCKET_NOT_CONNECTED, sock_->GetPeerAddress(&addr)); sock_->Disconnect(); EXPECT_EQ(ERR_SOCKET_NOT_CONNECTED, sock_->GetPeerAddress(&addr)); } // ----------- Write TEST_P(SpdyProxyClientSocketTest, WriteSendsDataInDataFrame) { scoped_ptr conn(ConstructConnectRequestFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), CreateMockWrite(*msg1, 2, SYNCHRONOUS), CreateMockWrite(*msg2, 3, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 4), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); AssertAsyncWriteSucceeds(kMsg1, kLen1); AssertAsyncWriteSucceeds(kMsg2, kLen2); } TEST_P(SpdyProxyClientSocketTest, WriteSplitsLargeDataIntoMultipleFrames) { std::string chunk_data(kMaxSpdyFrameChunkSize, 'x'); scoped_ptr conn(ConstructConnectRequestFrame()); scoped_ptr chunk(ConstructBodyFrame(chunk_data.data(), chunk_data.length())); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), CreateMockWrite(*chunk, 2, SYNCHRONOUS), CreateMockWrite(*chunk, 3, SYNCHRONOUS), CreateMockWrite(*chunk, 4, SYNCHRONOUS) }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 5), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); std::string big_data(kMaxSpdyFrameChunkSize * 3, 'x'); scoped_refptr buf(CreateBuffer(big_data.data(), big_data.length())); EXPECT_EQ(ERR_IO_PENDING, sock_->Write(buf.get(), buf->size(), write_callback_.callback())); data_->RunFor(3); EXPECT_EQ(buf->size(), write_callback_.WaitForResult()); } // ----------- Read TEST_P(SpdyProxyClientSocketTest, ReadReadsDataInDataFrame) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), MockRead(ASYNC, 0, 3), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(1); // SpdySession consumes the next read and sends it to // sock_ to be buffered. AssertSyncReadEquals(kMsg1, kLen1); } TEST_P(SpdyProxyClientSocketTest, ReadDataFromBufferedFrames) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), CreateMockRead(*msg2, 3, ASYNC), MockRead(ASYNC, 0, 4), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(1); // SpdySession consumes the next read and sends it to // sock_ to be buffered. AssertSyncReadEquals(kMsg1, kLen1); Run(1); // SpdySession consumes the next read and sends it to // sock_ to be buffered. AssertSyncReadEquals(kMsg2, kLen2); } TEST_P(SpdyProxyClientSocketTest, ReadDataMultipleBufferedFrames) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), CreateMockRead(*msg2, 3, ASYNC), MockRead(ASYNC, 0, 4), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(2); // SpdySession consumes the next two reads and sends then to // sock_ to be buffered. AssertSyncReadEquals(kMsg1, kLen1); AssertSyncReadEquals(kMsg2, kLen2); } TEST_P(SpdyProxyClientSocketTest, LargeReadWillMergeDataFromDifferentFrames) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg3(ConstructBodyFrame(kMsg3, kLen3)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg3, 2, ASYNC), CreateMockRead(*msg3, 3, ASYNC), MockRead(ASYNC, 0, 4), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(2); // SpdySession consumes the next two reads and sends then to // sock_ to be buffered. // The payload from two data frames, each with kMsg3 will be combined // together into a single read(). AssertSyncReadEquals(kMsg33, kLen33); } TEST_P(SpdyProxyClientSocketTest, MultipleShortReadsThenMoreRead) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg3(ConstructBodyFrame(kMsg3, kLen3)); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), CreateMockRead(*msg3, 3, ASYNC), CreateMockRead(*msg3, 4, ASYNC), CreateMockRead(*msg2, 5, ASYNC), MockRead(ASYNC, 0, 6), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(4); // SpdySession consumes the next four reads and sends then to // sock_ to be buffered. AssertSyncReadEquals(kMsg1, kLen1); // The payload from two data frames, each with kMsg3 will be combined // together into a single read(). AssertSyncReadEquals(kMsg33, kLen33); AssertSyncReadEquals(kMsg2, kLen2); } TEST_P(SpdyProxyClientSocketTest, ReadWillSplitDataFromLargeFrame) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg33(ConstructBodyFrame(kMsg33, kLen33)); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), CreateMockRead(*msg33, 3, ASYNC), MockRead(ASYNC, 0, 4), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(2); // SpdySession consumes the next two reads and sends then to // sock_ to be buffered. AssertSyncReadEquals(kMsg1, kLen1); // The payload from the single large data frame will be read across // two different reads. AssertSyncReadEquals(kMsg3, kLen3); AssertSyncReadEquals(kMsg3, kLen3); } TEST_P(SpdyProxyClientSocketTest, MultipleReadsFromSameLargeFrame) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg333(ConstructBodyFrame(kMsg333, kLen333)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg333, 2, ASYNC), MockRead(ASYNC, 0, 3), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(1); // SpdySession consumes the next read and sends it to // sock_ to be buffered. // The payload from the single large data frame will be read across // two different reads. AssertSyncReadEquals(kMsg33, kLen33); // Now attempt to do a read of more data than remains buffered scoped_refptr buf(new IOBuffer(kLen33)); ASSERT_EQ(kLen3, sock_->Read(buf.get(), kLen33, read_callback_.callback())); ASSERT_EQ(std::string(kMsg3, kLen3), std::string(buf->data(), kLen3)); ASSERT_TRUE(sock_->IsConnected()); } TEST_P(SpdyProxyClientSocketTest, ReadAuthResponseBody) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectAuthReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), CreateMockRead(*msg2, 3, ASYNC), MockRead(ASYNC, 0, 4), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectFails(ERR_PROXY_AUTH_REQUESTED); Run(2); // SpdySession consumes the next two reads and sends then to // sock_ to be buffered. AssertSyncReadEquals(kMsg1, kLen1); AssertSyncReadEquals(kMsg2, kLen2); } TEST_P(SpdyProxyClientSocketTest, ReadErrorResponseBody) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectErrorReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), CreateMockRead(*msg2, 3, ASYNC), MockRead(ASYNC, 0, 4), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectFails(ERR_TUNNEL_CONNECTION_FAILED); } // ----------- Reads and Writes TEST_P(SpdyProxyClientSocketTest, AsyncReadAroundWrite) { scoped_ptr conn(ConstructConnectRequestFrame()); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), CreateMockWrite(*msg2, 3, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg3(ConstructBodyFrame(kMsg3, kLen3)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), // sync read CreateMockRead(*msg3, 4, ASYNC), // async read MockRead(ASYNC, 0, 5), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(1); AssertSyncReadEquals(kMsg1, kLen1); AssertReadStarts(kMsg3, kLen3); // Read should block until after the write succeeds AssertAsyncWriteSucceeds(kMsg2, kLen2); // Runs 1 step ASSERT_FALSE(read_callback_.have_result()); Run(1); // Now the read will return AssertReadReturns(kMsg3, kLen3); } TEST_P(SpdyProxyClientSocketTest, AsyncWriteAroundReads) { scoped_ptr conn(ConstructConnectRequestFrame()); scoped_ptr msg2(ConstructBodyFrame(kMsg2, kLen2)); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), CreateMockWrite(*msg2, 4, ASYNC), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); scoped_ptr msg3(ConstructBodyFrame(kMsg3, kLen3)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), CreateMockRead(*msg3, 3, ASYNC), MockRead(ASYNC, 0, 5), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(1); AssertSyncReadEquals(kMsg1, kLen1); // Write should block until the read completes AssertWriteReturns(kMsg2, kLen2, ERR_IO_PENDING); AssertAsyncReadEquals(kMsg3, kLen3); ASSERT_FALSE(write_callback_.have_result()); // Now the write will complete Run(1); AssertWriteLength(kLen2); } // ----------- Reading/Writing on Closed socket // Reading from an already closed socket should return 0 TEST_P(SpdyProxyClientSocketTest, ReadOnClosedSocketReturnsZero) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(1); ASSERT_FALSE(sock_->IsConnected()); ASSERT_EQ(0, sock_->Read(NULL, 1, CompletionCallback())); ASSERT_EQ(0, sock_->Read(NULL, 1, CompletionCallback())); ASSERT_EQ(0, sock_->Read(NULL, 1, CompletionCallback())); ASSERT_FALSE(sock_->IsConnectedAndIdle()); } // Read pending when socket is closed should return 0 TEST_P(SpdyProxyClientSocketTest, PendingReadOnCloseReturnsZero) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); AssertReadStarts(kMsg1, kLen1); Run(1); ASSERT_EQ(0, read_callback_.WaitForResult()); } // Reading from a disconnected socket is an error TEST_P(SpdyProxyClientSocketTest, ReadOnDisconnectSocketReturnsNotConnected) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); sock_->Disconnect(); ASSERT_EQ(ERR_SOCKET_NOT_CONNECTED, sock_->Read(NULL, 1, CompletionCallback())); } // Reading buffered data from an already closed socket should return // buffered data, then 0. TEST_P(SpdyProxyClientSocketTest, ReadOnClosedSocketReturnsBufferedData) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), MockRead(ASYNC, 0, 3), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(2); ASSERT_FALSE(sock_->IsConnected()); scoped_refptr buf(new IOBuffer(kLen1)); ASSERT_EQ(kLen1, sock_->Read(buf.get(), kLen1, CompletionCallback())); ASSERT_EQ(std::string(kMsg1, kLen1), std::string(buf->data(), kLen1)); ASSERT_EQ(0, sock_->Read(NULL, 1, CompletionCallback())); ASSERT_EQ(0, sock_->Read(NULL, 1, CompletionCallback())); sock_->Disconnect(); ASSERT_EQ(ERR_SOCKET_NOT_CONNECTED, sock_->Read(NULL, 1, CompletionCallback())); } // Calling Write() on a closed socket is an error TEST_P(SpdyProxyClientSocketTest, WriteOnClosedStream) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(1); // Read EOF which will close the stream scoped_refptr buf(CreateBuffer(kMsg1, kLen1)); EXPECT_EQ(ERR_SOCKET_NOT_CONNECTED, sock_->Write(buf.get(), buf->size(), CompletionCallback())); } // Calling Write() on a disconnected socket is an error TEST_P(SpdyProxyClientSocketTest, WriteOnDisconnectedSocket) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); sock_->Disconnect(); scoped_refptr buf(CreateBuffer(kMsg1, kLen1)); EXPECT_EQ(ERR_SOCKET_NOT_CONNECTED, sock_->Write(buf.get(), buf->size(), CompletionCallback())); } // If the socket is closed with a pending Write(), the callback // should be called with ERR_CONNECTION_CLOSED. TEST_P(SpdyProxyClientSocketTest, WritePendingOnClose) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), MockWrite(ASYNC, ERR_ABORTED, 2), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 3), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); EXPECT_TRUE(sock_->IsConnected()); scoped_refptr buf(CreateBuffer(kMsg1, kLen1)); EXPECT_EQ(ERR_IO_PENDING, sock_->Write(buf.get(), buf->size(), write_callback_.callback())); CloseSpdySession(ERR_ABORTED, std::string()); EXPECT_EQ(ERR_CONNECTION_CLOSED, write_callback_.WaitForResult()); } // If the socket is Disconnected with a pending Write(), the callback // should not be called. TEST_P(SpdyProxyClientSocketTest, DisconnectWithWritePending) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), MockWrite(SYNCHRONOUS, 0, 2), // EOF }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 3), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); EXPECT_TRUE(sock_->IsConnected()); scoped_refptr buf(CreateBuffer(kMsg1, kLen1)); EXPECT_EQ(ERR_IO_PENDING, sock_->Write(buf.get(), buf->size(), write_callback_.callback())); sock_->Disconnect(); EXPECT_FALSE(sock_->IsConnected()); EXPECT_FALSE(write_callback_.have_result()); } // If the socket is Disconnected with a pending Read(), the callback // should not be called. TEST_P(SpdyProxyClientSocketTest, DisconnectWithReadPending) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), MockRead(ASYNC, 0, 2), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); EXPECT_TRUE(sock_->IsConnected()); scoped_refptr buf(new IOBuffer(kLen1)); ASSERT_EQ(ERR_IO_PENDING, sock_->Read(buf.get(), kLen1, read_callback_.callback())); sock_->Disconnect(); EXPECT_FALSE(sock_->IsConnected()); EXPECT_FALSE(read_callback_.have_result()); } // If the socket is Reset when both a read and write are pending, // both should be called back. TEST_P(SpdyProxyClientSocketTest, RstWithReadAndWritePending) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), MockWrite(ASYNC, ERR_ABORTED, 3), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_CANCEL)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*rst, 2, ASYNC), MockRead(ASYNC, 0, 4) // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); EXPECT_TRUE(sock_->IsConnected()); scoped_refptr read_buf(new IOBuffer(kLen1)); ASSERT_EQ(ERR_IO_PENDING, sock_->Read(read_buf.get(), kLen1, read_callback_.callback())); scoped_refptr write_buf(CreateBuffer(kMsg1, kLen1)); EXPECT_EQ( ERR_IO_PENDING, sock_->Write( write_buf.get(), write_buf->size(), write_callback_.callback())); Run(2); EXPECT_TRUE(sock_.get()); EXPECT_TRUE(read_callback_.have_result()); EXPECT_TRUE(write_callback_.have_result()); } // Makes sure the proxy client socket's source gets the expected NetLog events // and only the expected NetLog events (No SpdySession events). TEST_P(SpdyProxyClientSocketTest, NetLog) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr msg1(ConstructBodyFrame(kMsg1, kLen1)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*msg1, 2, ASYNC), MockRead(ASYNC, 0, 3), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); Run(1); // SpdySession consumes the next read and sends it to // sock_ to be buffered. AssertSyncReadEquals(kMsg1, kLen1); NetLog::Source sock_source = sock_->NetLog().source(); sock_.reset(); CapturingNetLog::CapturedEntryList entry_list; net_log_.GetEntriesForSource(sock_source, &entry_list); ASSERT_EQ(entry_list.size(), 10u); EXPECT_TRUE(LogContainsBeginEvent(entry_list, 0, NetLog::TYPE_SOCKET_ALIVE)); EXPECT_TRUE(LogContainsEvent(entry_list, 1, NetLog::TYPE_SPDY_PROXY_CLIENT_SESSION, NetLog::PHASE_NONE)); EXPECT_TRUE(LogContainsBeginEvent(entry_list, 2, NetLog::TYPE_HTTP_TRANSACTION_TUNNEL_SEND_REQUEST)); EXPECT_TRUE(LogContainsEvent(entry_list, 3, NetLog::TYPE_HTTP_TRANSACTION_SEND_TUNNEL_HEADERS, NetLog::PHASE_NONE)); EXPECT_TRUE(LogContainsEndEvent(entry_list, 4, NetLog::TYPE_HTTP_TRANSACTION_TUNNEL_SEND_REQUEST)); EXPECT_TRUE(LogContainsBeginEvent(entry_list, 5, NetLog::TYPE_HTTP_TRANSACTION_TUNNEL_READ_HEADERS)); EXPECT_TRUE(LogContainsEvent(entry_list, 6, NetLog::TYPE_HTTP_TRANSACTION_READ_TUNNEL_RESPONSE_HEADERS, NetLog::PHASE_NONE)); EXPECT_TRUE(LogContainsEndEvent(entry_list, 7, NetLog::TYPE_HTTP_TRANSACTION_TUNNEL_READ_HEADERS)); EXPECT_TRUE(LogContainsEvent(entry_list, 8, NetLog::TYPE_SOCKET_BYTES_RECEIVED, NetLog::PHASE_NONE)); EXPECT_TRUE(LogContainsEndEvent(entry_list, 9, NetLog::TYPE_SOCKET_ALIVE)); } // CompletionCallback that causes the SpdyProxyClientSocket to be // deleted when Run is invoked. class DeleteSockCallback : public TestCompletionCallbackBase { public: explicit DeleteSockCallback(scoped_ptr* sock) : sock_(sock), callback_(base::Bind(&DeleteSockCallback::OnComplete, base::Unretained(this))) { } virtual ~DeleteSockCallback() { } const CompletionCallback& callback() const { return callback_; } private: void OnComplete(int result) { sock_->reset(NULL); SetResult(result); } scoped_ptr* sock_; CompletionCallback callback_; DISALLOW_COPY_AND_ASSIGN(DeleteSockCallback); }; // If the socket is Reset when both a read and write are pending, and the // read callback causes the socket to be deleted, the write callback should // not be called. TEST_P(SpdyProxyClientSocketTest, RstWithReadAndWritePendingDelete) { scoped_ptr conn(ConstructConnectRequestFrame()); MockWrite writes[] = { CreateMockWrite(*conn, 0, SYNCHRONOUS), MockWrite(ASYNC, ERR_ABORTED, 3), }; scoped_ptr resp(ConstructConnectReplyFrame()); scoped_ptr rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_CANCEL)); MockRead reads[] = { CreateMockRead(*resp, 1, ASYNC), CreateMockRead(*rst, 2, ASYNC), MockRead(ASYNC, 0, 4), // EOF }; Initialize(reads, arraysize(reads), writes, arraysize(writes)); AssertConnectSucceeds(); EXPECT_TRUE(sock_->IsConnected()); DeleteSockCallback read_callback(&sock_); scoped_refptr read_buf(new IOBuffer(kLen1)); ASSERT_EQ(ERR_IO_PENDING, sock_->Read(read_buf.get(), kLen1, read_callback.callback())); scoped_refptr write_buf(CreateBuffer(kMsg1, kLen1)); EXPECT_EQ( ERR_IO_PENDING, sock_->Write( write_buf.get(), write_buf->size(), write_callback_.callback())); Run(1); EXPECT_FALSE(sock_.get()); EXPECT_TRUE(read_callback.have_result()); EXPECT_FALSE(write_callback_.have_result()); } } // namespace net