// Copyright (c) 2011 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_session.h" #include "net/spdy/spdy_io_buffer.h" #include "net/spdy/spdy_session_pool.h" #include "net/spdy/spdy_stream.h" #include "net/spdy/spdy_test_util.h" #include "testing/platform_test.h" namespace net { // TODO(cbentzel): Expose compression setter/getter in public SpdySession // interface rather than going through all these contortions. class SpdySessionTest : public PlatformTest { public: static void TurnOffCompression() { spdy::SpdyFramer::set_enable_compression_default(false); } protected: virtual void TearDown() { // Wanted to be 100% sure PING is disabled. SpdySession::set_enable_ping_based_connection_checking(false); } }; class TestSpdyStreamDelegate : public net::SpdyStream::Delegate { public: explicit TestSpdyStreamDelegate(OldCompletionCallback* callback) : callback_(callback) {} virtual ~TestSpdyStreamDelegate() {} virtual bool OnSendHeadersComplete(int status) { return true; } virtual int OnSendBody() { return ERR_UNEXPECTED; } virtual int OnSendBodyComplete(int /*status*/, bool* /*eof*/) { return ERR_UNEXPECTED; } virtual int OnResponseReceived(const spdy::SpdyHeaderBlock& response, base::Time response_time, int status) { return status; } virtual void OnDataReceived(const char* buffer, int bytes) { } virtual void OnDataSent(int length) { } virtual void OnClose(int status) { OldCompletionCallback* callback = callback_; callback_ = NULL; callback->Run(OK); } virtual void set_chunk_callback(net::ChunkCallback *) {} private: OldCompletionCallback* callback_; }; // Test the SpdyIOBuffer class. TEST_F(SpdySessionTest, SpdyIOBuffer) { std::priority_queue queue_; const size_t kQueueSize = 100; // Insert 100 items; pri 100 to 1. for (size_t index = 0; index < kQueueSize; ++index) { SpdyIOBuffer buffer(new IOBuffer(), 0, kQueueSize - index, NULL); queue_.push(buffer); } // Insert several priority 0 items last. const size_t kNumDuplicates = 12; IOBufferWithSize* buffers[kNumDuplicates]; for (size_t index = 0; index < kNumDuplicates; ++index) { buffers[index] = new IOBufferWithSize(index+1); queue_.push(SpdyIOBuffer(buffers[index], buffers[index]->size(), 0, NULL)); } EXPECT_EQ(kQueueSize + kNumDuplicates, queue_.size()); // Verify the P0 items come out in FIFO order. for (size_t index = 0; index < kNumDuplicates; ++index) { SpdyIOBuffer buffer = queue_.top(); EXPECT_EQ(0, buffer.priority()); EXPECT_EQ(index + 1, buffer.size()); queue_.pop(); } int priority = 1; while (queue_.size()) { SpdyIOBuffer buffer = queue_.top(); EXPECT_EQ(priority++, buffer.priority()); queue_.pop(); } } TEST_F(SpdySessionTest, GoAway) { SpdySessionDependencies session_deps; session_deps.host_resolver->set_synchronous_mode(true); MockConnect connect_data(false, OK); scoped_ptr goaway(ConstructSpdyGoAway()); MockRead reads[] = { CreateMockRead(*goaway), MockRead(false, 0, 0) // EOF }; StaticSocketDataProvider data(reads, arraysize(reads), NULL, 0); data.set_connect_data(connect_data); session_deps.socket_factory->AddSocketDataProvider(&data); SSLSocketDataProvider ssl(false, OK); session_deps.socket_factory->AddSSLSocketDataProvider(&ssl); scoped_refptr http_session( SpdySessionDependencies::SpdyCreateSession(&session_deps)); const std::string kTestHost("www.foo.com"); const int kTestPort = 80; HostPortPair test_host_port_pair(kTestHost, kTestPort); HostPortProxyPair pair(test_host_port_pair, ProxyServer::Direct()); SpdySessionPool* spdy_session_pool(http_session->spdy_session_pool()); EXPECT_FALSE(spdy_session_pool->HasSession(pair)); scoped_refptr session = spdy_session_pool->Get(pair, BoundNetLog()); EXPECT_TRUE(spdy_session_pool->HasSession(pair)); scoped_refptr transport_params( new TransportSocketParams(test_host_port_pair, MEDIUM, GURL(), false, false)); scoped_ptr connection(new ClientSocketHandle); EXPECT_EQ(OK, connection->Init(test_host_port_pair.ToString(), transport_params, MEDIUM, NULL, http_session->transport_socket_pool(), BoundNetLog())); EXPECT_EQ(OK, session->InitializeWithSocket(connection.release(), false, OK)); // Flush the SpdySession::OnReadComplete() task. MessageLoop::current()->RunAllPending(); EXPECT_FALSE(spdy_session_pool->HasSession(pair)); scoped_refptr session2 = spdy_session_pool->Get(pair, BoundNetLog()); // Delete the first session. session = NULL; // Delete the second session. spdy_session_pool->Remove(session2); session2 = NULL; } TEST_F(SpdySessionTest, Ping) { SpdySessionDependencies session_deps; session_deps.host_resolver->set_synchronous_mode(true); MockConnect connect_data(false, OK); scoped_ptr read_ping(ConstructSpdyPing()); MockRead reads[] = { CreateMockRead(*read_ping), CreateMockRead(*read_ping), MockRead(false, 0, 0) // EOF }; scoped_ptr write_ping(ConstructSpdyPing()); MockRead writes[] = { CreateMockRead(*write_ping), CreateMockRead(*write_ping), }; StaticSocketDataProvider data( reads, arraysize(reads), writes, arraysize(writes)); data.set_connect_data(connect_data); session_deps.socket_factory->AddSocketDataProvider(&data); SSLSocketDataProvider ssl(false, OK); session_deps.socket_factory->AddSSLSocketDataProvider(&ssl); scoped_refptr http_session( SpdySessionDependencies::SpdyCreateSession(&session_deps)); static const char kStreamUrl[] = "http://www.google.com/"; GURL url(kStreamUrl); const std::string kTestHost("www.google.com"); const int kTestPort = 80; HostPortPair test_host_port_pair(kTestHost, kTestPort); HostPortProxyPair pair(test_host_port_pair, ProxyServer::Direct()); SpdySessionPool* spdy_session_pool(http_session->spdy_session_pool()); EXPECT_FALSE(spdy_session_pool->HasSession(pair)); scoped_refptr session = spdy_session_pool->Get(pair, BoundNetLog()); EXPECT_TRUE(spdy_session_pool->HasSession(pair)); scoped_refptr transport_params( new TransportSocketParams(test_host_port_pair, MEDIUM, GURL(), false, false)); scoped_ptr connection(new ClientSocketHandle); EXPECT_EQ(OK, connection->Init(test_host_port_pair.ToString(), transport_params, MEDIUM, NULL, http_session->transport_socket_pool(), BoundNetLog())); EXPECT_EQ(OK, session->InitializeWithSocket(connection.release(), false, OK)); scoped_refptr spdy_stream1; TestOldCompletionCallback callback1; EXPECT_EQ(OK, session->CreateStream(url, MEDIUM, &spdy_stream1, BoundNetLog(), &callback1)); scoped_ptr delegate( new TestSpdyStreamDelegate(&callback1)); spdy_stream1->SetDelegate(delegate.get()); base::TimeTicks before_ping_time = base::TimeTicks::Now(); // Enable sending of PING. SpdySession::set_enable_ping_based_connection_checking(true); SpdySession::set_connection_at_risk_of_loss_ms(0); SpdySession::set_trailing_ping_delay_time_ms(0); SpdySession::set_hung_interval_ms(50); session->SendPrefacePingIfNoneInFlight(); EXPECT_EQ(OK, callback1.WaitForResult()); EXPECT_EQ(0, session->pings_in_flight()); EXPECT_GT(session->next_ping_id(), static_cast(1)); EXPECT_FALSE(session->trailing_ping_pending()); // TODO(rtenneti): check_ping_status_pending works in debug mode with // breakpoints, but fails if run in stand alone mode. // EXPECT_FALSE(session->check_ping_status_pending()); EXPECT_GE(session->received_data_time(), before_ping_time); EXPECT_FALSE(spdy_session_pool->HasSession(pair)); // Delete the first session. session = NULL; } class StreamReleaserCallback : public CallbackRunner > { public: StreamReleaserCallback(SpdySession* session, SpdyStream* first_stream) : session_(session), first_stream_(first_stream) {} ~StreamReleaserCallback() {} int WaitForResult() { return callback_.WaitForResult(); } virtual void RunWithParams(const Tuple1& params) { session_->CloseSessionOnError(ERR_FAILED, false); session_ = NULL; first_stream_->Cancel(); first_stream_ = NULL; stream_->Cancel(); stream_ = NULL; callback_.RunWithParams(params); } scoped_refptr* stream() { return &stream_; } private: scoped_refptr session_; scoped_refptr first_stream_; scoped_refptr stream_; TestCompletionCallback callback_; }; // Start with max concurrent streams set to 1. Request two streams. Receive a // settings frame setting max concurrent streams to 2. Have the callback // release the stream, which releases its reference (the last) to the session. // Make sure nothing blows up. // http://crbug.com/57331 TEST_F(SpdySessionTest, OnSettings) { SpdySessionDependencies session_deps; session_deps.host_resolver->set_synchronous_mode(true); spdy::SpdySettings new_settings; spdy::SettingsFlagsAndId id(spdy::SETTINGS_MAX_CONCURRENT_STREAMS); id.set_id(spdy::SETTINGS_MAX_CONCURRENT_STREAMS); const size_t max_concurrent_streams = 2; new_settings.push_back(spdy::SpdySetting(id, max_concurrent_streams)); // Set up the socket so we read a SETTINGS frame that raises max concurrent // streams to 2. MockConnect connect_data(false, OK); scoped_ptr settings_frame( ConstructSpdySettings(new_settings)); MockRead reads[] = { CreateMockRead(*settings_frame), MockRead(false, 0, 0) // EOF }; StaticSocketDataProvider data(reads, arraysize(reads), NULL, 0); data.set_connect_data(connect_data); session_deps.socket_factory->AddSocketDataProvider(&data); SSLSocketDataProvider ssl(false, OK); session_deps.socket_factory->AddSSLSocketDataProvider(&ssl); scoped_refptr http_session( SpdySessionDependencies::SpdyCreateSession(&session_deps)); const std::string kTestHost("www.foo.com"); const int kTestPort = 80; HostPortPair test_host_port_pair(kTestHost, kTestPort); HostPortProxyPair pair(test_host_port_pair, ProxyServer::Direct()); // Initialize the SpdySettingsStorage with 1 max concurrent streams. SpdySessionPool* spdy_session_pool(http_session->spdy_session_pool()); spdy::SpdySettings old_settings; id.set_flags(spdy::SETTINGS_FLAG_PLEASE_PERSIST); old_settings.push_back(spdy::SpdySetting(id, 1)); spdy_session_pool->mutable_spdy_settings()->Set( test_host_port_pair, old_settings); // Create a session. EXPECT_FALSE(spdy_session_pool->HasSession(pair)); scoped_refptr session = spdy_session_pool->Get(pair, BoundNetLog()); ASSERT_TRUE(spdy_session_pool->HasSession(pair)); scoped_refptr transport_params( new TransportSocketParams(test_host_port_pair, MEDIUM, GURL(), false, false)); scoped_ptr connection(new ClientSocketHandle); EXPECT_EQ(OK, connection->Init(test_host_port_pair.ToString(), transport_params, MEDIUM, NULL, http_session->transport_socket_pool(), BoundNetLog())); EXPECT_EQ(OK, session->InitializeWithSocket(connection.release(), false, OK)); // Create 2 streams. First will succeed. Second will be pending. scoped_refptr spdy_stream1; TestCompletionCallback callback1; GURL url("http://www.google.com"); EXPECT_EQ(OK, session->CreateStream(url, MEDIUM, /* priority, not important */ &spdy_stream1, BoundNetLog(), &callback1)); StreamReleaserCallback stream_releaser(session, spdy_stream1); ASSERT_EQ(ERR_IO_PENDING, session->CreateStream(url, MEDIUM, /* priority, not important */ stream_releaser.stream(), BoundNetLog(), &stream_releaser)); // Make sure |stream_releaser| holds the last refs. session = NULL; spdy_stream1 = NULL; EXPECT_EQ(OK, stream_releaser.WaitForResult()); } // Start with max concurrent streams set to 1. Request two streams. When the // first completes, have the callback close itself, which should trigger the // second stream creation. Then cancel that one immediately. Don't crash. // http://crbug.com/63532 TEST_F(SpdySessionTest, CancelPendingCreateStream) { SpdySessionDependencies session_deps; session_deps.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(false, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider data(reads, arraysize(reads), NULL, 0); MockConnect connect_data(false, OK); data.set_connect_data(connect_data); session_deps.socket_factory->AddSocketDataProvider(&data); SSLSocketDataProvider ssl(false, OK); session_deps.socket_factory->AddSSLSocketDataProvider(&ssl); scoped_refptr http_session( SpdySessionDependencies::SpdyCreateSession(&session_deps)); const std::string kTestHost("www.foo.com"); const int kTestPort = 80; HostPortPair test_host_port_pair(kTestHost, kTestPort); HostPortProxyPair pair(test_host_port_pair, ProxyServer::Direct()); // Initialize the SpdySettingsStorage with 1 max concurrent streams. SpdySessionPool* spdy_session_pool(http_session->spdy_session_pool()); spdy::SpdySettings settings; spdy::SettingsFlagsAndId id(spdy::SETTINGS_MAX_CONCURRENT_STREAMS); id.set_id(spdy::SETTINGS_MAX_CONCURRENT_STREAMS); id.set_flags(spdy::SETTINGS_FLAG_PLEASE_PERSIST); settings.push_back(spdy::SpdySetting(id, 1)); spdy_session_pool->mutable_spdy_settings()->Set( test_host_port_pair, settings); // Create a session. EXPECT_FALSE(spdy_session_pool->HasSession(pair)); scoped_refptr session = spdy_session_pool->Get(pair, BoundNetLog()); ASSERT_TRUE(spdy_session_pool->HasSession(pair)); scoped_refptr transport_params( new TransportSocketParams(test_host_port_pair, MEDIUM, GURL(), false, false)); scoped_ptr connection(new ClientSocketHandle); EXPECT_EQ(OK, connection->Init(test_host_port_pair.ToString(), transport_params, MEDIUM, NULL, http_session->transport_socket_pool(), BoundNetLog())); EXPECT_EQ(OK, session->InitializeWithSocket(connection.release(), false, OK)); // Use scoped_ptr to let us invalidate the memory when we want to, to trigger // a valgrind error if the callback is invoked when it's not supposed to be. scoped_ptr callback(new TestCompletionCallback); // Create 2 streams. First will succeed. Second will be pending. scoped_refptr spdy_stream1; GURL url("http://www.google.com"); ASSERT_EQ(OK, session->CreateStream(url, MEDIUM, /* priority, not important */ &spdy_stream1, BoundNetLog(), callback.get())); scoped_refptr spdy_stream2; ASSERT_EQ(ERR_IO_PENDING, session->CreateStream(url, MEDIUM, /* priority, not important */ &spdy_stream2, BoundNetLog(), callback.get())); // Release the first one, this will allow the second to be created. spdy_stream1->Cancel(); spdy_stream1 = NULL; session->CancelPendingCreateStreams(&spdy_stream2); callback.reset(); // Should not crash when running the pending callback. MessageLoop::current()->RunAllPending(); } TEST_F(SpdySessionTest, SendSettingsOnNewSession) { SpdySessionDependencies session_deps; session_deps.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(false, ERR_IO_PENDING) // Stall forever. }; // Create the bogus setting that we want to verify is sent out. // Note that it will be marked as SETTINGS_FLAG_PERSISTED when sent out. But // to set it into the SpdySettingsStorage, we need to mark as // SETTINGS_FLAG_PLEASE_PERSIST. spdy::SpdySettings settings; const uint32 kBogusSettingId = 0xABAB; const uint32 kBogusSettingValue = 0xCDCD; spdy::SettingsFlagsAndId id(kBogusSettingId); id.set_id(kBogusSettingId); id.set_flags(spdy::SETTINGS_FLAG_PERSISTED); settings.push_back(spdy::SpdySetting(id, kBogusSettingValue)); MockConnect connect_data(false, OK); scoped_ptr settings_frame( ConstructSpdySettings(settings)); MockWrite writes[] = { CreateMockWrite(*settings_frame), }; StaticSocketDataProvider data( reads, arraysize(reads), writes, arraysize(writes)); data.set_connect_data(connect_data); session_deps.socket_factory->AddSocketDataProvider(&data); SSLSocketDataProvider ssl(false, OK); session_deps.socket_factory->AddSSLSocketDataProvider(&ssl); scoped_refptr http_session( SpdySessionDependencies::SpdyCreateSession(&session_deps)); const std::string kTestHost("www.foo.com"); const int kTestPort = 80; HostPortPair test_host_port_pair(kTestHost, kTestPort); HostPortProxyPair pair(test_host_port_pair, ProxyServer::Direct()); id.set_flags(spdy::SETTINGS_FLAG_PLEASE_PERSIST); settings.clear(); settings.push_back(spdy::SpdySetting(id, kBogusSettingValue)); SpdySessionPool* spdy_session_pool(http_session->spdy_session_pool()); spdy_session_pool->mutable_spdy_settings()->Set( test_host_port_pair, settings); EXPECT_FALSE(spdy_session_pool->HasSession(pair)); scoped_refptr session = spdy_session_pool->Get(pair, BoundNetLog()); EXPECT_TRUE(spdy_session_pool->HasSession(pair)); scoped_refptr transport_params( new TransportSocketParams(test_host_port_pair, MEDIUM, GURL(), false, false)); scoped_ptr connection(new ClientSocketHandle); EXPECT_EQ(OK, connection->Init(test_host_port_pair.ToString(), transport_params, MEDIUM, NULL, http_session->transport_socket_pool(), BoundNetLog())); EXPECT_EQ(OK, session->InitializeWithSocket(connection.release(), false, OK)); MessageLoop::current()->RunAllPending(); EXPECT_TRUE(data.at_write_eof()); } // This test has two variants, one for each style of closing the connection. // If |clean_via_close_current_sessions| is false, the sessions are closed // manually, calling SpdySessionPool::Remove() directly. If it is true, // sessions are closed with SpdySessionPool::CloseCurrentSessions(). void IPPoolingTest(bool clean_via_close_current_sessions) { const int kTestPort = 80; struct TestHosts { std::string name; std::string iplist; HostPortProxyPair pair; } test_hosts[] = { { "www.foo.com", "192.168.0.1,192.168.0.5" }, { "images.foo.com", "192.168.0.2,192.168.0.3,192.168.0.5" }, { "js.foo.com", "192.168.0.4,192.168.0.3" }, }; SpdySessionDependencies session_deps; session_deps.host_resolver->set_synchronous_mode(true); for (size_t i = 0; i < ARRAYSIZE_UNSAFE(test_hosts); i++) { session_deps.host_resolver->rules()->AddIPLiteralRule(test_hosts[i].name, test_hosts[i].iplist, ""); // This test requires that the HostResolver cache be populated. Normal // code would have done this already, but we do it manually. HostResolver::RequestInfo info(HostPortPair(test_hosts[i].name, kTestPort)); AddressList result; session_deps.host_resolver->Resolve( info, &result, NULL, NULL, BoundNetLog()); // Setup a HostPortProxyPair test_hosts[i].pair = HostPortProxyPair( HostPortPair(test_hosts[i].name, kTestPort), ProxyServer::Direct()); } MockConnect connect_data(false, OK); MockRead reads[] = { MockRead(false, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider data(reads, arraysize(reads), NULL, 0); data.set_connect_data(connect_data); session_deps.socket_factory->AddSocketDataProvider(&data); SSLSocketDataProvider ssl(false, OK); session_deps.socket_factory->AddSSLSocketDataProvider(&ssl); scoped_refptr http_session( SpdySessionDependencies::SpdyCreateSession(&session_deps)); // Setup the first session to the first host. SpdySessionPool* spdy_session_pool(http_session->spdy_session_pool()); EXPECT_FALSE(spdy_session_pool->HasSession(test_hosts[0].pair)); scoped_refptr session = spdy_session_pool->Get(test_hosts[0].pair, BoundNetLog()); EXPECT_TRUE(spdy_session_pool->HasSession(test_hosts[0].pair)); HostPortPair test_host_port_pair(test_hosts[0].name, kTestPort); scoped_refptr transport_params( new TransportSocketParams(test_host_port_pair, MEDIUM, GURL(), false, false)); scoped_ptr connection(new ClientSocketHandle); EXPECT_EQ(OK, connection->Init(test_host_port_pair.ToString(), transport_params, MEDIUM, NULL, http_session->transport_socket_pool(), BoundNetLog())); EXPECT_EQ(OK, session->InitializeWithSocket(connection.release(), false, OK)); // Flush the SpdySession::OnReadComplete() task. MessageLoop::current()->RunAllPending(); // The third host has no overlap with the first, so it can't pool IPs. EXPECT_FALSE(spdy_session_pool->HasSession(test_hosts[2].pair)); // The second host overlaps with the first, and should IP pool. EXPECT_TRUE(spdy_session_pool->HasSession(test_hosts[1].pair)); // Verify that the second host, through a proxy, won't share the IP. HostPortProxyPair proxy_pair(test_hosts[1].pair.first, ProxyServer::FromPacString("HTTP http://proxy.foo.com/")); EXPECT_FALSE(spdy_session_pool->HasSession(proxy_pair)); // Overlap between 2 and 3 does is not transitive to 1. EXPECT_FALSE(spdy_session_pool->HasSession(test_hosts[2].pair)); // Create a new session to host 2. scoped_refptr session2 = spdy_session_pool->Get(test_hosts[2].pair, BoundNetLog()); // Verify that we have sessions for everything. EXPECT_TRUE(spdy_session_pool->HasSession(test_hosts[0].pair)); EXPECT_TRUE(spdy_session_pool->HasSession(test_hosts[1].pair)); EXPECT_TRUE(spdy_session_pool->HasSession(test_hosts[2].pair)); // Cleanup the sessions. if (!clean_via_close_current_sessions) { spdy_session_pool->Remove(session); session = NULL; spdy_session_pool->Remove(session2); session2 = NULL; } else { spdy_session_pool->CloseCurrentSessions(); } // Verify that the map is all cleaned up. EXPECT_FALSE(spdy_session_pool->HasSession(test_hosts[0].pair)); EXPECT_FALSE(spdy_session_pool->HasSession(test_hosts[1].pair)); EXPECT_FALSE(spdy_session_pool->HasSession(test_hosts[2].pair)); } TEST_F(SpdySessionTest, IPPooling) { IPPoolingTest(false); } TEST_F(SpdySessionTest, IPPoolingCloseCurrentSessions) { IPPoolingTest(true); } } // namespace net