// 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_session.h" #include #include #include "base/base64.h" #include "base/bind.h" #include "base/callback.h" #include "base/run_loop.h" #include "base/test/histogram_tester.h" #include "net/base/host_port_pair.h" #include "net/base/io_buffer.h" #include "net/base/ip_endpoint.h" #include "net/base/proxy_delegate.h" #include "net/base/request_priority.h" #include "net/base/test_data_stream.h" #include "net/base/test_proxy_delegate.h" #include "net/cert/ct_policy_status.h" #include "net/log/net_log_event_type.h" #include "net/log/net_log_source.h" #include "net/log/test_net_log.h" #include "net/log/test_net_log_entry.h" #include "net/log/test_net_log_util.h" #include "net/proxy/proxy_server.h" #include "net/socket/client_socket_pool_manager.h" #include "net/socket/socket_test_util.h" #include "net/spdy/spdy_http_utils.h" #include "net/spdy/spdy_session_pool.h" #include "net/spdy/spdy_session_test_util.h" #include "net/spdy/spdy_stream.h" #include "net/spdy/spdy_stream_test_util.h" #include "net/spdy/spdy_test_util_common.h" #include "net/spdy/spdy_test_utils.h" #include "net/test/cert_test_util.h" #include "net/test/gtest_util.h" #include "net/test/test_data_directory.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/platform_test.h" using net::test::IsError; using net::test::IsOk; using net::test::TestServerPushDelegate; namespace net { namespace { const char kHttpURLFromAnotherOrigin[] = "http://www.example2.org/a.dat"; const char kHttpsURLFromAnotherOrigin[] = "https://www.example2.org/b.dat"; const char kBodyData[] = "Body data"; const size_t kBodyDataSize = arraysize(kBodyData); const base::StringPiece kBodyDataStringPiece(kBodyData, kBodyDataSize); static base::TimeDelta g_time_delta; static base::TimeTicks g_time_now; base::TimeTicks TheNearFuture() { return base::TimeTicks::Now() + g_time_delta; } base::TimeTicks SlowReads() { g_time_delta += base::TimeDelta::FromMilliseconds(2 * kYieldAfterDurationMilliseconds); return base::TimeTicks::Now() + g_time_delta; } base::TimeTicks InstantaneousReads() { return g_time_now; } class MockRequireCTDelegate : public TransportSecurityState::RequireCTDelegate { public: MOCK_METHOD1(IsCTRequiredForHost, CTRequirementLevel(const std::string& host)); }; } // namespace class SpdySessionTest : public PlatformTest { public: // Functions used with RunResumeAfterUnstallTest(). void StallSessionOnly(SpdyStream* stream) { StallSessionSend(); } void StallStreamOnly(SpdyStream* stream) { StallStreamSend(stream); } void StallSessionStream(SpdyStream* stream) { StallSessionSend(); StallStreamSend(stream); } void StallStreamSession(SpdyStream* stream) { StallStreamSend(stream); StallSessionSend(); } void UnstallSessionOnly(SpdyStream* stream, int32_t delta_window_size) { UnstallSessionSend(delta_window_size); } void UnstallStreamOnly(SpdyStream* stream, int32_t delta_window_size) { UnstallStreamSend(stream, delta_window_size); } void UnstallSessionStream(SpdyStream* stream, int32_t delta_window_size) { UnstallSessionSend(delta_window_size); UnstallStreamSend(stream, delta_window_size); } void UnstallStreamSession(SpdyStream* stream, int32_t delta_window_size) { UnstallStreamSend(stream, delta_window_size); UnstallSessionSend(delta_window_size); } protected: SpdySessionTest() : old_max_group_sockets_(ClientSocketPoolManager::max_sockets_per_group( HttpNetworkSession::NORMAL_SOCKET_POOL)), old_max_pool_sockets_(ClientSocketPoolManager::max_sockets_per_pool( HttpNetworkSession::NORMAL_SOCKET_POOL)), spdy_session_pool_(nullptr), test_url_(kDefaultUrl), test_server_(test_url_), key_(HostPortPair::FromURL(test_url_), ProxyServer::Direct(), PRIVACY_MODE_DISABLED), ssl_(SYNCHRONOUS, OK) {} ~SpdySessionTest() override { // Important to restore the per-pool limit first, since the pool limit must // always be greater than group limit, and the tests reduce both limits. ClientSocketPoolManager::set_max_sockets_per_pool( HttpNetworkSession::NORMAL_SOCKET_POOL, old_max_pool_sockets_); ClientSocketPoolManager::set_max_sockets_per_group( HttpNetworkSession::NORMAL_SOCKET_POOL, old_max_group_sockets_); } void SetUp() override { g_time_delta = base::TimeDelta(); g_time_now = base::TimeTicks::Now(); session_deps_.net_log = log_.bound().net_log(); } void CreateNetworkSession() { DCHECK(!http_session_); DCHECK(!spdy_session_pool_); http_session_ = SpdySessionDependencies::SpdyCreateSession(&session_deps_); spdy_session_pool_ = http_session_->spdy_session_pool(); } void CreateInsecureSpdySession() { DCHECK(!session_); session_ = ::net::CreateInsecureSpdySession(http_session_.get(), key_, log_.bound()); } void AddSSLSocketData() { ssl_.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ASSERT_TRUE(ssl_.cert); session_deps_.socket_factory->AddSSLSocketDataProvider(&ssl_); } void CreateSecureSpdySession() { DCHECK(!session_); session_ = ::net::CreateSecureSpdySession(http_session_.get(), key_, log_.bound()); } void StallSessionSend() { // Reduce the send window size to 0 to stall. while (session_->session_send_window_size_ > 0) { session_->DecreaseSendWindowSize(std::min( kMaxSpdyFrameChunkSize, session_->session_send_window_size_)); } } void UnstallSessionSend(int32_t delta_window_size) { session_->IncreaseSendWindowSize(delta_window_size); } void StallStreamSend(SpdyStream* stream) { // Reduce the send window size to 0 to stall. while (stream->send_window_size() > 0) { stream->DecreaseSendWindowSize( std::min(kMaxSpdyFrameChunkSize, stream->send_window_size())); } } void UnstallStreamSend(SpdyStream* stream, int32_t delta_window_size) { stream->IncreaseSendWindowSize(delta_window_size); } void RunResumeAfterUnstallTest( const base::Callback& stall_function, const base::Callback& unstall_function); // Original socket limits. Some tests set these. Safest to always restore // them once each test has been run. int old_max_group_sockets_; int old_max_pool_sockets_; SpdyTestUtil spdy_util_; SpdySessionDependencies session_deps_; std::unique_ptr http_session_; base::WeakPtr session_; TestServerPushDelegate test_push_delegate_; SpdySessionPool* spdy_session_pool_; const GURL test_url_; const url::SchemeHostPort test_server_; SpdySessionKey key_; SSLSocketDataProvider ssl_; BoundTestNetLog log_; }; // Try to create a SPDY session that will fail during // initialization. Nothing should blow up. TEST_F(SpdySessionTest, InitialReadError) { CreateNetworkSession(); session_ = TryCreateFakeSpdySessionExpectingFailure(spdy_session_pool_, key_, ERR_CONNECTION_CLOSED); EXPECT_TRUE(session_); // Flush the read. base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } namespace { // A helper class that vends a callback that, when fired, destroys a // given SpdyStreamRequest. class StreamRequestDestroyingCallback : public TestCompletionCallbackBase { public: StreamRequestDestroyingCallback() {} ~StreamRequestDestroyingCallback() override {} void SetRequestToDestroy(std::unique_ptr request) { request_ = std::move(request); } CompletionCallback MakeCallback() { return base::Bind(&StreamRequestDestroyingCallback::OnComplete, base::Unretained(this)); } private: void OnComplete(int result) { request_.reset(); SetResult(result); } std::unique_ptr request_; }; } // namespace // Request kInitialMaxConcurrentStreams streams. Request two more // streams, but have the callback for one destroy the second stream // request. Close the session. Nothing should blow up. This is a // regression test for http://crbug.com/250841 . TEST_F(SpdySessionTest, PendingStreamCancellingAnother) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = {MockRead(ASYNC, 0, 0), }; SequencedSocketData data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Create the maximum number of concurrent streams. for (size_t i = 0; i < kInitialMaxConcurrentStreams; ++i) { base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream); } SpdyStreamRequest request1; std::unique_ptr request2(new SpdyStreamRequest); StreamRequestDestroyingCallback callback1; ASSERT_EQ(ERR_IO_PENDING, request1.StartRequest(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource(), callback1.MakeCallback())); // |callback2| is never called. TestCompletionCallback callback2; ASSERT_EQ( ERR_IO_PENDING, request2->StartRequest(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource(), callback2.callback())); callback1.SetRequestToDestroy(std::move(request2)); session_->CloseSessionOnError(ERR_ABORTED, "Aborting session"); EXPECT_THAT(callback1.WaitForResult(), IsError(ERR_ABORTED)); } // A session receiving a GOAWAY frame with no active streams should close. TEST_F(SpdySessionTest, GoAwayWithNoActiveStreams) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway(1)); MockRead reads[] = { CreateMockRead(goaway, 0), }; SequencedSocketData data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Read and process the GOAWAY frame. base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(session_); } // A session receiving a GOAWAY frame immediately with no active // streams should then close. TEST_F(SpdySessionTest, GoAwayImmediatelyWithNoActiveStreams) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway(1)); MockRead reads[] = { CreateMockRead(goaway, 0, SYNCHRONOUS), MockRead(ASYNC, 0, 1) // EOF }; SequencedSocketData data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); session_ = TryCreateSpdySessionExpectingFailure( http_session_.get(), key_, ERR_CONNECTION_CLOSED, NetLogWithSource()); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(data.AllReadDataConsumed()); } // A session receiving a GOAWAY frame with active streams should close // when the last active stream is closed. TEST_F(SpdySessionTest, GoAwayWithActiveStreams) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway(1)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(goaway, 3), MockRead(ASYNC, ERR_IO_PENDING, 4), MockRead(ASYNC, 0, 5) // EOF }; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame req2( spdy_util_.ConstructSpdyGet(nullptr, 0, 3, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate2(spdy_stream2); spdy_stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); SpdyHeaderBlock headers2(headers.Clone()); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); spdy_stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream1->stream_id()); EXPECT_EQ(3u, spdy_stream2->stream_id()); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Read and process the GOAWAY frame. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(session_->IsStreamActive(3)); EXPECT_FALSE(spdy_stream2); EXPECT_TRUE(session_->IsStreamActive(1)); EXPECT_TRUE(session_->IsGoingAway()); // Should close the session. spdy_stream1->Close(); EXPECT_FALSE(spdy_stream1); EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Regression test for https://crbug.com/547130. TEST_F(SpdySessionTest, GoAwayWithActiveAndCreatedStream) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway(0)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(goaway, 2), }; // No |req2|, because the second stream will never get activated. SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers1(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers1), NO_MORE_DATA_TO_SEND); EXPECT_EQ(0u, spdy_stream1->stream_id()); // Active stream 1. base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream1->stream_id()); EXPECT_TRUE(session_->IsStreamActive(1)); // Create stream corresponding to the next request. base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); EXPECT_EQ(0u, spdy_stream2->stream_id()); // Read and process the GOAWAY frame before the second stream could be // activated. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Have a session receive two GOAWAY frames, with the last one causing // the last active stream to be closed. The session should then be // closed after the second GOAWAY frame. TEST_F(SpdySessionTest, GoAwayTwice) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway1(spdy_util_.ConstructSpdyGoAway(1)); SpdySerializedFrame goaway2(spdy_util_.ConstructSpdyGoAway(0)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(goaway1, 3), MockRead(ASYNC, ERR_IO_PENDING, 4), CreateMockRead(goaway2, 5), MockRead(ASYNC, ERR_IO_PENDING, 6), MockRead(ASYNC, 0, 7) // EOF }; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame req2( spdy_util_.ConstructSpdyGet(nullptr, 0, 3, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate2(spdy_stream2); spdy_stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); SpdyHeaderBlock headers2(headers.Clone()); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); spdy_stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream1->stream_id()); EXPECT_EQ(3u, spdy_stream2->stream_id()); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Read and process the first GOAWAY frame. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(session_->IsStreamActive(3)); EXPECT_FALSE(spdy_stream2); EXPECT_TRUE(session_->IsStreamActive(1)); EXPECT_TRUE(session_->IsGoingAway()); // Read and process the second GOAWAY frame, which should close the // session. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Have a session with active streams receive a GOAWAY frame and then // close it. It should handle the close properly (i.e., not try to // make itself unavailable in its pool twice). TEST_F(SpdySessionTest, GoAwayWithActiveStreamsThenClose) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway(1)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(goaway, 3), MockRead(ASYNC, ERR_IO_PENDING, 4), MockRead(ASYNC, 0, 5) // EOF }; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame req2( spdy_util_.ConstructSpdyGet(nullptr, 0, 3, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate2(spdy_stream2); spdy_stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); SpdyHeaderBlock headers2(headers.Clone()); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); spdy_stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream1->stream_id()); EXPECT_EQ(3u, spdy_stream2->stream_id()); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Read and process the GOAWAY frame. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(session_->IsStreamActive(3)); EXPECT_FALSE(spdy_stream2); EXPECT_TRUE(session_->IsStreamActive(1)); EXPECT_TRUE(session_->IsGoingAway()); session_->CloseSessionOnError(ERR_ABORTED, "Aborting session"); EXPECT_FALSE(spdy_stream1); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Process a joint read buffer which causes the session to begin draining, and // then processes a GOAWAY. The session should gracefully drain. Regression test // for crbug.com/379469 TEST_F(SpdySessionTest, GoAwayWhileDraining) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req, 0), }; SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway(1)); SpdySerializedFrame body(spdy_util_.ConstructSpdyDataFrame(1, true)); size_t joint_size = goaway.size() * 2 + body.size(); // Compose interleaved |goaway| and |body| frames into a single read. std::unique_ptr buffer(new char[joint_size]); { size_t out = 0; memcpy(&buffer[out], goaway.data(), goaway.size()); out += goaway.size(); memcpy(&buffer[out], body.data(), body.size()); out += body.size(); memcpy(&buffer[out], goaway.data(), goaway.size()); out += goaway.size(); ASSERT_EQ(out, joint_size); } SpdySerializedFrame joint_frames(buffer.get(), joint_size, false); MockRead reads[] = { CreateMockRead(resp, 1), CreateMockRead(joint_frames, 2), MockRead(ASYNC, 0, 3) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); // Stream and session closed gracefully. EXPECT_TRUE(delegate.StreamIsClosed()); EXPECT_THAT(delegate.WaitForClose(), IsOk()); EXPECT_EQ(kUploadData, delegate.TakeReceivedData()); EXPECT_FALSE(session_); } // Try to create a stream after receiving a GOAWAY frame. It should // fail. TEST_F(SpdySessionTest, CreateStreamAfterGoAway) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway(1)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(goaway, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), MockRead(ASYNC, 0, 4) // EOF }; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req, 0), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream->stream_id()); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Read and process the GOAWAY frame. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_TRUE(session_->IsStreamActive(1)); SpdyStreamRequest stream_request; int rv = stream_request.StartRequest(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource(), CompletionCallback()); EXPECT_THAT(rv, IsError(ERR_FAILED)); EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Receiving a HEADERS frame after a GOAWAY frame should result in // the stream being refused. TEST_F(SpdySessionTest, HeadersAfterGoAway) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway(1)); SpdySerializedFrame push( spdy_util_.ConstructSpdyPush(nullptr, 0, 2, 1, kDefaultUrl)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(goaway, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(push, 4), MockRead(ASYNC, 0, 6) // EOF }; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = {CreateMockWrite(req, 0), CreateMockWrite(rst, 5)}; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream->stream_id()); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Read and process the GOAWAY frame. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_TRUE(session_->IsStreamActive(1)); // Read and process the HEADERS frame, the subsequent RST_STREAM, // and EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // A session observing a network change with active streams should close // when the last active stream is closed. TEST_F(SpdySessionTest, NetworkChangeWithActiveStreams) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), MockRead(ASYNC, 0, 2) // EOF }; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream->stream_id()); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); spdy_session_pool_->OnIPAddressChanged(); // The SpdySessionPool behavior differs based on how the OSs reacts to // network changes; see comment in SpdySessionPool::OnIPAddressChanged(). #if defined(OS_ANDROID) || defined(OS_WIN) || defined(OS_IOS) // For OSs where the TCP connections will close upon relevant network // changes, SpdySessionPool doesn't need to force them to close, so in these // cases verify the session has become unavailable but remains open and the // pre-existing stream is still active. EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_TRUE(session_->IsGoingAway()); EXPECT_TRUE(session_->IsStreamActive(1)); // Should close the session. spdy_stream->Close(); #endif EXPECT_FALSE(spdy_stream); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } TEST_F(SpdySessionTest, ClientPing) { session_deps_.enable_ping = true; session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame read_ping(spdy_util_.ConstructSpdyPing(1, true)); MockRead reads[] = { CreateMockRead(read_ping, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), MockRead(ASYNC, 0, 3) // EOF }; SpdySerializedFrame write_ping(spdy_util_.ConstructSpdyPing(1, false)); MockWrite writes[] = { CreateMockWrite(write_ping, 0), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); test::StreamDelegateSendImmediate delegate(spdy_stream1, nullptr); spdy_stream1->SetDelegate(&delegate); base::TimeTicks before_ping_time = base::TimeTicks::Now(); session_->set_connection_at_risk_of_loss_time( base::TimeDelta::FromSeconds(-1)); session_->set_hung_interval(base::TimeDelta::FromMilliseconds(50)); session_->SendPrefacePingIfNoneInFlight(); base::RunLoop().RunUntilIdle(); session_->CheckPingStatus(before_ping_time); EXPECT_EQ(0, session_->pings_in_flight()); EXPECT_GE(session_->next_ping_id(), 1U); EXPECT_FALSE(session_->check_ping_status_pending()); EXPECT_GE(session_->last_activity_time(), before_ping_time); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_THAT(delegate.WaitForClose(), IsError(ERR_CONNECTION_CLOSED)); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(session_); } TEST_F(SpdySessionTest, ServerPing) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame read_ping(spdy_util_.ConstructSpdyPing(2, false)); MockRead reads[] = { CreateMockRead(read_ping), MockRead(SYNCHRONOUS, 0, 0) // EOF }; SpdySerializedFrame write_ping(spdy_util_.ConstructSpdyPing(2, true)); MockWrite writes[] = { CreateMockWrite(write_ping), }; StaticSocketDataProvider data( reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); test::StreamDelegateSendImmediate delegate(spdy_stream1, nullptr); spdy_stream1->SetDelegate(&delegate); // Flush the read completion task. base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(session_); EXPECT_FALSE(spdy_stream1); } // Cause a ping to be sent out while producing a write. The write loop // should handle this properly, i.e. another DoWriteLoop task should // not be posted. This is a regression test for // http://crbug.com/261043 . TEST_F(SpdySessionTest, PingAndWriteLoop) { session_deps_.enable_ping = true; session_deps_.time_func = TheNearFuture; SpdySerializedFrame write_ping(spdy_util_.ConstructSpdyPing(1, false)); SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(write_ping, 1), }; MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 2), MockRead(ASYNC, 0, 3) // EOF }; session_deps_.host_resolver->set_synchronous_mode(true); SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Shift time so that a ping will be sent out. g_time_delta = base::TimeDelta::FromSeconds(11); base::RunLoop().RunUntilIdle(); session_->CloseSessionOnError(ERR_ABORTED, "Aborting"); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } TEST_F(SpdySessionTest, StreamIdSpaceExhausted) { const SpdyStreamId kLastStreamId = 0x7fffffff; session_deps_.host_resolver->set_synchronous_mode(true); // Test setup: |stream_hi_water_mark_| and |max_concurrent_streams_| are // fixed to allow for two stream ID assignments, and three concurrent // streams. Four streams are started, and two are activated. Verify the // session goes away, and that the created (but not activated) and // stalled streams are aborted. Also verify the activated streams complete, // at which point the session closes. SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, kLastStreamId - 2, MEDIUM, true)); SpdySerializedFrame req2( spdy_util_.ConstructSpdyGet(nullptr, 0, kLastStreamId, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), }; SpdySerializedFrame resp1( spdy_util_.ConstructSpdyGetReply(nullptr, 0, kLastStreamId - 2)); SpdySerializedFrame resp2( spdy_util_.ConstructSpdyGetReply(nullptr, 0, kLastStreamId)); SpdySerializedFrame body1( spdy_util_.ConstructSpdyDataFrame(kLastStreamId - 2, true)); SpdySerializedFrame body2( spdy_util_.ConstructSpdyDataFrame(kLastStreamId, true)); MockRead reads[] = { CreateMockRead(resp1, 2), CreateMockRead(resp2, 3), MockRead(ASYNC, ERR_IO_PENDING, 4), CreateMockRead(body1, 5), CreateMockRead(body2, 6), MockRead(ASYNC, 0, 7) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Fix stream_hi_water_mark_ to allow for two stream activations. session_->stream_hi_water_mark_ = kLastStreamId - 2; // Fix max_concurrent_streams to allow for three stream creations. session_->max_concurrent_streams_ = 3; // Create three streams synchronously, and begin a fourth (which is stalled). base::WeakPtr stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate1(stream1); stream1->SetDelegate(&delegate1); base::WeakPtr stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate2(stream2); stream2->SetDelegate(&delegate2); base::WeakPtr stream3 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate3(stream3); stream3->SetDelegate(&delegate3); SpdyStreamRequest request4; TestCompletionCallback callback4; EXPECT_EQ( ERR_IO_PENDING, request4.StartRequest(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource(), callback4.callback())); // Streams 1-3 were created. 4th is stalled. No streams are active yet. EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(3u, session_->num_created_streams()); EXPECT_EQ(1u, session_->pending_create_stream_queue_size(MEDIUM)); // Activate stream 1. One ID remains available. stream1->SendRequestHeaders(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); EXPECT_EQ(kLastStreamId - 2u, stream1->stream_id()); EXPECT_EQ(1u, session_->num_active_streams()); EXPECT_EQ(2u, session_->num_created_streams()); EXPECT_EQ(1u, session_->pending_create_stream_queue_size(MEDIUM)); // Activate stream 2. ID space is exhausted. stream2->SendRequestHeaders(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); // Active streams remain active. EXPECT_EQ(kLastStreamId, stream2->stream_id()); EXPECT_EQ(2u, session_->num_active_streams()); // Session is going away. Created and stalled streams were aborted. EXPECT_EQ(SpdySession::STATE_GOING_AWAY, session_->availability_state_); EXPECT_THAT(delegate3.WaitForClose(), IsError(ERR_ABORTED)); EXPECT_THAT(callback4.WaitForResult(), IsError(ERR_ABORTED)); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(MEDIUM)); // Read responses on remaining active streams. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_THAT(delegate1.WaitForClose(), IsOk()); EXPECT_EQ(kUploadData, delegate1.TakeReceivedData()); EXPECT_THAT(delegate2.WaitForClose(), IsOk()); EXPECT_EQ(kUploadData, delegate2.TakeReceivedData()); // Session was destroyed. EXPECT_FALSE(session_); } // Regression test for https://crbug.com/481009. TEST_F(SpdySessionTest, MaxConcurrentStreamsZero) { session_deps_.host_resolver->set_synchronous_mode(true); // Receive SETTINGS frame that sets max_concurrent_streams to zero. SettingsMap settings_zero; settings_zero[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, 0); SpdySerializedFrame settings_frame_zero( spdy_util_.ConstructSpdySettings(settings_zero)); // Acknowledge it. SpdySerializedFrame settings_ack0(spdy_util_.ConstructSpdySettingsAck()); // Receive SETTINGS frame that sets max_concurrent_streams to one. SettingsMap settings_one; settings_one[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, 1); SpdySerializedFrame settings_frame_one( spdy_util_.ConstructSpdySettings(settings_one)); // Acknowledge it. SpdySerializedFrame settings_ack1(spdy_util_.ConstructSpdySettingsAck()); // Request and response. SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame body(spdy_util_.ConstructSpdyDataFrame(1, true)); MockRead reads[] = {CreateMockRead(settings_frame_zero, 0), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(settings_frame_one, 3), CreateMockRead(resp, 6), CreateMockRead(body, 7), MockRead(ASYNC, 0, 8)}; MockWrite writes[] = {CreateMockWrite(settings_ack0, 1), CreateMockWrite(settings_ack1, 4), CreateMockWrite(req, 5)}; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); // Create session. CreateNetworkSession(); CreateSecureSpdySession(); // Receive SETTINGS frame that sets max_concurrent_streams to zero. base::RunLoop().RunUntilIdle(); EXPECT_EQ(0u, session_->max_concurrent_streams_); // Start request. SpdyStreamRequest request; TestCompletionCallback callback; int rv = request.StartRequest(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource(), callback.callback()); EXPECT_THAT(rv, IsError(ERR_IO_PENDING)); // Stream is stalled. EXPECT_EQ(1u, session_->pending_create_stream_queue_size(MEDIUM)); EXPECT_EQ(0u, session_->num_created_streams()); // Receive SETTINGS frame that sets max_concurrent_streams to one. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, session_->max_concurrent_streams_); // Stream is created. EXPECT_EQ(0u, session_->pending_create_stream_queue_size(MEDIUM)); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_THAT(callback.WaitForResult(), IsOk()); // Send request. base::WeakPtr stream = request.ReleaseStream(); test::StreamDelegateDoNothing delegate(stream); stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); EXPECT_THAT(delegate.WaitForClose(), IsOk()); EXPECT_EQ("hello!", delegate.TakeReceivedData()); // Session is destroyed. EXPECT_FALSE(session_); } // Verifies that an unstalled pending stream creation racing with a new stream // creation doesn't violate the maximum stream concurrency. Regression test for // crbug.com/373858. TEST_F(SpdySessionTest, UnstallRacesWithStreamCreation) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Fix max_concurrent_streams to allow for one open stream. session_->max_concurrent_streams_ = 1; // Create two streams: one synchronously, and one which stalls. base::WeakPtr stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); SpdyStreamRequest request2; TestCompletionCallback callback2; EXPECT_EQ( ERR_IO_PENDING, request2.StartRequest(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource(), callback2.callback())); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(1u, session_->pending_create_stream_queue_size(MEDIUM)); // Cancel the first stream. A callback to unstall the second stream was // posted. Don't run it yet. stream1->Cancel(); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(MEDIUM)); // Create a third stream prior to the second stream's callback. base::WeakPtr stream3 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(MEDIUM)); // Now run the message loop. The unstalled stream will re-stall itself. base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(1u, session_->pending_create_stream_queue_size(MEDIUM)); // Cancel the third stream and run the message loop. Verify that the second // stream creation now completes. stream3->Cancel(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(MEDIUM)); EXPECT_THAT(callback2.WaitForResult(), IsOk()); } TEST_F(SpdySessionTest, CancelPushAfterSessionGoesAway) { base::HistogramTester histogram_tester; session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = TheNearFuture; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = {CreateMockWrite(req, 0), CreateMockWrite(rst, 5)}; SpdySerializedFrame push_a(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, "https://www.example.org/a.dat")); SpdySerializedFrame push_a_body(spdy_util_.ConstructSpdyDataFrame(2, false)); // In ascii "0" < "a". We use it to verify that we properly handle std::map // iterators inside. See http://crbug.com/443490 SpdySerializedFrame push_b(spdy_util_.ConstructSpdyPush( nullptr, 0, 4, 1, "https://www.example.org/0.dat")); MockRead reads[] = { CreateMockRead(push_a, 1), CreateMockRead(push_a_body, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(push_b, 4), MockRead(ASYNC, ERR_IO_PENDING, 6), MockRead(ASYNC, 0, 7) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); session_->set_push_delegate(&test_push_delegate_); // Process the principal request, and the first push stream request & body. base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); // Verify that there is one unclaimed push stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/a.dat"))); // Unclaimed push body consumed bytes from the session window. EXPECT_EQ(kDefaultInitialWindowSize - kUploadDataSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); // Shift time to expire the push stream. Read the second HEADERS, // and verify a RST_STREAM was written. g_time_delta = base::TimeDelta::FromSeconds(301); data.Resume(); base::RunLoop().RunUntilIdle(); // Verify that the second pushed stream evicted the first pushed stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/0.dat"))); // Verify that the session window reclaimed the evicted stream body. EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(kUploadDataSize, session_->session_unacked_recv_window_bytes_); EXPECT_TRUE(session_); // Read and process EOF. data.Resume(); base::RunLoop().RunUntilIdle(); // Cancel the first push after session goes away. Verify the test doesn't // crash. EXPECT_FALSE(session_); EXPECT_TRUE( test_push_delegate_.CancelPush(GURL("https://www.example.org/a.dat"))); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedBytes", 6, 1); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedAndUnclaimedBytes", 6, 1); } TEST_F(SpdySessionTest, CancelPushAfterExpired) { base::HistogramTester histogram_tester; session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = TheNearFuture; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = {CreateMockWrite(req, 0), CreateMockWrite(rst, 5)}; SpdySerializedFrame push_a(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, "https://www.example.org/a.dat")); SpdySerializedFrame push_a_body(spdy_util_.ConstructSpdyDataFrame(2, false)); // In ascii "0" < "a". We use it to verify that we properly handle std::map // iterators inside. See http://crbug.com/443490 SpdySerializedFrame push_b(spdy_util_.ConstructSpdyPush( nullptr, 0, 4, 1, "https://www.example.org/0.dat")); MockRead reads[] = { CreateMockRead(push_a, 1), CreateMockRead(push_a_body, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(push_b, 4), MockRead(ASYNC, ERR_IO_PENDING, 6), MockRead(ASYNC, 0, 7) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); session_->set_push_delegate(&test_push_delegate_); // Process the principal request, and the first push stream request & body. base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); // Verify that there is one unclaimed push stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/a.dat"))); // Unclaimed push body consumed bytes from the session window. EXPECT_EQ(kDefaultInitialWindowSize - kUploadDataSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); // Shift time to expire the push stream. Read the second HEADERS, // and verify a RST_STREAM was written. g_time_delta = base::TimeDelta::FromSeconds(301); data.Resume(); base::RunLoop().RunUntilIdle(); // Verify that the second pushed stream evicted the first pushed stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/0.dat"))); // Cancel the first push after its expiration. EXPECT_TRUE( test_push_delegate_.CancelPush(GURL("https://www.example.org/a.dat"))); EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_TRUE(session_); // Verify that the session window reclaimed the evicted stream body. EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(kUploadDataSize, session_->session_unacked_recv_window_bytes_); EXPECT_TRUE(session_); // Read and process EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedBytes", 6, 1); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedAndUnclaimedBytes", 6, 1); } TEST_F(SpdySessionTest, CancelPushBeforeClaimed) { base::HistogramTester histogram_tester; session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = TheNearFuture; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = {CreateMockWrite(req, 0), CreateMockWrite(rst, 5)}; SpdySerializedFrame push_a(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, "https://www.example.org/a.dat")); SpdySerializedFrame push_a_body(spdy_util_.ConstructSpdyDataFrame(2, false)); // In ascii "0" < "a". We use it to verify that we properly handle std::map // iterators inside. See http://crbug.com/443490 SpdySerializedFrame push_b(spdy_util_.ConstructSpdyPush( nullptr, 0, 4, 1, "https://www.example.org/0.dat")); MockRead reads[] = { CreateMockRead(push_a, 1), CreateMockRead(push_a_body, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(push_b, 4), MockRead(ASYNC, ERR_IO_PENDING, 6), MockRead(ASYNC, 0, 7) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); session_->set_push_delegate(&test_push_delegate_); // Process the principal request, and the first push stream request & body. base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); // Verify that there is one unclaimed push stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/a.dat"))); // Unclaimed push body consumed bytes from the session window. EXPECT_EQ(kDefaultInitialWindowSize - kUploadDataSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); // Shift time to expire the push stream. Read the second HEADERS, // and verify a RST_STREAM was written. g_time_delta = base::TimeDelta::FromSeconds(301); data.Resume(); base::RunLoop().RunUntilIdle(); // Verify that the second pushed stream evicted the first pushed stream. GURL pushed_url("https://www.example.org/0.dat"); EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url(pushed_url)); // Verify that the session window reclaimed the evicted stream body. EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(kUploadDataSize, session_->session_unacked_recv_window_bytes_); EXPECT_TRUE(session_); // Cancel the push before it's claimed. EXPECT_TRUE(test_push_delegate_.CancelPush(pushed_url)); EXPECT_EQ(0u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(0u, session_->count_unclaimed_pushed_streams_for_url(pushed_url)); // Read and process EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedBytes", 6, 1); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedAndUnclaimedBytes", 6, 1); } TEST_F(SpdySessionTest, DeleteExpiredPushStreams) { base::HistogramTester histogram_tester; session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = TheNearFuture; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = {CreateMockWrite(req, 0), CreateMockWrite(rst, 5)}; SpdySerializedFrame push_a(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, "https://www.example.org/a.dat")); SpdySerializedFrame push_a_body(spdy_util_.ConstructSpdyDataFrame(2, false)); // In ascii "0" < "a". We use it to verify that we properly handle std::map // iterators inside. See http://crbug.com/443490 SpdySerializedFrame push_b(spdy_util_.ConstructSpdyPush( nullptr, 0, 4, 1, "https://www.example.org/0.dat")); MockRead reads[] = { CreateMockRead(push_a, 1), CreateMockRead(push_a_body, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(push_b, 4), MockRead(ASYNC, ERR_IO_PENDING, 6), MockRead(ASYNC, 0, 7) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Process the principal request, and the first push stream request & body. base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); // Verify that there is one unclaimed push stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/a.dat"))); // Unclaimed push body consumed bytes from the session window. EXPECT_EQ(kDefaultInitialWindowSize - kUploadDataSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); // Shift time to expire the push stream. Read the second HEADERS, // and verify a RST_STREAM was written. g_time_delta = base::TimeDelta::FromSeconds(301); data.Resume(); base::RunLoop().RunUntilIdle(); // Verify that the second pushed stream evicted the first pushed stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/0.dat"))); // Verify that the session window reclaimed the evicted stream body. EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(kUploadDataSize, session_->session_unacked_recv_window_bytes_); // Read and process EOF. EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedBytes", 6, 1); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedAndUnclaimedBytes", 6, 1); } TEST_F(SpdySessionTest, MetricsCollectionOnPushStreams) { base::HistogramTester histogram_tester; session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = TheNearFuture; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = {CreateMockWrite(req, 0), CreateMockWrite(rst, 5)}; SpdySerializedFrame push_a(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, "https://www.example.org/a.dat")); SpdySerializedFrame push_a_body(spdy_util_.ConstructSpdyDataFrame(2, false)); // In ascii "0" < "a". We use it to verify that we properly handle std::map // iterators inside. See http://crbug.com/443490 SpdySerializedFrame push_b(spdy_util_.ConstructSpdyPush( nullptr, 0, 4, 1, "https://www.example.org/0.dat")); SpdySerializedFrame push_c(spdy_util_.ConstructSpdyPush( nullptr, 0, 6, 1, "https://www.example.org/1.dat")); SpdySerializedFrame push_c_body(spdy_util_.ConstructSpdyDataFrame(6, false)); MockRead reads[] = { CreateMockRead(push_a, 1), CreateMockRead(push_a_body, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(push_b, 4), MockRead(ASYNC, ERR_IO_PENDING, 6), CreateMockRead(push_c, 7), CreateMockRead(push_c_body, 8), MockRead(ASYNC, ERR_IO_PENDING, 9), MockRead(ASYNC, 0, 10) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Process the principal request, and the first push stream request & body. base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); // Verify that there is one unclaimed push stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/a.dat"))); // Unclaimed push body consumed bytes from the session window. EXPECT_EQ(kDefaultInitialWindowSize - kUploadDataSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); // Shift time to expire the push stream. Read the second HEADERS, // and verify a RST_STREAM was written. g_time_delta = base::TimeDelta::FromSeconds(300); data.Resume(); base::RunLoop().RunUntilIdle(); // Verify that the second pushed stream evicted the first pushed stream. EXPECT_EQ(1u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/0.dat"))); // Verify that the session window reclaimed the evicted stream body. EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(kUploadDataSize, session_->session_unacked_recv_window_bytes_); // Read the third PUSH, this will not be expired when the test tear down. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_unclaimed_pushed_streams()); EXPECT_EQ(1u, session_->count_unclaimed_pushed_streams_for_url( GURL("https://www.example.org/1.dat"))); // Read and process EOF. EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedBytes", 12, 1); histogram_tester.ExpectBucketCount("Net.SpdySession.PushedAndUnclaimedBytes", 6, 1); } TEST_F(SpdySessionTest, FailedPing) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; SpdySerializedFrame write_ping(spdy_util_.ConstructSpdyPing(1, false)); SpdySerializedFrame goaway( spdy_util_.ConstructSpdyGoAway(0, GOAWAY_PROTOCOL_ERROR, "Failed ping.")); MockWrite writes[] = {CreateMockWrite(write_ping), CreateMockWrite(goaway)}; StaticSocketDataProvider data( reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); test::StreamDelegateSendImmediate delegate(spdy_stream1, nullptr); spdy_stream1->SetDelegate(&delegate); session_->set_connection_at_risk_of_loss_time( base::TimeDelta::FromSeconds(0)); session_->set_hung_interval(base::TimeDelta::FromSeconds(0)); // Send a PING frame. session_->WritePingFrame(1, false); EXPECT_LT(0, session_->pings_in_flight()); EXPECT_GE(session_->next_ping_id(), 1U); EXPECT_TRUE(session_->check_ping_status_pending()); // Assert session is not closed. EXPECT_TRUE(session_->IsAvailable()); EXPECT_LT(0u, session_->num_active_streams() + session_->num_created_streams()); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // We set last time we have received any data in 1 sec less than now. // CheckPingStatus will trigger timeout because hung interval is zero. base::TimeTicks now = base::TimeTicks::Now(); session_->last_activity_time_ = now - base::TimeDelta::FromSeconds(1); session_->CheckPingStatus(now); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(spdy_stream1); } // Request kInitialMaxConcurrentStreams + 1 streams. Receive a // settings frame increasing the max concurrent streams by 1. Make // sure nothing blows up. This is a regression test for // http://crbug.com/57331 . TEST_F(SpdySessionTest, OnSettings) { session_deps_.host_resolver->set_synchronous_mode(true); const SpdySettingsIds kSpdySettingsIds = SETTINGS_MAX_CONCURRENT_STREAMS; SettingsMap new_settings; const uint32_t max_concurrent_streams = kInitialMaxConcurrentStreams + 1; new_settings[kSpdySettingsIds] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, max_concurrent_streams); SpdySerializedFrame settings_frame( spdy_util_.ConstructSpdySettings(new_settings)); MockRead reads[] = { CreateMockRead(settings_frame, 0), MockRead(ASYNC, ERR_IO_PENDING, 2), MockRead(ASYNC, 0, 3), }; SpdySerializedFrame settings_ack(spdy_util_.ConstructSpdySettingsAck()); MockWrite writes[] = {CreateMockWrite(settings_ack, 1)}; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Create the maximum number of concurrent streams. for (size_t i = 0; i < kInitialMaxConcurrentStreams; ++i) { base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream); } StreamReleaserCallback stream_releaser; SpdyStreamRequest request; ASSERT_EQ(ERR_IO_PENDING, request.StartRequest(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource(), stream_releaser.MakeCallback(&request))); base::RunLoop().RunUntilIdle(); EXPECT_THAT(stream_releaser.WaitForResult(), IsOk()); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Create one more stream than maximum number of concurrent streams, // so that one of them is pending. Cancel one stream, which should trigger the // creation of the pending stream. Then cancel that one immediately as well, // and make sure this does not lead to a crash. // This is a regression test for https://crbug.com/63532. TEST_F(SpdySessionTest, CancelPendingCreateStream) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Leave room for only one more stream to be created. for (size_t i = 0; i < kInitialMaxConcurrentStreams - 1; ++i) { base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream); } // Create 2 more streams. First will succeed. Second will be pending. base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); // Use unique_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. std::unique_ptr callback(new TestCompletionCallback); SpdyStreamRequest request; ASSERT_THAT( request.StartRequest(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource(), callback->callback()), IsError(ERR_IO_PENDING)); // Release the first one, this will allow the second to be created. spdy_stream1->Cancel(); EXPECT_FALSE(spdy_stream1); request.CancelRequest(); callback.reset(); // Should not crash when running the pending callback. base::RunLoop().RunUntilIdle(); } TEST_F(SpdySessionTest, SendInitialDataOnNewSession) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; SettingsMap settings; settings[SETTINGS_HEADER_TABLE_SIZE] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, kMaxHeaderTableSize); settings[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, kMaxConcurrentPushedStreams); SpdySerializedFrame settings_frame( spdy_util_.ConstructSpdySettings(settings)); MockWrite writes[] = {MockWrite(ASYNC, kHttp2ConnectionHeaderPrefix, kHttp2ConnectionHeaderPrefixSize), CreateMockWrite(settings_frame)}; StaticSocketDataProvider data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); SpdySessionPoolPeer pool_peer(spdy_session_pool_); pool_peer.SetEnableSendingInitialData(true); CreateSecureSpdySession(); base::RunLoop().RunUntilIdle(); EXPECT_TRUE(data.AllWriteDataConsumed()); } TEST_F(SpdySessionTest, Initialize) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(ASYNC, 0, 0) // EOF }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Flush the read completion task. base::RunLoop().RunUntilIdle(); TestNetLogEntry::List entries; log_.GetEntries(&entries); EXPECT_LT(0u, entries.size()); // Check that we logged HTTP2_SESSION_INITIALIZED correctly. int pos = ExpectLogContainsSomewhere( entries, 0, NetLogEventType::HTTP2_SESSION_INITIALIZED, NetLogEventPhase::NONE); EXPECT_LT(0, pos); TestNetLogEntry entry = entries[pos]; NetLogSource socket_source; EXPECT_TRUE( NetLogSource::FromEventParameters(entry.params.get(), &socket_source)); EXPECT_TRUE(socket_source.IsValid()); EXPECT_NE(log_.bound().source().id, socket_source.id); } TEST_F(SpdySessionTest, NetLogOnSessionGoaway) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway( spdy_util_.ConstructSpdyGoAway(42, GOAWAY_ENHANCE_YOUR_CALM, "foo")); MockRead reads[] = { CreateMockRead(goaway), MockRead(SYNCHRONOUS, 0, 0) // EOF }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Flush the read completion task. base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(session_); // Check that the NetLog was filled reasonably. TestNetLogEntry::List entries; log_.GetEntries(&entries); EXPECT_LT(0u, entries.size()); int pos = ExpectLogContainsSomewhere(entries, 0, NetLogEventType::HTTP2_SESSION_GOAWAY, NetLogEventPhase::NONE); TestNetLogEntry entry = entries[pos]; int last_accepted_stream_id; ASSERT_TRUE(entry.GetIntegerValue("last_accepted_stream_id", &last_accepted_stream_id)); EXPECT_EQ(42, last_accepted_stream_id); int active_streams; ASSERT_TRUE(entry.GetIntegerValue("active_streams", &active_streams)); EXPECT_EQ(0, active_streams); int unclaimed_streams; ASSERT_TRUE(entry.GetIntegerValue("unclaimed_streams", &unclaimed_streams)); EXPECT_EQ(0, unclaimed_streams); int status; ASSERT_TRUE(entry.GetIntegerValue("status", &status)); EXPECT_EQ(GOAWAY_ENHANCE_YOUR_CALM, status); std::string debug_data; ASSERT_TRUE(entry.GetStringValue("debug_data", &debug_data)); EXPECT_EQ("foo", debug_data); // Check that we logged SPDY_SESSION_CLOSE correctly. pos = ExpectLogContainsSomewhere( entries, 0, NetLogEventType::HTTP2_SESSION_CLOSE, NetLogEventPhase::NONE); entry = entries[pos]; int error_code = 0; ASSERT_TRUE(entry.GetNetErrorCode(&error_code)); EXPECT_THAT(error_code, IsOk()); } TEST_F(SpdySessionTest, NetLogOnSessionEOF) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, 0, 0) // EOF }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Flush the read completion task. base::RunLoop().RunUntilIdle(); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_FALSE(session_); // Check that the NetLog was filled reasonably. TestNetLogEntry::List entries; log_.GetEntries(&entries); EXPECT_LT(0u, entries.size()); // Check that we logged SPDY_SESSION_CLOSE correctly. int pos = ExpectLogContainsSomewhere( entries, 0, NetLogEventType::HTTP2_SESSION_CLOSE, NetLogEventPhase::NONE); if (pos < static_cast(entries.size())) { TestNetLogEntry entry = entries[pos]; int error_code = 0; ASSERT_TRUE(entry.GetNetErrorCode(&error_code)); EXPECT_THAT(error_code, IsError(ERR_CONNECTION_CLOSED)); } else { ADD_FAILURE(); } } TEST_F(SpdySessionTest, SynCompressionHistograms) { SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req, 0), }; MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), MockRead(ASYNC, 0, 2) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Write request headers & capture resulting histogram update. base::HistogramTester histogram_tester; base::RunLoop().RunUntilIdle(); // Regression test of compression performance under the request fixture. histogram_tester.ExpectBucketCount("Net.SpdySynStreamCompressionPercentage", 81, 1); // Read and process EOF. EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Queue up a low-priority HEADERS followed by a high-priority // one. The high priority one should still send first and receive // first. TEST_F(SpdySessionTest, OutOfOrderHeaders) { // Construct the request. SpdySerializedFrame req_highest( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, HIGHEST, true)); SpdySerializedFrame req_lowest( spdy_util_.ConstructSpdyGet(nullptr, 0, 3, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(req_highest, 0), CreateMockWrite(req_lowest, 1), }; SpdySerializedFrame resp_highest( spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame body_highest(spdy_util_.ConstructSpdyDataFrame(1, true)); SpdySerializedFrame resp_lowest( spdy_util_.ConstructSpdyGetReply(nullptr, 0, 3)); SpdySerializedFrame body_lowest(spdy_util_.ConstructSpdyDataFrame(3, true)); MockRead reads[] = { CreateMockRead(resp_highest, 2), CreateMockRead(body_highest, 3), CreateMockRead(resp_lowest, 4), CreateMockRead(body_lowest, 5), MockRead(ASYNC, 0, 6) // EOF }; session_deps_.host_resolver->set_synchronous_mode(true); SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream_lowest = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream_lowest); EXPECT_EQ(0u, spdy_stream_lowest->stream_id()); test::StreamDelegateDoNothing delegate_lowest(spdy_stream_lowest); spdy_stream_lowest->SetDelegate(&delegate_lowest); base::WeakPtr spdy_stream_highest = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, HIGHEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream_highest); EXPECT_EQ(0u, spdy_stream_highest->stream_id()); test::StreamDelegateDoNothing delegate_highest(spdy_stream_highest); spdy_stream_highest->SetDelegate(&delegate_highest); // Queue the lower priority one first. SpdyHeaderBlock headers_lowest( spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream_lowest->SendRequestHeaders(std::move(headers_lowest), NO_MORE_DATA_TO_SEND); SpdyHeaderBlock headers_highest( spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream_highest->SendRequestHeaders(std::move(headers_highest), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream_lowest); EXPECT_FALSE(spdy_stream_highest); EXPECT_EQ(3u, delegate_lowest.stream_id()); EXPECT_EQ(1u, delegate_highest.stream_id()); } TEST_F(SpdySessionTest, CancelStream) { // Request 1, at HIGHEST priority, will be cancelled before it writes data. // Request 2, at LOWEST priority, will be a full request and will be id 1. SpdySerializedFrame req2( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(req2, 0), }; SpdySerializedFrame resp2(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame body2(spdy_util_.ConstructSpdyDataFrame(1, true)); MockRead reads[] = { CreateMockRead(resp2, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(body2, 3), MockRead(ASYNC, 0, 4) // EOF }; session_deps_.host_resolver->set_synchronous_mode(true); SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, HIGHEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream2); EXPECT_EQ(0u, spdy_stream2->stream_id()); test::StreamDelegateDoNothing delegate2(spdy_stream2); spdy_stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); SpdyHeaderBlock headers2(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); EXPECT_EQ(0u, spdy_stream1->stream_id()); spdy_stream1->Cancel(); EXPECT_FALSE(spdy_stream1); EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(0u, delegate1.stream_id()); EXPECT_EQ(1u, delegate2.stream_id()); spdy_stream2->Cancel(); EXPECT_FALSE(spdy_stream2); } // Create two streams that are set to re-close themselves on close, // and then close the session. Nothing should blow up. Also a // regression test for http://crbug.com/139518 . TEST_F(SpdySessionTest, CloseSessionWithTwoCreatedSelfClosingStreams) { session_deps_.host_resolver->set_synchronous_mode(true); // No actual data will be sent. MockWrite writes[] = { MockWrite(ASYNC, 0, 1) // EOF }; MockRead reads[] = { MockRead(ASYNC, 0, 0) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, HIGHEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream2); EXPECT_EQ(0u, spdy_stream2->stream_id()); test::ClosingDelegate delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); test::ClosingDelegate delegate2(spdy_stream2); spdy_stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); SpdyHeaderBlock headers2(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); // Ensure that the streams have not yet been activated and assigned an id. EXPECT_EQ(0u, spdy_stream1->stream_id()); EXPECT_EQ(0u, spdy_stream2->stream_id()); // Ensure we don't crash while closing the session. session_->CloseSessionOnError(ERR_ABORTED, std::string()); EXPECT_FALSE(spdy_stream1); EXPECT_FALSE(spdy_stream2); EXPECT_TRUE(delegate1.StreamIsClosed()); EXPECT_TRUE(delegate2.StreamIsClosed()); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Create two streams that are set to close each other on close, and // then close the session. Nothing should blow up. TEST_F(SpdySessionTest, CloseSessionWithTwoCreatedMutuallyClosingStreams) { session_deps_.host_resolver->set_synchronous_mode(true); SequencedSocketData data(nullptr, 0, nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, HIGHEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream2); EXPECT_EQ(0u, spdy_stream2->stream_id()); // Make |spdy_stream1| close |spdy_stream2|. test::ClosingDelegate delegate1(spdy_stream2); spdy_stream1->SetDelegate(&delegate1); // Make |spdy_stream2| close |spdy_stream1|. test::ClosingDelegate delegate2(spdy_stream1); spdy_stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); SpdyHeaderBlock headers2(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); // Ensure that the streams have not yet been activated and assigned an id. EXPECT_EQ(0u, spdy_stream1->stream_id()); EXPECT_EQ(0u, spdy_stream2->stream_id()); // Ensure we don't crash while closing the session. session_->CloseSessionOnError(ERR_ABORTED, std::string()); EXPECT_FALSE(spdy_stream1); EXPECT_FALSE(spdy_stream2); EXPECT_TRUE(delegate1.StreamIsClosed()); EXPECT_TRUE(delegate2.StreamIsClosed()); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Create two streams that are set to re-close themselves on close, // activate them, and then close the session. Nothing should blow up. TEST_F(SpdySessionTest, CloseSessionWithTwoActivatedSelfClosingStreams) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame req2( spdy_util_.ConstructSpdyGet(nullptr, 0, 3, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), }; MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 2), MockRead(ASYNC, 0, 3) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream2); EXPECT_EQ(0u, spdy_stream2->stream_id()); test::ClosingDelegate delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); test::ClosingDelegate delegate2(spdy_stream2); spdy_stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); SpdyHeaderBlock headers2(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); // Ensure that the streams have not yet been activated and assigned an id. EXPECT_EQ(0u, spdy_stream1->stream_id()); EXPECT_EQ(0u, spdy_stream2->stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream1->stream_id()); EXPECT_EQ(3u, spdy_stream2->stream_id()); // Ensure we don't crash while closing the session. session_->CloseSessionOnError(ERR_ABORTED, std::string()); EXPECT_FALSE(spdy_stream1); EXPECT_FALSE(spdy_stream2); EXPECT_TRUE(delegate1.StreamIsClosed()); EXPECT_TRUE(delegate2.StreamIsClosed()); EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Create two streams that are set to close each other on close, // activate them, and then close the session. Nothing should blow up. TEST_F(SpdySessionTest, CloseSessionWithTwoActivatedMutuallyClosingStreams) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame req2( spdy_util_.ConstructSpdyGet(nullptr, 0, 3, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), }; MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 2), MockRead(ASYNC, 0, 3) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream2); EXPECT_EQ(0u, spdy_stream2->stream_id()); // Make |spdy_stream1| close |spdy_stream2|. test::ClosingDelegate delegate1(spdy_stream2); spdy_stream1->SetDelegate(&delegate1); // Make |spdy_stream2| close |spdy_stream1|. test::ClosingDelegate delegate2(spdy_stream1); spdy_stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); SpdyHeaderBlock headers2(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); // Ensure that the streams have not yet been activated and assigned an id. EXPECT_EQ(0u, spdy_stream1->stream_id()); EXPECT_EQ(0u, spdy_stream2->stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream1->stream_id()); EXPECT_EQ(3u, spdy_stream2->stream_id()); // Ensure we don't crash while closing the session. session_->CloseSessionOnError(ERR_ABORTED, std::string()); EXPECT_FALSE(spdy_stream1); EXPECT_FALSE(spdy_stream2); EXPECT_TRUE(delegate1.StreamIsClosed()); EXPECT_TRUE(delegate2.StreamIsClosed()); EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Delegate that closes a given session when the stream is closed. class SessionClosingDelegate : public test::StreamDelegateDoNothing { public: SessionClosingDelegate(const base::WeakPtr& stream, const base::WeakPtr& session_to_close) : StreamDelegateDoNothing(stream), session_to_close_(session_to_close) {} ~SessionClosingDelegate() override {} void OnClose(int status) override { session_to_close_->CloseSessionOnError(ERR_SPDY_PROTOCOL_ERROR, "Error"); } private: base::WeakPtr session_to_close_; }; // Close an activated stream that closes its session. Nothing should // blow up. This is a regression test for https://crbug.com/263691. TEST_F(SpdySessionTest, CloseActivatedStreamThatClosesSession) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_CANCEL)); SpdySerializedFrame goaway( spdy_util_.ConstructSpdyGoAway(0, GOAWAY_PROTOCOL_ERROR, "Error")); // The GOAWAY has higher-priority than the RST_STREAM, and is written first // despite being queued second. MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(goaway, 1), CreateMockWrite(rst, 3), }; MockRead reads[] = { MockRead(ASYNC, 0, 2) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream); EXPECT_EQ(0u, spdy_stream->stream_id()); SessionClosingDelegate delegate(spdy_stream, session_); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); EXPECT_EQ(0u, spdy_stream->stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream->stream_id()); // Ensure we don't crash while closing the stream (which closes the // session). spdy_stream->Cancel(); EXPECT_FALSE(spdy_stream); EXPECT_TRUE(delegate.StreamIsClosed()); // Write the RST_STREAM & GOAWAY. base::RunLoop().RunUntilIdle(); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } TEST_F(SpdySessionTest, VerifyDomainAuthentication) { session_deps_.host_resolver->set_synchronous_mode(true); SequencedSocketData data(nullptr, 0, nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_TRUE(session_->VerifyDomainAuthentication("www.example.org")); EXPECT_TRUE(session_->VerifyDomainAuthentication("mail.example.org")); EXPECT_TRUE(session_->VerifyDomainAuthentication("mail.example.com")); EXPECT_FALSE(session_->VerifyDomainAuthentication("mail.google.com")); } TEST_F(SpdySessionTest, ConnectionPooledWithTlsChannelId) { session_deps_.host_resolver->set_synchronous_mode(true); SequencedSocketData data(nullptr, 0, nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); ssl_.channel_id_sent = true; AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_TRUE(session_->VerifyDomainAuthentication("www.example.org")); EXPECT_TRUE(session_->VerifyDomainAuthentication("mail.example.org")); EXPECT_FALSE(session_->VerifyDomainAuthentication("mail.example.com")); EXPECT_FALSE(session_->VerifyDomainAuthentication("mail.google.com")); } TEST_F(SpdySessionTest, CloseTwoStalledCreateStream) { // TODO(rtenneti): Define a helper class/methods and move the common code in // this file. SettingsMap new_settings; const SpdySettingsIds kSpdySettingsIds1 = SETTINGS_MAX_CONCURRENT_STREAMS; const uint32_t max_concurrent_streams = 1; new_settings[kSpdySettingsIds1] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, max_concurrent_streams); SpdySerializedFrame settings_ack(spdy_util_.ConstructSpdySettingsAck()); SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); spdy_util_.UpdateWithStreamDestruction(1); SpdySerializedFrame req2( spdy_util_.ConstructSpdyGet(nullptr, 0, 3, LOWEST, true)); spdy_util_.UpdateWithStreamDestruction(3); SpdySerializedFrame req3( spdy_util_.ConstructSpdyGet(nullptr, 0, 5, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(settings_ack, 1), CreateMockWrite(req1, 2), CreateMockWrite(req2, 5), CreateMockWrite(req3, 8), }; // Set up the socket so we read a SETTINGS frame that sets max concurrent // streams to 1. SpdySerializedFrame settings_frame( spdy_util_.ConstructSpdySettings(new_settings)); SpdySerializedFrame resp1(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame body1(spdy_util_.ConstructSpdyDataFrame(1, true)); SpdySerializedFrame resp2(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 3)); SpdySerializedFrame body2(spdy_util_.ConstructSpdyDataFrame(3, true)); SpdySerializedFrame resp3(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 5)); SpdySerializedFrame body3(spdy_util_.ConstructSpdyDataFrame(5, true)); MockRead reads[] = { CreateMockRead(settings_frame, 0), CreateMockRead(resp1, 3), CreateMockRead(body1, 4), CreateMockRead(resp2, 6), CreateMockRead(body2, 7), CreateMockRead(resp3, 9), CreateMockRead(body3, 10), MockRead(ASYNC, ERR_IO_PENDING, 11), MockRead(ASYNC, 0, 12) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Read the settings frame. base::RunLoop().RunUntilIdle(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); TestCompletionCallback callback2; SpdyStreamRequest request2; ASSERT_EQ( ERR_IO_PENDING, request2.StartRequest(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource(), callback2.callback())); TestCompletionCallback callback3; SpdyStreamRequest request3; ASSERT_EQ( ERR_IO_PENDING, request3.StartRequest(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource(), callback3.callback())); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(2u, session_->pending_create_stream_queue_size(LOWEST)); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Run until 1st stream is activated and then closed. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream1); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->pending_create_stream_queue_size(LOWEST)); // Pump loop for SpdySession::ProcessPendingStreamRequests() to // create the 2nd stream. base::RunLoop().RunUntilIdle(); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(1u, session_->pending_create_stream_queue_size(LOWEST)); base::WeakPtr stream2 = request2.ReleaseStream(); test::StreamDelegateDoNothing delegate2(stream2); stream2->SetDelegate(&delegate2); SpdyHeaderBlock headers2(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); stream2->SendRequestHeaders(std::move(headers2), NO_MORE_DATA_TO_SEND); // Run until 2nd stream is activated and then closed. EXPECT_EQ(0u, delegate2.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(stream2); EXPECT_EQ(3u, delegate2.stream_id()); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(LOWEST)); // Pump loop for SpdySession::ProcessPendingStreamRequests() to // create the 3rd stream. base::RunLoop().RunUntilIdle(); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(LOWEST)); base::WeakPtr stream3 = request3.ReleaseStream(); test::StreamDelegateDoNothing delegate3(stream3); stream3->SetDelegate(&delegate3); SpdyHeaderBlock headers3(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); stream3->SendRequestHeaders(std::move(headers3), NO_MORE_DATA_TO_SEND); // Run until 2nd stream is activated and then closed. EXPECT_EQ(0u, delegate3.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(stream3); EXPECT_EQ(5u, delegate3.stream_id()); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(LOWEST)); data.Resume(); base::RunLoop().RunUntilIdle(); } TEST_F(SpdySessionTest, CancelTwoStalledCreateStream) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Leave room for only one more stream to be created. for (size_t i = 0; i < kInitialMaxConcurrentStreams - 1; ++i) { base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream); } base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); TestCompletionCallback callback2; SpdyStreamRequest request2; ASSERT_EQ( ERR_IO_PENDING, request2.StartRequest(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, LOWEST, NetLogWithSource(), callback2.callback())); TestCompletionCallback callback3; SpdyStreamRequest request3; ASSERT_EQ( ERR_IO_PENDING, request3.StartRequest(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, LOWEST, NetLogWithSource(), callback3.callback())); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(kInitialMaxConcurrentStreams, session_->num_created_streams()); EXPECT_EQ(2u, session_->pending_create_stream_queue_size(LOWEST)); // Cancel the first stream; this will allow the second stream to be created. EXPECT_TRUE(spdy_stream1); spdy_stream1->Cancel(); EXPECT_FALSE(spdy_stream1); EXPECT_THAT(callback2.WaitForResult(), IsOk()); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(kInitialMaxConcurrentStreams, session_->num_created_streams()); EXPECT_EQ(1u, session_->pending_create_stream_queue_size(LOWEST)); // Cancel the second stream; this will allow the third stream to be created. base::WeakPtr spdy_stream2 = request2.ReleaseStream(); spdy_stream2->Cancel(); EXPECT_FALSE(spdy_stream2); EXPECT_THAT(callback3.WaitForResult(), IsOk()); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(kInitialMaxConcurrentStreams, session_->num_created_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(LOWEST)); // Cancel the third stream. base::WeakPtr spdy_stream3 = request3.ReleaseStream(); spdy_stream3->Cancel(); EXPECT_FALSE(spdy_stream3); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(kInitialMaxConcurrentStreams - 1, session_->num_created_streams()); EXPECT_EQ(0u, session_->pending_create_stream_queue_size(LOWEST)); } // Test that SpdySession::DoReadLoop reads data from the socket // without yielding. This test makes 32k - 1 bytes of data available // on the socket for reading. It then verifies that it has read all // the available data without yielding. TEST_F(SpdySessionTest, ReadDataWithoutYielding) { session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = InstantaneousReads; BufferedSpdyFramer framer; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), }; // Build buffer of size kYieldAfterBytesRead / 4 // (-spdy_data_frame_size). ASSERT_EQ(32 * 1024, kYieldAfterBytesRead); const int kPayloadSize = kYieldAfterBytesRead / 4 - framer.GetFrameHeaderSize(); TestDataStream test_stream; scoped_refptr payload(new IOBuffer(kPayloadSize)); char* payload_data = payload->data(); test_stream.GetBytes(payload_data, kPayloadSize); SpdySerializedFrame partial_data_frame(spdy_util_.ConstructSpdyDataFrame( 1, payload_data, kPayloadSize, /*fin=*/false)); SpdySerializedFrame finish_data_frame(spdy_util_.ConstructSpdyDataFrame( 1, payload_data, kPayloadSize - 1, /*fin=*/true)); SpdySerializedFrame resp1(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); // Write 1 byte less than kMaxReadBytes to check that DoRead reads up to 32k // bytes. MockRead reads[] = { CreateMockRead(resp1, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(partial_data_frame, 3), CreateMockRead(partial_data_frame, 4, SYNCHRONOUS), CreateMockRead(partial_data_frame, 5, SYNCHRONOUS), CreateMockRead(finish_data_frame, 6, SYNCHRONOUS), MockRead(ASYNC, 0, 7) // EOF }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers1(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers1), NO_MORE_DATA_TO_SEND); // Set up the TaskObserver to verify SpdySession::DoReadLoop doesn't // post a task. SpdySessionTestTaskObserver observer("spdy_session.cc", "DoReadLoop"); // Run until 1st read. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_EQ(0u, observer.executed_count()); // Read all the data and verify SpdySession::DoReadLoop has not // posted a task. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream1); // Verify task observer's executed_count is zero, which indicates DoRead read // all the available data. EXPECT_EQ(0u, observer.executed_count()); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Test that SpdySession::DoReadLoop yields if more than // |kYieldAfterDurationMilliseconds| has passed. This test uses a mock time // function that makes the response frame look very slow to read. TEST_F(SpdySessionTest, TestYieldingSlowReads) { session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = SlowReads; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), }; SpdySerializedFrame resp1(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); MockRead reads[] = { CreateMockRead(resp1, 1), MockRead(ASYNC, 0, 2) // EOF }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers1(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers1), NO_MORE_DATA_TO_SEND); // Set up the TaskObserver to verify that SpdySession::DoReadLoop posts a // task. SpdySessionTestTaskObserver observer("spdy_session.cc", "DoReadLoop"); EXPECT_EQ(0u, delegate1.stream_id()); EXPECT_EQ(0u, observer.executed_count()); // Read all the data and verify that SpdySession::DoReadLoop has posted a // task. base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_FALSE(spdy_stream1); // Verify task that the observer's executed_count is 1, which indicates DoRead // has posted only one task and thus yielded though there is data available // for it to read. EXPECT_EQ(1u, observer.executed_count()); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Regression test for https://crbug.com/531570. // Test the case where DoRead() takes long but returns synchronously. TEST_F(SpdySessionTest, TestYieldingSlowSynchronousReads) { session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = SlowReads; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), }; SpdySerializedFrame partial_data_frame( spdy_util_.ConstructSpdyDataFrame(1, "foo ", 4, /*fin=*/false)); SpdySerializedFrame finish_data_frame( spdy_util_.ConstructSpdyDataFrame(1, "bar", 3, /*fin=*/true)); SpdySerializedFrame resp1(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); MockRead reads[] = { CreateMockRead(resp1, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(partial_data_frame, 3, ASYNC), CreateMockRead(partial_data_frame, 4, SYNCHRONOUS), CreateMockRead(partial_data_frame, 5, SYNCHRONOUS), CreateMockRead(finish_data_frame, 6, SYNCHRONOUS), MockRead(ASYNC, 0, 7) // EOF }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers1(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers1), NO_MORE_DATA_TO_SEND); // Run until 1st read. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); // Read all the data and verify SpdySession::DoReadLoop has posted a task. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ("foo foo foo bar", delegate1.TakeReceivedData()); EXPECT_FALSE(spdy_stream1); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Test that SpdySession::DoReadLoop yields while reading the // data. This test makes 32k + 1 bytes of data available on the socket // for reading. It then verifies that DoRead has yielded even though // there is data available for it to read (i.e, socket()->Read didn't // return ERR_IO_PENDING during socket reads). TEST_F(SpdySessionTest, TestYieldingDuringReadData) { session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = InstantaneousReads; BufferedSpdyFramer framer; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), }; // Build buffer of size kYieldAfterBytesRead / 4 // (-spdy_data_frame_size). ASSERT_EQ(32 * 1024, kYieldAfterBytesRead); const int kPayloadSize = kYieldAfterBytesRead / 4 - framer.GetFrameHeaderSize(); TestDataStream test_stream; scoped_refptr payload(new IOBuffer(kPayloadSize)); char* payload_data = payload->data(); test_stream.GetBytes(payload_data, kPayloadSize); SpdySerializedFrame partial_data_frame(spdy_util_.ConstructSpdyDataFrame( 1, payload_data, kPayloadSize, /*fin=*/false)); SpdySerializedFrame finish_data_frame( spdy_util_.ConstructSpdyDataFrame(1, "h", 1, /*fin=*/true)); SpdySerializedFrame resp1(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); // Write 1 byte more than kMaxReadBytes to check that DoRead yields. MockRead reads[] = { CreateMockRead(resp1, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(partial_data_frame, 3), CreateMockRead(partial_data_frame, 4, SYNCHRONOUS), CreateMockRead(partial_data_frame, 5, SYNCHRONOUS), CreateMockRead(partial_data_frame, 6, SYNCHRONOUS), CreateMockRead(finish_data_frame, 7, SYNCHRONOUS), MockRead(ASYNC, 0, 8) // EOF }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers1(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers1), NO_MORE_DATA_TO_SEND); // Set up the TaskObserver to verify SpdySession::DoReadLoop posts a task. SpdySessionTestTaskObserver observer("spdy_session.cc", "DoReadLoop"); // Run until 1st read. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_EQ(0u, observer.executed_count()); // Read all the data and verify SpdySession::DoReadLoop has posted a task. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream1); // Verify task observer's executed_count is 1, which indicates DoRead has // posted only one task and thus yielded though there is data available for it // to read. EXPECT_EQ(1u, observer.executed_count()); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Test that SpdySession::DoReadLoop() tests interactions of yielding // + async, by doing the following MockReads. // // MockRead of SYNCHRONOUS 8K, SYNCHRONOUS 8K, SYNCHRONOUS 8K, SYNCHRONOUS 2K // ASYNC 8K, SYNCHRONOUS 8K, SYNCHRONOUS 8K, SYNCHRONOUS 8K, SYNCHRONOUS 2K. // // The above reads 26K synchronously. Since that is less that 32K, we // will attempt to read again. However, that DoRead() will return // ERR_IO_PENDING (because of async read), so DoReadLoop() will // yield. When we come back, DoRead() will read the results from the // async read, and rest of the data synchronously. TEST_F(SpdySessionTest, TestYieldingDuringAsyncReadData) { session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.time_func = InstantaneousReads; BufferedSpdyFramer framer; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), }; // Build buffer of size kYieldAfterBytesRead / 4 // (-spdy_data_frame_size). ASSERT_EQ(32 * 1024, kYieldAfterBytesRead); TestDataStream test_stream; const int kEightKPayloadSize = kYieldAfterBytesRead / 4 - framer.GetFrameHeaderSize(); scoped_refptr eightk_payload(new IOBuffer(kEightKPayloadSize)); char* eightk_payload_data = eightk_payload->data(); test_stream.GetBytes(eightk_payload_data, kEightKPayloadSize); // Build buffer of 2k size. TestDataStream test_stream2; const int kTwoKPayloadSize = kEightKPayloadSize - 6 * 1024; scoped_refptr twok_payload(new IOBuffer(kTwoKPayloadSize)); char* twok_payload_data = twok_payload->data(); test_stream2.GetBytes(twok_payload_data, kTwoKPayloadSize); SpdySerializedFrame eightk_data_frame(spdy_util_.ConstructSpdyDataFrame( 1, eightk_payload_data, kEightKPayloadSize, /*fin=*/false)); SpdySerializedFrame twok_data_frame(spdy_util_.ConstructSpdyDataFrame( 1, twok_payload_data, kTwoKPayloadSize, /*fin=*/false)); SpdySerializedFrame finish_data_frame( spdy_util_.ConstructSpdyDataFrame(1, "h", 1, /*fin=*/true)); SpdySerializedFrame resp1(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); MockRead reads[] = { CreateMockRead(resp1, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(eightk_data_frame, 3), CreateMockRead(eightk_data_frame, 4, SYNCHRONOUS), CreateMockRead(eightk_data_frame, 5, SYNCHRONOUS), CreateMockRead(twok_data_frame, 6, SYNCHRONOUS), CreateMockRead(eightk_data_frame, 7, ASYNC), CreateMockRead(eightk_data_frame, 8, SYNCHRONOUS), CreateMockRead(eightk_data_frame, 9, SYNCHRONOUS), CreateMockRead(eightk_data_frame, 10, SYNCHRONOUS), CreateMockRead(twok_data_frame, 11, SYNCHRONOUS), CreateMockRead(finish_data_frame, 12, SYNCHRONOUS), MockRead(ASYNC, 0, 13) // EOF }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers1(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers1), NO_MORE_DATA_TO_SEND); // Set up the TaskObserver to monitor SpdySession::DoReadLoop // posting of tasks. SpdySessionTestTaskObserver observer("spdy_session.cc", "DoReadLoop"); // Run until 1st read. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_EQ(0u, observer.executed_count()); // Read all the data and verify SpdySession::DoReadLoop has posted a // task. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream1); // Verify task observer's executed_count is 1, which indicates DoRead has // posted only one task and thus yielded though there is data available for // it to read. EXPECT_EQ(1u, observer.executed_count()); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Send a GoAway frame when SpdySession is in DoReadLoop. Make sure // nothing blows up. TEST_F(SpdySessionTest, GoAwayWhileInDoReadLoop) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), }; SpdySerializedFrame resp1(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame body1(spdy_util_.ConstructSpdyDataFrame(1, true)); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway()); MockRead reads[] = { CreateMockRead(resp1, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(body1, 3), CreateMockRead(goaway, 4), }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); SpdyHeaderBlock headers1(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers1), NO_MORE_DATA_TO_SEND); // Run until 1st read. EXPECT_EQ(0u, spdy_stream1->stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream1->stream_id()); // Run until GoAway. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream1); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); EXPECT_FALSE(session_); } // Within this framework, a SpdySession should be initialized with // flow control disabled for protocol version 2, with flow control // enabled only for streams for protocol version 3, and with flow // control enabled for streams and sessions for higher versions. TEST_F(SpdySessionTest, ProtocolNegotiation) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, 0, 0) // EOF }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); CreateNetworkSession(); session_ = CreateFakeSpdySession(spdy_session_pool_, key_); EXPECT_EQ(kDefaultInitialWindowSize, session_->session_send_window_size_); EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); } // Tests the case of a non-SPDY request closing an idle SPDY session when no // pointers to the idle session are currently held. TEST_F(SpdySessionTest, CloseOneIdleConnection) { ClientSocketPoolManager::set_max_sockets_per_group( HttpNetworkSession::NORMAL_SOCKET_POOL, 1); ClientSocketPoolManager::set_max_sockets_per_pool( HttpNetworkSession::NORMAL_SOCKET_POOL, 1); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); TransportClientSocketPool* pool = http_session_->GetTransportSocketPool( HttpNetworkSession::NORMAL_SOCKET_POOL); // Create an idle SPDY session. CreateSecureSpdySession(); EXPECT_FALSE(pool->IsStalled()); // Trying to create a new connection should cause the pool to be stalled, and // post a task asynchronously to try and close the session. TestCompletionCallback callback2; HostPortPair host_port2("2.com", 80); scoped_refptr params2(new TransportSocketParams( host_port2, false, OnHostResolutionCallback(), TransportSocketParams::COMBINE_CONNECT_AND_WRITE_DEFAULT)); std::unique_ptr connection2(new ClientSocketHandle); EXPECT_EQ(ERR_IO_PENDING, connection2->Init(host_port2.ToString(), params2, DEFAULT_PRIORITY, ClientSocketPool::RespectLimits::ENABLED, callback2.callback(), pool, NetLogWithSource())); EXPECT_TRUE(pool->IsStalled()); // The socket pool should close the connection asynchronously and establish a // new connection. EXPECT_THAT(callback2.WaitForResult(), IsOk()); EXPECT_FALSE(pool->IsStalled()); EXPECT_FALSE(session_); } // Tests the case of a non-SPDY request closing an idle SPDY session when no // pointers to the idle session are currently held, in the case the SPDY session // has an alias. TEST_F(SpdySessionTest, CloseOneIdleConnectionWithAlias) { ClientSocketPoolManager::set_max_sockets_per_group( HttpNetworkSession::NORMAL_SOCKET_POOL, 1); ClientSocketPoolManager::set_max_sockets_per_pool( HttpNetworkSession::NORMAL_SOCKET_POOL, 1); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.host_resolver->rules()->AddIPLiteralRule( "www.example.org", "192.168.0.2", std::string()); session_deps_.host_resolver->rules()->AddIPLiteralRule( "mail.example.org", "192.168.0.2", std::string()); // Not strictly needed. session_deps_.host_resolver->rules()->AddIPLiteralRule( "3.com", "192.168.0.3", std::string()); CreateNetworkSession(); TransportClientSocketPool* pool = http_session_->GetTransportSocketPool( HttpNetworkSession::NORMAL_SOCKET_POOL); // Create an idle SPDY session. SpdySessionKey key1(HostPortPair("www.example.org", 80), ProxyServer::Direct(), PRIVACY_MODE_DISABLED); base::WeakPtr session1 = ::net::CreateSecureSpdySession( http_session_.get(), key1, NetLogWithSource()); EXPECT_FALSE(pool->IsStalled()); // Set up an alias for the idle SPDY session, increasing its ref count to 2. SpdySessionKey key2(HostPortPair("mail.example.org", 80), ProxyServer::Direct(), PRIVACY_MODE_DISABLED); HostResolver::RequestInfo info(key2.host_port_pair()); AddressList addresses; std::unique_ptr request; // Pre-populate the DNS cache, since a synchronous resolution is required in // order to create the alias. session_deps_.host_resolver->Resolve(info, DEFAULT_PRIORITY, &addresses, CompletionCallback(), &request, NetLogWithSource()); // Get a session for |key2|, which should return the session created earlier. base::WeakPtr session2 = spdy_session_pool_->FindAvailableSession(key2, GURL(), NetLogWithSource()); ASSERT_EQ(session1.get(), session2.get()); EXPECT_FALSE(pool->IsStalled()); // Trying to create a new connection should cause the pool to be stalled, and // post a task asynchronously to try and close the session. TestCompletionCallback callback3; HostPortPair host_port3("3.com", 80); scoped_refptr params3(new TransportSocketParams( host_port3, false, OnHostResolutionCallback(), TransportSocketParams::COMBINE_CONNECT_AND_WRITE_DEFAULT)); std::unique_ptr connection3(new ClientSocketHandle); EXPECT_EQ(ERR_IO_PENDING, connection3->Init(host_port3.ToString(), params3, DEFAULT_PRIORITY, ClientSocketPool::RespectLimits::ENABLED, callback3.callback(), pool, NetLogWithSource())); EXPECT_TRUE(pool->IsStalled()); // The socket pool should close the connection asynchronously and establish a // new connection. EXPECT_THAT(callback3.WaitForResult(), IsOk()); EXPECT_FALSE(pool->IsStalled()); EXPECT_FALSE(session1); EXPECT_FALSE(session2); } // Tests that when a SPDY session becomes idle, it closes itself if there is // a lower layer pool stalled on the per-pool socket limit. TEST_F(SpdySessionTest, CloseSessionOnIdleWhenPoolStalled) { ClientSocketPoolManager::set_max_sockets_per_group( HttpNetworkSession::NORMAL_SOCKET_POOL, 1); ClientSocketPoolManager::set_max_sockets_per_pool( HttpNetworkSession::NORMAL_SOCKET_POOL, 1); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; SpdySerializedFrame req1( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame cancel1( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_CANCEL)); MockWrite writes[] = { CreateMockWrite(req1, 1), CreateMockWrite(cancel1, 1), }; StaticSocketDataProvider data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); MockRead http_reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider http_data(http_reads, arraysize(http_reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&http_data); AddSSLSocketData(); CreateNetworkSession(); TransportClientSocketPool* pool = http_session_->GetTransportSocketPool( HttpNetworkSession::NORMAL_SOCKET_POOL); // Create a SPDY session. CreateSecureSpdySession(); EXPECT_FALSE(pool->IsStalled()); // Create a stream using the session, and send a request. TestCompletionCallback callback1; base::WeakPtr spdy_stream1 = CreateStreamSynchronously( SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, DEFAULT_PRIORITY, NetLogWithSource()); ASSERT_TRUE(spdy_stream1.get()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers1(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); EXPECT_EQ(ERR_IO_PENDING, spdy_stream1->SendRequestHeaders( std::move(headers1), NO_MORE_DATA_TO_SEND)); base::RunLoop().RunUntilIdle(); // Trying to create a new connection should cause the pool to be stalled, and // post a task asynchronously to try and close the session. TestCompletionCallback callback2; HostPortPair host_port2("2.com", 80); scoped_refptr params2(new TransportSocketParams( host_port2, false, OnHostResolutionCallback(), TransportSocketParams::COMBINE_CONNECT_AND_WRITE_DEFAULT)); std::unique_ptr connection2(new ClientSocketHandle); EXPECT_EQ(ERR_IO_PENDING, connection2->Init(host_port2.ToString(), params2, DEFAULT_PRIORITY, ClientSocketPool::RespectLimits::ENABLED, callback2.callback(), pool, NetLogWithSource())); EXPECT_TRUE(pool->IsStalled()); // Running the message loop should cause the socket pool to ask the SPDY // session to close an idle socket, but since the socket is in use, nothing // happens. base::RunLoop().RunUntilIdle(); EXPECT_TRUE(pool->IsStalled()); EXPECT_FALSE(callback2.have_result()); // Cancelling the request should result in the session's socket being // closed, since the pool is stalled. ASSERT_TRUE(spdy_stream1.get()); spdy_stream1->Cancel(); base::RunLoop().RunUntilIdle(); ASSERT_FALSE(pool->IsStalled()); EXPECT_THAT(callback2.WaitForResult(), IsOk()); } // Verify that SpdySessionKey and therefore SpdySession is different when // privacy mode is enabled or disabled. TEST_F(SpdySessionTest, SpdySessionKeyPrivacyMode) { CreateNetworkSession(); HostPortPair host_port_pair("www.example.org", 443); SpdySessionKey key_privacy_enabled(host_port_pair, ProxyServer::Direct(), PRIVACY_MODE_ENABLED); SpdySessionKey key_privacy_disabled(host_port_pair, ProxyServer::Direct(), PRIVACY_MODE_DISABLED); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_privacy_enabled)); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_privacy_disabled)); // Add SpdySession with PrivacyMode Enabled to the pool. base::WeakPtr session_privacy_enabled = CreateFakeSpdySession(spdy_session_pool_, key_privacy_enabled); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_privacy_enabled)); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_privacy_disabled)); // Add SpdySession with PrivacyMode Disabled to the pool. base::WeakPtr session_privacy_disabled = CreateFakeSpdySession(spdy_session_pool_, key_privacy_disabled); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_privacy_enabled)); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_privacy_disabled)); session_privacy_enabled->CloseSessionOnError(ERR_ABORTED, std::string()); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_privacy_enabled)); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_privacy_disabled)); session_privacy_disabled->CloseSessionOnError(ERR_ABORTED, std::string()); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_privacy_enabled)); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_privacy_disabled)); } // Delegate that creates another stream when its stream is closed. class StreamCreatingDelegate : public test::StreamDelegateDoNothing { public: StreamCreatingDelegate(const base::WeakPtr& stream, const base::WeakPtr& session) : StreamDelegateDoNothing(stream), session_(session) {} ~StreamCreatingDelegate() override {} void OnClose(int status) override { GURL url(kDefaultUrl); ignore_result(CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, url, MEDIUM, NetLogWithSource())); } private: const base::WeakPtr session_; }; // Create another stream in response to a stream being reset. Nothing // should blow up. This is a regression test for // http://crbug.com/263690 . TEST_F(SpdySessionTest, CreateStreamOnStreamReset) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, MEDIUM, true)); MockWrite writes[] = { CreateMockWrite(req, 0), }; SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_REFUSED_STREAM)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(rst, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), MockRead(ASYNC, 0, 4) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream); EXPECT_EQ(0u, spdy_stream->stream_id()); StreamCreatingDelegate delegate(spdy_stream, session_); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); EXPECT_EQ(0u, spdy_stream->stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream->stream_id()); // Cause the stream to be reset, which should cause another stream // to be created. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream); EXPECT_TRUE(delegate.StreamIsClosed()); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } TEST_F(SpdySessionTest, UpdateStreamsSendWindowSize) { // Set SETTINGS_INITIAL_WINDOW_SIZE to a small number so that WINDOW_UPDATE // gets sent. SettingsMap new_settings; int32_t window_size = 1; new_settings[SETTINGS_INITIAL_WINDOW_SIZE] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, window_size); // Set up the socket so we read a SETTINGS frame that sets // INITIAL_WINDOW_SIZE. SpdySerializedFrame settings_frame( spdy_util_.ConstructSpdySettings(new_settings)); MockRead reads[] = { CreateMockRead(settings_frame, 0), MockRead(ASYNC, ERR_IO_PENDING, 1), MockRead(ASYNC, 0, 2) // EOF }; SpdySerializedFrame settings_ack(spdy_util_.ConstructSpdySettingsAck()); MockWrite writes[] = { CreateMockWrite(settings_ack, 3), }; session_deps_.host_resolver->set_synchronous_mode(true); SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); TestCompletionCallback callback1; EXPECT_NE(spdy_stream1->send_window_size(), window_size); // Process the SETTINGS frame. base::RunLoop().RunUntilIdle(); EXPECT_EQ(session_->stream_initial_send_window_size(), window_size); EXPECT_EQ(spdy_stream1->send_window_size(), window_size); // Release the first one, this will allow the second to be created. spdy_stream1->Cancel(); EXPECT_FALSE(spdy_stream1); base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(spdy_stream2); EXPECT_EQ(spdy_stream2->send_window_size(), window_size); spdy_stream2->Cancel(); EXPECT_FALSE(spdy_stream2); EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // SpdySession::{Increase,Decrease}RecvWindowSize should properly // adjust the session receive window size. In addition, // SpdySession::IncreaseRecvWindowSize should trigger // sending a WINDOW_UPDATE frame for a large enough delta. TEST_F(SpdySessionTest, AdjustRecvWindowSize) { session_deps_.host_resolver->set_synchronous_mode(true); const int32_t initial_window_size = kDefaultInitialWindowSize; const int32_t delta_window_size = 100; MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), MockRead(ASYNC, 0, 2) // EOF }; SpdySerializedFrame window_update(spdy_util_.ConstructSpdyWindowUpdate( kSessionFlowControlStreamId, initial_window_size + delta_window_size)); MockWrite writes[] = { CreateMockWrite(window_update, 0), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_EQ(initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); session_->IncreaseRecvWindowSize(delta_window_size); EXPECT_EQ(initial_window_size + delta_window_size, session_->session_recv_window_size_); EXPECT_EQ(delta_window_size, session_->session_unacked_recv_window_bytes_); // Should trigger sending a WINDOW_UPDATE frame. session_->IncreaseRecvWindowSize(initial_window_size); EXPECT_EQ(initial_window_size + delta_window_size + initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); base::RunLoop().RunUntilIdle(); // DecreaseRecvWindowSize() expects |in_io_loop_| to be true. session_->in_io_loop_ = true; session_->DecreaseRecvWindowSize(initial_window_size + delta_window_size + initial_window_size); session_->in_io_loop_ = false; EXPECT_EQ(0, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // SpdySession::{Increase,Decrease}SendWindowSize should properly // adjust the session send window size when the "enable_spdy_31" flag // is set. TEST_F(SpdySessionTest, AdjustSendWindowSize) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, 0, 0) // EOF }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); CreateNetworkSession(); session_ = CreateFakeSpdySession(spdy_session_pool_, key_); const int32_t initial_window_size = kDefaultInitialWindowSize; const int32_t delta_window_size = 100; EXPECT_EQ(initial_window_size, session_->session_send_window_size_); session_->IncreaseSendWindowSize(delta_window_size); EXPECT_EQ(initial_window_size + delta_window_size, session_->session_send_window_size_); session_->DecreaseSendWindowSize(delta_window_size); EXPECT_EQ(initial_window_size, session_->session_send_window_size_); } // Incoming data for an inactive stream should not cause the session // receive window size to decrease, but it should cause the unacked // bytes to increase. TEST_F(SpdySessionTest, SessionFlowControlInactiveStream) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame resp(spdy_util_.ConstructSpdyDataFrame(1, false)); MockRead reads[] = { CreateMockRead(resp, 0), MockRead(ASYNC, ERR_IO_PENDING, 1), MockRead(ASYNC, 0, 2) // EOF }; SequencedSocketData data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); base::RunLoop().RunUntilIdle(); EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(kUploadDataSize, session_->session_unacked_recv_window_bytes_); EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // The frame header is not included in flow control, but frame payload // (including optional pad length and padding) is. TEST_F(SpdySessionTest, SessionFlowControlPadding) { session_deps_.host_resolver->set_synchronous_mode(true); const int padding_length = 42; SpdySerializedFrame resp(spdy_util_.ConstructSpdyDataFrame( 1, kUploadData, kUploadDataSize, false, padding_length)); MockRead reads[] = { CreateMockRead(resp, 0), MockRead(ASYNC, ERR_IO_PENDING, 1), MockRead(ASYNC, 0, 2) // EOF }; SequencedSocketData data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); base::RunLoop().RunUntilIdle(); EXPECT_EQ(kDefaultInitialWindowSize, session_->session_recv_window_size_); EXPECT_EQ(kUploadDataSize + padding_length, session_->session_unacked_recv_window_bytes_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Peer sends more data than stream level receiving flow control window. TEST_F(SpdySessionTest, StreamFlowControlTooMuchData) { const int32_t stream_max_recv_window_size = 1024; const int32_t data_frame_size = 2 * stream_max_recv_window_size; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_FLOW_CONTROL_ERROR)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(rst, 4), }; SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); const std::string payload(data_frame_size, 'a'); SpdySerializedFrame data_frame(spdy_util_.ConstructSpdyDataFrame( 1, payload.data(), data_frame_size, false)); MockRead reads[] = { CreateMockRead(resp, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(data_frame, 3), MockRead(ASYNC, ERR_IO_PENDING, 5), MockRead(ASYNC, 0, 6), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); SpdySessionPoolPeer pool_peer(spdy_session_pool_); pool_peer.SetStreamInitialRecvWindowSize(stream_max_recv_window_size); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); EXPECT_EQ(stream_max_recv_window_size, spdy_stream->recv_window_size()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); EXPECT_EQ(ERR_IO_PENDING, spdy_stream->SendRequestHeaders( std::move(headers), NO_MORE_DATA_TO_SEND)); // Request and response. base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, spdy_stream->stream_id()); // Too large data frame causes flow control error, should close stream. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream); EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Regression test for a bug that was caused by including unsent WINDOW_UPDATE // deltas in the receiving window size when checking incoming frames for flow // control errors at session level. TEST_F(SpdySessionTest, SessionFlowControlTooMuchDataTwoDataFrames) { const int32_t session_max_recv_window_size = 500; const int32_t first_data_frame_size = 200; const int32_t second_data_frame_size = 400; // First data frame should not trigger a WINDOW_UPDATE. ASSERT_GT(session_max_recv_window_size / 2, first_data_frame_size); // Second data frame would be fine had there been a WINDOW_UPDATE. ASSERT_GT(session_max_recv_window_size, second_data_frame_size); // But in fact, the two data frames together overflow the receiving window at // session level. ASSERT_LT(session_max_recv_window_size, first_data_frame_size + second_data_frame_size); session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway( 0, GOAWAY_FLOW_CONTROL_ERROR, "delta_window_size is 400 in DecreaseRecvWindowSize, which is larger " "than the receive window size of 500")); MockWrite writes[] = { CreateMockWrite(goaway, 4), }; const std::string first_data_frame(first_data_frame_size, 'a'); SpdySerializedFrame first(spdy_util_.ConstructSpdyDataFrame( 1, first_data_frame.data(), first_data_frame_size, false)); const std::string second_data_frame(second_data_frame_size, 'b'); SpdySerializedFrame second(spdy_util_.ConstructSpdyDataFrame( 1, second_data_frame.data(), second_data_frame_size, false)); MockRead reads[] = { CreateMockRead(first, 0), MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(second, 2), MockRead(ASYNC, 0, 3), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Setting session level receiving window size to smaller than initial is not // possible via SpdySessionPoolPeer. session_->session_recv_window_size_ = session_max_recv_window_size; // First data frame is immediately consumed and does not trigger // WINDOW_UPDATE. base::RunLoop().RunUntilIdle(); EXPECT_EQ(first_data_frame_size, session_->session_unacked_recv_window_bytes_); EXPECT_EQ(session_max_recv_window_size, session_->session_recv_window_size_); EXPECT_EQ(SpdySession::STATE_AVAILABLE, session_->availability_state_); // Second data frame overflows receiving window, causes session to close. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(SpdySession::STATE_DRAINING, session_->availability_state_); } // Regression test for a bug that was caused by including unsent WINDOW_UPDATE // deltas in the receiving window size when checking incoming data frames for // flow control errors at stream level. TEST_F(SpdySessionTest, StreamFlowControlTooMuchDataTwoDataFrames) { const int32_t stream_max_recv_window_size = 500; const int32_t first_data_frame_size = 200; const int32_t second_data_frame_size = 400; // First data frame should not trigger a WINDOW_UPDATE. ASSERT_GT(stream_max_recv_window_size / 2, first_data_frame_size); // Second data frame would be fine had there been a WINDOW_UPDATE. ASSERT_GT(stream_max_recv_window_size, second_data_frame_size); // But in fact, they should overflow the receiving window at stream level. ASSERT_LT(stream_max_recv_window_size, first_data_frame_size + second_data_frame_size); SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_FLOW_CONTROL_ERROR)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(rst, 6), }; SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); const std::string first_data_frame(first_data_frame_size, 'a'); SpdySerializedFrame first(spdy_util_.ConstructSpdyDataFrame( 1, first_data_frame.data(), first_data_frame_size, false)); const std::string second_data_frame(second_data_frame_size, 'b'); SpdySerializedFrame second(spdy_util_.ConstructSpdyDataFrame( 1, second_data_frame.data(), second_data_frame_size, false)); MockRead reads[] = { CreateMockRead(resp, 1), MockRead(ASYNC, ERR_IO_PENDING, 2), CreateMockRead(first, 3), MockRead(ASYNC, ERR_IO_PENDING, 4), CreateMockRead(second, 5), MockRead(ASYNC, ERR_IO_PENDING, 7), MockRead(ASYNC, 0, 8), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); SpdySessionPoolPeer pool_peer(spdy_session_pool_); pool_peer.SetStreamInitialRecvWindowSize(stream_max_recv_window_size); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); EXPECT_EQ(ERR_IO_PENDING, spdy_stream->SendRequestHeaders( std::move(headers), NO_MORE_DATA_TO_SEND)); // Request and response. base::RunLoop().RunUntilIdle(); EXPECT_TRUE(spdy_stream->IsLocallyClosed()); EXPECT_EQ(stream_max_recv_window_size, spdy_stream->recv_window_size()); // First data frame. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_TRUE(spdy_stream->IsLocallyClosed()); EXPECT_EQ(stream_max_recv_window_size - first_data_frame_size, spdy_stream->recv_window_size()); // Consume first data frame. This does not trigger a WINDOW_UPDATE. std::string received_data = delegate.TakeReceivedData(); EXPECT_EQ(static_cast(first_data_frame_size), received_data.size()); EXPECT_EQ(stream_max_recv_window_size, spdy_stream->recv_window_size()); // Second data frame overflows receiving window, causes the stream to close. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(spdy_stream.get()); // RST_STREAM EXPECT_TRUE(session_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // A delegate that drops any received data. class DropReceivedDataDelegate : public test::StreamDelegateSendImmediate { public: DropReceivedDataDelegate(const base::WeakPtr& stream, base::StringPiece data) : StreamDelegateSendImmediate(stream, data) {} ~DropReceivedDataDelegate() override {} // Drop any received data. void OnDataReceived(std::unique_ptr buffer) override {} }; // Send data back and forth but use a delegate that drops its received // data. The receive window should still increase to its original // value, i.e. we shouldn't "leak" receive window bytes. TEST_F(SpdySessionTest, SessionFlowControlNoReceiveLeaks) { const int32_t kMsgDataSize = 100; const std::string msg_data(kMsgDataSize, 'a'); SpdySerializedFrame req(spdy_util_.ConstructSpdyPost( kDefaultUrl, 1, kMsgDataSize, MEDIUM, nullptr, 0)); SpdySerializedFrame msg(spdy_util_.ConstructSpdyDataFrame( 1, msg_data.data(), kMsgDataSize, false)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(msg, 2), }; SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame echo(spdy_util_.ConstructSpdyDataFrame( 1, msg_data.data(), kMsgDataSize, false)); SpdySerializedFrame window_update(spdy_util_.ConstructSpdyWindowUpdate( kSessionFlowControlStreamId, kMsgDataSize)); MockRead reads[] = { CreateMockRead(resp, 1), CreateMockRead(echo, 3), MockRead(ASYNC, ERR_IO_PENDING, 4), MockRead(ASYNC, 0, 5) // EOF }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr stream = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(stream); EXPECT_EQ(0u, stream->stream_id()); DropReceivedDataDelegate delegate(stream, msg_data); stream->SetDelegate(&delegate); SpdyHeaderBlock headers( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kMsgDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream->SendRequestHeaders(std::move(headers), MORE_DATA_TO_SEND)); const int32_t initial_window_size = kDefaultInitialWindowSize; EXPECT_EQ(initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); base::RunLoop().RunUntilIdle(); EXPECT_EQ(initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(kMsgDataSize, session_->session_unacked_recv_window_bytes_); stream->Close(); EXPECT_FALSE(stream); EXPECT_THAT(delegate.WaitForClose(), IsOk()); EXPECT_EQ(initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(kMsgDataSize, session_->session_unacked_recv_window_bytes_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Send data back and forth but close the stream before its data frame // can be written to the socket. The send window should then increase // to its original value, i.e. we shouldn't "leak" send window bytes. TEST_F(SpdySessionTest, SessionFlowControlNoSendLeaks) { const int32_t kMsgDataSize = 100; const std::string msg_data(kMsgDataSize, 'a'); SpdySerializedFrame req(spdy_util_.ConstructSpdyPost( kDefaultUrl, 1, kMsgDataSize, MEDIUM, nullptr, 0)); MockWrite writes[] = { CreateMockWrite(req, 0), }; SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(resp, 2), MockRead(ASYNC, 0, 3) // EOF }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr stream = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(stream); EXPECT_EQ(0u, stream->stream_id()); test::StreamDelegateSendImmediate delegate(stream, msg_data); stream->SetDelegate(&delegate); SpdyHeaderBlock headers( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kMsgDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream->SendRequestHeaders(std::move(headers), MORE_DATA_TO_SEND)); const int32_t initial_window_size = kDefaultInitialWindowSize; EXPECT_EQ(initial_window_size, session_->session_send_window_size_); // Write request. base::RunLoop().RunUntilIdle(); EXPECT_EQ(initial_window_size, session_->session_send_window_size_); // Read response, but do not run the message loop, so that the body is not // written to the socket. data.Resume(); EXPECT_EQ(initial_window_size - kMsgDataSize, session_->session_send_window_size_); // Closing the stream should increase the session's send window. stream->Close(); EXPECT_FALSE(stream); EXPECT_EQ(initial_window_size, session_->session_send_window_size_); EXPECT_THAT(delegate.WaitForClose(), IsOk()); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Send data back and forth; the send and receive windows should // change appropriately. TEST_F(SpdySessionTest, SessionFlowControlEndToEnd) { const int32_t kMsgDataSize = 100; const std::string msg_data(kMsgDataSize, 'a'); SpdySerializedFrame req(spdy_util_.ConstructSpdyPost( kDefaultUrl, 1, kMsgDataSize, MEDIUM, nullptr, 0)); SpdySerializedFrame msg(spdy_util_.ConstructSpdyDataFrame( 1, msg_data.data(), kMsgDataSize, false)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(msg, 2), }; SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame echo(spdy_util_.ConstructSpdyDataFrame( 1, msg_data.data(), kMsgDataSize, false)); SpdySerializedFrame window_update(spdy_util_.ConstructSpdyWindowUpdate( kSessionFlowControlStreamId, kMsgDataSize)); MockRead reads[] = { CreateMockRead(resp, 1), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(echo, 4), MockRead(ASYNC, ERR_IO_PENDING, 5), CreateMockRead(window_update, 6), MockRead(ASYNC, ERR_IO_PENDING, 7), MockRead(ASYNC, 0, 8) // EOF }; // Create SpdySession and SpdyStream and send the request. SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.host_resolver->set_synchronous_mode(true); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr stream = CreateStreamSynchronously(SPDY_BIDIRECTIONAL_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(stream); EXPECT_EQ(0u, stream->stream_id()); test::StreamDelegateSendImmediate delegate(stream, msg_data); stream->SetDelegate(&delegate); SpdyHeaderBlock headers( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kMsgDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream->SendRequestHeaders(std::move(headers), MORE_DATA_TO_SEND)); const int32_t initial_window_size = kDefaultInitialWindowSize; EXPECT_EQ(initial_window_size, session_->session_send_window_size_); EXPECT_EQ(initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); // Send request and message. base::RunLoop().RunUntilIdle(); EXPECT_EQ(initial_window_size - kMsgDataSize, session_->session_send_window_size_); EXPECT_EQ(initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); // Read echo. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(initial_window_size - kMsgDataSize, session_->session_send_window_size_); EXPECT_EQ(initial_window_size - kMsgDataSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); // Read window update. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(initial_window_size, session_->session_send_window_size_); EXPECT_EQ(initial_window_size - kMsgDataSize, session_->session_recv_window_size_); EXPECT_EQ(0, session_->session_unacked_recv_window_bytes_); EXPECT_EQ(msg_data, delegate.TakeReceivedData()); // Draining the delegate's read queue should increase the session's // receive window. EXPECT_EQ(initial_window_size, session_->session_send_window_size_); EXPECT_EQ(initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(kMsgDataSize, session_->session_unacked_recv_window_bytes_); stream->Close(); EXPECT_FALSE(stream); EXPECT_THAT(delegate.WaitForClose(), IsOk()); EXPECT_EQ(initial_window_size, session_->session_send_window_size_); EXPECT_EQ(initial_window_size, session_->session_recv_window_size_); EXPECT_EQ(kMsgDataSize, session_->session_unacked_recv_window_bytes_); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Given a stall function and an unstall function, runs a test to make // sure that a stream resumes after unstall. void SpdySessionTest::RunResumeAfterUnstallTest( const base::Callback& stall_function, const base::Callback& unstall_function) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req(spdy_util_.ConstructSpdyPost( kDefaultUrl, 1, kBodyDataSize, LOWEST, nullptr, 0)); SpdySerializedFrame body( spdy_util_.ConstructSpdyDataFrame(1, kBodyData, kBodyDataSize, true)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(body, 1), }; SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame echo( spdy_util_.ConstructSpdyDataFrame(1, kBodyData, kBodyDataSize, false)); MockRead reads[] = { CreateMockRead(resp, 2), MockRead(ASYNC, 0, 3) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(stream); test::StreamDelegateWithBody delegate(stream, kBodyDataStringPiece); stream->SetDelegate(&delegate); EXPECT_FALSE(stream->send_stalled_by_flow_control()); SpdyHeaderBlock headers( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kBodyDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream->SendRequestHeaders(std::move(headers), MORE_DATA_TO_SEND)); EXPECT_EQ(kDefaultUrl, stream->GetUrlFromHeaders().spec()); stall_function.Run(stream.get()); base::RunLoop().RunUntilIdle(); EXPECT_TRUE(stream->send_stalled_by_flow_control()); unstall_function.Run(stream.get(), kBodyDataSize); EXPECT_FALSE(stream->send_stalled_by_flow_control()); EXPECT_THAT(delegate.WaitForClose(), IsError(ERR_CONNECTION_CLOSED)); EXPECT_TRUE(delegate.send_headers_completed()); EXPECT_EQ("200", delegate.GetResponseHeaderValue(":status")); EXPECT_EQ(std::string(), delegate.TakeReceivedData()); EXPECT_FALSE(session_); EXPECT_TRUE(data.AllWriteDataConsumed()); } // Run the resume-after-unstall test with all possible stall and // unstall sequences. TEST_F(SpdySessionTest, ResumeAfterUnstallSession) { RunResumeAfterUnstallTest( base::Bind(&SpdySessionTest::StallSessionOnly, base::Unretained(this)), base::Bind(&SpdySessionTest::UnstallSessionOnly, base::Unretained(this))); } // Equivalent to // SpdyStreamTest.ResumeAfterSendWindowSizeIncrease. TEST_F(SpdySessionTest, ResumeAfterUnstallStream) { RunResumeAfterUnstallTest( base::Bind(&SpdySessionTest::StallStreamOnly, base::Unretained(this)), base::Bind(&SpdySessionTest::UnstallStreamOnly, base::Unretained(this))); } TEST_F(SpdySessionTest, StallSessionStreamResumeAfterUnstallSessionStream) { RunResumeAfterUnstallTest( base::Bind(&SpdySessionTest::StallSessionStream, base::Unretained(this)), base::Bind(&SpdySessionTest::UnstallSessionStream, base::Unretained(this))); } TEST_F(SpdySessionTest, StallStreamSessionResumeAfterUnstallSessionStream) { RunResumeAfterUnstallTest( base::Bind(&SpdySessionTest::StallStreamSession, base::Unretained(this)), base::Bind(&SpdySessionTest::UnstallSessionStream, base::Unretained(this))); } TEST_F(SpdySessionTest, StallStreamSessionResumeAfterUnstallStreamSession) { RunResumeAfterUnstallTest( base::Bind(&SpdySessionTest::StallStreamSession, base::Unretained(this)), base::Bind(&SpdySessionTest::UnstallStreamSession, base::Unretained(this))); } TEST_F(SpdySessionTest, StallSessionStreamResumeAfterUnstallStreamSession) { RunResumeAfterUnstallTest( base::Bind(&SpdySessionTest::StallSessionStream, base::Unretained(this)), base::Bind(&SpdySessionTest::UnstallStreamSession, base::Unretained(this))); } // Cause a stall by reducing the flow control send window to 0. The // streams should resume in priority order when that window is then // increased. TEST_F(SpdySessionTest, ResumeByPriorityAfterSendWindowSizeIncrease) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req1(spdy_util_.ConstructSpdyPost( kDefaultUrl, 1, kBodyDataSize, LOWEST, nullptr, 0)); SpdySerializedFrame req2(spdy_util_.ConstructSpdyPost( kDefaultUrl, 3, kBodyDataSize, MEDIUM, nullptr, 0)); SpdySerializedFrame body1( spdy_util_.ConstructSpdyDataFrame(1, kBodyData, kBodyDataSize, true)); SpdySerializedFrame body2( spdy_util_.ConstructSpdyDataFrame(3, kBodyData, kBodyDataSize, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), CreateMockWrite(body2, 2), CreateMockWrite(body1, 3), }; SpdySerializedFrame resp1(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame resp2(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 3)); MockRead reads[] = { CreateMockRead(resp1, 4), CreateMockRead(resp2, 5), MockRead(ASYNC, 0, 6) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(stream1); test::StreamDelegateWithBody delegate1(stream1, kBodyDataStringPiece); stream1->SetDelegate(&delegate1); base::WeakPtr stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, MEDIUM, NetLogWithSource()); ASSERT_TRUE(stream2); test::StreamDelegateWithBody delegate2(stream2, kBodyDataStringPiece); stream2->SetDelegate(&delegate2); EXPECT_FALSE(stream1->send_stalled_by_flow_control()); EXPECT_FALSE(stream2->send_stalled_by_flow_control()); StallSessionSend(); SpdyHeaderBlock headers1( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kBodyDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream1->SendRequestHeaders(std::move(headers1), MORE_DATA_TO_SEND)); EXPECT_EQ(kDefaultUrl, stream1->GetUrlFromHeaders().spec()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, stream1->stream_id()); EXPECT_TRUE(stream1->send_stalled_by_flow_control()); SpdyHeaderBlock headers2( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kBodyDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream2->SendRequestHeaders(std::move(headers2), MORE_DATA_TO_SEND)); EXPECT_EQ(kDefaultUrl, stream2->GetUrlFromHeaders().spec()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(3u, stream2->stream_id()); EXPECT_TRUE(stream2->send_stalled_by_flow_control()); // This should unstall only stream2. UnstallSessionSend(kBodyDataSize); EXPECT_TRUE(stream1->send_stalled_by_flow_control()); EXPECT_FALSE(stream2->send_stalled_by_flow_control()); base::RunLoop().RunUntilIdle(); EXPECT_TRUE(stream1->send_stalled_by_flow_control()); EXPECT_FALSE(stream2->send_stalled_by_flow_control()); // This should then unstall stream1. UnstallSessionSend(kBodyDataSize); EXPECT_FALSE(stream1->send_stalled_by_flow_control()); EXPECT_FALSE(stream2->send_stalled_by_flow_control()); base::RunLoop().RunUntilIdle(); EXPECT_THAT(delegate1.WaitForClose(), IsError(ERR_CONNECTION_CLOSED)); EXPECT_THAT(delegate2.WaitForClose(), IsError(ERR_CONNECTION_CLOSED)); EXPECT_TRUE(delegate1.send_headers_completed()); EXPECT_EQ("200", delegate1.GetResponseHeaderValue(":status")); EXPECT_EQ(std::string(), delegate1.TakeReceivedData()); EXPECT_TRUE(delegate2.send_headers_completed()); EXPECT_EQ("200", delegate2.GetResponseHeaderValue(":status")); EXPECT_EQ(std::string(), delegate2.TakeReceivedData()); EXPECT_FALSE(session_); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } // Delegate that closes a given stream after sending its body. class StreamClosingDelegate : public test::StreamDelegateWithBody { public: StreamClosingDelegate(const base::WeakPtr& stream, base::StringPiece data) : StreamDelegateWithBody(stream, data) {} ~StreamClosingDelegate() override {} void set_stream_to_close(const base::WeakPtr& stream_to_close) { stream_to_close_ = stream_to_close; } void OnDataSent() override { test::StreamDelegateWithBody::OnDataSent(); if (stream_to_close_.get()) { stream_to_close_->Close(); EXPECT_FALSE(stream_to_close_); } } private: base::WeakPtr stream_to_close_; }; // Cause a stall by reducing the flow control send window to // 0. Unstalling the session should properly handle deleted streams. TEST_F(SpdySessionTest, SendWindowSizeIncreaseWithDeletedStreams) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req1(spdy_util_.ConstructSpdyPost( kDefaultUrl, 1, kBodyDataSize, LOWEST, nullptr, 0)); SpdySerializedFrame req2(spdy_util_.ConstructSpdyPost( kDefaultUrl, 3, kBodyDataSize, LOWEST, nullptr, 0)); SpdySerializedFrame req3(spdy_util_.ConstructSpdyPost( kDefaultUrl, 5, kBodyDataSize, LOWEST, nullptr, 0)); SpdySerializedFrame body2( spdy_util_.ConstructSpdyDataFrame(3, kBodyData, kBodyDataSize, true)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), CreateMockWrite(req3, 2), CreateMockWrite(body2, 3), }; SpdySerializedFrame resp2(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 3)); MockRead reads[] = { CreateMockRead(resp2, 4), MockRead(ASYNC, ERR_IO_PENDING, 5), MockRead(ASYNC, 0, 6) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(stream1); test::StreamDelegateWithBody delegate1(stream1, kBodyDataStringPiece); stream1->SetDelegate(&delegate1); base::WeakPtr stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(stream2); StreamClosingDelegate delegate2(stream2, kBodyDataStringPiece); stream2->SetDelegate(&delegate2); base::WeakPtr stream3 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(stream3); test::StreamDelegateWithBody delegate3(stream3, kBodyDataStringPiece); stream3->SetDelegate(&delegate3); EXPECT_FALSE(stream1->send_stalled_by_flow_control()); EXPECT_FALSE(stream2->send_stalled_by_flow_control()); EXPECT_FALSE(stream3->send_stalled_by_flow_control()); StallSessionSend(); SpdyHeaderBlock headers1( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kBodyDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream1->SendRequestHeaders(std::move(headers1), MORE_DATA_TO_SEND)); EXPECT_EQ(kDefaultUrl, stream1->GetUrlFromHeaders().spec()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, stream1->stream_id()); EXPECT_TRUE(stream1->send_stalled_by_flow_control()); SpdyHeaderBlock headers2( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kBodyDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream2->SendRequestHeaders(std::move(headers2), MORE_DATA_TO_SEND)); EXPECT_EQ(kDefaultUrl, stream2->GetUrlFromHeaders().spec()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(3u, stream2->stream_id()); EXPECT_TRUE(stream2->send_stalled_by_flow_control()); SpdyHeaderBlock headers3( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kBodyDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream3->SendRequestHeaders(std::move(headers3), MORE_DATA_TO_SEND)); EXPECT_EQ(kDefaultUrl, stream3->GetUrlFromHeaders().spec()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(5u, stream3->stream_id()); EXPECT_TRUE(stream3->send_stalled_by_flow_control()); SpdyStreamId stream_id1 = stream1->stream_id(); SpdyStreamId stream_id2 = stream2->stream_id(); SpdyStreamId stream_id3 = stream3->stream_id(); // Close stream1 preemptively. session_->CloseActiveStream(stream_id1, ERR_CONNECTION_CLOSED); EXPECT_FALSE(stream1); EXPECT_FALSE(session_->IsStreamActive(stream_id1)); EXPECT_TRUE(session_->IsStreamActive(stream_id2)); EXPECT_TRUE(session_->IsStreamActive(stream_id3)); // Unstall stream2, which should then close stream3. delegate2.set_stream_to_close(stream3); UnstallSessionSend(kBodyDataSize); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(stream3); EXPECT_FALSE(stream2->send_stalled_by_flow_control()); EXPECT_FALSE(session_->IsStreamActive(stream_id1)); EXPECT_TRUE(session_->IsStreamActive(stream_id2)); EXPECT_FALSE(session_->IsStreamActive(stream_id3)); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(stream2); EXPECT_FALSE(session_); EXPECT_THAT(delegate1.WaitForClose(), IsError(ERR_CONNECTION_CLOSED)); EXPECT_THAT(delegate2.WaitForClose(), IsError(ERR_CONNECTION_CLOSED)); EXPECT_THAT(delegate3.WaitForClose(), IsOk()); EXPECT_TRUE(delegate1.send_headers_completed()); EXPECT_EQ(std::string(), delegate1.TakeReceivedData()); EXPECT_TRUE(delegate2.send_headers_completed()); EXPECT_EQ("200", delegate2.GetResponseHeaderValue(":status")); EXPECT_EQ(std::string(), delegate2.TakeReceivedData()); EXPECT_TRUE(delegate3.send_headers_completed()); EXPECT_EQ(std::string(), delegate3.TakeReceivedData()); EXPECT_TRUE(data.AllWriteDataConsumed()); } // Cause a stall by reducing the flow control send window to // 0. Unstalling the session should properly handle the session itself // being closed. TEST_F(SpdySessionTest, SendWindowSizeIncreaseWithDeletedSession) { session_deps_.host_resolver->set_synchronous_mode(true); SpdySerializedFrame req1(spdy_util_.ConstructSpdyPost( kDefaultUrl, 1, kBodyDataSize, LOWEST, nullptr, 0)); SpdySerializedFrame req2(spdy_util_.ConstructSpdyPost( kDefaultUrl, 3, kBodyDataSize, LOWEST, nullptr, 0)); SpdySerializedFrame body1( spdy_util_.ConstructSpdyDataFrame(1, kBodyData, kBodyDataSize, false)); MockWrite writes[] = { CreateMockWrite(req1, 0), CreateMockWrite(req2, 1), }; MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 2), MockRead(ASYNC, 0, 3) // EOF }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(stream1); test::StreamDelegateWithBody delegate1(stream1, kBodyDataStringPiece); stream1->SetDelegate(&delegate1); base::WeakPtr stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(stream2); test::StreamDelegateWithBody delegate2(stream2, kBodyDataStringPiece); stream2->SetDelegate(&delegate2); EXPECT_FALSE(stream1->send_stalled_by_flow_control()); EXPECT_FALSE(stream2->send_stalled_by_flow_control()); StallSessionSend(); SpdyHeaderBlock headers1( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kBodyDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream1->SendRequestHeaders(std::move(headers1), MORE_DATA_TO_SEND)); EXPECT_EQ(kDefaultUrl, stream1->GetUrlFromHeaders().spec()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, stream1->stream_id()); EXPECT_TRUE(stream1->send_stalled_by_flow_control()); SpdyHeaderBlock headers2( spdy_util_.ConstructPostHeaderBlock(kDefaultUrl, kBodyDataSize)); EXPECT_EQ(ERR_IO_PENDING, stream2->SendRequestHeaders(std::move(headers2), MORE_DATA_TO_SEND)); EXPECT_EQ(kDefaultUrl, stream2->GetUrlFromHeaders().spec()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(3u, stream2->stream_id()); EXPECT_TRUE(stream2->send_stalled_by_flow_control()); EXPECT_TRUE(HasSpdySession(spdy_session_pool_, key_)); // Unstall stream1. UnstallSessionSend(kBodyDataSize); // Close the session (since we can't do it from within the delegate // method, since it's in the stream's loop). session_->CloseSessionOnError(ERR_CONNECTION_CLOSED, "Closing session"); data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); EXPECT_FALSE(HasSpdySession(spdy_session_pool_, key_)); EXPECT_THAT(delegate1.WaitForClose(), IsError(ERR_CONNECTION_CLOSED)); EXPECT_THAT(delegate2.WaitForClose(), IsError(ERR_CONNECTION_CLOSED)); EXPECT_TRUE(delegate1.send_headers_completed()); EXPECT_EQ(std::string(), delegate1.TakeReceivedData()); EXPECT_TRUE(delegate2.send_headers_completed()); EXPECT_EQ(std::string(), delegate2.TakeReceivedData()); EXPECT_TRUE(data.AllWriteDataConsumed()); } TEST_F(SpdySessionTest, GoAwayOnSessionFlowControlError) { SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame goaway(spdy_util_.ConstructSpdyGoAway( 0, GOAWAY_FLOW_CONTROL_ERROR, "delta_window_size is 6 in DecreaseRecvWindowSize, which is larger than " "the receive window size of 1")); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(goaway, 4), }; SpdySerializedFrame resp(spdy_util_.ConstructSpdyGetReply(nullptr, 0, 1)); SpdySerializedFrame body(spdy_util_.ConstructSpdyDataFrame(1, true)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(resp, 2), CreateMockRead(body, 3), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Write request. base::RunLoop().RunUntilIdle(); // Put session on the edge of overflowing it's recv window. session_->session_recv_window_size_ = 1; // Read response headers & body. Body overflows the session window, and a // goaway is written. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_THAT(delegate.WaitForClose(), IsError(ERR_SPDY_FLOW_CONTROL_ERROR)); EXPECT_FALSE(session_); } // Regression. Sorta. Push streams and client streams were sharing a single // limit for a long time. TEST_F(SpdySessionTest, PushedStreamShouldNotCountToClientConcurrencyLimit) { SettingsMap new_settings; new_settings[SETTINGS_MAX_CONCURRENT_STREAMS] = SettingsFlagsAndValue(SETTINGS_FLAG_NONE, 2); SpdySerializedFrame settings_frame( spdy_util_.ConstructSpdySettings(new_settings)); SpdySerializedFrame pushed(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, "https://www.example.org/a.dat")); MockRead reads[] = { CreateMockRead(settings_frame, 0), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(pushed, 4), MockRead(ASYNC, ERR_IO_PENDING, 5), MockRead(ASYNC, 0, 6), }; SpdySerializedFrame settings_ack(spdy_util_.ConstructSpdySettingsAck()); SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); MockWrite writes[] = { CreateMockWrite(settings_ack, 1), CreateMockWrite(req, 2), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); // Read the settings frame. base::RunLoop().RunUntilIdle(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Run until 1st stream is activated. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_EQ(1u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); // Run until pushed stream is created. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Second stream should not be stalled, although we have 2 active streams, but // one of them is push stream and should not be taken into account when we // create streams on the client. base::WeakPtr spdy_stream2 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); EXPECT_TRUE(spdy_stream2); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Read EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } TEST_F(SpdySessionTest, RejectPushedStreamExceedingConcurrencyLimit) { SpdySerializedFrame push_a(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, "https://www.example.org/a.dat")); SpdySerializedFrame push_b(spdy_util_.ConstructSpdyPush( nullptr, 0, 4, 1, "https://www.example.org/b.dat")); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(push_a, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(push_b, 4), MockRead(ASYNC, ERR_IO_PENDING, 6), MockRead(ASYNC, 0, 7), }; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(4, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(rst, 5), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); session_->set_max_concurrent_pushed_streams(1); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Run until 1st stream is activated. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_EQ(1u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); // Run until pushed stream is created. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Reset incoming pushed stream. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Read EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Tests that HTTP SPDY push streams that advertise an origin different from the // associated stream are accepted from a trusted SPDY proxy. TEST_F(SpdySessionTest, TrustedSpdyProxy) { // Origin of kDefaultUrl should be different from the origin of // kHttpURLFromAnotherOrigin and kHttpsURLFromAnotherOrigin. ASSERT_NE(GURL(kDefaultUrl).host(), GURL(kHttpURLFromAnotherOrigin).host()); ASSERT_NE(GURL(kDefaultUrl).host(), GURL(kHttpsURLFromAnotherOrigin).host()); // cross_origin_push contains HTTP resource for an origin different from the // origin of kDefaultUrl, and should be accepted. SpdySerializedFrame cross_origin_push(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, kHttpURLFromAnotherOrigin)); // cross_origin_https_push contains HTTPS resource, and should be refused. SpdySerializedFrame cross_origin_https_push(spdy_util_.ConstructSpdyPush( nullptr, 0, 4, 1, kHttpsURLFromAnotherOrigin)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(cross_origin_push, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(cross_origin_https_push, 4), MockRead(ASYNC, ERR_IO_PENDING, 6), MockRead(ASYNC, 0, 7), }; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(4, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(rst, 5), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); std::unique_ptr proxy_delegate(new TestProxyDelegate()); proxy_delegate->set_trusted_spdy_proxy( net::ProxyServer(net::ProxyServer::SCHEME_HTTPS, HostPortPair(GURL(kDefaultUrl).host(), 443))); session_deps_.proxy_delegate.reset(proxy_delegate.release()); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream); EXPECT_EQ(0u, spdy_stream->stream_id()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Run until 1st stream is activated. EXPECT_EQ(0u, delegate.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate.stream_id()); EXPECT_EQ(1u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); // Run until pushed stream is created. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Reset incoming pushed stream. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Read EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } // Tests that if the SPDY trusted proxy is not set, then push streams that // advertise an origin different from the associated stream are refused. TEST_F(SpdySessionTest, TrustedSpdyProxyNotSet) { // Origin of kDefaultUrl should be different from the origin of // kHttpURLFromAnotherOrigin. ASSERT_NE(GURL(kDefaultUrl).host(), GURL(kHttpURLFromAnotherOrigin).host()); // cross_origin_push contains resource for an origin different from the // origin of kDefaultUrl, and should be refused. SpdySerializedFrame cross_origin_push(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, kHttpURLFromAnotherOrigin)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(cross_origin_push, 2), MockRead(ASYNC, 0, 4), }; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(rst, 3), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream); EXPECT_EQ(0u, spdy_stream->stream_id()); test::StreamDelegateDoNothing delegate(spdy_stream); spdy_stream->SetDelegate(&delegate); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Run until 1st stream is activated. EXPECT_EQ(0u, delegate.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate.stream_id()); EXPECT_EQ(1u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); // Read EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } TEST_F(SpdySessionTest, IgnoreReservedRemoteStreamsCount) { SpdySerializedFrame push_a(spdy_util_.ConstructSpdyPush( nullptr, 0, 2, 1, "https://www.example.org/a.dat")); SpdyHeaderBlock push_headers; spdy_util_.AddUrlToHeaderBlock("https://www.example.org/b.dat", &push_headers); SpdySerializedFrame push_b( spdy_util_.ConstructInitialSpdyPushFrame(std::move(push_headers), 4, 1)); SpdySerializedFrame headers_b( spdy_util_.ConstructSpdyPushHeaders(4, nullptr, 0)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(push_a, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(push_b, 4), MockRead(ASYNC, ERR_IO_PENDING, 5), CreateMockRead(headers_b, 6), MockRead(ASYNC, ERR_IO_PENDING, 8), MockRead(ASYNC, 0, 9), }; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(4, RST_STREAM_REFUSED_STREAM)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(rst, 7), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); session_->set_max_concurrent_pushed_streams(1); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Run until 1st stream is activated. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_EQ(1u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); // Run until pushed stream is created. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Accept promised stream. It should not count towards pushed stream limit. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(3u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(2u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Reset last pushed stream upon headers reception as it is going to be 2nd, // while we accept only one. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(1u, session_->num_active_pushed_streams()); // Read EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_FALSE(session_); } TEST_F(SpdySessionTest, CancelReservedStreamOnHeadersReceived) { const char kPushedUrl[] = "https://www.example.org/a.dat"; SpdyHeaderBlock push_headers; spdy_util_.AddUrlToHeaderBlock(kPushedUrl, &push_headers); SpdySerializedFrame push_promise( spdy_util_.ConstructInitialSpdyPushFrame(std::move(push_headers), 2, 1)); SpdySerializedFrame headers_frame( spdy_util_.ConstructSpdyPushHeaders(2, nullptr, 0)); MockRead reads[] = { MockRead(ASYNC, ERR_IO_PENDING, 1), CreateMockRead(push_promise, 2), MockRead(ASYNC, ERR_IO_PENDING, 3), CreateMockRead(headers_frame, 4), MockRead(ASYNC, ERR_IO_PENDING, 6), MockRead(ASYNC, 0, 7), }; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(nullptr, 0, 1, LOWEST, true)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(2, RST_STREAM_CANCEL)); MockWrite writes[] = { CreateMockWrite(req, 0), CreateMockWrite(rst, 5), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously(SPDY_REQUEST_RESPONSE_STREAM, session_, test_url_, LOWEST, NetLogWithSource()); ASSERT_TRUE(spdy_stream1); EXPECT_EQ(0u, spdy_stream1->stream_id()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); EXPECT_EQ(0u, session_->num_active_streams()); EXPECT_EQ(1u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(kDefaultUrl)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); // Run until 1st stream is activated. EXPECT_EQ(0u, delegate1.stream_id()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, delegate1.stream_id()); EXPECT_EQ(1u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); // Run until pushed stream is created. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(2u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(1u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); base::WeakPtr pushed_stream; int rv = session_->GetPushStream(GURL(kPushedUrl), &pushed_stream, NetLogWithSource()); ASSERT_THAT(rv, IsOk()); ASSERT_TRUE(pushed_stream); test::StreamDelegateCloseOnHeaders delegate2(pushed_stream); pushed_stream->SetDelegate(&delegate2); // Receive headers for pushed stream. Delegate will cancel the stream, ensure // that all our counters are in consistent state. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1u, session_->num_active_streams()); EXPECT_EQ(0u, session_->num_created_streams()); EXPECT_EQ(0u, session_->num_pushed_streams()); EXPECT_EQ(0u, session_->num_active_pushed_streams()); // Read EOF. data.Resume(); base::RunLoop().RunUntilIdle(); EXPECT_TRUE(data.AllWriteDataConsumed()); EXPECT_TRUE(data.AllReadDataConsumed()); } TEST_F(SpdySessionTest, RejectInvalidUnknownFrames) { session_deps_.host_resolver->set_synchronous_mode(true); MockRead reads[] = { MockRead(SYNCHRONOUS, ERR_IO_PENDING) // Stall forever. }; StaticSocketDataProvider data(reads, arraysize(reads), nullptr, 0); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); session_->stream_hi_water_mark_ = 5; // Low client (odd) ids are fine. EXPECT_TRUE(session_->OnUnknownFrame(3, 0)); // Client id exceeding watermark. EXPECT_FALSE(session_->OnUnknownFrame(9, 0)); session_->last_accepted_push_stream_id_ = 6; // Low server (even) ids are fine. EXPECT_TRUE(session_->OnUnknownFrame(2, 0)); // Server id exceeding last accepted id. EXPECT_FALSE(session_->OnUnknownFrame(8, 0)); } class AltSvcFrameTest : public SpdySessionTest { public: AltSvcFrameTest() : alternative_service_("quic", "alternative.example.org", 443, 86400, SpdyAltSvcWireFormat::VersionVector()) {} void AddSocketData(const SpdyAltSvcIR& altsvc_ir) { altsvc_frame_ = spdy_util_.SerializeFrame(altsvc_ir); reads_.push_back(CreateMockRead(altsvc_frame_, 0)); reads_.push_back(MockRead(ASYNC, 0, 1)); data_.reset( new SequencedSocketData(reads_.data(), reads_.size(), nullptr, 0)); session_deps_.socket_factory->AddSocketDataProvider(data_.get()); } void CreateSecureSpdySession() { session_ = ::net::CreateSecureSpdySession(http_session_.get(), key_, NetLogWithSource()); } SpdyAltSvcWireFormat::AlternativeService alternative_service_; private: SpdySerializedFrame altsvc_frame_; std::vector reads_; std::unique_ptr data_; }; TEST_F(AltSvcFrameTest, ProcessAltSvcFrame) { const char origin[] = "https://mail.example.org"; SpdyAltSvcIR altsvc_ir(0); altsvc_ir.add_altsvc(alternative_service_); altsvc_ir.set_origin(origin); AddSocketData(altsvc_ir); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::RunLoop().RunUntilIdle(); const url::SchemeHostPort session_origin("https", test_url_.host(), test_url_.EffectiveIntPort()); AlternativeServiceVector altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( session_origin); ASSERT_TRUE(altsvc_vector.empty()); altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( url::SchemeHostPort(GURL(origin))); ASSERT_EQ(1u, altsvc_vector.size()); EXPECT_EQ(kProtoQUIC, altsvc_vector[0].protocol); EXPECT_EQ("alternative.example.org", altsvc_vector[0].host); EXPECT_EQ(443u, altsvc_vector[0].port); } TEST_F(AltSvcFrameTest, DoNotProcessAltSvcFrameOnInsecureSession) { const char origin[] = "https://mail.example.org"; SpdyAltSvcIR altsvc_ir(0); altsvc_ir.add_altsvc(alternative_service_); altsvc_ir.set_origin(origin); AddSocketData(altsvc_ir); AddSSLSocketData(); CreateNetworkSession(); CreateInsecureSpdySession(); base::RunLoop().RunUntilIdle(); const url::SchemeHostPort session_origin("https", test_url_.host(), test_url_.EffectiveIntPort()); AlternativeServiceVector altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( session_origin); ASSERT_TRUE(altsvc_vector.empty()); altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( url::SchemeHostPort(GURL(origin))); ASSERT_TRUE(altsvc_vector.empty()); } TEST_F(AltSvcFrameTest, DoNotProcessAltSvcFrameForOriginNotCoveredByCert) { const char origin[] = "https://invalid.example.org"; SpdyAltSvcIR altsvc_ir(0); altsvc_ir.add_altsvc(alternative_service_); altsvc_ir.set_origin(origin); AddSocketData(altsvc_ir); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::RunLoop().RunUntilIdle(); const url::SchemeHostPort session_origin("https", test_url_.host(), test_url_.EffectiveIntPort()); AlternativeServiceVector altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( session_origin); ASSERT_TRUE(altsvc_vector.empty()); altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( url::SchemeHostPort(GURL(origin))); ASSERT_TRUE(altsvc_vector.empty()); } TEST_F(AltSvcFrameTest, DoNotProcessAltSvcFrameWithEmptyOriginOnZeroStream) { SpdyAltSvcIR altsvc_ir(0); altsvc_ir.add_altsvc(alternative_service_); AddSocketData(altsvc_ir); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::RunLoop().RunUntilIdle(); const url::SchemeHostPort session_origin("https", test_url_.host(), test_url_.EffectiveIntPort()); AlternativeServiceVector altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( session_origin); ASSERT_TRUE(altsvc_vector.empty()); } TEST_F(AltSvcFrameTest, ProcessAltSvcFrameOnActiveStream) { SpdyAltSvcIR altsvc_ir(1); altsvc_ir.add_altsvc(alternative_service_); SpdySerializedFrame altsvc_frame(spdy_util_.SerializeFrame(altsvc_ir)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_REFUSED_STREAM)); MockRead reads[] = { CreateMockRead(altsvc_frame, 1), CreateMockRead(rst, 2), MockRead(ASYNC, 0, 3) // EOF }; const char request_origin[] = "https://mail.example.org"; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(request_origin, 1, MEDIUM)); MockWrite writes[] = { CreateMockWrite(req, 0), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously( SPDY_REQUEST_RESPONSE_STREAM, session_, GURL(request_origin), MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(request_origin)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); const url::SchemeHostPort session_origin("https", test_url_.host(), test_url_.EffectiveIntPort()); AlternativeServiceVector altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( session_origin); ASSERT_TRUE(altsvc_vector.empty()); altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( url::SchemeHostPort(GURL(request_origin))); ASSERT_EQ(1u, altsvc_vector.size()); EXPECT_EQ(kProtoQUIC, altsvc_vector[0].protocol); EXPECT_EQ("alternative.example.org", altsvc_vector[0].host); EXPECT_EQ(443u, altsvc_vector[0].port); } TEST_F(AltSvcFrameTest, DoNotProcessAltSvcFrameOnStreamWithInsecureOrigin) { SpdyAltSvcIR altsvc_ir(1); altsvc_ir.add_altsvc(alternative_service_); SpdySerializedFrame altsvc_frame(spdy_util_.SerializeFrame(altsvc_ir)); SpdySerializedFrame rst( spdy_util_.ConstructSpdyRstStream(1, RST_STREAM_REFUSED_STREAM)); MockRead reads[] = { CreateMockRead(altsvc_frame, 1), CreateMockRead(rst, 2), MockRead(ASYNC, 0, 3) // EOF }; const char request_origin[] = "http://mail.example.org"; SpdySerializedFrame req( spdy_util_.ConstructSpdyGet(request_origin, 1, MEDIUM)); MockWrite writes[] = { CreateMockWrite(req, 0), }; SequencedSocketData data(reads, arraysize(reads), writes, arraysize(writes)); session_deps_.socket_factory->AddSocketDataProvider(&data); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::WeakPtr spdy_stream1 = CreateStreamSynchronously( SPDY_REQUEST_RESPONSE_STREAM, session_, GURL(request_origin), MEDIUM, NetLogWithSource()); test::StreamDelegateDoNothing delegate1(spdy_stream1); spdy_stream1->SetDelegate(&delegate1); SpdyHeaderBlock headers(spdy_util_.ConstructGetHeaderBlock(request_origin)); spdy_stream1->SendRequestHeaders(std::move(headers), NO_MORE_DATA_TO_SEND); base::RunLoop().RunUntilIdle(); const url::SchemeHostPort session_origin("https", test_url_.host(), test_url_.EffectiveIntPort()); AlternativeServiceVector altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( session_origin); ASSERT_TRUE(altsvc_vector.empty()); altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( url::SchemeHostPort(GURL(request_origin))); ASSERT_TRUE(altsvc_vector.empty()); } TEST_F(AltSvcFrameTest, DoNotProcessAltSvcFrameOnNonExistentStream) { SpdyAltSvcIR altsvc_ir(1); altsvc_ir.add_altsvc(alternative_service_); AddSocketData(altsvc_ir); AddSSLSocketData(); CreateNetworkSession(); CreateSecureSpdySession(); base::RunLoop().RunUntilIdle(); const url::SchemeHostPort session_origin("https", test_url_.host(), test_url_.EffectiveIntPort()); AlternativeServiceVector altsvc_vector = spdy_session_pool_->http_server_properties()->GetAlternativeServices( session_origin); ASSERT_TRUE(altsvc_vector.empty()); } TEST(MapFramerErrorToProtocolError, MapsValues) { CHECK_EQ( SPDY_ERROR_INVALID_CONTROL_FRAME, MapFramerErrorToProtocolError(SpdyFramer::SPDY_INVALID_CONTROL_FRAME)); CHECK_EQ( SPDY_ERROR_INVALID_DATA_FRAME_FLAGS, MapFramerErrorToProtocolError(SpdyFramer::SPDY_INVALID_DATA_FRAME_FLAGS)); CHECK_EQ( SPDY_ERROR_GOAWAY_FRAME_CORRUPT, MapFramerErrorToProtocolError(SpdyFramer::SPDY_GOAWAY_FRAME_CORRUPT)); CHECK_EQ(SPDY_ERROR_UNEXPECTED_FRAME, MapFramerErrorToProtocolError(SpdyFramer::SPDY_UNEXPECTED_FRAME)); } TEST(MapFramerErrorToNetError, MapsValue) { CHECK_EQ(ERR_SPDY_PROTOCOL_ERROR, MapFramerErrorToNetError(SpdyFramer::SPDY_INVALID_CONTROL_FRAME)); CHECK_EQ(ERR_SPDY_COMPRESSION_ERROR, MapFramerErrorToNetError(SpdyFramer::SPDY_COMPRESS_FAILURE)); CHECK_EQ(ERR_SPDY_COMPRESSION_ERROR, MapFramerErrorToNetError(SpdyFramer::SPDY_DECOMPRESS_FAILURE)); CHECK_EQ( ERR_SPDY_FRAME_SIZE_ERROR, MapFramerErrorToNetError(SpdyFramer::SPDY_CONTROL_PAYLOAD_TOO_LARGE)); } TEST(MapRstStreamStatusToProtocolError, MapsValues) { CHECK_EQ(STATUS_CODE_PROTOCOL_ERROR, MapRstStreamStatusToProtocolError(RST_STREAM_PROTOCOL_ERROR)); CHECK_EQ(STATUS_CODE_FRAME_SIZE_ERROR, MapRstStreamStatusToProtocolError(RST_STREAM_FRAME_SIZE_ERROR)); CHECK_EQ(STATUS_CODE_ENHANCE_YOUR_CALM, MapRstStreamStatusToProtocolError(RST_STREAM_ENHANCE_YOUR_CALM)); CHECK_EQ(STATUS_CODE_INADEQUATE_SECURITY, MapRstStreamStatusToProtocolError(RST_STREAM_INADEQUATE_SECURITY)); CHECK_EQ(STATUS_CODE_HTTP_1_1_REQUIRED, MapRstStreamStatusToProtocolError(RST_STREAM_HTTP_1_1_REQUIRED)); } TEST(MapNetErrorToGoAwayStatus, MapsValue) { CHECK_EQ(GOAWAY_INADEQUATE_SECURITY, MapNetErrorToGoAwayStatus(ERR_SPDY_INADEQUATE_TRANSPORT_SECURITY)); CHECK_EQ(GOAWAY_FLOW_CONTROL_ERROR, MapNetErrorToGoAwayStatus(ERR_SPDY_FLOW_CONTROL_ERROR)); CHECK_EQ(GOAWAY_PROTOCOL_ERROR, MapNetErrorToGoAwayStatus(ERR_SPDY_PROTOCOL_ERROR)); CHECK_EQ(GOAWAY_COMPRESSION_ERROR, MapNetErrorToGoAwayStatus(ERR_SPDY_COMPRESSION_ERROR)); CHECK_EQ(GOAWAY_FRAME_SIZE_ERROR, MapNetErrorToGoAwayStatus(ERR_SPDY_FRAME_SIZE_ERROR)); CHECK_EQ(GOAWAY_PROTOCOL_ERROR, MapNetErrorToGoAwayStatus(ERR_UNEXPECTED)); } TEST(CanPoolTest, CanPool) { // Load a cert that is valid for: // www.example.org // mail.example.org // mail.example.com TransportSecurityState tss; SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); EXPECT_TRUE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "www.example.org")); EXPECT_TRUE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "mail.example.org")); EXPECT_TRUE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "mail.example.com")); EXPECT_FALSE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "mail.google.com")); } TEST(CanPoolTest, CanNotPoolWithCertErrors) { // Load a cert that is valid for: // www.example.org // mail.example.org // mail.example.com TransportSecurityState tss; SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ssl_info.cert_status = CERT_STATUS_REVOKED; EXPECT_FALSE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "mail.example.org")); } TEST(CanPoolTest, CanNotPoolWithClientCerts) { // Load a cert that is valid for: // www.example.org // mail.example.org // mail.example.com TransportSecurityState tss; SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ssl_info.client_cert_sent = true; EXPECT_FALSE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "mail.example.org")); } TEST(CanPoolTest, CanNotPoolAcrossETLDsWithChannelID) { // Load a cert that is valid for: // www.example.org // mail.example.org // mail.example.com TransportSecurityState tss; SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ssl_info.channel_id_sent = true; EXPECT_TRUE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "mail.example.org")); EXPECT_FALSE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "www.example.com")); } TEST(CanPoolTest, CanNotPoolWithBadPins) { uint8_t primary_pin = 1; uint8_t backup_pin = 2; uint8_t bad_pin = 3; TransportSecurityState tss; test::AddPin(&tss, "mail.example.org", primary_pin, backup_pin); SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ssl_info.is_issued_by_known_root = true; ssl_info.public_key_hashes.push_back(test::GetTestHashValue(bad_pin)); EXPECT_FALSE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "mail.example.org")); } TEST(CanPoolTest, CanNotPoolWithBadCTWhenCTRequired) { using testing::Return; using CTRequirementLevel = TransportSecurityState::RequireCTDelegate::CTRequirementLevel; SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ssl_info.is_issued_by_known_root = true; ssl_info.public_key_hashes.push_back(test::GetTestHashValue(1)); ssl_info.ct_cert_policy_compliance = ct::CertPolicyCompliance::CERT_POLICY_NOT_ENOUGH_SCTS; MockRequireCTDelegate require_ct_delegate; EXPECT_CALL(require_ct_delegate, IsCTRequiredForHost("www.example.org")) .WillRepeatedly(Return(CTRequirementLevel::NOT_REQUIRED)); EXPECT_CALL(require_ct_delegate, IsCTRequiredForHost("mail.example.org")) .WillRepeatedly(Return(CTRequirementLevel::REQUIRED)); TransportSecurityState tss; tss.SetRequireCTDelegate(&require_ct_delegate); EXPECT_FALSE(SpdySession::CanPool(&tss, ssl_info, "www.example.org", "mail.example.org")); } TEST(CanPoolTest, CanPoolWithBadCTWhenCTNotRequired) { using testing::Return; using CTRequirementLevel = TransportSecurityState::RequireCTDelegate::CTRequirementLevel; SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ssl_info.is_issued_by_known_root = true; ssl_info.public_key_hashes.push_back(test::GetTestHashValue(1)); ssl_info.ct_cert_policy_compliance = ct::CertPolicyCompliance::CERT_POLICY_NOT_ENOUGH_SCTS; MockRequireCTDelegate require_ct_delegate; EXPECT_CALL(require_ct_delegate, IsCTRequiredForHost("www.example.org")) .WillRepeatedly(Return(CTRequirementLevel::NOT_REQUIRED)); EXPECT_CALL(require_ct_delegate, IsCTRequiredForHost("mail.example.org")) .WillRepeatedly(Return(CTRequirementLevel::NOT_REQUIRED)); TransportSecurityState tss; tss.SetRequireCTDelegate(&require_ct_delegate); EXPECT_TRUE(SpdySession::CanPool(&tss, ssl_info, "www.example.org", "mail.example.org")); } TEST(CanPoolTest, CanPoolWithGoodCTWhenCTRequired) { using testing::Return; using CTRequirementLevel = TransportSecurityState::RequireCTDelegate::CTRequirementLevel; SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ssl_info.is_issued_by_known_root = true; ssl_info.public_key_hashes.push_back(test::GetTestHashValue(1)); ssl_info.ct_cert_policy_compliance = ct::CertPolicyCompliance::CERT_POLICY_COMPLIES_VIA_SCTS; MockRequireCTDelegate require_ct_delegate; EXPECT_CALL(require_ct_delegate, IsCTRequiredForHost("www.example.org")) .WillRepeatedly(Return(CTRequirementLevel::NOT_REQUIRED)); EXPECT_CALL(require_ct_delegate, IsCTRequiredForHost("mail.example.org")) .WillRepeatedly(Return(CTRequirementLevel::REQUIRED)); TransportSecurityState tss; tss.SetRequireCTDelegate(&require_ct_delegate); EXPECT_TRUE(SpdySession::CanPool(&tss, ssl_info, "www.example.org", "mail.example.org")); } TEST(CanPoolTest, CanPoolWithAcceptablePins) { uint8_t primary_pin = 1; uint8_t backup_pin = 2; TransportSecurityState tss; test::AddPin(&tss, "mail.example.org", primary_pin, backup_pin); SSLInfo ssl_info; ssl_info.cert = ImportCertFromFile(GetTestCertsDirectory(), "spdy_pooling.pem"); ssl_info.is_issued_by_known_root = true; ssl_info.public_key_hashes.push_back(test::GetTestHashValue(primary_pin)); EXPECT_TRUE(SpdySession::CanPool( &tss, ssl_info, "www.example.org", "mail.example.org")); } } // namespace net