| // 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 "quic/core/http/quic_spdy_session.h" |
| |
| #include <cstdint> |
| #include <limits> |
| #include <set> |
| #include <string> |
| #include <utility> |
| |
| #include "absl/base/macros.h" |
| #include "absl/memory/memory.h" |
| #include "absl/strings/escaping.h" |
| #include "absl/strings/str_cat.h" |
| #include "absl/strings/string_view.h" |
| #include "quic/core/crypto/crypto_protocol.h" |
| #include "quic/core/crypto/null_encrypter.h" |
| #include "quic/core/frames/quic_stream_frame.h" |
| #include "quic/core/frames/quic_streams_blocked_frame.h" |
| #include "quic/core/http/http_constants.h" |
| #include "quic/core/http/http_encoder.h" |
| #include "quic/core/http/quic_header_list.h" |
| #include "quic/core/http/web_transport_http3.h" |
| #include "quic/core/qpack/qpack_header_table.h" |
| #include "quic/core/quic_config.h" |
| #include "quic/core/quic_crypto_stream.h" |
| #include "quic/core/quic_data_writer.h" |
| #include "quic/core/quic_error_codes.h" |
| #include "quic/core/quic_packets.h" |
| #include "quic/core/quic_stream.h" |
| #include "quic/core/quic_types.h" |
| #include "quic/core/quic_utils.h" |
| #include "quic/core/quic_versions.h" |
| #include "quic/platform/api/quic_expect_bug.h" |
| #include "quic/platform/api/quic_flags.h" |
| #include "quic/platform/api/quic_test.h" |
| #include "quic/test_tools/qpack/qpack_encoder_peer.h" |
| #include "quic/test_tools/qpack/qpack_test_utils.h" |
| #include "quic/test_tools/quic_config_peer.h" |
| #include "quic/test_tools/quic_connection_peer.h" |
| #include "quic/test_tools/quic_flow_controller_peer.h" |
| #include "quic/test_tools/quic_session_peer.h" |
| #include "quic/test_tools/quic_spdy_session_peer.h" |
| #include "quic/test_tools/quic_stream_peer.h" |
| #include "quic/test_tools/quic_stream_send_buffer_peer.h" |
| #include "quic/test_tools/quic_test_utils.h" |
| #include "common/platform/api/quiche_mem_slice.h" |
| #include "common/quiche_endian.h" |
| #include "common/test_tools/quiche_test_utils.h" |
| #include "spdy/core/spdy_framer.h" |
| |
| using spdy::kV3HighestPriority; |
| using spdy::Spdy3PriorityToHttp2Weight; |
| using spdy::SpdyFramer; |
| using spdy::SpdyHeaderBlock; |
| using spdy::SpdyPriority; |
| using spdy::SpdyPriorityIR; |
| using spdy::SpdySerializedFrame; |
| using ::testing::_; |
| using ::testing::AnyNumber; |
| using ::testing::AtLeast; |
| using ::testing::ElementsAre; |
| using ::testing::InSequence; |
| using ::testing::Invoke; |
| using ::testing::Return; |
| using ::testing::StrictMock; |
| |
| namespace quic { |
| namespace test { |
| namespace { |
| |
| bool VerifyAndClearStopSendingFrame(const QuicFrame& frame) { |
| EXPECT_EQ(STOP_SENDING_FRAME, frame.type); |
| return ClearControlFrame(frame); |
| } |
| |
| class TestCryptoStream : public QuicCryptoStream, public QuicCryptoHandshaker { |
| public: |
| explicit TestCryptoStream(QuicSession* session) |
| : QuicCryptoStream(session), |
| QuicCryptoHandshaker(this, session), |
| encryption_established_(false), |
| one_rtt_keys_available_(false), |
| params_(new QuicCryptoNegotiatedParameters) { |
| // Simulate a negotiated cipher_suite with a fake value. |
| params_->cipher_suite = 1; |
| } |
| |
| void EstablishZeroRttEncryption() { |
| encryption_established_ = true; |
| session()->connection()->SetEncrypter( |
| ENCRYPTION_ZERO_RTT, |
| std::make_unique<NullEncrypter>(session()->perspective())); |
| } |
| |
| void OnHandshakeMessage(const CryptoHandshakeMessage& /*message*/) override { |
| encryption_established_ = true; |
| one_rtt_keys_available_ = true; |
| QuicErrorCode error; |
| std::string error_details; |
| session()->config()->SetInitialStreamFlowControlWindowToSend( |
| kInitialStreamFlowControlWindowForTest); |
| session()->config()->SetInitialSessionFlowControlWindowToSend( |
| kInitialSessionFlowControlWindowForTest); |
| if (session()->version().UsesTls()) { |
| if (session()->perspective() == Perspective::IS_CLIENT) { |
| session()->config()->SetOriginalConnectionIdToSend( |
| session()->connection()->connection_id()); |
| session()->config()->SetInitialSourceConnectionIdToSend( |
| session()->connection()->connection_id()); |
| } else { |
| session()->config()->SetInitialSourceConnectionIdToSend( |
| session()->connection()->client_connection_id()); |
| } |
| TransportParameters transport_parameters; |
| EXPECT_TRUE( |
| session()->config()->FillTransportParameters(&transport_parameters)); |
| error = session()->config()->ProcessTransportParameters( |
| transport_parameters, /* is_resumption = */ false, &error_details); |
| } else { |
| CryptoHandshakeMessage msg; |
| session()->config()->ToHandshakeMessage(&msg, transport_version()); |
| error = |
| session()->config()->ProcessPeerHello(msg, CLIENT, &error_details); |
| } |
| EXPECT_THAT(error, IsQuicNoError()); |
| session()->OnNewEncryptionKeyAvailable( |
| ENCRYPTION_FORWARD_SECURE, |
| std::make_unique<NullEncrypter>(session()->perspective())); |
| session()->OnConfigNegotiated(); |
| if (session()->connection()->version().handshake_protocol == |
| PROTOCOL_TLS1_3) { |
| session()->OnTlsHandshakeComplete(); |
| } else { |
| session()->SetDefaultEncryptionLevel(ENCRYPTION_FORWARD_SECURE); |
| } |
| session()->DiscardOldEncryptionKey(ENCRYPTION_INITIAL); |
| } |
| |
| // QuicCryptoStream implementation |
| ssl_early_data_reason_t EarlyDataReason() const override { |
| return ssl_early_data_unknown; |
| } |
| bool encryption_established() const override { |
| return encryption_established_; |
| } |
| bool one_rtt_keys_available() const override { |
| return one_rtt_keys_available_; |
| } |
| HandshakeState GetHandshakeState() const override { |
| return one_rtt_keys_available() ? HANDSHAKE_COMPLETE : HANDSHAKE_START; |
| } |
| void SetServerApplicationStateForResumption( |
| std::unique_ptr<ApplicationState> /*application_state*/) override {} |
| std::unique_ptr<QuicDecrypter> AdvanceKeysAndCreateCurrentOneRttDecrypter() |
| override { |
| return nullptr; |
| } |
| std::unique_ptr<QuicEncrypter> CreateCurrentOneRttEncrypter() override { |
| return nullptr; |
| } |
| const QuicCryptoNegotiatedParameters& crypto_negotiated_params() |
| const override { |
| return *params_; |
| } |
| CryptoMessageParser* crypto_message_parser() override { |
| return QuicCryptoHandshaker::crypto_message_parser(); |
| } |
| void OnPacketDecrypted(EncryptionLevel /*level*/) override {} |
| void OnOneRttPacketAcknowledged() override {} |
| void OnHandshakePacketSent() override {} |
| void OnHandshakeDoneReceived() override {} |
| void OnNewTokenReceived(absl::string_view /*token*/) override {} |
| std::string GetAddressToken( |
| const CachedNetworkParameters* /*cached_network_params*/) const override { |
| return ""; |
| } |
| bool ValidateAddressToken(absl::string_view /*token*/) const override { |
| return true; |
| } |
| const CachedNetworkParameters* PreviousCachedNetworkParams() const override { |
| return nullptr; |
| } |
| void SetPreviousCachedNetworkParams( |
| CachedNetworkParameters /*cached_network_params*/) override {} |
| |
| MOCK_METHOD(void, OnCanWrite, (), (override)); |
| |
| bool HasPendingCryptoRetransmission() const override { return false; } |
| |
| MOCK_METHOD(bool, HasPendingRetransmission, (), (const, override)); |
| |
| void OnConnectionClosed(QuicErrorCode /*error*/, |
| ConnectionCloseSource /*source*/) override {} |
| SSL* GetSsl() const override { return nullptr; } |
| |
| bool ExportKeyingMaterial(absl::string_view /*label*/, |
| absl::string_view /*context*/, |
| size_t /*result_len*/, |
| std::string* /*result*/) override { |
| return false; |
| } |
| |
| private: |
| using QuicCryptoStream::session; |
| |
| bool encryption_established_; |
| bool one_rtt_keys_available_; |
| quiche::QuicheReferenceCountedPointer<QuicCryptoNegotiatedParameters> params_; |
| }; |
| |
| class TestHeadersStream : public QuicHeadersStream { |
| public: |
| explicit TestHeadersStream(QuicSpdySession* session) |
| : QuicHeadersStream(session) {} |
| |
| MOCK_METHOD(void, OnCanWrite, (), (override)); |
| }; |
| |
| class TestStream : public QuicSpdyStream { |
| public: |
| TestStream(QuicStreamId id, QuicSpdySession* session, StreamType type) |
| : QuicSpdyStream(id, session, type) {} |
| |
| TestStream(PendingStream* pending, QuicSpdySession* session) |
| : QuicSpdyStream(pending, session) {} |
| |
| using QuicStream::CloseWriteSide; |
| |
| void OnBodyAvailable() override {} |
| |
| MOCK_METHOD(void, OnCanWrite, (), (override)); |
| MOCK_METHOD(bool, RetransmitStreamData, |
| (QuicStreamOffset, QuicByteCount, bool, TransmissionType), |
| (override)); |
| |
| MOCK_METHOD(bool, HasPendingRetransmission, (), (const, override)); |
| |
| protected: |
| bool AreHeadersValid(const QuicHeaderList& /*header_list*/) const override { |
| return true; |
| } |
| }; |
| |
| class TestSession : public QuicSpdySession { |
| public: |
| explicit TestSession(QuicConnection* connection) |
| : QuicSpdySession(connection, nullptr, DefaultQuicConfig(), |
| CurrentSupportedVersions()), |
| crypto_stream_(this), |
| writev_consumes_all_data_(false) { |
| this->connection()->SetEncrypter( |
| ENCRYPTION_FORWARD_SECURE, |
| std::make_unique<NullEncrypter>(connection->perspective())); |
| if (this->connection()->version().SupportsAntiAmplificationLimit()) { |
| QuicConnectionPeer::SetAddressValidated(this->connection()); |
| } |
| } |
| |
| ~TestSession() override { DeleteConnection(); } |
| |
| TestCryptoStream* GetMutableCryptoStream() override { |
| return &crypto_stream_; |
| } |
| |
| const TestCryptoStream* GetCryptoStream() const override { |
| return &crypto_stream_; |
| } |
| |
| TestStream* CreateOutgoingBidirectionalStream() override { |
| TestStream* stream = new TestStream(GetNextOutgoingBidirectionalStreamId(), |
| this, BIDIRECTIONAL); |
| ActivateStream(absl::WrapUnique(stream)); |
| return stream; |
| } |
| |
| TestStream* CreateOutgoingUnidirectionalStream() override { |
| TestStream* stream = new TestStream(GetNextOutgoingUnidirectionalStreamId(), |
| this, WRITE_UNIDIRECTIONAL); |
| ActivateStream(absl::WrapUnique(stream)); |
| return stream; |
| } |
| |
| TestStream* CreateIncomingStream(QuicStreamId id) override { |
| // Enforce the limit on the number of open streams. |
| if (!VersionHasIetfQuicFrames(connection()->transport_version()) && |
| stream_id_manager().num_open_incoming_streams() + 1 > |
| max_open_incoming_bidirectional_streams()) { |
| connection()->CloseConnection( |
| QUIC_TOO_MANY_OPEN_STREAMS, "Too many streams!", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET); |
| return nullptr; |
| } else { |
| TestStream* stream = new TestStream( |
| id, this, |
| DetermineStreamType(id, connection()->version(), perspective(), |
| /*is_incoming=*/true, BIDIRECTIONAL)); |
| ActivateStream(absl::WrapUnique(stream)); |
| return stream; |
| } |
| } |
| |
| TestStream* CreateIncomingStream(PendingStream* pending) override { |
| TestStream* stream = new TestStream(pending, this); |
| ActivateStream(absl::WrapUnique(stream)); |
| return stream; |
| } |
| |
| bool ShouldCreateIncomingStream(QuicStreamId /*id*/) override { return true; } |
| |
| bool ShouldCreateOutgoingBidirectionalStream() override { return true; } |
| bool ShouldCreateOutgoingUnidirectionalStream() override { return true; } |
| |
| bool IsClosedStream(QuicStreamId id) { |
| return QuicSession::IsClosedStream(id); |
| } |
| |
| QuicStream* GetOrCreateStream(QuicStreamId stream_id) { |
| return QuicSpdySession::GetOrCreateStream(stream_id); |
| } |
| |
| QuicConsumedData WritevData(QuicStreamId id, size_t write_length, |
| QuicStreamOffset offset, StreamSendingState state, |
| TransmissionType type, |
| EncryptionLevel level) override { |
| bool fin = state != NO_FIN; |
| QuicConsumedData consumed(write_length, fin); |
| if (!writev_consumes_all_data_) { |
| consumed = |
| QuicSession::WritevData(id, write_length, offset, state, type, level); |
| } |
| QuicSessionPeer::GetWriteBlockedStreams(this)->UpdateBytesForStream( |
| id, consumed.bytes_consumed); |
| return consumed; |
| } |
| |
| void set_writev_consumes_all_data(bool val) { |
| writev_consumes_all_data_ = val; |
| } |
| |
| QuicConsumedData SendStreamData(QuicStream* stream) { |
| if (!QuicUtils::IsCryptoStreamId(connection()->transport_version(), |
| stream->id()) && |
| connection()->encryption_level() != ENCRYPTION_FORWARD_SECURE) { |
| this->connection()->SetDefaultEncryptionLevel(ENCRYPTION_FORWARD_SECURE); |
| } |
| QuicStreamPeer::SendBuffer(stream).SaveStreamData("not empty"); |
| QuicConsumedData consumed = |
| WritevData(stream->id(), 9, 0, FIN, NOT_RETRANSMISSION, |
| GetEncryptionLevelToSendApplicationData()); |
| QuicStreamPeer::SendBuffer(stream).OnStreamDataConsumed( |
| consumed.bytes_consumed); |
| return consumed; |
| } |
| |
| QuicConsumedData SendLargeFakeData(QuicStream* stream, int bytes) { |
| QUICHE_DCHECK(writev_consumes_all_data_); |
| return WritevData(stream->id(), bytes, 0, FIN, NOT_RETRANSMISSION, |
| GetEncryptionLevelToSendApplicationData()); |
| } |
| |
| bool ShouldNegotiateWebTransport() override { return supports_webtransport_; } |
| void set_supports_webtransport(bool value) { supports_webtransport_ = value; } |
| |
| HttpDatagramSupport LocalHttpDatagramSupport() override { |
| return local_http_datagram_support_; |
| } |
| void set_local_http_datagram_support(HttpDatagramSupport value) { |
| local_http_datagram_support_ = value; |
| } |
| |
| MOCK_METHOD(void, OnAcceptChFrame, (const AcceptChFrame&), (override)); |
| |
| using QuicSession::closed_streams; |
| using QuicSession::ShouldKeepConnectionAlive; |
| using QuicSpdySession::ProcessPendingStream; |
| using QuicSpdySession::UsesPendingStreamForFrame; |
| |
| private: |
| StrictMock<TestCryptoStream> crypto_stream_; |
| |
| bool writev_consumes_all_data_; |
| bool supports_webtransport_ = false; |
| HttpDatagramSupport local_http_datagram_support_ = HttpDatagramSupport::kNone; |
| }; |
| |
| class QuicSpdySessionTestBase : public QuicTestWithParam<ParsedQuicVersion> { |
| public: |
| bool ClearMaxStreamsControlFrame(const QuicFrame& frame) { |
| if (frame.type == MAX_STREAMS_FRAME) { |
| DeleteFrame(&const_cast<QuicFrame&>(frame)); |
| return true; |
| } |
| return false; |
| } |
| |
| protected: |
| explicit QuicSpdySessionTestBase(Perspective perspective, |
| bool allow_extended_connect) |
| : connection_(new StrictMock<MockQuicConnection>( |
| &helper_, &alarm_factory_, perspective, |
| SupportedVersions(GetParam()))), |
| session_(connection_) { |
| if (perspective == Perspective::IS_SERVER && |
| VersionUsesHttp3(transport_version()) && |
| GetQuicReloadableFlag(quic_verify_request_headers_2)) { |
| session_.set_allow_extended_connect(allow_extended_connect); |
| } |
| session_.Initialize(); |
| session_.config()->SetInitialStreamFlowControlWindowToSend( |
| kInitialStreamFlowControlWindowForTest); |
| session_.config()->SetInitialSessionFlowControlWindowToSend( |
| kInitialSessionFlowControlWindowForTest); |
| if (VersionUsesHttp3(transport_version())) { |
| QuicConfigPeer::SetReceivedMaxUnidirectionalStreams( |
| session_.config(), kHttp3StaticUnidirectionalStreamCount); |
| } |
| QuicConfigPeer::SetReceivedInitialSessionFlowControlWindow( |
| session_.config(), kMinimumFlowControlSendWindow); |
| QuicConfigPeer::SetReceivedInitialMaxStreamDataBytesUnidirectional( |
| session_.config(), kMinimumFlowControlSendWindow); |
| QuicConfigPeer::SetReceivedInitialMaxStreamDataBytesIncomingBidirectional( |
| session_.config(), kMinimumFlowControlSendWindow); |
| QuicConfigPeer::SetReceivedInitialMaxStreamDataBytesOutgoingBidirectional( |
| session_.config(), kMinimumFlowControlSendWindow); |
| session_.OnConfigNegotiated(); |
| connection_->AdvanceTime(QuicTime::Delta::FromSeconds(1)); |
| TestCryptoStream* crypto_stream = session_.GetMutableCryptoStream(); |
| EXPECT_CALL(*crypto_stream, HasPendingRetransmission()) |
| .Times(testing::AnyNumber()); |
| writer_ = static_cast<MockPacketWriter*>( |
| QuicConnectionPeer::GetWriter(session_.connection())); |
| } |
| |
| void CheckClosedStreams() { |
| QuicStreamId first_stream_id = QuicUtils::GetFirstBidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT); |
| if (!QuicVersionUsesCryptoFrames(transport_version())) { |
| first_stream_id = QuicUtils::GetCryptoStreamId(transport_version()); |
| } |
| for (QuicStreamId i = first_stream_id; i < 100; i++) { |
| if (closed_streams_.find(i) == closed_streams_.end()) { |
| EXPECT_FALSE(session_.IsClosedStream(i)) << " stream id: " << i; |
| } else { |
| EXPECT_TRUE(session_.IsClosedStream(i)) << " stream id: " << i; |
| } |
| } |
| } |
| |
| void CloseStream(QuicStreamId id) { |
| if (!VersionHasIetfQuicFrames(transport_version())) { |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&ClearControlFrame)); |
| } else { |
| // IETF QUIC has two frames, RST_STREAM and STOP_SENDING |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .Times(2) |
| .WillRepeatedly(Invoke(&ClearControlFrame)); |
| } |
| EXPECT_CALL(*connection_, OnStreamReset(id, _)); |
| |
| // QPACK streams might write data upon stream reset. Let the test session |
| // handle the data. |
| session_.set_writev_consumes_all_data(true); |
| |
| session_.ResetStream(id, QUIC_STREAM_CANCELLED); |
| closed_streams_.insert(id); |
| } |
| |
| ParsedQuicVersion version() const { return connection_->version(); } |
| |
| QuicTransportVersion transport_version() const { |
| return connection_->transport_version(); |
| } |
| |
| QuicStreamId GetNthClientInitiatedBidirectionalId(int n) { |
| return GetNthClientInitiatedBidirectionalStreamId(transport_version(), n); |
| } |
| |
| QuicStreamId GetNthServerInitiatedBidirectionalId(int n) { |
| return GetNthServerInitiatedBidirectionalStreamId(transport_version(), n); |
| } |
| |
| QuicStreamId IdDelta() { |
| return QuicUtils::StreamIdDelta(transport_version()); |
| } |
| |
| std::string EncodeSettings(const SettingsFrame& settings) { |
| std::unique_ptr<char[]> buffer; |
| auto header_length = HttpEncoder::SerializeSettingsFrame(settings, &buffer); |
| return std::string(buffer.get(), header_length); |
| } |
| |
| std::string SerializePriorityUpdateFrame( |
| const PriorityUpdateFrame& priority_update) { |
| std::unique_ptr<char[]> priority_buffer; |
| QuicByteCount priority_frame_length = |
| HttpEncoder::SerializePriorityUpdateFrame(priority_update, |
| &priority_buffer); |
| return std::string(priority_buffer.get(), priority_frame_length); |
| } |
| |
| // TODO(b/171463363): Remove. |
| std::string SerializeMaxPushIdFrame(PushId push_id) { |
| const QuicByteCount payload_length = |
| QuicDataWriter::GetVarInt62Len(push_id); |
| |
| const QuicByteCount total_length = |
| QuicDataWriter::GetVarInt62Len( |
| static_cast<uint64_t>(HttpFrameType::MAX_PUSH_ID)) + |
| QuicDataWriter::GetVarInt62Len(payload_length) + |
| QuicDataWriter::GetVarInt62Len(push_id); |
| |
| std::string max_push_id_frame(total_length, '\0'); |
| QuicDataWriter writer(total_length, &*max_push_id_frame.begin()); |
| |
| QUICHE_CHECK(writer.WriteVarInt62( |
| static_cast<uint64_t>(HttpFrameType::MAX_PUSH_ID))); |
| QUICHE_CHECK(writer.WriteVarInt62(payload_length)); |
| QUICHE_CHECK(writer.WriteVarInt62(push_id)); |
| QUICHE_CHECK_EQ(0u, writer.remaining()); |
| |
| return max_push_id_frame; |
| } |
| |
| QuicStreamId StreamCountToId(QuicStreamCount stream_count, |
| Perspective perspective, bool bidirectional) { |
| // Calculate and build up stream ID rather than use |
| // GetFirst... because the test that relies on this method |
| // needs to do the stream count where #1 is 0/1/2/3, and not |
| // take into account that stream 0 is special. |
| QuicStreamId id = |
| ((stream_count - 1) * QuicUtils::StreamIdDelta(transport_version())); |
| if (!bidirectional) { |
| id |= 0x2; |
| } |
| if (perspective == Perspective::IS_SERVER) { |
| id |= 0x1; |
| } |
| return id; |
| } |
| |
| void CompleteHandshake() { |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| } |
| if (connection_->version().UsesTls() && |
| connection_->perspective() == Perspective::IS_SERVER) { |
| // HANDSHAKE_DONE frame. |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&ClearControlFrame)); |
| } |
| |
| CryptoHandshakeMessage message; |
| session_.GetMutableCryptoStream()->OnHandshakeMessage(message); |
| testing::Mock::VerifyAndClearExpectations(writer_); |
| testing::Mock::VerifyAndClearExpectations(connection_); |
| } |
| |
| void ReceiveWebTransportSettings() { |
| SettingsFrame settings; |
| settings.values[SETTINGS_H3_DATAGRAM_DRAFT04] = 1; |
| settings.values[SETTINGS_WEBTRANS_DRAFT00] = 1; |
| settings.values[SETTINGS_ENABLE_CONNECT_PROTOCOL] = 1; |
| std::string data = |
| std::string(1, kControlStream) + EncodeSettings(settings); |
| QuicStreamId control_stream_id = |
| session_.perspective() == Perspective::IS_SERVER |
| ? GetNthClientInitiatedUnidirectionalStreamId(transport_version(), |
| 3) |
| : GetNthServerInitiatedUnidirectionalStreamId(transport_version(), |
| 3); |
| QuicStreamFrame frame(control_stream_id, /*fin=*/false, /*offset=*/0, data); |
| session_.OnStreamFrame(frame); |
| } |
| |
| void ReceiveWebTransportSession(WebTransportSessionId session_id) { |
| QuicStreamFrame frame(session_id, /*fin=*/false, /*offset=*/0, |
| absl::string_view()); |
| session_.OnStreamFrame(frame); |
| QuicSpdyStream* stream = |
| static_cast<QuicSpdyStream*>(session_.GetOrCreateStream(session_id)); |
| QuicHeaderList headers; |
| headers.OnHeaderBlockStart(); |
| headers.OnHeader(":method", "CONNECT"); |
| headers.OnHeader(":protocol", "webtransport"); |
| if (session_.http_datagram_support() == HttpDatagramSupport::kDraft00) { |
| headers.OnHeader("datagram-flow-id", absl::StrCat(session_id)); |
| } else { |
| headers.OnHeader("sec-webtransport-http3-draft02", "1"); |
| } |
| stream->OnStreamHeaderList(/*fin=*/true, 0, headers); |
| if (session_.http_datagram_support() != HttpDatagramSupport::kDraft00) { |
| stream->OnCapsule( |
| Capsule::RegisterDatagramNoContext(DatagramFormatType::WEBTRANSPORT)); |
| } |
| WebTransportHttp3* web_transport = |
| session_.GetWebTransportSession(session_id); |
| ASSERT_TRUE(web_transport != nullptr); |
| spdy::SpdyHeaderBlock header_block; |
| web_transport->HeadersReceived(header_block); |
| } |
| |
| void ReceiveWebTransportUnidirectionalStream(WebTransportSessionId session_id, |
| QuicStreamId stream_id) { |
| char buffer[256]; |
| QuicDataWriter data_writer(sizeof(buffer), buffer); |
| ASSERT_TRUE(data_writer.WriteVarInt62(kWebTransportUnidirectionalStream)); |
| ASSERT_TRUE(data_writer.WriteVarInt62(session_id)); |
| ASSERT_TRUE(data_writer.WriteStringPiece("test data")); |
| std::string data(buffer, data_writer.length()); |
| QuicStreamFrame frame(stream_id, /*fin=*/false, /*offset=*/0, data); |
| session_.OnStreamFrame(frame); |
| } |
| |
| void TestHttpDatagramSetting(HttpDatagramSupport local_support, |
| HttpDatagramSupport remote_support, |
| HttpDatagramSupport expected_support, |
| bool expected_datagram_supported); |
| |
| MockQuicConnectionHelper helper_; |
| MockAlarmFactory alarm_factory_; |
| StrictMock<MockQuicConnection>* connection_; |
| TestSession session_; |
| std::set<QuicStreamId> closed_streams_; |
| MockPacketWriter* writer_; |
| }; |
| |
| class QuicSpdySessionTestServer : public QuicSpdySessionTestBase { |
| protected: |
| QuicSpdySessionTestServer() |
| : QuicSpdySessionTestBase(Perspective::IS_SERVER, true) {} |
| }; |
| |
| INSTANTIATE_TEST_SUITE_P(Tests, QuicSpdySessionTestServer, |
| ::testing::ValuesIn(AllSupportedVersions()), |
| ::testing::PrintToStringParamName()); |
| |
| TEST_P(QuicSpdySessionTestServer, UsesPendingStreamsForFrame) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| EXPECT_TRUE(session_.UsesPendingStreamForFrame( |
| STREAM_FRAME, QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT))); |
| EXPECT_TRUE(session_.UsesPendingStreamForFrame( |
| RST_STREAM_FRAME, QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT))); |
| EXPECT_FALSE(session_.UsesPendingStreamForFrame( |
| RST_STREAM_FRAME, QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_SERVER))); |
| EXPECT_FALSE(session_.UsesPendingStreamForFrame( |
| STOP_SENDING_FRAME, QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT))); |
| EXPECT_FALSE(session_.UsesPendingStreamForFrame( |
| RST_STREAM_FRAME, QuicUtils::GetFirstBidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT))); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, PeerAddress) { |
| EXPECT_EQ(QuicSocketAddress(QuicIpAddress::Loopback4(), kTestPort), |
| session_.peer_address()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, SelfAddress) { |
| EXPECT_TRUE(session_.self_address().IsInitialized()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OneRttKeysAvailable) { |
| EXPECT_FALSE(session_.OneRttKeysAvailable()); |
| CompleteHandshake(); |
| EXPECT_TRUE(session_.OneRttKeysAvailable()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, IsClosedStreamDefault) { |
| // Ensure that no streams are initially closed. |
| QuicStreamId first_stream_id = QuicUtils::GetFirstBidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT); |
| if (!QuicVersionUsesCryptoFrames(transport_version())) { |
| first_stream_id = QuicUtils::GetCryptoStreamId(transport_version()); |
| } |
| for (QuicStreamId i = first_stream_id; i < 100; i++) { |
| EXPECT_FALSE(session_.IsClosedStream(i)) << "stream id: " << i; |
| } |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, AvailableStreams) { |
| ASSERT_TRUE(session_.GetOrCreateStream( |
| GetNthClientInitiatedBidirectionalId(2)) != nullptr); |
| // Both client initiated streams with smaller stream IDs are available. |
| EXPECT_TRUE(QuicSessionPeer::IsStreamAvailable( |
| &session_, GetNthClientInitiatedBidirectionalId(0))); |
| EXPECT_TRUE(QuicSessionPeer::IsStreamAvailable( |
| &session_, GetNthClientInitiatedBidirectionalId(1))); |
| ASSERT_TRUE(session_.GetOrCreateStream( |
| GetNthClientInitiatedBidirectionalId(1)) != nullptr); |
| ASSERT_TRUE(session_.GetOrCreateStream( |
| GetNthClientInitiatedBidirectionalId(0)) != nullptr); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, IsClosedStreamLocallyCreated) { |
| CompleteHandshake(); |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| EXPECT_EQ(GetNthServerInitiatedBidirectionalId(0), stream2->id()); |
| QuicSpdyStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| EXPECT_EQ(GetNthServerInitiatedBidirectionalId(1), stream4->id()); |
| |
| CheckClosedStreams(); |
| CloseStream(GetNthServerInitiatedBidirectionalId(0)); |
| CheckClosedStreams(); |
| CloseStream(GetNthServerInitiatedBidirectionalId(1)); |
| CheckClosedStreams(); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, IsClosedStreamPeerCreated) { |
| CompleteHandshake(); |
| QuicStreamId stream_id1 = GetNthClientInitiatedBidirectionalId(0); |
| QuicStreamId stream_id2 = GetNthClientInitiatedBidirectionalId(1); |
| session_.GetOrCreateStream(stream_id1); |
| session_.GetOrCreateStream(stream_id2); |
| |
| CheckClosedStreams(); |
| CloseStream(stream_id1); |
| CheckClosedStreams(); |
| CloseStream(stream_id2); |
| // Create a stream, and make another available. |
| QuicStream* stream3 = session_.GetOrCreateStream(stream_id2 + 4); |
| CheckClosedStreams(); |
| // Close one, but make sure the other is still not closed |
| CloseStream(stream3->id()); |
| CheckClosedStreams(); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, MaximumAvailableOpenedStreams) { |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // For IETF QUIC, we should be able to obtain the max allowed |
| // stream ID, the next ID should fail. Since the actual limit |
| // is not the number of open streams, we allocate the max and the max+2. |
| // Get the max allowed stream ID, this should succeed. |
| QuicStreamId stream_id = StreamCountToId( |
| QuicSessionPeer::ietf_streamid_manager(&session_) |
| ->max_incoming_bidirectional_streams(), |
| Perspective::IS_CLIENT, // Client initates stream, allocs stream id. |
| /*bidirectional=*/true); |
| EXPECT_NE(nullptr, session_.GetOrCreateStream(stream_id)); |
| stream_id = |
| StreamCountToId(QuicSessionPeer::ietf_streamid_manager(&session_) |
| ->max_incoming_unidirectional_streams(), |
| Perspective::IS_CLIENT, |
| /*bidirectional=*/false); |
| EXPECT_NE(nullptr, session_.GetOrCreateStream(stream_id)); |
| EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(2); |
| // Get the (max allowed stream ID)++. These should all fail. |
| stream_id = |
| StreamCountToId(QuicSessionPeer::ietf_streamid_manager(&session_) |
| ->max_incoming_bidirectional_streams() + |
| 1, |
| Perspective::IS_CLIENT, |
| /*bidirectional=*/true); |
| EXPECT_EQ(nullptr, session_.GetOrCreateStream(stream_id)); |
| |
| stream_id = |
| StreamCountToId(QuicSessionPeer::ietf_streamid_manager(&session_) |
| ->max_incoming_unidirectional_streams() + |
| 1, |
| Perspective::IS_CLIENT, |
| /*bidirectional=*/false); |
| EXPECT_EQ(nullptr, session_.GetOrCreateStream(stream_id)); |
| } else { |
| QuicStreamId stream_id = GetNthClientInitiatedBidirectionalId(0); |
| session_.GetOrCreateStream(stream_id); |
| EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(0); |
| EXPECT_NE( |
| nullptr, |
| session_.GetOrCreateStream( |
| stream_id + |
| IdDelta() * |
| (session_.max_open_incoming_bidirectional_streams() - 1))); |
| } |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, TooManyAvailableStreams) { |
| QuicStreamId stream_id1 = GetNthClientInitiatedBidirectionalId(0); |
| QuicStreamId stream_id2; |
| EXPECT_NE(nullptr, session_.GetOrCreateStream(stream_id1)); |
| // A stream ID which is too large to create. |
| stream_id2 = GetNthClientInitiatedBidirectionalId( |
| 2 * session_.MaxAvailableBidirectionalStreams() + 4); |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| EXPECT_CALL(*connection_, CloseConnection(QUIC_INVALID_STREAM_ID, _, _)); |
| } else { |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_TOO_MANY_AVAILABLE_STREAMS, _, _)); |
| } |
| EXPECT_EQ(nullptr, session_.GetOrCreateStream(stream_id2)); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, ManyAvailableStreams) { |
| // When max_open_streams_ is 200, should be able to create 200 streams |
| // out-of-order, that is, creating the one with the largest stream ID first. |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| QuicSessionPeer::SetMaxOpenIncomingBidirectionalStreams(&session_, 200); |
| } else { |
| QuicSessionPeer::SetMaxOpenIncomingStreams(&session_, 200); |
| } |
| QuicStreamId stream_id = GetNthClientInitiatedBidirectionalId(0); |
| // Create one stream. |
| session_.GetOrCreateStream(stream_id); |
| EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(0); |
| // Stream count is 200, GetNth... starts counting at 0, so the 200'th stream |
| // is 199. BUT actually we need to do 198 because the crypto stream (Stream |
| // ID 0) has not been registered, but GetNth... assumes that it has. |
| EXPECT_NE(nullptr, session_.GetOrCreateStream( |
| GetNthClientInitiatedBidirectionalId(198))); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, |
| DebugDFatalIfMarkingClosedStreamWriteBlocked) { |
| CompleteHandshake(); |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillRepeatedly(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| QuicStreamId closed_stream_id = stream2->id(); |
| // Close the stream. |
| EXPECT_CALL(*connection_, SendControlFrame(_)); |
| EXPECT_CALL(*connection_, OnStreamReset(closed_stream_id, _)); |
| stream2->Reset(QUIC_BAD_APPLICATION_PAYLOAD); |
| std::string msg = |
| absl::StrCat("Marking unknown stream ", closed_stream_id, " blocked."); |
| EXPECT_QUIC_BUG(session_.MarkConnectionLevelWriteBlocked(closed_stream_id), |
| msg); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnCanWrite) { |
| CompleteHandshake(); |
| session_.set_writev_consumes_all_data(true); |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream6 = session_.CreateOutgoingBidirectionalStream(); |
| |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream6->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| |
| InSequence s; |
| |
| // Reregister, to test the loop limit. |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendStreamData(stream2); |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| })); |
| // 2 will get called a second time as it didn't finish its block |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendStreamData(stream2); |
| })); |
| EXPECT_CALL(*stream6, OnCanWrite()).WillOnce(Invoke([this, stream6]() { |
| session_.SendStreamData(stream6); |
| })); |
| // 4 will not get called, as we exceeded the loop limit. |
| session_.OnCanWrite(); |
| EXPECT_TRUE(session_.WillingAndAbleToWrite()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, TooLargeStreamBlocked) { |
| // STREAMS_BLOCKED frame is IETF QUIC only. |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| CompleteHandshake(); |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| // Simualte the situation where the incoming stream count is at its limit and |
| // the peer is blocked. |
| QuicSessionPeer::SetMaxOpenIncomingBidirectionalStreams( |
| static_cast<QuicSession*>(&session_), QuicUtils::GetMaxStreamCount()); |
| QuicStreamsBlockedFrame frame; |
| frame.stream_count = QuicUtils::GetMaxStreamCount(); |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| EXPECT_CALL(debug_visitor, OnGoAwayFrameSent(_)); |
| session_.OnStreamsBlockedFrame(frame); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, TestBatchedWrites) { |
| session_.set_writev_consumes_all_data(true); |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream6 = session_.CreateOutgoingBidirectionalStream(); |
| |
| session_.set_writev_consumes_all_data(true); |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| |
| // With two sessions blocked, we should get two write calls. They should both |
| // go to the first stream as it will only write 6k and mark itself blocked |
| // again. |
| InSequence s; |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendLargeFakeData(stream2, 6000); |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| })); |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendLargeFakeData(stream2, 6000); |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| })); |
| session_.OnCanWrite(); |
| |
| // We should get one more call for stream2, at which point it has used its |
| // write quota and we move over to stream 4. |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendLargeFakeData(stream2, 6000); |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| })); |
| EXPECT_CALL(*stream4, OnCanWrite()).WillOnce(Invoke([this, stream4]() { |
| session_.SendLargeFakeData(stream4, 6000); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| })); |
| session_.OnCanWrite(); |
| |
| // Now let stream 4 do the 2nd of its 3 writes, but add a block for a high |
| // priority stream 6. 4 should be preempted. 6 will write but *not* block so |
| // will cede back to 4. |
| stream6->SetPriority(spdy::SpdyStreamPrecedence(kV3HighestPriority)); |
| EXPECT_CALL(*stream4, OnCanWrite()) |
| .WillOnce(Invoke([this, stream4, stream6]() { |
| session_.SendLargeFakeData(stream4, 6000); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream6->id()); |
| })); |
| EXPECT_CALL(*stream6, OnCanWrite()) |
| .WillOnce(Invoke([this, stream4, stream6]() { |
| session_.SendStreamData(stream6); |
| session_.SendLargeFakeData(stream4, 6000); |
| })); |
| session_.OnCanWrite(); |
| |
| // Stream4 alread did 6k worth of writes, so after doing another 12k it should |
| // cede and 2 should resume. |
| EXPECT_CALL(*stream4, OnCanWrite()).WillOnce(Invoke([this, stream4]() { |
| session_.SendLargeFakeData(stream4, 12000); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| })); |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendLargeFakeData(stream2, 6000); |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| })); |
| session_.OnCanWrite(); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnCanWriteBundlesStreams) { |
| // Encryption needs to be established before data can be sent. |
| CompleteHandshake(); |
| |
| // Drive congestion control manually. |
| MockSendAlgorithm* send_algorithm = new StrictMock<MockSendAlgorithm>; |
| QuicConnectionPeer::SetSendAlgorithm(session_.connection(), send_algorithm); |
| |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream6 = session_.CreateOutgoingBidirectionalStream(); |
| |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream6->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillRepeatedly(Return(true)); |
| EXPECT_CALL(*send_algorithm, GetCongestionWindow()) |
| .WillRepeatedly(Return(kMaxOutgoingPacketSize * 10)); |
| EXPECT_CALL(*send_algorithm, InRecovery()).WillRepeatedly(Return(false)); |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendStreamData(stream2); |
| })); |
| EXPECT_CALL(*stream4, OnCanWrite()).WillOnce(Invoke([this, stream4]() { |
| session_.SendStreamData(stream4); |
| })); |
| EXPECT_CALL(*stream6, OnCanWrite()).WillOnce(Invoke([this, stream6]() { |
| session_.SendStreamData(stream6); |
| })); |
| |
| // Expect that we only send one packet, the writes from different streams |
| // should be bundled together. |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| EXPECT_CALL(*send_algorithm, OnPacketSent(_, _, _, _, _)); |
| EXPECT_CALL(*send_algorithm, OnApplicationLimited(_)); |
| session_.OnCanWrite(); |
| EXPECT_FALSE(session_.WillingAndAbleToWrite()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnCanWriteCongestionControlBlocks) { |
| CompleteHandshake(); |
| session_.set_writev_consumes_all_data(true); |
| InSequence s; |
| |
| // Drive congestion control manually. |
| MockSendAlgorithm* send_algorithm = new StrictMock<MockSendAlgorithm>; |
| QuicConnectionPeer::SetSendAlgorithm(session_.connection(), send_algorithm); |
| |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream6 = session_.CreateOutgoingBidirectionalStream(); |
| |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream6->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(true)); |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendStreamData(stream2); |
| })); |
| EXPECT_CALL(*send_algorithm, GetCongestionWindow()).Times(AnyNumber()); |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(true)); |
| EXPECT_CALL(*stream6, OnCanWrite()).WillOnce(Invoke([this, stream6]() { |
| session_.SendStreamData(stream6); |
| })); |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(false)); |
| // stream4->OnCanWrite is not called. |
| |
| session_.OnCanWrite(); |
| EXPECT_TRUE(session_.WillingAndAbleToWrite()); |
| |
| // Still congestion-control blocked. |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(false)); |
| session_.OnCanWrite(); |
| EXPECT_TRUE(session_.WillingAndAbleToWrite()); |
| |
| // stream4->OnCanWrite is called once the connection stops being |
| // congestion-control blocked. |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(true)); |
| EXPECT_CALL(*stream4, OnCanWrite()).WillOnce(Invoke([this, stream4]() { |
| session_.SendStreamData(stream4); |
| })); |
| EXPECT_CALL(*send_algorithm, OnApplicationLimited(_)); |
| session_.OnCanWrite(); |
| EXPECT_FALSE(session_.WillingAndAbleToWrite()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnCanWriteWriterBlocks) { |
| CompleteHandshake(); |
| // Drive congestion control manually in order to ensure that |
| // application-limited signaling is handled correctly. |
| MockSendAlgorithm* send_algorithm = new StrictMock<MockSendAlgorithm>; |
| QuicConnectionPeer::SetSendAlgorithm(session_.connection(), send_algorithm); |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillRepeatedly(Return(true)); |
| |
| // Drive packet writer manually. |
| EXPECT_CALL(*writer_, IsWriteBlocked()).WillRepeatedly(Return(true)); |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)).Times(0); |
| |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| |
| EXPECT_CALL(*stream2, OnCanWrite()).Times(0); |
| EXPECT_CALL(*send_algorithm, OnApplicationLimited(_)).Times(0); |
| |
| session_.OnCanWrite(); |
| EXPECT_TRUE(session_.WillingAndAbleToWrite()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, BufferedHandshake) { |
| // This tests prioritization of the crypto stream when flow control limits are |
| // reached. When CRYPTO frames are in use, there is no flow control for the |
| // crypto handshake, so this test is irrelevant. |
| if (QuicVersionUsesCryptoFrames(transport_version())) { |
| return; |
| } |
| session_.set_writev_consumes_all_data(true); |
| EXPECT_FALSE(session_.HasPendingHandshake()); // Default value. |
| |
| // Test that blocking other streams does not change our status. |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| EXPECT_FALSE(session_.HasPendingHandshake()); |
| |
| TestStream* stream3 = session_.CreateOutgoingBidirectionalStream(); |
| session_.MarkConnectionLevelWriteBlocked(stream3->id()); |
| EXPECT_FALSE(session_.HasPendingHandshake()); |
| |
| // Blocking (due to buffering of) the Crypto stream is detected. |
| session_.MarkConnectionLevelWriteBlocked( |
| QuicUtils::GetCryptoStreamId(transport_version())); |
| EXPECT_TRUE(session_.HasPendingHandshake()); |
| |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| EXPECT_TRUE(session_.HasPendingHandshake()); |
| |
| InSequence s; |
| // Force most streams to re-register, which is common scenario when we block |
| // the Crypto stream, and only the crypto stream can "really" write. |
| |
| // Due to prioritization, we *should* be asked to write the crypto stream |
| // first. |
| // Don't re-register the crypto stream (which signals complete writing). |
| TestCryptoStream* crypto_stream = session_.GetMutableCryptoStream(); |
| EXPECT_CALL(*crypto_stream, OnCanWrite()); |
| |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendStreamData(stream2); |
| })); |
| EXPECT_CALL(*stream3, OnCanWrite()).WillOnce(Invoke([this, stream3]() { |
| session_.SendStreamData(stream3); |
| })); |
| EXPECT_CALL(*stream4, OnCanWrite()).WillOnce(Invoke([this, stream4]() { |
| session_.SendStreamData(stream4); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| })); |
| |
| session_.OnCanWrite(); |
| EXPECT_TRUE(session_.WillingAndAbleToWrite()); |
| EXPECT_FALSE(session_.HasPendingHandshake()); // Crypto stream wrote. |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnCanWriteWithClosedStream) { |
| CompleteHandshake(); |
| session_.set_writev_consumes_all_data(true); |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream6 = session_.CreateOutgoingBidirectionalStream(); |
| |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream6->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| CloseStream(stream6->id()); |
| |
| InSequence s; |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillRepeatedly(Invoke(&ClearControlFrame)); |
| EXPECT_CALL(*stream2, OnCanWrite()).WillOnce(Invoke([this, stream2]() { |
| session_.SendStreamData(stream2); |
| })); |
| EXPECT_CALL(*stream4, OnCanWrite()).WillOnce(Invoke([this, stream4]() { |
| session_.SendStreamData(stream4); |
| })); |
| session_.OnCanWrite(); |
| EXPECT_FALSE(session_.WillingAndAbleToWrite()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, |
| OnCanWriteLimitsNumWritesIfFlowControlBlocked) { |
| CompleteHandshake(); |
| // Drive congestion control manually in order to ensure that |
| // application-limited signaling is handled correctly. |
| MockSendAlgorithm* send_algorithm = new StrictMock<MockSendAlgorithm>; |
| QuicConnectionPeer::SetSendAlgorithm(session_.connection(), send_algorithm); |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillRepeatedly(Return(true)); |
| |
| // Ensure connection level flow control blockage. |
| QuicFlowControllerPeer::SetSendWindowOffset(session_.flow_controller(), 0); |
| EXPECT_TRUE(session_.flow_controller()->IsBlocked()); |
| EXPECT_TRUE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsStreamFlowControlBlocked()); |
| |
| // Mark the crypto and headers streams as write blocked, we expect them to be |
| // allowed to write later. |
| if (!QuicVersionUsesCryptoFrames(transport_version())) { |
| session_.MarkConnectionLevelWriteBlocked( |
| QuicUtils::GetCryptoStreamId(transport_version())); |
| } |
| |
| // Create a data stream, and although it is write blocked we never expect it |
| // to be allowed to write as we are connection level flow control blocked. |
| TestStream* stream = session_.CreateOutgoingBidirectionalStream(); |
| session_.MarkConnectionLevelWriteBlocked(stream->id()); |
| EXPECT_CALL(*stream, OnCanWrite()).Times(0); |
| |
| // The crypto and headers streams should be called even though we are |
| // connection flow control blocked. |
| if (!QuicVersionUsesCryptoFrames(transport_version())) { |
| TestCryptoStream* crypto_stream = session_.GetMutableCryptoStream(); |
| EXPECT_CALL(*crypto_stream, OnCanWrite()); |
| } |
| |
| if (!VersionUsesHttp3(transport_version())) { |
| TestHeadersStream* headers_stream; |
| QuicSpdySessionPeer::SetHeadersStream(&session_, nullptr); |
| headers_stream = new TestHeadersStream(&session_); |
| QuicSpdySessionPeer::SetHeadersStream(&session_, headers_stream); |
| session_.MarkConnectionLevelWriteBlocked( |
| QuicUtils::GetHeadersStreamId(transport_version())); |
| EXPECT_CALL(*headers_stream, OnCanWrite()); |
| } |
| |
| // After the crypto and header streams perform a write, the connection will be |
| // blocked by the flow control, hence it should become application-limited. |
| EXPECT_CALL(*send_algorithm, OnApplicationLimited(_)); |
| |
| session_.OnCanWrite(); |
| EXPECT_FALSE(session_.WillingAndAbleToWrite()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, SendGoAway) { |
| CompleteHandshake(); |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // HTTP/3 GOAWAY has different semantic and thus has its own test. |
| return; |
| } |
| connection_->SetDefaultEncryptionLevel(ENCRYPTION_FORWARD_SECURE); |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce( |
| Invoke(connection_, &MockQuicConnection::ReallySendControlFrame)); |
| session_.SendGoAway(QUIC_PEER_GOING_AWAY, "Going Away."); |
| EXPECT_TRUE(session_.goaway_sent()); |
| |
| const QuicStreamId kTestStreamId = 5u; |
| EXPECT_CALL(*connection_, SendControlFrame(_)).Times(0); |
| EXPECT_CALL(*connection_, |
| OnStreamReset(kTestStreamId, QUIC_STREAM_PEER_GOING_AWAY)) |
| .Times(0); |
| EXPECT_TRUE(session_.GetOrCreateStream(kTestStreamId)); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, SendGoAwayWithoutEncryption) { |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // HTTP/3 GOAWAY has different semantic and thus has its own test. |
| return; |
| } |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_PEER_GOING_AWAY, "Going Away.", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET)); |
| EXPECT_CALL(*connection_, SendControlFrame(_)).Times(0); |
| session_.SendGoAway(QUIC_PEER_GOING_AWAY, "Going Away."); |
| EXPECT_FALSE(session_.goaway_sent()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, SendHttp3GoAway) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| CompleteHandshake(); |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| // Send max stream id (currently 32 bits). |
| EXPECT_CALL(debug_visitor, OnGoAwayFrameSent(/* stream_id = */ 0xfffffffc)); |
| session_.SendHttp3GoAway(QUIC_PEER_GOING_AWAY, "Goaway"); |
| EXPECT_TRUE(session_.goaway_sent()); |
| |
| // New incoming stream is not reset. |
| const QuicStreamId kTestStreamId = |
| GetNthClientInitiatedBidirectionalStreamId(transport_version(), 0); |
| EXPECT_CALL(*connection_, OnStreamReset(kTestStreamId, _)).Times(0); |
| EXPECT_TRUE(session_.GetOrCreateStream(kTestStreamId)); |
| |
| // No more GOAWAY frames are sent because they could not convey new |
| // information to the client. |
| session_.SendHttp3GoAway(QUIC_PEER_GOING_AWAY, "Goaway"); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, SendHttp3GoAwayWithoutEncryption) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_PEER_GOING_AWAY, "Goaway", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET)); |
| session_.SendHttp3GoAway(QUIC_PEER_GOING_AWAY, "Goaway"); |
| EXPECT_FALSE(session_.goaway_sent()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, SendHttp3GoAwayAfterStreamIsCreated) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| CompleteHandshake(); |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| const QuicStreamId kTestStreamId = |
| GetNthClientInitiatedBidirectionalStreamId(transport_version(), 0); |
| EXPECT_TRUE(session_.GetOrCreateStream(kTestStreamId)); |
| |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| // Send max stream id (currently 32 bits). |
| EXPECT_CALL(debug_visitor, OnGoAwayFrameSent(/* stream_id = */ 0xfffffffc)); |
| session_.SendHttp3GoAway(QUIC_PEER_GOING_AWAY, "Goaway"); |
| EXPECT_TRUE(session_.goaway_sent()); |
| |
| // No more GOAWAY frames are sent because they could not convey new |
| // information to the client. |
| session_.SendHttp3GoAway(QUIC_PEER_GOING_AWAY, "Goaway"); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, DoNotSendGoAwayTwice) { |
| CompleteHandshake(); |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // HTTP/3 GOAWAY doesn't have such restriction. |
| return; |
| } |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&ClearControlFrame)); |
| session_.SendGoAway(QUIC_PEER_GOING_AWAY, "Going Away."); |
| EXPECT_TRUE(session_.goaway_sent()); |
| session_.SendGoAway(QUIC_PEER_GOING_AWAY, "Going Away."); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, InvalidGoAway) { |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // HTTP/3 GOAWAY has different semantics and thus has its own test. |
| return; |
| } |
| QuicGoAwayFrame go_away(kInvalidControlFrameId, QUIC_PEER_GOING_AWAY, |
| session_.next_outgoing_bidirectional_stream_id(), ""); |
| session_.OnGoAway(go_away); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, Http3GoAwayLargerIdThanBefore) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| EXPECT_FALSE(session_.goaway_received()); |
| PushId push_id1 = 0; |
| session_.OnHttp3GoAway(push_id1); |
| EXPECT_TRUE(session_.goaway_received()); |
| |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection( |
| QUIC_HTTP_GOAWAY_ID_LARGER_THAN_PREVIOUS, |
| "GOAWAY received with ID 1 greater than previously received ID 0", |
| _)); |
| PushId push_id2 = 1; |
| session_.OnHttp3GoAway(push_id2); |
| } |
| |
| // Test that server session will send a connectivity probe in response to a |
| // connectivity probe on the same path. |
| TEST_P(QuicSpdySessionTestServer, ServerReplyToConnecitivityProbe) { |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| return; |
| } |
| connection_->SetDefaultEncryptionLevel(ENCRYPTION_FORWARD_SECURE); |
| QuicSocketAddress old_peer_address = |
| QuicSocketAddress(QuicIpAddress::Loopback4(), kTestPort); |
| EXPECT_EQ(old_peer_address, session_.peer_address()); |
| |
| QuicSocketAddress new_peer_address = |
| QuicSocketAddress(QuicIpAddress::Loopback4(), kTestPort + 1); |
| |
| EXPECT_CALL(*connection_, |
| SendConnectivityProbingPacket(nullptr, new_peer_address)); |
| |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // Need to explicitly do this to emulate the reception of a PathChallenge, |
| // which stores its payload for use in generating the response. |
| connection_->OnPathChallengeFrame( |
| QuicPathChallengeFrame(0, {{0, 1, 2, 3, 4, 5, 6, 7}})); |
| } |
| session_.OnPacketReceived(session_.self_address(), new_peer_address, |
| /*is_connectivity_probe=*/true); |
| EXPECT_EQ(old_peer_address, session_.peer_address()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, IncreasedTimeoutAfterCryptoHandshake) { |
| EXPECT_EQ(kInitialIdleTimeoutSecs + 3, |
| QuicConnectionPeer::GetNetworkTimeout(connection_).ToSeconds()); |
| CompleteHandshake(); |
| EXPECT_EQ(kMaximumIdleTimeoutSecs + 3, |
| QuicConnectionPeer::GetNetworkTimeout(connection_).ToSeconds()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, RstStreamBeforeHeadersDecompressed) { |
| CompleteHandshake(); |
| // Send two bytes of payload. |
| QuicStreamFrame data1(GetNthClientInitiatedBidirectionalId(0), false, 0, |
| absl::string_view("HT")); |
| session_.OnStreamFrame(data1); |
| EXPECT_EQ(1u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| |
| if (!VersionHasIetfQuicFrames(transport_version())) { |
| // For version99, OnStreamReset gets called because of the STOP_SENDING, |
| // below. EXPECT the call there. |
| EXPECT_CALL(*connection_, |
| OnStreamReset(GetNthClientInitiatedBidirectionalId(0), _)); |
| } |
| |
| // In HTTP/3, Qpack stream will send data on stream reset and cause packet to |
| // be flushed. |
| if (VersionUsesHttp3(transport_version())) { |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| } |
| EXPECT_CALL(*connection_, SendControlFrame(_)); |
| QuicRstStreamFrame rst1(kInvalidControlFrameId, |
| GetNthClientInitiatedBidirectionalId(0), |
| QUIC_ERROR_PROCESSING_STREAM, 0); |
| session_.OnRstStream(rst1); |
| |
| // Create and inject a STOP_SENDING frame. In GOOGLE QUIC, receiving a |
| // RST_STREAM frame causes a two-way close. For IETF QUIC, RST_STREAM causes a |
| // one-way close. |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // Only needed for version 99/IETF QUIC. |
| QuicStopSendingFrame stop_sending(kInvalidControlFrameId, |
| GetNthClientInitiatedBidirectionalId(0), |
| QUIC_ERROR_PROCESSING_STREAM); |
| // Expect the RESET_STREAM that is generated in response to receiving a |
| // STOP_SENDING. |
| EXPECT_CALL(*connection_, |
| OnStreamReset(GetNthClientInitiatedBidirectionalId(0), |
| QUIC_ERROR_PROCESSING_STREAM)); |
| session_.OnStopSendingFrame(stop_sending); |
| } |
| |
| EXPECT_EQ(0u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| // Connection should remain alive. |
| EXPECT_TRUE(connection_->connected()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnStreamFrameFinStaticStreamId) { |
| QuicStreamId id; |
| // Initialize HTTP/3 control stream. |
| if (VersionUsesHttp3(transport_version())) { |
| id = GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| |
| QuicStreamFrame data1(id, false, 0, absl::string_view(type, 1)); |
| session_.OnStreamFrame(data1); |
| } else { |
| id = QuicUtils::GetHeadersStreamId(transport_version()); |
| } |
| |
| // Send two bytes of payload. |
| QuicStreamFrame data1(id, true, 0, absl::string_view("HT")); |
| EXPECT_CALL(*connection_, |
| CloseConnection( |
| QUIC_INVALID_STREAM_ID, "Attempt to close a static stream", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET)); |
| session_.OnStreamFrame(data1); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnRstStreamStaticStreamId) { |
| QuicStreamId id; |
| QuicErrorCode expected_error; |
| std::string error_message; |
| // Initialize HTTP/3 control stream. |
| if (VersionUsesHttp3(transport_version())) { |
| id = GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| |
| QuicStreamFrame data1(id, false, 0, absl::string_view(type, 1)); |
| session_.OnStreamFrame(data1); |
| expected_error = QUIC_HTTP_CLOSED_CRITICAL_STREAM; |
| error_message = "RESET_STREAM received for receive control stream"; |
| } else { |
| id = QuicUtils::GetHeadersStreamId(transport_version()); |
| expected_error = QUIC_INVALID_STREAM_ID; |
| error_message = "Attempt to reset headers stream"; |
| } |
| |
| // Send two bytes of payload. |
| QuicRstStreamFrame rst1(kInvalidControlFrameId, id, |
| QUIC_ERROR_PROCESSING_STREAM, 0); |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(expected_error, error_message, |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET)); |
| session_.OnRstStream(rst1); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnStreamFrameInvalidStreamId) { |
| // Send two bytes of payload. |
| QuicStreamFrame data1(QuicUtils::GetInvalidStreamId(transport_version()), |
| true, 0, absl::string_view("HT")); |
| EXPECT_CALL(*connection_, |
| CloseConnection( |
| QUIC_INVALID_STREAM_ID, "Received data for an invalid stream", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET)); |
| session_.OnStreamFrame(data1); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnRstStreamInvalidStreamId) { |
| // Send two bytes of payload. |
| QuicRstStreamFrame rst1(kInvalidControlFrameId, |
| QuicUtils::GetInvalidStreamId(transport_version()), |
| QUIC_ERROR_PROCESSING_STREAM, 0); |
| EXPECT_CALL(*connection_, |
| CloseConnection( |
| QUIC_INVALID_STREAM_ID, "Received data for an invalid stream", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET)); |
| session_.OnRstStream(rst1); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, HandshakeUnblocksFlowControlBlockedStream) { |
| if (connection_->version().handshake_protocol == PROTOCOL_TLS1_3) { |
| // This test requires Google QUIC crypto because it assumes streams start |
| // off unblocked. |
| return; |
| } |
| // Test that if a stream is flow control blocked, then on receipt of the SHLO |
| // containing a suitable send window offset, the stream becomes unblocked. |
| |
| // Ensure that Writev consumes all the data it is given (simulate no socket |
| // blocking). |
| session_.GetMutableCryptoStream()->EstablishZeroRttEncryption(); |
| session_.set_writev_consumes_all_data(true); |
| |
| // Create a stream, and send enough data to make it flow control blocked. |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| std::string body(kMinimumFlowControlSendWindow, '.'); |
| EXPECT_FALSE(stream2->IsFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsStreamFlowControlBlocked()); |
| EXPECT_CALL(*connection_, SendControlFrame(_)).Times(AtLeast(1)); |
| stream2->WriteOrBufferBody(body, false); |
| EXPECT_TRUE(stream2->IsFlowControlBlocked()); |
| EXPECT_TRUE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_TRUE(session_.IsStreamFlowControlBlocked()); |
| |
| // Now complete the crypto handshake, resulting in an increased flow control |
| // send window. |
| CompleteHandshake(); |
| EXPECT_TRUE(QuicSessionPeer::IsStreamWriteBlocked(&session_, stream2->id())); |
| // Stream is now unblocked. |
| EXPECT_FALSE(stream2->IsFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsStreamFlowControlBlocked()); |
| } |
| |
| #if !defined(OS_IOS) |
| // This test is failing flakily for iOS bots. |
| // http://crbug.com/425050 |
| // NOTE: It's not possible to use the standard MAYBE_ convention to disable |
| // this test on iOS because when this test gets instantiated it ends up with |
| // various names that are dependent on the parameters passed. |
| TEST_P(QuicSpdySessionTestServer, |
| HandshakeUnblocksFlowControlBlockedHeadersStream) { |
| // This test depends on stream-level flow control for the crypto stream, which |
| // doesn't exist when CRYPTO frames are used. |
| if (QuicVersionUsesCryptoFrames(transport_version())) { |
| return; |
| } |
| |
| // This test depends on the headers stream, which does not exist when QPACK is |
| // used. |
| if (VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| // Test that if the header stream is flow control blocked, then if the SHLO |
| // contains a larger send window offset, the stream becomes unblocked. |
| session_.GetMutableCryptoStream()->EstablishZeroRttEncryption(); |
| session_.set_writev_consumes_all_data(true); |
| TestCryptoStream* crypto_stream = session_.GetMutableCryptoStream(); |
| EXPECT_FALSE(crypto_stream->IsFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsStreamFlowControlBlocked()); |
| QuicHeadersStream* headers_stream = |
| QuicSpdySessionPeer::GetHeadersStream(&session_); |
| EXPECT_FALSE(headers_stream->IsFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsStreamFlowControlBlocked()); |
| QuicStreamId stream_id = 5; |
| // Write until the header stream is flow control blocked. |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&ClearControlFrame)); |
| SpdyHeaderBlock headers; |
| SimpleRandom random; |
| while (!headers_stream->IsFlowControlBlocked() && stream_id < 2000) { |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsStreamFlowControlBlocked()); |
| headers["header"] = absl::StrCat(random.RandUint64(), random.RandUint64(), |
| random.RandUint64()); |
| session_.WriteHeadersOnHeadersStream(stream_id, headers.Clone(), true, |
| spdy::SpdyStreamPrecedence(0), |
| nullptr); |
| stream_id += IdDelta(); |
| } |
| // Write once more to ensure that the headers stream has buffered data. The |
| // random headers may have exactly filled the flow control window. |
| session_.WriteHeadersOnHeadersStream(stream_id, std::move(headers), true, |
| spdy::SpdyStreamPrecedence(0), nullptr); |
| EXPECT_TRUE(headers_stream->HasBufferedData()); |
| |
| EXPECT_TRUE(headers_stream->IsFlowControlBlocked()); |
| EXPECT_FALSE(crypto_stream->IsFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_TRUE(session_.IsStreamFlowControlBlocked()); |
| EXPECT_FALSE(session_.HasDataToWrite()); |
| |
| // Now complete the crypto handshake, resulting in an increased flow control |
| // send window. |
| CompleteHandshake(); |
| |
| // Stream is now unblocked and will no longer have buffered data. |
| EXPECT_FALSE(headers_stream->IsFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsStreamFlowControlBlocked()); |
| EXPECT_TRUE(headers_stream->HasBufferedData()); |
| EXPECT_TRUE(QuicSessionPeer::IsStreamWriteBlocked( |
| &session_, QuicUtils::GetHeadersStreamId(transport_version()))); |
| } |
| #endif // !defined(OS_IOS) |
| |
| TEST_P(QuicSpdySessionTestServer, |
| ConnectionFlowControlAccountingRstOutOfOrder) { |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillRepeatedly(Invoke(&ClearControlFrame)); |
| CompleteHandshake(); |
| // Test that when we receive an out of order stream RST we correctly adjust |
| // our connection level flow control receive window. |
| // On close, the stream should mark as consumed all bytes between the highest |
| // byte consumed so far and the final byte offset from the RST frame. |
| TestStream* stream = session_.CreateOutgoingBidirectionalStream(); |
| |
| const QuicStreamOffset kByteOffset = |
| 1 + kInitialSessionFlowControlWindowForTest / 2; |
| |
| if (!VersionHasIetfQuicFrames(transport_version())) { |
| // For version99 the call to OnStreamReset happens as a result of receiving |
| // the STOP_SENDING, so set up the EXPECT there. |
| EXPECT_CALL(*connection_, OnStreamReset(stream->id(), _)); |
| EXPECT_CALL(*connection_, SendControlFrame(_)); |
| } else { |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| } |
| QuicRstStreamFrame rst_frame(kInvalidControlFrameId, stream->id(), |
| QUIC_STREAM_CANCELLED, kByteOffset); |
| session_.OnRstStream(rst_frame); |
| // Create and inject a STOP_SENDING frame. In GOOGLE QUIC, receiving a |
| // RST_STREAM frame causes a two-way close. For IETF QUIC, RST_STREAM causes a |
| // one-way close. |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // Only needed for version 99/IETF QUIC. |
| QuicStopSendingFrame stop_sending(kInvalidControlFrameId, stream->id(), |
| QUIC_STREAM_CANCELLED); |
| // Expect the RESET_STREAM that is generated in response to receiving a |
| // STOP_SENDING. |
| EXPECT_CALL(*connection_, |
| OnStreamReset(stream->id(), QUIC_STREAM_CANCELLED)); |
| EXPECT_CALL(*connection_, SendControlFrame(_)); |
| session_.OnStopSendingFrame(stop_sending); |
| } |
| |
| EXPECT_EQ(kByteOffset, session_.flow_controller()->bytes_consumed()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, InvalidStreamFlowControlWindowInHandshake) { |
| if (GetParam().handshake_protocol == PROTOCOL_TLS1_3) { |
| // IETF Quic doesn't require a minimum flow control window. |
| return; |
| } |
| // Test that receipt of an invalid (< default) stream flow control window from |
| // the peer results in the connection being torn down. |
| const uint32_t kInvalidWindow = kMinimumFlowControlSendWindow - 1; |
| QuicConfigPeer::SetReceivedInitialStreamFlowControlWindow(session_.config(), |
| kInvalidWindow); |
| |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_FLOW_CONTROL_INVALID_WINDOW, _, _)); |
| session_.OnConfigNegotiated(); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, TooLowUnidirectionalStreamLimitHttp3) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| session_.GetMutableCryptoStream()->EstablishZeroRttEncryption(); |
| QuicConfigPeer::SetReceivedMaxUnidirectionalStreams(session_.config(), 2u); |
| connection_->SetDefaultEncryptionLevel(ENCRYPTION_FORWARD_SECURE); |
| |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection( |
| _, "new unidirectional limit 2 decreases the current limit: 3", _)); |
| session_.OnConfigNegotiated(); |
| } |
| |
| // Test negotiation of custom server initial flow control window. |
| TEST_P(QuicSpdySessionTestServer, CustomFlowControlWindow) { |
| QuicTagVector copt; |
| copt.push_back(kIFW7); |
| QuicConfigPeer::SetReceivedConnectionOptions(session_.config(), copt); |
| connection_->SetDefaultEncryptionLevel(ENCRYPTION_FORWARD_SECURE); |
| session_.OnConfigNegotiated(); |
| EXPECT_EQ(192 * 1024u, QuicFlowControllerPeer::ReceiveWindowSize( |
| session_.flow_controller())); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, WindowUpdateUnblocksHeadersStream) { |
| if (VersionUsesHttp3(transport_version())) { |
| // The test relies on headers stream, which no longer exists in IETF QUIC. |
| return; |
| } |
| |
| // Test that a flow control blocked headers stream gets unblocked on recipt of |
| // a WINDOW_UPDATE frame. |
| |
| // Set the headers stream to be flow control blocked. |
| QuicHeadersStream* headers_stream = |
| QuicSpdySessionPeer::GetHeadersStream(&session_); |
| QuicStreamPeer::SetSendWindowOffset(headers_stream, 0); |
| EXPECT_TRUE(headers_stream->IsFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_TRUE(session_.IsStreamFlowControlBlocked()); |
| |
| // Unblock the headers stream by supplying a WINDOW_UPDATE. |
| QuicWindowUpdateFrame window_update_frame(kInvalidControlFrameId, |
| headers_stream->id(), |
| 2 * kMinimumFlowControlSendWindow); |
| session_.OnWindowUpdateFrame(window_update_frame); |
| EXPECT_FALSE(headers_stream->IsFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsConnectionFlowControlBlocked()); |
| EXPECT_FALSE(session_.IsStreamFlowControlBlocked()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, |
| TooManyUnfinishedStreamsCauseServerRejectStream) { |
| // If a buggy/malicious peer creates too many streams that are not ended |
| // with a FIN or RST then we send an RST to refuse streams for versions other |
| // than version 99. In version 99 the connection gets closed. |
| CompleteHandshake(); |
| const QuicStreamId kMaxStreams = 5; |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| QuicSessionPeer::SetMaxOpenIncomingBidirectionalStreams(&session_, |
| kMaxStreams); |
| } else { |
| QuicSessionPeer::SetMaxOpenIncomingStreams(&session_, kMaxStreams); |
| } |
| // GetNth assumes that both the crypto and header streams have been |
| // open, but the stream id manager, using GetFirstBidirectional... only |
| // assumes that the crypto stream is open. This means that GetNth...(0) |
| // Will return stream ID == 8 (with id ==0 for crypto and id==4 for headers). |
| // It also means that GetNth(kMax..=5) returns 28 (streams 0/1/2/3/4 are ids |
| // 8, 12, 16, 20, 24, respectively, so stream#5 is stream id 28). |
| // However, the stream ID manager does not assume stream 4 is for headers. |
| // The ID manager would assume that stream#5 is streamid 24. |
| // In order to make this all work out properly, kFinalStreamId will |
| // be set to GetNth...(kMaxStreams-1)... but only for IETF QUIC |
| const QuicStreamId kFirstStreamId = GetNthClientInitiatedBidirectionalId(0); |
| const QuicStreamId kFinalStreamId = |
| GetNthClientInitiatedBidirectionalId(kMaxStreams); |
| // Create kMaxStreams data streams, and close them all without receiving a |
| // FIN or a RST_STREAM from the client. |
| const QuicStreamId kNextId = QuicUtils::StreamIdDelta(transport_version()); |
| for (QuicStreamId i = kFirstStreamId; i < kFinalStreamId; i += kNextId) { |
| QuicStreamFrame data1(i, false, 0, absl::string_view("HT")); |
| session_.OnStreamFrame(data1); |
| CloseStream(i); |
| } |
| // Try and open a stream that exceeds the limit. |
| if (!VersionHasIetfQuicFrames(transport_version())) { |
| // On versions other than 99, opening such a stream results in a |
| // RST_STREAM. |
| EXPECT_CALL(*connection_, SendControlFrame(_)).Times(1); |
| EXPECT_CALL(*connection_, |
| OnStreamReset(kFinalStreamId, QUIC_REFUSED_STREAM)) |
| .Times(1); |
| } else { |
| // On version 99 opening such a stream results in a connection close. |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_INVALID_STREAM_ID, |
| testing::MatchesRegex( |
| "Stream id \\d+ would exceed stream count limit 5"), |
| _)); |
| } |
| // Create one more data streams to exceed limit of open stream. |
| QuicStreamFrame data1(kFinalStreamId, false, 0, absl::string_view("HT")); |
| session_.OnStreamFrame(data1); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, DrainingStreamsDoNotCountAsOpened) { |
| // Verify that a draining stream (which has received a FIN but not consumed |
| // it) does not count against the open quota (because it is closed from the |
| // protocol point of view). |
| CompleteHandshake(); |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| // Simulate receiving a config. so that MAX_STREAMS/etc frames may |
| // be transmitted |
| QuicSessionPeer::set_is_configured(&session_, true); |
| // Version 99 will result in a MAX_STREAMS frame as streams are consumed |
| // (via the OnStreamFrame call) and then released (via |
| // StreamDraining). Eventually this node will believe that the peer is |
| // running low on available stream ids and then send a MAX_STREAMS frame, |
| // caught by this EXPECT_CALL. |
| EXPECT_CALL(*connection_, SendControlFrame(_)).Times(1); |
| } else { |
| EXPECT_CALL(*connection_, SendControlFrame(_)).Times(0); |
| } |
| EXPECT_CALL(*connection_, OnStreamReset(_, QUIC_REFUSED_STREAM)).Times(0); |
| const QuicStreamId kMaxStreams = 5; |
| if (VersionHasIetfQuicFrames(transport_version())) { |
| QuicSessionPeer::SetMaxOpenIncomingBidirectionalStreams(&session_, |
| kMaxStreams); |
| } else { |
| QuicSessionPeer::SetMaxOpenIncomingStreams(&session_, kMaxStreams); |
| } |
| |
| // Create kMaxStreams + 1 data streams, and mark them draining. |
| const QuicStreamId kFirstStreamId = GetNthClientInitiatedBidirectionalId(0); |
| const QuicStreamId kFinalStreamId = |
| GetNthClientInitiatedBidirectionalId(kMaxStreams + 1); |
| for (QuicStreamId i = kFirstStreamId; i < kFinalStreamId; i += IdDelta()) { |
| QuicStreamFrame data1(i, true, 0, absl::string_view("HT")); |
| session_.OnStreamFrame(data1); |
| EXPECT_EQ(1u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| session_.StreamDraining(i, /*unidirectional=*/false); |
| EXPECT_EQ(0u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| } |
| } |
| |
| // TODO(b/171463363): Remove. |
| TEST_P(QuicSpdySessionTestServer, ReduceMaxPushId) { |
| if (GetQuicReloadableFlag(quic_ignore_max_push_id)) { |
| return; |
| } |
| |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| // Use an arbitrary stream id for incoming control stream. |
| QuicStreamId stream_id = |
| GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| absl::string_view stream_type(type, 1); |
| |
| QuicStreamOffset offset = 0; |
| QuicStreamFrame data1(stream_id, false, offset, stream_type); |
| offset += stream_type.length(); |
| EXPECT_CALL(debug_visitor, OnPeerControlStreamCreated(stream_id)); |
| session_.OnStreamFrame(data1); |
| EXPECT_EQ(stream_id, |
| QuicSpdySessionPeer::GetReceiveControlStream(&session_)->id()); |
| |
| SettingsFrame settings; |
| std::string settings_frame = EncodeSettings(settings); |
| QuicStreamFrame data2(stream_id, false, offset, settings_frame); |
| offset += settings_frame.length(); |
| |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(settings)); |
| session_.OnStreamFrame(data2); |
| |
| std::string max_push_id_frame1 = SerializeMaxPushIdFrame(/* push_id = */ 3); |
| QuicStreamFrame data3(stream_id, false, offset, max_push_id_frame1); |
| offset += max_push_id_frame1.length(); |
| |
| EXPECT_CALL(debug_visitor, OnMaxPushIdFrameReceived(_)); |
| session_.OnStreamFrame(data3); |
| |
| std::string max_push_id_frame2 = SerializeMaxPushIdFrame(/* push_id = */ 1); |
| QuicStreamFrame data4(stream_id, false, offset, max_push_id_frame2); |
| |
| EXPECT_CALL(debug_visitor, OnMaxPushIdFrameReceived(_)); |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_INVALID_MAX_PUSH_ID, |
| "MAX_PUSH_ID received with value 1 which is " |
| "smaller that previously received value 3", |
| _)); |
| session_.OnStreamFrame(data4); |
| } |
| |
| class QuicSpdySessionTestClient : public QuicSpdySessionTestBase { |
| protected: |
| QuicSpdySessionTestClient() |
| : QuicSpdySessionTestBase(Perspective::IS_CLIENT, false) {} |
| }; |
| |
| INSTANTIATE_TEST_SUITE_P(Tests, QuicSpdySessionTestClient, |
| ::testing::ValuesIn(AllSupportedVersions()), |
| ::testing::PrintToStringParamName()); |
| |
| TEST_P(QuicSpdySessionTestClient, UsesPendingStreamsForFrame) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| EXPECT_TRUE(session_.UsesPendingStreamForFrame( |
| STREAM_FRAME, QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_SERVER))); |
| EXPECT_TRUE(session_.UsesPendingStreamForFrame( |
| RST_STREAM_FRAME, QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_SERVER))); |
| EXPECT_FALSE(session_.UsesPendingStreamForFrame( |
| RST_STREAM_FRAME, QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT))); |
| EXPECT_FALSE(session_.UsesPendingStreamForFrame( |
| STOP_SENDING_FRAME, QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_SERVER))); |
| EXPECT_FALSE(session_.UsesPendingStreamForFrame( |
| RST_STREAM_FRAME, QuicUtils::GetFirstBidirectionalStreamId( |
| transport_version(), Perspective::IS_SERVER))); |
| } |
| |
| // Regression test for crbug.com/977581. |
| TEST_P(QuicSpdySessionTestClient, BadStreamFramePendingStream) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| EXPECT_EQ(0u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| QuicStreamId stream_id1 = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| // A bad stream frame with no data and no fin. |
| QuicStreamFrame data1(stream_id1, false, 0, 0); |
| session_.OnStreamFrame(data1); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, PendingStreamKeepsConnectionAlive) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| QuicStreamId stream_id = QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_SERVER); |
| |
| QuicStreamFrame frame(stream_id, false, 1, "test"); |
| EXPECT_FALSE(session_.ShouldKeepConnectionAlive()); |
| session_.OnStreamFrame(frame); |
| EXPECT_TRUE(QuicSessionPeer::GetPendingStream(&session_, stream_id)); |
| EXPECT_TRUE(session_.ShouldKeepConnectionAlive()); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, AvailableStreamsClient) { |
| ASSERT_TRUE(session_.GetOrCreateStream( |
| GetNthServerInitiatedBidirectionalId(2)) != nullptr); |
| // Both server initiated streams with smaller stream IDs should be available. |
| EXPECT_TRUE(QuicSessionPeer::IsStreamAvailable( |
| &session_, GetNthServerInitiatedBidirectionalId(0))); |
| EXPECT_TRUE(QuicSessionPeer::IsStreamAvailable( |
| &session_, GetNthServerInitiatedBidirectionalId(1))); |
| ASSERT_TRUE(session_.GetOrCreateStream( |
| GetNthServerInitiatedBidirectionalId(0)) != nullptr); |
| ASSERT_TRUE(session_.GetOrCreateStream( |
| GetNthServerInitiatedBidirectionalId(1)) != nullptr); |
| // And client initiated stream ID should be not available. |
| EXPECT_FALSE(QuicSessionPeer::IsStreamAvailable( |
| &session_, GetNthClientInitiatedBidirectionalId(0))); |
| } |
| |
| // Regression test for b/130740258 and https://crbug.com/971779. |
| // If headers that are too large or empty are received (these cases are handled |
| // the same way, as QuicHeaderList clears itself when headers exceed the limit), |
| // then the stream is reset. No more frames must be sent in this case. |
| TEST_P(QuicSpdySessionTestClient, TooLargeHeadersMustNotCauseWriteAfterReset) { |
| // In IETF QUIC, HEADERS do not carry FIN flag, and OnStreamHeaderList() is |
| // never called after an error, including too large headers. |
| if (VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| CompleteHandshake(); |
| TestStream* stream = session_.CreateOutgoingBidirectionalStream(); |
| |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillOnce(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| // Write headers with FIN set to close write side of stream. |
| // Header block does not matter. |
| stream->WriteHeaders(SpdyHeaderBlock(), /* fin = */ true, nullptr); |
| |
| // Receive headers that are too large or empty, with FIN set. |
| // This causes the stream to be reset. No frames must be written after this. |
| QuicHeaderList headers; |
| EXPECT_CALL(*connection_, SendControlFrame(_)); |
| EXPECT_CALL(*connection_, |
| OnStreamReset(stream->id(), QUIC_HEADERS_TOO_LARGE)); |
| stream->OnStreamHeaderList(/* fin = */ true, |
| headers.uncompressed_header_bytes(), headers); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, RecordFinAfterReadSideClosed) { |
| // Verify that an incoming FIN is recorded in a stream object even if the read |
| // side has been closed. This prevents an entry from being made in |
| // locally_closed_streams_highest_offset_ (which will never be deleted). |
| CompleteHandshake(); |
| TestStream* stream = session_.CreateOutgoingBidirectionalStream(); |
| QuicStreamId stream_id = stream->id(); |
| |
| // Close the read side manually. |
| QuicStreamPeer::CloseReadSide(stream); |
| |
| // Receive a stream data frame with FIN. |
| QuicStreamFrame frame(stream_id, true, 0, absl::string_view()); |
| session_.OnStreamFrame(frame); |
| EXPECT_TRUE(stream->fin_received()); |
| |
| // Reset stream locally. |
| EXPECT_CALL(*connection_, SendControlFrame(_)); |
| EXPECT_CALL(*connection_, OnStreamReset(stream->id(), _)); |
| stream->Reset(QUIC_STREAM_CANCELLED); |
| EXPECT_TRUE(QuicStreamPeer::read_side_closed(stream)); |
| |
| EXPECT_TRUE(connection_->connected()); |
| EXPECT_TRUE(QuicSessionPeer::IsStreamClosed(&session_, stream_id)); |
| EXPECT_FALSE(QuicSessionPeer::IsStreamCreated(&session_, stream_id)); |
| |
| // The stream is not waiting for the arrival of the peer's final offset as it |
| // was received with the FIN earlier. |
| EXPECT_EQ( |
| 0u, |
| QuicSessionPeer::GetLocallyClosedStreamsHighestOffset(&session_).size()); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, WritePriority) { |
| if (VersionUsesHttp3(transport_version())) { |
| // IETF QUIC currently doesn't support PRIORITY. |
| return; |
| } |
| CompleteHandshake(); |
| |
| TestHeadersStream* headers_stream; |
| QuicSpdySessionPeer::SetHeadersStream(&session_, nullptr); |
| headers_stream = new TestHeadersStream(&session_); |
| QuicSpdySessionPeer::SetHeadersStream(&session_, headers_stream); |
| |
| // Make packet writer blocked so |headers_stream| will buffer its write data. |
| EXPECT_CALL(*writer_, IsWriteBlocked()).WillRepeatedly(Return(true)); |
| |
| const QuicStreamId id = 4; |
| const QuicStreamId parent_stream_id = 9; |
| const SpdyPriority priority = kV3HighestPriority; |
| const bool exclusive = true; |
| session_.WritePriority(id, parent_stream_id, |
| Spdy3PriorityToHttp2Weight(priority), exclusive); |
| |
| QuicStreamSendBuffer& send_buffer = |
| QuicStreamPeer::SendBuffer(headers_stream); |
| ASSERT_EQ(1u, send_buffer.size()); |
| |
| SpdyPriorityIR priority_frame( |
| id, parent_stream_id, Spdy3PriorityToHttp2Weight(priority), exclusive); |
| SpdyFramer spdy_framer(SpdyFramer::ENABLE_COMPRESSION); |
| SpdySerializedFrame frame = spdy_framer.SerializeFrame(priority_frame); |
| |
| const quiche::QuicheMemSlice& slice = |
| QuicStreamSendBufferPeer::CurrentWriteSlice(&send_buffer)->slice; |
| EXPECT_EQ(absl::string_view(frame.data(), frame.size()), |
| absl::string_view(slice.data(), slice.length())); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, Http3ServerPush) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| EXPECT_EQ(0u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| |
| // Push unidirectional stream is type 0x01. |
| std::string frame_type1 = absl::HexStringToBytes("01"); |
| QuicStreamId stream_id1 = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_RECEIVE_SERVER_PUSH, _, _)) |
| .Times(1); |
| session_.OnStreamFrame(QuicStreamFrame(stream_id1, /* fin = */ false, |
| /* offset = */ 0, frame_type1)); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, Http3ServerPushOutofOrderFrame) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| EXPECT_EQ(0u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| |
| // Push unidirectional stream is type 0x01. |
| std::string frame_type = absl::HexStringToBytes("01"); |
| // The first field of a push stream is the Push ID. |
| std::string push_id = absl::HexStringToBytes("4000"); |
| |
| QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| |
| QuicStreamFrame data1(stream_id, |
| /* fin = */ false, /* offset = */ 0, frame_type); |
| QuicStreamFrame data2(stream_id, |
| /* fin = */ false, /* offset = */ frame_type.size(), |
| push_id); |
| |
| // Receiving some stream data without stream type does not open the stream. |
| session_.OnStreamFrame(data2); |
| EXPECT_EQ(0u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_RECEIVE_SERVER_PUSH, _, _)) |
| .Times(1); |
| session_.OnStreamFrame(data1); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnStreamFrameLost) { |
| CompleteHandshake(); |
| InSequence s; |
| |
| // Drive congestion control manually. |
| MockSendAlgorithm* send_algorithm = new StrictMock<MockSendAlgorithm>; |
| QuicConnectionPeer::SetSendAlgorithm(session_.connection(), send_algorithm); |
| |
| TestCryptoStream* crypto_stream = session_.GetMutableCryptoStream(); |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| |
| QuicStreamFrame frame2(stream2->id(), false, 0, 9); |
| QuicStreamFrame frame3(stream4->id(), false, 0, 9); |
| |
| // Lost data on cryption stream, streams 2 and 4. |
| EXPECT_CALL(*stream4, HasPendingRetransmission()).WillOnce(Return(true)); |
| if (!QuicVersionUsesCryptoFrames(transport_version())) { |
| EXPECT_CALL(*crypto_stream, HasPendingRetransmission()) |
| .WillOnce(Return(true)); |
| } |
| EXPECT_CALL(*stream2, HasPendingRetransmission()).WillOnce(Return(true)); |
| session_.OnFrameLost(QuicFrame(frame3)); |
| if (!QuicVersionUsesCryptoFrames(transport_version())) { |
| QuicStreamFrame frame1(QuicUtils::GetCryptoStreamId(transport_version()), |
| false, 0, 1300); |
| session_.OnFrameLost(QuicFrame(frame1)); |
| } else { |
| QuicCryptoFrame crypto_frame(ENCRYPTION_INITIAL, 0, 1300); |
| session_.OnFrameLost(QuicFrame(&crypto_frame)); |
| } |
| session_.OnFrameLost(QuicFrame(frame2)); |
| EXPECT_TRUE(session_.WillingAndAbleToWrite()); |
| |
| // Mark streams 2 and 4 write blocked. |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| |
| // Lost data is retransmitted before new data, and retransmissions for crypto |
| // stream go first. |
| // Do not check congestion window when crypto stream has lost data. |
| EXPECT_CALL(*send_algorithm, CanSend(_)).Times(0); |
| if (!QuicVersionUsesCryptoFrames(transport_version())) { |
| EXPECT_CALL(*crypto_stream, OnCanWrite()); |
| EXPECT_CALL(*crypto_stream, HasPendingRetransmission()) |
| .WillOnce(Return(false)); |
| } |
| // Check congestion window for non crypto streams. |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(true)); |
| EXPECT_CALL(*stream4, OnCanWrite()); |
| EXPECT_CALL(*stream4, HasPendingRetransmission()).WillOnce(Return(false)); |
| // Connection is blocked. |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillRepeatedly(Return(false)); |
| |
| session_.OnCanWrite(); |
| EXPECT_TRUE(session_.WillingAndAbleToWrite()); |
| |
| // Unblock connection. |
| // Stream 2 retransmits lost data. |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(true)); |
| EXPECT_CALL(*stream2, OnCanWrite()); |
| EXPECT_CALL(*stream2, HasPendingRetransmission()).WillOnce(Return(false)); |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(true)); |
| // Stream 2 sends new data. |
| EXPECT_CALL(*stream2, OnCanWrite()); |
| EXPECT_CALL(*send_algorithm, CanSend(_)).WillOnce(Return(true)); |
| EXPECT_CALL(*stream4, OnCanWrite()); |
| EXPECT_CALL(*send_algorithm, OnApplicationLimited(_)); |
| |
| session_.OnCanWrite(); |
| EXPECT_FALSE(session_.WillingAndAbleToWrite()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, DonotRetransmitDataOfClosedStreams) { |
| // Resetting a stream will send a QPACK Stream Cancellation instruction on the |
| // decoder stream. For simplicity, ignore writes on this stream. |
| CompleteHandshake(); |
| NoopQpackStreamSenderDelegate qpack_stream_sender_delegate; |
| if (VersionUsesHttp3(transport_version())) { |
| session_.qpack_decoder()->set_qpack_stream_sender_delegate( |
| &qpack_stream_sender_delegate); |
| } |
| |
| InSequence s; |
| |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream6 = session_.CreateOutgoingBidirectionalStream(); |
| |
| QuicStreamFrame frame1(stream2->id(), false, 0, 9); |
| QuicStreamFrame frame2(stream4->id(), false, 0, 9); |
| QuicStreamFrame frame3(stream6->id(), false, 0, 9); |
| |
| EXPECT_CALL(*stream6, HasPendingRetransmission()).WillOnce(Return(true)); |
| EXPECT_CALL(*stream4, HasPendingRetransmission()).WillOnce(Return(true)); |
| EXPECT_CALL(*stream2, HasPendingRetransmission()).WillOnce(Return(true)); |
| session_.OnFrameLost(QuicFrame(frame3)); |
| session_.OnFrameLost(QuicFrame(frame2)); |
| session_.OnFrameLost(QuicFrame(frame1)); |
| |
| session_.MarkConnectionLevelWriteBlocked(stream2->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream4->id()); |
| session_.MarkConnectionLevelWriteBlocked(stream6->id()); |
| |
| // Reset stream 4 locally. |
| EXPECT_CALL(*connection_, SendControlFrame(_)); |
| EXPECT_CALL(*connection_, OnStreamReset(stream4->id(), _)); |
| stream4->Reset(QUIC_STREAM_CANCELLED); |
| |
| // Verify stream 4 is removed from streams with lost data list. |
| EXPECT_CALL(*stream6, OnCanWrite()); |
| EXPECT_CALL(*stream6, HasPendingRetransmission()).WillOnce(Return(false)); |
| EXPECT_CALL(*stream2, OnCanWrite()); |
| EXPECT_CALL(*stream2, HasPendingRetransmission()).WillOnce(Return(false)); |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillRepeatedly(Invoke(&ClearControlFrame)); |
| EXPECT_CALL(*stream2, OnCanWrite()); |
| EXPECT_CALL(*stream6, OnCanWrite()); |
| session_.OnCanWrite(); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, RetransmitFrames) { |
| CompleteHandshake(); |
| MockSendAlgorithm* send_algorithm = new StrictMock<MockSendAlgorithm>; |
| QuicConnectionPeer::SetSendAlgorithm(session_.connection(), send_algorithm); |
| InSequence s; |
| |
| TestStream* stream2 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream4 = session_.CreateOutgoingBidirectionalStream(); |
| TestStream* stream6 = session_.CreateOutgoingBidirectionalStream(); |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&ClearControlFrame)); |
| session_.SendWindowUpdate(stream2->id(), 9); |
| |
| QuicStreamFrame frame1(stream2->id(), false, 0, 9); |
| QuicStreamFrame frame2(stream4->id(), false, 0, 9); |
| QuicStreamFrame frame3(stream6->id(), false, 0, 9); |
| QuicWindowUpdateFrame window_update(1, stream2->id(), 9); |
| QuicFrames frames; |
| frames.push_back(QuicFrame(frame1)); |
| frames.push_back(QuicFrame(window_update)); |
| frames.push_back(QuicFrame(frame2)); |
| frames.push_back(QuicFrame(frame3)); |
| EXPECT_FALSE(session_.WillingAndAbleToWrite()); |
| |
| EXPECT_CALL(*stream2, RetransmitStreamData(_, _, _, _)) |
| .WillOnce(Return(true)); |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&ClearControlFrame)); |
| EXPECT_CALL(*stream4, RetransmitStreamData(_, _, _, _)) |
| .WillOnce(Return(true)); |
| EXPECT_CALL(*stream6, RetransmitStreamData(_, _, _, _)) |
| .WillOnce(Return(true)); |
| EXPECT_CALL(*send_algorithm, OnApplicationLimited(_)); |
| session_.RetransmitFrames(frames, TLP_RETRANSMISSION); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnPriorityFrame) { |
| QuicStreamId stream_id = GetNthClientInitiatedBidirectionalId(0); |
| TestStream* stream = session_.CreateIncomingStream(stream_id); |
| session_.OnPriorityFrame(stream_id, |
| spdy::SpdyStreamPrecedence(kV3HighestPriority)); |
| EXPECT_EQ(spdy::SpdyStreamPrecedence(kV3HighestPriority), |
| stream->precedence()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnPriorityUpdateFrame) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| // Create control stream. |
| QuicStreamId receive_control_stream_id = |
| GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| absl::string_view stream_type(type, 1); |
| QuicStreamOffset offset = 0; |
| QuicStreamFrame data1(receive_control_stream_id, false, offset, stream_type); |
| offset += stream_type.length(); |
| EXPECT_CALL(debug_visitor, |
| OnPeerControlStreamCreated(receive_control_stream_id)); |
| session_.OnStreamFrame(data1); |
| EXPECT_EQ(receive_control_stream_id, |
| QuicSpdySessionPeer::GetReceiveControlStream(&session_)->id()); |
| |
| // Send SETTINGS frame. |
| std::string serialized_settings = EncodeSettings({}); |
| QuicStreamFrame data2(receive_control_stream_id, false, offset, |
| serialized_settings); |
| offset += serialized_settings.length(); |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(_)); |
| session_.OnStreamFrame(data2); |
| |
| // PRIORITY_UPDATE frame for first request stream. |
| const QuicStreamId stream_id1 = GetNthClientInitiatedBidirectionalId(0); |
| struct PriorityUpdateFrame priority_update1; |
| priority_update1.prioritized_element_type = REQUEST_STREAM; |
| priority_update1.prioritized_element_id = stream_id1; |
| priority_update1.priority_field_value = "u=2"; |
| std::string serialized_priority_update1 = |
| SerializePriorityUpdateFrame(priority_update1); |
| QuicStreamFrame data3(receive_control_stream_id, |
| /* fin = */ false, offset, serialized_priority_update1); |
| offset += serialized_priority_update1.size(); |
| |
| // PRIORITY_UPDATE frame arrives after stream creation. |
| TestStream* stream1 = session_.CreateIncomingStream(stream_id1); |
| EXPECT_EQ(QuicStream::kDefaultUrgency, |
| stream1->precedence().spdy3_priority()); |
| EXPECT_CALL(debug_visitor, OnPriorityUpdateFrameReceived(priority_update1)); |
| session_.OnStreamFrame(data3); |
| EXPECT_EQ(2u, stream1->precedence().spdy3_priority()); |
| |
| // PRIORITY_UPDATE frame for second request stream. |
| const QuicStreamId stream_id2 = GetNthClientInitiatedBidirectionalId(1); |
| struct PriorityUpdateFrame priority_update2; |
| priority_update2.prioritized_element_type = REQUEST_STREAM; |
| priority_update2.prioritized_element_id = stream_id2; |
| priority_update2.priority_field_value = "u=2"; |
| std::string serialized_priority_update2 = |
| SerializePriorityUpdateFrame(priority_update2); |
| QuicStreamFrame stream_frame3(receive_control_stream_id, |
| /* fin = */ false, offset, |
| serialized_priority_update2); |
| |
| // PRIORITY_UPDATE frame arrives before stream creation, |
| // priority value is buffered. |
| EXPECT_CALL(debug_visitor, OnPriorityUpdateFrameReceived(priority_update2)); |
| session_.OnStreamFrame(stream_frame3); |
| // Priority is applied upon stream construction. |
| TestStream* stream2 = session_.CreateIncomingStream(stream_id2); |
| EXPECT_EQ(2u, stream2->precedence().spdy3_priority()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, SimplePendingStreamType) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| CompleteHandshake(); |
| char input[] = {0x04, // type |
| 'a', 'b', 'c'}; // data |
| absl::string_view payload(input, ABSL_ARRAYSIZE(input)); |
| |
| // This is a server test with a client-initiated unidirectional stream. |
| QuicStreamId stream_id = QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT); |
| |
| for (bool fin : {true, false}) { |
| QuicStreamFrame frame(stream_id, fin, /* offset = */ 0, payload); |
| |
| // A STOP_SENDING frame is sent in response to the unknown stream type. |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke([stream_id](const QuicFrame& frame) { |
| EXPECT_EQ(STOP_SENDING_FRAME, frame.type); |
| |
| const QuicStopSendingFrame& stop_sending = frame.stop_sending_frame; |
| EXPECT_EQ(stream_id, stop_sending.stream_id); |
| EXPECT_EQ(QUIC_STREAM_STREAM_CREATION_ERROR, stop_sending.error_code); |
| EXPECT_EQ( |
| static_cast<uint64_t>(QuicHttp3ErrorCode::STREAM_CREATION_ERROR), |
| stop_sending.ietf_error_code); |
| |
| return ClearControlFrame(frame); |
| })); |
| session_.OnStreamFrame(frame); |
| |
| PendingStream* pending = |
| QuicSessionPeer::GetPendingStream(&session_, stream_id); |
| if (fin) { |
| // Stream is closed if FIN is received. |
| EXPECT_FALSE(pending); |
| } else { |
| ASSERT_TRUE(pending); |
| // The pending stream must ignore read data. |
| EXPECT_TRUE(pending->sequencer()->ignore_read_data()); |
| } |
| |
| stream_id += QuicUtils::StreamIdDelta(transport_version()); |
| } |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, SimplePendingStreamTypeOutOfOrderDelivery) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| CompleteHandshake(); |
| char input[] = {0x04, // type |
| 'a', 'b', 'c'}; // data |
| absl::string_view payload(input, ABSL_ARRAYSIZE(input)); |
| |
| // This is a server test with a client-initiated unidirectional stream. |
| QuicStreamId stream_id = QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT); |
| |
| for (bool fin : {true, false}) { |
| QuicStreamFrame frame1(stream_id, /* fin = */ false, /* offset = */ 0, |
| payload.substr(0, 1)); |
| QuicStreamFrame frame2(stream_id, fin, /* offset = */ 1, payload.substr(1)); |
| |
| // Deliver frames out of order. |
| session_.OnStreamFrame(frame2); |
| // A STOP_SENDING frame is sent in response to the unknown stream type. |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&VerifyAndClearStopSendingFrame)); |
| session_.OnStreamFrame(frame1); |
| |
| PendingStream* pending = |
| QuicSessionPeer::GetPendingStream(&session_, stream_id); |
| if (fin) { |
| // Stream is closed if FIN is received. |
| EXPECT_FALSE(pending); |
| } else { |
| ASSERT_TRUE(pending); |
| // The pending stream must ignore read data. |
| EXPECT_TRUE(pending->sequencer()->ignore_read_data()); |
| } |
| |
| stream_id += QuicUtils::StreamIdDelta(transport_version()); |
| } |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, |
| MultipleBytesPendingStreamTypeOutOfOrderDelivery) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| CompleteHandshake(); |
| char input[] = {0x41, 0x00, // type (256) |
| 'a', 'b', 'c'}; // data |
| absl::string_view payload(input, ABSL_ARRAYSIZE(input)); |
| |
| // This is a server test with a client-initiated unidirectional stream. |
| QuicStreamId stream_id = QuicUtils::GetFirstUnidirectionalStreamId( |
| transport_version(), Perspective::IS_CLIENT); |
| |
| for (bool fin : {true, false}) { |
| QuicStreamFrame frame1(stream_id, /* fin = */ false, /* offset = */ 0, |
| payload.substr(0, 1)); |
| QuicStreamFrame frame2(stream_id, /* fin = */ false, /* offset = */ 1, |
| payload.substr(1, 1)); |
| QuicStreamFrame frame3(stream_id, fin, /* offset = */ 2, payload.substr(2)); |
| |
| // Deliver frames out of order. |
| session_.OnStreamFrame(frame3); |
| // The first byte does not contain the entire type varint. |
| session_.OnStreamFrame(frame1); |
| // A STOP_SENDING frame is sent in response to the unknown stream type. |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&VerifyAndClearStopSendingFrame)); |
| session_.OnStreamFrame(frame2); |
| |
| PendingStream* pending = |
| QuicSessionPeer::GetPendingStream(&session_, stream_id); |
| if (fin) { |
| // Stream is closed if FIN is received. |
| EXPECT_FALSE(pending); |
| } else { |
| ASSERT_TRUE(pending); |
| // The pending stream must ignore read data. |
| EXPECT_TRUE(pending->sequencer()->ignore_read_data()); |
| } |
| |
| stream_id += QuicUtils::StreamIdDelta(transport_version()); |
| } |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, ReceiveControlStream) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| CompleteHandshake(); |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| // Use an arbitrary stream id. |
| QuicStreamId stream_id = |
| GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| |
| QuicStreamFrame data1(stream_id, false, 0, absl::string_view(type, 1)); |
| EXPECT_CALL(debug_visitor, OnPeerControlStreamCreated(stream_id)); |
| session_.OnStreamFrame(data1); |
| EXPECT_EQ(stream_id, |
| QuicSpdySessionPeer::GetReceiveControlStream(&session_)->id()); |
| |
| SettingsFrame settings; |
| settings.values[SETTINGS_QPACK_MAX_TABLE_CAPACITY] = 512; |
| settings.values[SETTINGS_MAX_FIELD_SECTION_SIZE] = 5; |
| settings.values[SETTINGS_QPACK_BLOCKED_STREAMS] = 42; |
| std::string data = EncodeSettings(settings); |
| QuicStreamFrame frame(stream_id, false, 1, absl::string_view(data)); |
| |
| QpackEncoder* qpack_encoder = session_.qpack_encoder(); |
| QpackEncoderHeaderTable* header_table = |
| QpackEncoderPeer::header_table(qpack_encoder); |
| |
| EXPECT_NE(512u, header_table->maximum_dynamic_table_capacity()); |
| EXPECT_NE(5u, session_.max_outbound_header_list_size()); |
| EXPECT_NE(42u, QpackEncoderPeer::maximum_blocked_streams(qpack_encoder)); |
| |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(settings)); |
| session_.OnStreamFrame(frame); |
| |
| EXPECT_EQ(512u, header_table->maximum_dynamic_table_capacity()); |
| EXPECT_EQ(5u, session_.max_outbound_header_list_size()); |
| EXPECT_EQ(42u, QpackEncoderPeer::maximum_blocked_streams(qpack_encoder)); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, ReceiveControlStreamOutOfOrderDelivery) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| // Use an arbitrary stream id. |
| QuicStreamId stream_id = |
| GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| SettingsFrame settings; |
| settings.values[10] = 2; |
| settings.values[SETTINGS_MAX_FIELD_SECTION_SIZE] = 5; |
| std::string data = EncodeSettings(settings); |
| |
| QuicStreamFrame data1(stream_id, false, 1, absl::string_view(data)); |
| QuicStreamFrame data2(stream_id, false, 0, absl::string_view(type, 1)); |
| |
| session_.OnStreamFrame(data1); |
| EXPECT_NE(5u, session_.max_outbound_header_list_size()); |
| session_.OnStreamFrame(data2); |
| EXPECT_EQ(5u, session_.max_outbound_header_list_size()); |
| } |
| |
| // Regression test for https://crbug.com/1009551. |
| TEST_P(QuicSpdySessionTestServer, StreamClosedWhileHeaderDecodingBlocked) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| CompleteHandshake(); |
| session_.qpack_decoder()->OnSetDynamicTableCapacity(1024); |
| |
| QuicStreamId stream_id = GetNthClientInitiatedBidirectionalId(0); |
| TestStream* stream = session_.CreateIncomingStream(stream_id); |
| |
| // HEADERS frame referencing first dynamic table entry. |
| std::string headers_payload = absl::HexStringToBytes("020080"); |
| std::unique_ptr<char[]> headers_buffer; |
| QuicByteCount headers_frame_header_length = |
| HttpEncoder::SerializeHeadersFrameHeader(headers_payload.length(), |
| &headers_buffer); |
| absl::string_view headers_frame_header(headers_buffer.get(), |
| headers_frame_header_length); |
| std::string headers = absl::StrCat(headers_frame_header, headers_payload); |
| stream->OnStreamFrame(QuicStreamFrame(stream_id, false, 0, headers)); |
| |
| // Decoding is blocked because dynamic table entry has not been received yet. |
| EXPECT_FALSE(stream->headers_decompressed()); |
| |
| // Stream is closed and destroyed. |
| CloseStream(stream_id); |
| session_.CleanUpClosedStreams(); |
| |
| // Dynamic table entry arrived on the decoder stream. |
| // The destroyed stream object must not be referenced. |
| session_.qpack_decoder()->OnInsertWithoutNameReference("foo", "bar"); |
| } |
| |
| // Regression test for https://crbug.com/1011294. |
| TEST_P(QuicSpdySessionTestServer, SessionDestroyedWhileHeaderDecodingBlocked) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| session_.qpack_decoder()->OnSetDynamicTableCapacity(1024); |
| |
| QuicStreamId stream_id = GetNthClientInitiatedBidirectionalId(0); |
| TestStream* stream = session_.CreateIncomingStream(stream_id); |
| |
| // HEADERS frame referencing first dynamic table entry. |
| std::string headers_payload = absl::HexStringToBytes("020080"); |
| std::unique_ptr<char[]> headers_buffer; |
| QuicByteCount headers_frame_header_length = |
| HttpEncoder::SerializeHeadersFrameHeader(headers_payload.length(), |
| &headers_buffer); |
| absl::string_view headers_frame_header(headers_buffer.get(), |
| headers_frame_header_length); |
| std::string headers = absl::StrCat(headers_frame_header, headers_payload); |
| stream->OnStreamFrame(QuicStreamFrame(stream_id, false, 0, headers)); |
| |
| // Decoding is blocked because dynamic table entry has not been received yet. |
| EXPECT_FALSE(stream->headers_decompressed()); |
| |
| // |session_| gets destoyed. That destroys QpackDecoder, a member of |
| // QuicSpdySession (derived class), which destroys QpackDecoderHeaderTable. |
| // Then |*stream|, owned by QuicSession (base class) get destroyed, which |
| // destroys QpackProgessiveDecoder, a registered Observer of |
| // QpackDecoderHeaderTable. This must not cause a crash. |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, ResetAfterInvalidIncomingStreamType) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| CompleteHandshake(); |
| |
| const QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| ASSERT_TRUE(session_.UsesPendingStreamForFrame(STREAM_FRAME, stream_id)); |
| |
| // Payload consists of two bytes. The first byte is an unknown unidirectional |
| // stream type. The second one would be the type of a push stream, but it |
| // must not be interpreted as stream type. |
| std::string payload = absl::HexStringToBytes("3f01"); |
| QuicStreamFrame frame(stream_id, /* fin = */ false, /* offset = */ 0, |
| payload); |
| |
| // A STOP_SENDING frame is sent in response to the unknown stream type. |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&VerifyAndClearStopSendingFrame)); |
| session_.OnStreamFrame(frame); |
| |
| // There are no active streams. |
| EXPECT_EQ(0u, QuicSessionPeer::GetNumOpenDynamicStreams(&session_)); |
| |
| // The pending stream is still around, because it did not receive a FIN. |
| PendingStream* pending = |
| QuicSessionPeer::GetPendingStream(&session_, stream_id); |
| ASSERT_TRUE(pending); |
| |
| // The pending stream must ignore read data. |
| EXPECT_TRUE(pending->sequencer()->ignore_read_data()); |
| |
| // If the stream frame is received again, it should be ignored. |
| session_.OnStreamFrame(frame); |
| |
| // Receive RESET_STREAM. |
| QuicRstStreamFrame rst_frame(kInvalidControlFrameId, stream_id, |
| QUIC_STREAM_CANCELLED, |
| /* bytes_written = */ payload.size()); |
| |
| session_.OnRstStream(rst_frame); |
| |
| // The stream is closed. |
| EXPECT_FALSE(QuicSessionPeer::GetPendingStream(&session_, stream_id)); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, FinAfterInvalidIncomingStreamType) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| CompleteHandshake(); |
| |
| const QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| ASSERT_TRUE(session_.UsesPendingStreamForFrame(STREAM_FRAME, stream_id)); |
| |
| // Payload consists of two bytes. The first byte is an unknown unidirectional |
| // stream type. The second one would be the type of a push stream, but it |
| // must not be interpreted as stream type. |
| std::string payload = absl::HexStringToBytes("3f01"); |
| QuicStreamFrame frame(stream_id, /* fin = */ false, /* offset = */ 0, |
| payload); |
| |
| // A STOP_SENDING frame is sent in response to the unknown stream type. |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillOnce(Invoke(&VerifyAndClearStopSendingFrame)); |
| session_.OnStreamFrame(frame); |
| |
| // The pending stream is still around, because it did not receive a FIN. |
| PendingStream* pending = |
| QuicSessionPeer::GetPendingStream(&session_, stream_id); |
| EXPECT_TRUE(pending); |
| |
| // The pending stream must ignore read data. |
| EXPECT_TRUE(pending->sequencer()->ignore_read_data()); |
| |
| // If the stream frame is received again, it should be ignored. |
| session_.OnStreamFrame(frame); |
| |
| // Receive FIN. |
| session_.OnStreamFrame(QuicStreamFrame(stream_id, /* fin = */ true, |
| /* offset = */ payload.size(), "")); |
| |
| EXPECT_FALSE(QuicSessionPeer::GetPendingStream(&session_, stream_id)); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, ResetInMiddleOfStreamType) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| const QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| ASSERT_TRUE(session_.UsesPendingStreamForFrame(STREAM_FRAME, stream_id)); |
| |
| // Payload is the first byte of a two byte varint encoding. |
| std::string payload = absl::HexStringToBytes("40"); |
| QuicStreamFrame frame(stream_id, /* fin = */ false, /* offset = */ 0, |
| payload); |
| |
| session_.OnStreamFrame(frame); |
| EXPECT_TRUE(QuicSessionPeer::GetPendingStream(&session_, stream_id)); |
| |
| // Receive RESET_STREAM. |
| QuicRstStreamFrame rst_frame(kInvalidControlFrameId, stream_id, |
| QUIC_STREAM_CANCELLED, |
| /* bytes_written = */ payload.size()); |
| |
| session_.OnRstStream(rst_frame); |
| |
| // The stream is closed. |
| EXPECT_FALSE(QuicSessionPeer::GetPendingStream(&session_, stream_id)); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, FinInMiddleOfStreamType) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| const QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| ASSERT_TRUE(session_.UsesPendingStreamForFrame(STREAM_FRAME, stream_id)); |
| |
| // Payload is the first byte of a two byte varint encoding with a FIN. |
| std::string payload = absl::HexStringToBytes("40"); |
| QuicStreamFrame frame(stream_id, /* fin = */ true, /* offset = */ 0, payload); |
| |
| session_.OnStreamFrame(frame); |
| EXPECT_FALSE(QuicSessionPeer::GetPendingStream(&session_, stream_id)); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, DuplicateHttp3UnidirectionalStreams) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| QuicStreamId id1 = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| char type1[] = {kControlStream}; |
| |
| QuicStreamFrame data1(id1, false, 0, absl::string_view(type1, 1)); |
| EXPECT_CALL(debug_visitor, OnPeerControlStreamCreated(id1)); |
| session_.OnStreamFrame(data1); |
| QuicStreamId id2 = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 1); |
| QuicStreamFrame data2(id2, false, 0, absl::string_view(type1, 1)); |
| EXPECT_CALL(debug_visitor, OnPeerControlStreamCreated(id2)).Times(0); |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_DUPLICATE_UNIDIRECTIONAL_STREAM, |
| "Control stream is received twice.", _)); |
| EXPECT_QUIC_PEER_BUG( |
| session_.OnStreamFrame(data2), |
| "Received a duplicate Control stream: Closing connection."); |
| |
| QuicStreamId id3 = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 2); |
| char type2[]{kQpackEncoderStream}; |
| |
| QuicStreamFrame data3(id3, false, 0, absl::string_view(type2, 1)); |
| EXPECT_CALL(debug_visitor, OnPeerQpackEncoderStreamCreated(id3)); |
| session_.OnStreamFrame(data3); |
| |
| QuicStreamId id4 = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 3); |
| QuicStreamFrame data4(id4, false, 0, absl::string_view(type2, 1)); |
| EXPECT_CALL(debug_visitor, OnPeerQpackEncoderStreamCreated(id4)).Times(0); |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_DUPLICATE_UNIDIRECTIONAL_STREAM, |
| "QPACK encoder stream is received twice.", _)); |
| EXPECT_QUIC_PEER_BUG( |
| session_.OnStreamFrame(data4), |
| "Received a duplicate QPACK encoder stream: Closing connection."); |
| |
| QuicStreamId id5 = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 4); |
| char type3[]{kQpackDecoderStream}; |
| |
| QuicStreamFrame data5(id5, false, 0, absl::string_view(type3, 1)); |
| EXPECT_CALL(debug_visitor, OnPeerQpackDecoderStreamCreated(id5)); |
| session_.OnStreamFrame(data5); |
| |
| QuicStreamId id6 = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 5); |
| QuicStreamFrame data6(id6, false, 0, absl::string_view(type3, 1)); |
| EXPECT_CALL(debug_visitor, OnPeerQpackDecoderStreamCreated(id6)).Times(0); |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_DUPLICATE_UNIDIRECTIONAL_STREAM, |
| "QPACK decoder stream is received twice.", _)); |
| EXPECT_QUIC_PEER_BUG( |
| session_.OnStreamFrame(data6), |
| "Received a duplicate QPACK decoder stream: Closing connection."); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, EncoderStreamError) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| std::string data = absl::HexStringToBytes( |
| "02" // Encoder stream. |
| "00"); // Duplicate entry 0, but no entries exist. |
| |
| QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| |
| QuicStreamFrame frame(stream_id, /* fin = */ false, /* offset = */ 0, data); |
| |
| EXPECT_CALL(*connection_, |
| CloseConnection( |
| QUIC_QPACK_ENCODER_STREAM_DUPLICATE_INVALID_RELATIVE_INDEX, |
| "Encoder stream error: Invalid relative index.", _)); |
| session_.OnStreamFrame(frame); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, DecoderStreamError) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| std::string data = absl::HexStringToBytes( |
| "03" // Decoder stream. |
| "00"); // Insert Count Increment with forbidden increment value of zero. |
| |
| QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| |
| QuicStreamFrame frame(stream_id, /* fin = */ false, /* offset = */ 0, data); |
| |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_QPACK_DECODER_STREAM_INVALID_ZERO_INCREMENT, |
| "Decoder stream error: Invalid increment value 0.", _)); |
| session_.OnStreamFrame(frame); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, InvalidHttp3GoAway) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_GOAWAY_INVALID_STREAM_ID, |
| "GOAWAY with invalid stream ID", _)); |
| QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| session_.OnHttp3GoAway(stream_id); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, Http3GoAwayLargerIdThanBefore) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| EXPECT_FALSE(session_.goaway_received()); |
| QuicStreamId stream_id1 = |
| GetNthClientInitiatedBidirectionalStreamId(transport_version(), 0); |
| session_.OnHttp3GoAway(stream_id1); |
| EXPECT_TRUE(session_.goaway_received()); |
| |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection( |
| QUIC_HTTP_GOAWAY_ID_LARGER_THAN_PREVIOUS, |
| "GOAWAY received with ID 4 greater than previously received ID 0", |
| _)); |
| QuicStreamId stream_id2 = |
| GetNthClientInitiatedBidirectionalStreamId(transport_version(), 1); |
| session_.OnHttp3GoAway(stream_id2); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, CloseConnectionOnCancelPush) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| // Create control stream. |
| QuicStreamId receive_control_stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| absl::string_view stream_type(type, 1); |
| QuicStreamOffset offset = 0; |
| QuicStreamFrame data1(receive_control_stream_id, /* fin = */ false, offset, |
| stream_type); |
| offset += stream_type.length(); |
| EXPECT_CALL(debug_visitor, |
| OnPeerControlStreamCreated(receive_control_stream_id)); |
| session_.OnStreamFrame(data1); |
| EXPECT_EQ(receive_control_stream_id, |
| QuicSpdySessionPeer::GetReceiveControlStream(&session_)->id()); |
| |
| // First frame has to be SETTINGS. |
| std::string serialized_settings = EncodeSettings({}); |
| QuicStreamFrame data2(receive_control_stream_id, /* fin = */ false, offset, |
| serialized_settings); |
| offset += serialized_settings.length(); |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(_)); |
| session_.OnStreamFrame(data2); |
| |
| std::string cancel_push_frame = absl::HexStringToBytes( |
| "03" // CANCEL_PUSH |
| "01" // length |
| "00"); // push ID |
| QuicStreamFrame data3(receive_control_stream_id, /* fin = */ false, offset, |
| cancel_push_frame); |
| EXPECT_CALL(*connection_, CloseConnection(QUIC_HTTP_FRAME_ERROR, |
| "CANCEL_PUSH frame received.", _)) |
| .WillOnce( |
| Invoke(connection_, &MockQuicConnection::ReallyCloseConnection)); |
| EXPECT_CALL(*connection_, |
| SendConnectionClosePacket(QUIC_HTTP_FRAME_ERROR, _, |
| "CANCEL_PUSH frame received.")); |
| session_.OnStreamFrame(data3); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, OnSetting) { |
| CompleteHandshake(); |
| if (VersionUsesHttp3(transport_version())) { |
| EXPECT_EQ(std::numeric_limits<size_t>::max(), |
| session_.max_outbound_header_list_size()); |
| session_.OnSetting(SETTINGS_MAX_FIELD_SECTION_SIZE, 5); |
| EXPECT_EQ(5u, session_.max_outbound_header_list_size()); |
| |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillRepeatedly(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| QpackEncoder* qpack_encoder = session_.qpack_encoder(); |
| EXPECT_EQ(0u, QpackEncoderPeer::maximum_blocked_streams(qpack_encoder)); |
| session_.OnSetting(SETTINGS_QPACK_BLOCKED_STREAMS, 12); |
| EXPECT_EQ(12u, QpackEncoderPeer::maximum_blocked_streams(qpack_encoder)); |
| |
| QpackEncoderHeaderTable* header_table = |
| QpackEncoderPeer::header_table(qpack_encoder); |
| EXPECT_EQ(0u, header_table->maximum_dynamic_table_capacity()); |
| session_.OnSetting(SETTINGS_QPACK_MAX_TABLE_CAPACITY, 37); |
| EXPECT_EQ(37u, header_table->maximum_dynamic_table_capacity()); |
| |
| return; |
| } |
| |
| EXPECT_EQ(std::numeric_limits<size_t>::max(), |
| session_.max_outbound_header_list_size()); |
| session_.OnSetting(SETTINGS_MAX_FIELD_SECTION_SIZE, 5); |
| EXPECT_EQ(5u, session_.max_outbound_header_list_size()); |
| |
| spdy::HpackEncoder* hpack_encoder = |
| QuicSpdySessionPeer::GetSpdyFramer(&session_)->GetHpackEncoder(); |
| EXPECT_EQ(4096u, hpack_encoder->CurrentHeaderTableSizeSetting()); |
| session_.OnSetting(spdy::SETTINGS_HEADER_TABLE_SIZE, 59); |
| EXPECT_EQ(59u, hpack_encoder->CurrentHeaderTableSizeSetting()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, FineGrainedHpackErrorCodes) { |
| if (VersionUsesHttp3(transport_version())) { |
| // HPACK is not used in HTTP/3. |
| return; |
| } |
| |
| QuicStreamId request_stream_id = 5; |
| session_.CreateIncomingStream(request_stream_id); |
| |
| // Index 126 does not exist (static table has 61 entries and dynamic table is |
| // empty). |
| std::string headers_frame = absl::HexStringToBytes( |
| "000006" // length |
| "01" // type |
| "24" // flags: PRIORITY | END_HEADERS |
| "00000005" // stream_id |
| "00000000" // stream dependency |
| "10" // weight |
| "fe"); // payload: reference to index 126. |
| QuicStreamId headers_stream_id = |
| QuicUtils::GetHeadersStreamId(transport_version()); |
| QuicStreamFrame data(headers_stream_id, false, 0, headers_frame); |
| |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_HPACK_INVALID_INDEX, |
| "SPDY framing error: HPACK_INVALID_INDEX", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET)); |
| session_.OnStreamFrame(data); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, PeerClosesCriticalReceiveStream) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| struct { |
| char type; |
| const char* error_details; |
| } kTestData[] = { |
| {kControlStream, "RESET_STREAM received for receive control stream"}, |
| {kQpackEncoderStream, "RESET_STREAM received for QPACK receive stream"}, |
| {kQpackDecoderStream, "RESET_STREAM received for QPACK receive stream"}, |
| }; |
| for (size_t i = 0; i < ABSL_ARRAYSIZE(kTestData); ++i) { |
| QuicStreamId stream_id = |
| GetNthClientInitiatedUnidirectionalStreamId(transport_version(), i + 1); |
| const QuicByteCount data_length = 1; |
| QuicStreamFrame data(stream_id, false, 0, |
| absl::string_view(&kTestData[i].type, data_length)); |
| session_.OnStreamFrame(data); |
| |
| EXPECT_CALL(*connection_, CloseConnection(QUIC_HTTP_CLOSED_CRITICAL_STREAM, |
| kTestData[i].error_details, _)); |
| |
| QuicRstStreamFrame rst(kInvalidControlFrameId, stream_id, |
| QUIC_STREAM_CANCELLED, data_length); |
| session_.OnRstStream(rst); |
| } |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, |
| H3ControlStreamsLimitedByConnectionFlowControl) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| // Ensure connection level flow control blockage. |
| QuicFlowControllerPeer::SetSendWindowOffset(session_.flow_controller(), 0); |
| EXPECT_TRUE(session_.IsConnectionFlowControlBlocked()); |
| |
| QuicSendControlStream* send_control_stream = |
| QuicSpdySessionPeer::GetSendControlStream(&session_); |
| // Mark send_control stream write blocked. |
| session_.MarkConnectionLevelWriteBlocked(send_control_stream->id()); |
| EXPECT_FALSE(session_.WillingAndAbleToWrite()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, PeerClosesCriticalSendStream) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| QuicSendControlStream* control_stream = |
| QuicSpdySessionPeer::GetSendControlStream(&session_); |
| ASSERT_TRUE(control_stream); |
| |
| QuicStopSendingFrame stop_sending_control_stream( |
| kInvalidControlFrameId, control_stream->id(), QUIC_STREAM_CANCELLED); |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_HTTP_CLOSED_CRITICAL_STREAM, |
| "STOP_SENDING received for send control stream", _)); |
| session_.OnStopSendingFrame(stop_sending_control_stream); |
| |
| QpackSendStream* decoder_stream = |
| QuicSpdySessionPeer::GetQpackDecoderSendStream(&session_); |
| ASSERT_TRUE(decoder_stream); |
| |
| QuicStopSendingFrame stop_sending_decoder_stream( |
| kInvalidControlFrameId, decoder_stream->id(), QUIC_STREAM_CANCELLED); |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_HTTP_CLOSED_CRITICAL_STREAM, |
| "STOP_SENDING received for QPACK send stream", _)); |
| session_.OnStopSendingFrame(stop_sending_decoder_stream); |
| |
| QpackSendStream* encoder_stream = |
| QuicSpdySessionPeer::GetQpackEncoderSendStream(&session_); |
| ASSERT_TRUE(encoder_stream); |
| |
| QuicStopSendingFrame stop_sending_encoder_stream( |
| kInvalidControlFrameId, encoder_stream->id(), QUIC_STREAM_CANCELLED); |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_HTTP_CLOSED_CRITICAL_STREAM, |
| "STOP_SENDING received for QPACK send stream", _)); |
| session_.OnStopSendingFrame(stop_sending_encoder_stream); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, CloseConnectionOnCancelPush) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| // Create control stream. |
| QuicStreamId receive_control_stream_id = |
| GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| absl::string_view stream_type(type, 1); |
| QuicStreamOffset offset = 0; |
| QuicStreamFrame data1(receive_control_stream_id, /* fin = */ false, offset, |
| stream_type); |
| offset += stream_type.length(); |
| EXPECT_CALL(debug_visitor, |
| OnPeerControlStreamCreated(receive_control_stream_id)); |
| session_.OnStreamFrame(data1); |
| EXPECT_EQ(receive_control_stream_id, |
| QuicSpdySessionPeer::GetReceiveControlStream(&session_)->id()); |
| |
| // First frame has to be SETTINGS. |
| std::string serialized_settings = EncodeSettings({}); |
| QuicStreamFrame data2(receive_control_stream_id, /* fin = */ false, offset, |
| serialized_settings); |
| offset += serialized_settings.length(); |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(_)); |
| session_.OnStreamFrame(data2); |
| |
| std::string cancel_push_frame = absl::HexStringToBytes( |
| "03" // CANCEL_PUSH |
| "01" // length |
| "00"); // push ID |
| QuicStreamFrame data3(receive_control_stream_id, /* fin = */ false, offset, |
| cancel_push_frame); |
| EXPECT_CALL(*connection_, CloseConnection(QUIC_HTTP_FRAME_ERROR, |
| "CANCEL_PUSH frame received.", _)) |
| .WillOnce( |
| Invoke(connection_, &MockQuicConnection::ReallyCloseConnection)); |
| EXPECT_CALL(*connection_, |
| SendConnectionClosePacket(QUIC_HTTP_FRAME_ERROR, _, |
| "CANCEL_PUSH frame received.")); |
| session_.OnStreamFrame(data3); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, Http3GoAwayWhenClosingConnection) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| EXPECT_CALL(debug_visitor, OnSettingsFrameSent(_)); |
| CompleteHandshake(); |
| |
| QuicStreamId stream_id = GetNthClientInitiatedBidirectionalId(0); |
| |
| // Create stream by receiving some data (CreateIncomingStream() would not |
| // update the session's largest peer created stream ID). |
| const size_t headers_payload_length = 10; |
| std::unique_ptr<char[]> headers_buffer; |
| QuicByteCount headers_frame_header_length = |
| HttpEncoder::SerializeHeadersFrameHeader(headers_payload_length, |
| &headers_buffer); |
| absl::string_view headers_frame_header(headers_buffer.get(), |
| headers_frame_header_length); |
| EXPECT_CALL(debug_visitor, |
| OnHeadersFrameReceived(stream_id, headers_payload_length)); |
| session_.OnStreamFrame( |
| QuicStreamFrame(stream_id, false, 0, headers_frame_header)); |
| |
| EXPECT_EQ(stream_id, QuicSessionPeer::GetLargestPeerCreatedStreamId( |
| &session_, /*unidirectional = */ false)); |
| |
| // Stream with stream_id is already received and potentially processed, |
| // therefore a GOAWAY frame is sent with the next stream ID. |
| EXPECT_CALL(debug_visitor, |
| OnGoAwayFrameSent(stream_id + |
| QuicUtils::StreamIdDelta(transport_version()))); |
| |
| // Close connection. |
| EXPECT_CALL(*writer_, WritePacket(_, _, _, _, _)) |
| .WillRepeatedly(Return(WriteResult(WRITE_STATUS_OK, 0))); |
| EXPECT_CALL(*connection_, CloseConnection(QUIC_NO_ERROR, _, _)) |
| .WillOnce( |
| Invoke(connection_, &MockQuicConnection::ReallyCloseConnection)); |
| EXPECT_CALL(*connection_, SendConnectionClosePacket(QUIC_NO_ERROR, _, _)) |
| .WillOnce(Invoke(connection_, |
| &MockQuicConnection::ReallySendConnectionClosePacket)); |
| connection_->CloseConnection( |
| QUIC_NO_ERROR, "closing connection", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, DoNotSendInitialMaxPushIdIfNotSet) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| InSequence s; |
| EXPECT_CALL(debug_visitor, OnSettingsFrameSent(_)); |
| |
| CompleteHandshake(); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, ReceiveSpdySettingInHttp3) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| SettingsFrame frame; |
| frame.values[SETTINGS_MAX_FIELD_SECTION_SIZE] = 5; |
| // https://datatracker.ietf.org/doc/html/draft-ietf-quic-http-30#section-7.2.4.1 |
| // specifies the presence of HTTP/2 setting as error. |
| frame.values[spdy::SETTINGS_INITIAL_WINDOW_SIZE] = 100; |
| |
| CompleteHandshake(); |
| |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_RECEIVE_SPDY_SETTING, _, _)); |
| session_.OnSettingsFrame(frame); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, ReceiveAcceptChFrame) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| // Create control stream. |
| QuicStreamId receive_control_stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 3); |
| char type[] = {kControlStream}; |
| absl::string_view stream_type(type, 1); |
| QuicStreamOffset offset = 0; |
| QuicStreamFrame data1(receive_control_stream_id, /* fin = */ false, offset, |
| stream_type); |
| offset += stream_type.length(); |
| EXPECT_CALL(debug_visitor, |
| OnPeerControlStreamCreated(receive_control_stream_id)); |
| |
| session_.OnStreamFrame(data1); |
| EXPECT_EQ(receive_control_stream_id, |
| QuicSpdySessionPeer::GetReceiveControlStream(&session_)->id()); |
| |
| // First frame has to be SETTINGS. |
| std::string serialized_settings = EncodeSettings({}); |
| QuicStreamFrame data2(receive_control_stream_id, /* fin = */ false, offset, |
| serialized_settings); |
| offset += serialized_settings.length(); |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(_)); |
| |
| session_.OnStreamFrame(data2); |
| |
| // Receive ACCEPT_CH frame. |
| AcceptChFrame accept_ch; |
| accept_ch.entries.push_back({"foo", "bar"}); |
| std::unique_ptr<char[]> buffer; |
| auto frame_length = HttpEncoder::SerializeAcceptChFrame(accept_ch, &buffer); |
| QuicStreamFrame data3(receive_control_stream_id, /* fin = */ false, offset, |
| absl::string_view(buffer.get(), frame_length)); |
| |
| EXPECT_CALL(debug_visitor, OnAcceptChFrameReceived(accept_ch)); |
| EXPECT_CALL(session_, OnAcceptChFrame(accept_ch)); |
| |
| session_.OnStreamFrame(data3); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, AcceptChViaAlps) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| std::string serialized_accept_ch_frame = absl::HexStringToBytes( |
| "4089" // type (ACCEPT_CH) |
| "08" // length |
| "03" // length of origin |
| "666f6f" // origin "foo" |
| "03" // length of value |
| "626172"); // value "bar" |
| |
| AcceptChFrame expected_accept_ch_frame{{{"foo", "bar"}}}; |
| EXPECT_CALL(debug_visitor, |
| OnAcceptChFrameReceivedViaAlps(expected_accept_ch_frame)); |
| |
| auto error = session_.OnAlpsData( |
| reinterpret_cast<const uint8_t*>(serialized_accept_ch_frame.data()), |
| serialized_accept_ch_frame.size()); |
| EXPECT_FALSE(error); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, AlpsForbiddenFrame) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| std::string forbidden_frame = absl::HexStringToBytes( |
| "00" // type (DATA) |
| "03" // length |
| "66666f"); // "foo" |
| |
| auto error = session_.OnAlpsData( |
| reinterpret_cast<const uint8_t*>(forbidden_frame.data()), |
| forbidden_frame.size()); |
| ASSERT_TRUE(error); |
| EXPECT_EQ("DATA frame forbidden", error.value()); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, AlpsIncompleteFrame) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| std::string incomplete_frame = absl::HexStringToBytes( |
| "04" // type (SETTINGS) |
| "03"); // non-zero length but empty payload |
| |
| auto error = session_.OnAlpsData( |
| reinterpret_cast<const uint8_t*>(incomplete_frame.data()), |
| incomplete_frame.size()); |
| ASSERT_TRUE(error); |
| EXPECT_EQ("incomplete HTTP/3 frame", error.value()); |
| } |
| |
| // After receiving a SETTINGS frame via ALPS, |
| // another SETTINGS frame is still allowed on control frame. |
| TEST_P(QuicSpdySessionTestClient, SettingsViaAlpsThenOnControlStream) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| QpackEncoder* qpack_encoder = session_.qpack_encoder(); |
| EXPECT_EQ(0u, qpack_encoder->MaximumDynamicTableCapacity()); |
| EXPECT_EQ(0u, qpack_encoder->maximum_blocked_streams()); |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| |
| std::string serialized_settings_frame1 = absl::HexStringToBytes( |
| "04" // type (SETTINGS) |
| "05" // length |
| "01" // SETTINGS_QPACK_MAX_TABLE_CAPACITY |
| "4400" // 0x0400 = 1024 |
| "07" // SETTINGS_QPACK_BLOCKED_STREAMS |
| "20"); // 0x20 = 32 |
| |
| SettingsFrame expected_settings_frame1{ |
| {{SETTINGS_QPACK_MAX_TABLE_CAPACITY, 1024}, |
| {SETTINGS_QPACK_BLOCKED_STREAMS, 32}}}; |
| EXPECT_CALL(debug_visitor, |
| OnSettingsFrameReceivedViaAlps(expected_settings_frame1)); |
| |
| auto error = session_.OnAlpsData( |
| reinterpret_cast<const uint8_t*>(serialized_settings_frame1.data()), |
| serialized_settings_frame1.size()); |
| EXPECT_FALSE(error); |
| |
| EXPECT_EQ(1024u, qpack_encoder->MaximumDynamicTableCapacity()); |
| EXPECT_EQ(32u, qpack_encoder->maximum_blocked_streams()); |
| |
| const QuicStreamId control_stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| EXPECT_CALL(debug_visitor, OnPeerControlStreamCreated(control_stream_id)); |
| |
| std::string stream_type = absl::HexStringToBytes("00"); |
| session_.OnStreamFrame(QuicStreamFrame(control_stream_id, /* fin = */ false, |
| /* offset = */ 0, stream_type)); |
| |
| // SETTINGS_QPACK_MAX_TABLE_CAPACITY, if advertised again, MUST have identical |
| // value. |
| // SETTINGS_QPACK_BLOCKED_STREAMS is a limit. Limits MUST NOT be reduced, but |
| // increasing is okay. |
| SettingsFrame expected_settings_frame2{ |
| {{SETTINGS_QPACK_MAX_TABLE_CAPACITY, 1024}, |
| {SETTINGS_QPACK_BLOCKED_STREAMS, 48}}}; |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(expected_settings_frame2)); |
| std::string serialized_settings_frame2 = absl::HexStringToBytes( |
| "04" // type (SETTINGS) |
| "05" // length |
| "01" // SETTINGS_QPACK_MAX_TABLE_CAPACITY |
| "4400" // 0x0400 = 1024 |
| "07" // SETTINGS_QPACK_BLOCKED_STREAMS |
| "30"); // 0x30 = 48 |
| session_.OnStreamFrame(QuicStreamFrame(control_stream_id, /* fin = */ false, |
| /* offset = */ stream_type.length(), |
| serialized_settings_frame2)); |
| |
| EXPECT_EQ(1024u, qpack_encoder->MaximumDynamicTableCapacity()); |
| EXPECT_EQ(48u, qpack_encoder->maximum_blocked_streams()); |
| } |
| |
| // A SETTINGS frame received via ALPS and another one on the control stream |
| // cannot have conflicting values. |
| TEST_P(QuicSpdySessionTestClient, |
| SettingsViaAlpsConflictsSettingsViaControlStream) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| QpackEncoder* qpack_encoder = session_.qpack_encoder(); |
| EXPECT_EQ(0u, qpack_encoder->MaximumDynamicTableCapacity()); |
| |
| std::string serialized_settings_frame1 = absl::HexStringToBytes( |
| "04" // type (SETTINGS) |
| "03" // length |
| "01" // SETTINGS_QPACK_MAX_TABLE_CAPACITY |
| "4400"); // 0x0400 = 1024 |
| |
| auto error = session_.OnAlpsData( |
| reinterpret_cast<const uint8_t*>(serialized_settings_frame1.data()), |
| serialized_settings_frame1.size()); |
| EXPECT_FALSE(error); |
| |
| EXPECT_EQ(1024u, qpack_encoder->MaximumDynamicTableCapacity()); |
| |
| const QuicStreamId control_stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 0); |
| |
| std::string stream_type = absl::HexStringToBytes("00"); |
| session_.OnStreamFrame(QuicStreamFrame(control_stream_id, /* fin = */ false, |
| /* offset = */ 0, stream_type)); |
| |
| EXPECT_CALL( |
| *connection_, |
| CloseConnection(QUIC_HTTP_ZERO_RTT_RESUMPTION_SETTINGS_MISMATCH, |
| "Server sent an SETTINGS_QPACK_MAX_TABLE_CAPACITY: " |
| "32 while current value is: 1024", |
| ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET)); |
| std::string serialized_settings_frame2 = absl::HexStringToBytes( |
| "04" // type (SETTINGS) |
| "02" // length |
| "01" // SETTINGS_QPACK_MAX_TABLE_CAPACITY |
| "20"); // 0x20 = 32 |
| session_.OnStreamFrame(QuicStreamFrame(control_stream_id, /* fin = */ false, |
| /* offset = */ stream_type.length(), |
| serialized_settings_frame2)); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, AlpsTwoSettingsFrame) { |
| if (!VersionUsesHttp3(transport_version())) { |
| return; |
| } |
| |
| std::string banned_frame = absl::HexStringToBytes( |
| "04" // type (SETTINGS) |
| "00" // length |
| "04" // type (SETTINGS) |
| "00"); // length |
| |
| auto error = |
| session_.OnAlpsData(reinterpret_cast<const uint8_t*>(banned_frame.data()), |
| banned_frame.size()); |
| ASSERT_TRUE(error); |
| EXPECT_EQ("multiple SETTINGS frames", error.value()); |
| } |
| |
| void QuicSpdySessionTestBase::TestHttpDatagramSetting( |
| HttpDatagramSupport local_support, HttpDatagramSupport remote_support, |
| HttpDatagramSupport expected_support, bool expected_datagram_supported) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| session_.set_local_http_datagram_support(local_support); |
| // HTTP/3 datagrams aren't supported before SETTINGS are received. |
| EXPECT_FALSE(session_.SupportsH3Datagram()); |
| EXPECT_EQ(session_.http_datagram_support(), HttpDatagramSupport::kNone); |
| // Receive SETTINGS. |
| SettingsFrame settings; |
| switch (remote_support) { |
| case HttpDatagramSupport::kNone: |
| break; |
| case HttpDatagramSupport::kDraft00: |
| settings.values[SETTINGS_H3_DATAGRAM_DRAFT00] = 1; |
| break; |
| case HttpDatagramSupport::kDraft04: |
| settings.values[SETTINGS_H3_DATAGRAM_DRAFT04] = 1; |
| break; |
| case HttpDatagramSupport::kDraft00And04: |
| settings.values[SETTINGS_H3_DATAGRAM_DRAFT00] = 1; |
| settings.values[SETTINGS_H3_DATAGRAM_DRAFT04] = 1; |
| break; |
| } |
| std::string data = std::string(1, kControlStream) + EncodeSettings(settings); |
| QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 3); |
| QuicStreamFrame frame(stream_id, /*fin=*/false, /*offset=*/0, data); |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| session_.set_debug_visitor(&debug_visitor); |
| EXPECT_CALL(debug_visitor, OnPeerControlStreamCreated(stream_id)); |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(settings)); |
| session_.OnStreamFrame(frame); |
| EXPECT_EQ(session_.http_datagram_support(), expected_support); |
| EXPECT_EQ(session_.SupportsH3Datagram(), expected_datagram_supported); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, HttpDatagramSettingLocal00Remote00) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft00, |
| /*remote_support=*/HttpDatagramSupport::kDraft00, |
| /*expected_support=*/HttpDatagramSupport::kDraft00, |
| /*expected_datagram_supported=*/true); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, HttpDatagramSettingLocal00Remote04) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft00, |
| /*remote_support=*/HttpDatagramSupport::kDraft04, |
| /*expected_support=*/HttpDatagramSupport::kNone, |
| /*expected_datagram_supported=*/false); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, HttpDatagramSettingLocal00Remote00And04) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft00, |
| /*remote_support=*/HttpDatagramSupport::kDraft00And04, |
| /*expected_support=*/HttpDatagramSupport::kDraft00, |
| /*expected_datagram_supported=*/true); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, HttpDatagramSettingLocal04Remote00) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft04, |
| /*remote_support=*/HttpDatagramSupport::kDraft00, |
| /*expected_support=*/HttpDatagramSupport::kNone, |
| /*expected_datagram_supported=*/false); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, HttpDatagramSettingLocal04Remote04) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft04, |
| /*remote_support=*/HttpDatagramSupport::kDraft04, |
| /*expected_support=*/HttpDatagramSupport::kDraft04, |
| /*expected_datagram_supported=*/true); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, HttpDatagramSettingLocal04Remote00And04) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft04, |
| /*remote_support=*/HttpDatagramSupport::kDraft00And04, |
| /*expected_support=*/HttpDatagramSupport::kDraft04, |
| /*expected_datagram_supported=*/true); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, HttpDatagramSettingLocal00And04Remote00) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft00And04, |
| /*remote_support=*/HttpDatagramSupport::kDraft00, |
| /*expected_support=*/HttpDatagramSupport::kDraft00, |
| /*expected_datagram_supported=*/true); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, HttpDatagramSettingLocal00And04Remote04) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft00And04, |
| /*remote_support=*/HttpDatagramSupport::kDraft04, |
| /*expected_support=*/HttpDatagramSupport::kDraft04, |
| /*expected_datagram_supported=*/true); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, |
| HttpDatagramSettingLocal00And04Remote00And04) { |
| TestHttpDatagramSetting( |
| /*local_support=*/HttpDatagramSupport::kDraft00And04, |
| /*remote_support=*/HttpDatagramSupport::kDraft00And04, |
| /*expected_support=*/HttpDatagramSupport::kDraft04, |
| /*expected_datagram_supported=*/true); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, WebTransportSetting) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| session_.set_local_http_datagram_support(HttpDatagramSupport::kDraft00And04); |
| session_.set_supports_webtransport(true); |
| |
| EXPECT_FALSE(session_.SupportsWebTransport()); |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| // Note that this does not actually fill out correct settings because the |
| // settings are filled in at the construction time. |
| EXPECT_CALL(debug_visitor, OnSettingsFrameSent(_)); |
| session_.set_debug_visitor(&debug_visitor); |
| CompleteHandshake(); |
| |
| EXPECT_CALL(debug_visitor, OnPeerControlStreamCreated(_)); |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(_)); |
| ReceiveWebTransportSettings(); |
| EXPECT_TRUE(session_.ShouldProcessIncomingRequests()); |
| EXPECT_TRUE(session_.SupportsWebTransport()); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, WebTransportSettingSetToZero) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| session_.set_local_http_datagram_support(HttpDatagramSupport::kDraft00And04); |
| session_.set_supports_webtransport(true); |
| |
| EXPECT_FALSE(session_.SupportsWebTransport()); |
| |
| StrictMock<MockHttp3DebugVisitor> debug_visitor; |
| // Note that this does not actually fill out correct settings because the |
| // settings are filled in at the construction time. |
| EXPECT_CALL(debug_visitor, OnSettingsFrameSent(_)); |
| session_.set_debug_visitor(&debug_visitor); |
| CompleteHandshake(); |
| |
| SettingsFrame server_settings; |
| server_settings.values[SETTINGS_H3_DATAGRAM_DRAFT04] = 1; |
| server_settings.values[SETTINGS_WEBTRANS_DRAFT00] = 0; |
| std::string data = |
| std::string(1, kControlStream) + EncodeSettings(server_settings); |
| QuicStreamId stream_id = |
| GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 3); |
| QuicStreamFrame frame(stream_id, /*fin=*/false, /*offset=*/0, data); |
| EXPECT_CALL(debug_visitor, OnPeerControlStreamCreated(stream_id)); |
| EXPECT_CALL(debug_visitor, OnSettingsFrameReceived(server_settings)); |
| session_.OnStreamFrame(frame); |
| EXPECT_FALSE(session_.SupportsWebTransport()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, WebTransportSetting) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| session_.set_local_http_datagram_support(HttpDatagramSupport::kDraft00And04); |
| session_.set_supports_webtransport(true); |
| |
| EXPECT_FALSE(session_.SupportsWebTransport()); |
| EXPECT_FALSE(session_.ShouldProcessIncomingRequests()); |
| |
| CompleteHandshake(); |
| |
| ReceiveWebTransportSettings(); |
| EXPECT_TRUE(session_.SupportsWebTransport()); |
| EXPECT_TRUE(session_.ShouldProcessIncomingRequests()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, BufferingIncomingStreams) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| session_.set_local_http_datagram_support(HttpDatagramSupport::kDraft00And04); |
| session_.set_supports_webtransport(true); |
| |
| CompleteHandshake(); |
| QuicStreamId session_id = |
| GetNthClientInitiatedBidirectionalStreamId(transport_version(), 1); |
| |
| QuicStreamId data_stream_id = |
| GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 4); |
| ReceiveWebTransportUnidirectionalStream(session_id, data_stream_id); |
| |
| ReceiveWebTransportSettings(); |
| |
| ReceiveWebTransportSession(session_id); |
| WebTransportHttp3* web_transport = |
| session_.GetWebTransportSession(session_id); |
| ASSERT_TRUE(web_transport != nullptr); |
| |
| EXPECT_EQ(web_transport->NumberOfAssociatedStreams(), 1u); |
| |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillRepeatedly(Invoke(&ClearControlFrame)); |
| EXPECT_CALL(*connection_, OnStreamReset(session_id, _)); |
| EXPECT_CALL( |
| *connection_, |
| OnStreamReset(data_stream_id, QUIC_STREAM_WEBTRANSPORT_SESSION_GONE)); |
| session_.ResetStream(session_id, QUIC_STREAM_INTERNAL_ERROR); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, BufferingIncomingStreamsLimit) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| session_.set_local_http_datagram_support(HttpDatagramSupport::kDraft00And04); |
| session_.set_supports_webtransport(true); |
| |
| CompleteHandshake(); |
| QuicStreamId session_id = |
| GetNthClientInitiatedBidirectionalStreamId(transport_version(), 1); |
| |
| const int streams_to_send = kMaxUnassociatedWebTransportStreams + 4; |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillRepeatedly(Invoke(&ClearControlFrame)); |
| EXPECT_CALL(*connection_, |
| OnStreamReset( |
| _, QUIC_STREAM_WEBTRANSPORT_BUFFERED_STREAMS_LIMIT_EXCEEDED)) |
| .Times(4); |
| for (int i = 0; i < streams_to_send; i++) { |
| QuicStreamId data_stream_id = |
| GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 4 + i); |
| ReceiveWebTransportUnidirectionalStream(session_id, data_stream_id); |
| } |
| |
| ReceiveWebTransportSettings(); |
| |
| ReceiveWebTransportSession(session_id); |
| WebTransportHttp3* web_transport = |
| session_.GetWebTransportSession(session_id); |
| ASSERT_TRUE(web_transport != nullptr); |
| |
| EXPECT_EQ(web_transport->NumberOfAssociatedStreams(), |
| kMaxUnassociatedWebTransportStreams); |
| |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillRepeatedly(Invoke(&ClearControlFrame)); |
| EXPECT_CALL(*connection_, OnStreamReset(_, _)) |
| .Times(kMaxUnassociatedWebTransportStreams + 1); |
| session_.ResetStream(session_id, QUIC_STREAM_INTERNAL_ERROR); |
| } |
| |
| TEST_P(QuicSpdySessionTestServer, ResetOutgoingWebTransportStreams) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| session_.set_local_http_datagram_support(HttpDatagramSupport::kDraft00And04); |
| session_.set_supports_webtransport(true); |
| |
| CompleteHandshake(); |
| QuicStreamId session_id = |
| GetNthClientInitiatedBidirectionalStreamId(transport_version(), 1); |
| |
| ReceiveWebTransportSettings(); |
| ReceiveWebTransportSession(session_id); |
| WebTransportHttp3* web_transport = |
| session_.GetWebTransportSession(session_id); |
| ASSERT_TRUE(web_transport != nullptr); |
| |
| session_.set_writev_consumes_all_data(true); |
| EXPECT_TRUE(web_transport->CanOpenNextOutgoingUnidirectionalStream()); |
| EXPECT_EQ(web_transport->NumberOfAssociatedStreams(), 0u); |
| WebTransportStream* stream = |
| web_transport->OpenOutgoingUnidirectionalStream(); |
| EXPECT_EQ(web_transport->NumberOfAssociatedStreams(), 1u); |
| ASSERT_TRUE(stream != nullptr); |
| QuicStreamId stream_id = stream->GetStreamId(); |
| |
| EXPECT_CALL(*connection_, SendControlFrame(_)) |
| .WillRepeatedly(Invoke(&ClearControlFrame)); |
| EXPECT_CALL(*connection_, OnStreamReset(session_id, _)); |
| EXPECT_CALL(*connection_, |
| OnStreamReset(stream_id, QUIC_STREAM_WEBTRANSPORT_SESSION_GONE)); |
| session_.ResetStream(session_id, QUIC_STREAM_INTERNAL_ERROR); |
| EXPECT_EQ(web_transport->NumberOfAssociatedStreams(), 0u); |
| } |
| |
| TEST_P(QuicSpdySessionTestClient, WebTransportWithoutExtendedConnect) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| SetQuicReloadableFlag(quic_verify_request_headers_2, true); |
| SetQuicReloadableFlag(quic_act_upon_invalid_header, true); |
| session_.set_local_http_datagram_support(HttpDatagramSupport::kDraft00And04); |
| session_.set_supports_webtransport(true); |
| |
| EXPECT_FALSE(session_.SupportsWebTransport()); |
| CompleteHandshake(); |
| |
| SettingsFrame settings; |
| settings.values[SETTINGS_H3_DATAGRAM_DRAFT04] = 1; |
| settings.values[SETTINGS_WEBTRANS_DRAFT00] = 1; |
| // No SETTINGS_ENABLE_CONNECT_PROTOCOL here. |
| std::string data = std::string(1, kControlStream) + EncodeSettings(settings); |
| QuicStreamId control_stream_id = |
| session_.perspective() == Perspective::IS_SERVER |
| ? GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3) |
| : GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 3); |
| QuicStreamFrame frame(control_stream_id, /*fin=*/false, /*offset=*/0, data); |
| session_.OnStreamFrame(frame); |
| |
| EXPECT_TRUE(session_.SupportsWebTransport()); |
| } |
| |
| // Regression bug for b/208997000. |
| TEST_P(QuicSpdySessionTestClient, LimitEncoderDynamicTableSize) { |
| if (version().UsesHttp3()) { |
| return; |
| } |
| CompleteHandshake(); |
| |
| QuicSpdySessionPeer::SetHeadersStream(&session_, nullptr); |
| TestHeadersStream* headers_stream = |
| new StrictMock<TestHeadersStream>(&session_); |
| QuicSpdySessionPeer::SetHeadersStream(&session_, headers_stream); |
| session_.MarkConnectionLevelWriteBlocked(headers_stream->id()); |
| |
| // Peer sends very large value. |
| session_.OnSetting(spdy::SETTINGS_HEADER_TABLE_SIZE, 1024 * 1024 * 1024); |
| |
| TestStream* stream = session_.CreateOutgoingBidirectionalStream(); |
| EXPECT_CALL(*writer_, IsWriteBlocked()).WillRepeatedly(Return(true)); |
| SpdyHeaderBlock headers; |
| headers[":method"] = "GET"; // entry with index 2 in HPACK static table |
| stream->WriteHeaders(std::move(headers), /* fin = */ true, nullptr); |
| |
| EXPECT_TRUE(headers_stream->HasBufferedData()); |
| QuicStreamSendBuffer& send_buffer = |
| QuicStreamPeer::SendBuffer(headers_stream); |
| ASSERT_EQ(1u, send_buffer.size()); |
| |
| const quiche::QuicheMemSlice& slice = |
| QuicStreamSendBufferPeer::CurrentWriteSlice(&send_buffer)->slice; |
| absl::string_view stream_data(slice.data(), slice.length()); |
| |
| if (GetQuicReloadableFlag(quic_limit_encoder_dynamic_table_size)) { |
| EXPECT_EQ(absl::HexStringToBytes( |
| "000009" // frame length |
| "01" // frame type HEADERS |
| "25"), // flags END_STREAM | END_HEADERS | PRIORITY |
| stream_data.substr(0, 5)); |
| stream_data.remove_prefix(5); |
| } else { |
| EXPECT_EQ(absl::HexStringToBytes( |
| "00000c" // frame length |
| "01" // frame type HEADERS |
| "25"), // flags END_STREAM | END_HEADERS | PRIORITY |
| stream_data.substr(0, 5)); |
| stream_data.remove_prefix(5); |
| } |
| |
| // Ignore stream ID as it might differ between QUIC versions. |
| stream_data.remove_prefix(4); |
| |
| // Ignore stream dependency and weight. |
| EXPECT_EQ(absl::HexStringToBytes("00000000" // stream dependency |
| "92"), // stream weight |
| stream_data.substr(0, 5)); |
| stream_data.remove_prefix(5); |
| |
| if (GetQuicReloadableFlag(quic_limit_encoder_dynamic_table_size)) { |
| EXPECT_EQ(absl::HexStringToBytes( |
| "3fe17f" // Dynamic Table Size Update to 16384 |
| "82"), // Indexed Header Field Representation with index 2 |
| stream_data); |
| } else { |
| EXPECT_EQ( |
| absl::HexStringToBytes( |
| "3fe1ffffff03" // Dynamic Table Size Update to 1024 * 1024 * 1024 |
| "82"), // Indexed Header Field Representation with index 2 |
| stream_data); |
| } |
| } |
| |
| class QuicSpdySessionTestServerNoExtendedConnect |
| : public QuicSpdySessionTestBase { |
| public: |
| QuicSpdySessionTestServerNoExtendedConnect() |
| : QuicSpdySessionTestBase(Perspective::IS_SERVER, false) {} |
| }; |
| |
| INSTANTIATE_TEST_SUITE_P(Tests, QuicSpdySessionTestServerNoExtendedConnect, |
| ::testing::ValuesIn(AllSupportedVersions()), |
| ::testing::PrintToStringParamName()); |
| |
| // Tests that receiving SETTINGS_ENABLE_CONNECT_PROTOCOL = 1 doesn't enable |
| // server session to support extended CONNECT. |
| TEST_P(QuicSpdySessionTestServerNoExtendedConnect, |
| WebTransportSettingNoEffect) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| |
| EXPECT_FALSE(session_.SupportsWebTransport()); |
| EXPECT_TRUE(session_.ShouldProcessIncomingRequests()); |
| |
| CompleteHandshake(); |
| |
| ReceiveWebTransportSettings(); |
| EXPECT_FALSE(session_.allow_extended_connect()); |
| EXPECT_FALSE(session_.SupportsWebTransport()); |
| EXPECT_TRUE(session_.ShouldProcessIncomingRequests()); |
| } |
| |
| TEST_P(QuicSpdySessionTestServerNoExtendedConnect, BadExtendedConnectSetting) { |
| if (!version().UsesHttp3()) { |
| return; |
| } |
| SetQuicReloadableFlag(quic_verify_request_headers_2, true); |
| SetQuicReloadableFlag(quic_act_upon_invalid_header, true); |
| |
| EXPECT_FALSE(session_.SupportsWebTransport()); |
| EXPECT_TRUE(session_.ShouldProcessIncomingRequests()); |
| |
| CompleteHandshake(); |
| |
| // ENABLE_CONNECT_PROTOCOL setting value has to be 1 or 0; |
| SettingsFrame settings; |
| settings.values[SETTINGS_ENABLE_CONNECT_PROTOCOL] = 2; |
| std::string data = std::string(1, kControlStream) + EncodeSettings(settings); |
| QuicStreamId control_stream_id = |
| session_.perspective() == Perspective::IS_SERVER |
| ? GetNthClientInitiatedUnidirectionalStreamId(transport_version(), 3) |
| : GetNthServerInitiatedUnidirectionalStreamId(transport_version(), 3); |
| QuicStreamFrame frame(control_stream_id, /*fin=*/false, /*offset=*/0, data); |
| EXPECT_CALL(*connection_, |
| CloseConnection(QUIC_HTTP_INVALID_SETTING_VALUE, _, _)); |
| EXPECT_QUIC_PEER_BUG( |
| session_.OnStreamFrame(frame), |
| "Received SETTINGS_ENABLE_CONNECT_PROTOCOL with invalid value"); |
| } |
| |
| } // namespace |
| } // namespace test |
| } // namespace quic |