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quiche / quiche / refs/heads/envoy-integration / . / quic / core / http / quic_spdy_client_session_test.cc
blob: 84229fddbd5462659e6d7116c956cb759d7afdb2 [file] [log] [blame]
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/third_party/quiche/src/quic/core/http/quic_spdy_client_session.h"
#include <memory>
#include <vector>
#include "net/third_party/quiche/src/quic/core/crypto/aes_128_gcm_12_encrypter.h"
#include "net/third_party/quiche/src/quic/core/http/quic_spdy_client_stream.h"
#include "net/third_party/quiche/src/quic/core/http/spdy_utils.h"
#include "net/third_party/quiche/src/quic/core/quic_utils.h"
#include "net/third_party/quiche/src/quic/core/tls_client_handshaker.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_arraysize.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_ptr_util.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_socket_address.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_str_cat.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_string.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_test.h"
#include "net/third_party/quiche/src/quic/test_tools/crypto_test_utils.h"
#include "net/third_party/quiche/src/quic/test_tools/mock_quic_spdy_client_stream.h"
#include "net/third_party/quiche/src/quic/test_tools/quic_config_peer.h"
#include "net/third_party/quiche/src/quic/test_tools/quic_connection_peer.h"
#include "net/third_party/quiche/src/quic/test_tools/quic_framer_peer.h"
#include "net/third_party/quiche/src/quic/test_tools/quic_packet_creator_peer.h"
#include "net/third_party/quiche/src/quic/test_tools/quic_session_peer.h"
#include "net/third_party/quiche/src/quic/test_tools/quic_spdy_session_peer.h"
#include "net/third_party/quiche/src/quic/test_tools/quic_test_utils.h"
using spdy::SpdyHeaderBlock;
using testing::_;
using testing::AnyNumber;
using testing::Invoke;
using testing::Truly;
namespace quic {
namespace test {
namespace {
const char kServerHostname[] = "test.example.com";
const uint16_t kPort = 443;
class TestQuicSpdyClientSession : public QuicSpdyClientSession {
public:
explicit TestQuicSpdyClientSession(
const QuicConfig& config,
const ParsedQuicVersionVector& supported_versions,
QuicConnection* connection,
const QuicServerId& server_id,
QuicCryptoClientConfig* crypto_config,
QuicClientPushPromiseIndex* push_promise_index)
: QuicSpdyClientSession(config,
supported_versions,
connection,
server_id,
crypto_config,
push_promise_index) {}
std::unique_ptr<QuicSpdyClientStream> CreateClientStream() override {
return QuicMakeUnique<MockQuicSpdyClientStream>(
GetNextOutgoingBidirectionalStreamId(), this, BIDIRECTIONAL);
}
MockQuicSpdyClientStream* CreateIncomingStream(QuicStreamId id) override {
if (!ShouldCreateIncomingStream(id)) {
return nullptr;
}
MockQuicSpdyClientStream* stream =
new MockQuicSpdyClientStream(id, this, READ_UNIDIRECTIONAL);
ActivateStream(QuicWrapUnique(stream));
return stream;
}
};
class QuicSpdyClientSessionTest : public QuicTestWithParam<ParsedQuicVersion> {
protected:
QuicSpdyClientSessionTest()
: crypto_config_(crypto_test_utils::ProofVerifierForTesting(),
TlsClientHandshaker::CreateSslCtx()),
promised_stream_id_(
QuicUtils::GetInvalidStreamId(GetParam().transport_version)),
associated_stream_id_(
QuicUtils::GetInvalidStreamId(GetParam().transport_version)) {
Initialize();
// Advance the time, because timers do not like uninitialized times.
connection_->AdvanceTime(QuicTime::Delta::FromSeconds(1));
}
~QuicSpdyClientSessionTest() override {
// Session must be destroyed before promised_by_url_
session_.reset(nullptr);
}
void Initialize() {
session_.reset();
connection_ = new PacketSavingConnection(&helper_, &alarm_factory_,
Perspective::IS_CLIENT,
SupportedVersions(GetParam()));
session_ = QuicMakeUnique<TestQuicSpdyClientSession>(
DefaultQuicConfig(), SupportedVersions(GetParam()), connection_,
QuicServerId(kServerHostname, kPort, false), &crypto_config_,
&push_promise_index_);
session_->Initialize();
push_promise_[":path"] = "/bar";
push_promise_[":authority"] = "www.google.com";
push_promise_[":version"] = "HTTP/1.1";
push_promise_[":method"] = "GET";
push_promise_[":scheme"] = "https";
promise_url_ = SpdyUtils::GetPromisedUrlFromHeaders(push_promise_);
promised_stream_id_ = GetNthServerInitiatedUnidirectionalStreamId(
connection_->transport_version(), 0);
associated_stream_id_ = GetNthClientInitiatedBidirectionalStreamId(
connection_->transport_version(), 0);
}
// The function ensures that A) the max stream id frames get properly deleted
// (since the test uses a 'did we leak memory' check ... if we just lose the
// frame, the test fails) and B) returns true (instead of the default, false)
// which ensures that the rest of the system thinks that the frame actually
// was transmitted.
bool ClearMaxStreamIdControlFrame(const QuicFrame& frame) {
if (frame.type == MAX_STREAM_ID_FRAME) {
DeleteFrame(&const_cast<QuicFrame&>(frame));
return true;
}
return false;
}
public:
bool ClearStreamIdBlockedControlFrame(const QuicFrame& frame) {
if (frame.type == STREAM_ID_BLOCKED_FRAME) {
DeleteFrame(&const_cast<QuicFrame&>(frame));
return true;
}
return false;
}
protected:
void CompleteCryptoHandshake() {
CompleteCryptoHandshake(kDefaultMaxStreamsPerConnection);
}
void CompleteCryptoHandshake(uint32_t server_max_incoming_streams) {
if (connection_->transport_version() == QUIC_VERSION_99) {
EXPECT_CALL(*connection_, SendControlFrame(_))
.Times(testing::AnyNumber())
.WillRepeatedly(Invoke(
this, &QuicSpdyClientSessionTest::ClearMaxStreamIdControlFrame));
}
session_->CryptoConnect();
QuicCryptoClientStream* stream = static_cast<QuicCryptoClientStream*>(
session_->GetMutableCryptoStream());
crypto_test_utils::FakeServerOptions options;
QuicConfig config = DefaultQuicConfig();
config.SetMaxIncomingDynamicStreamsToSend(server_max_incoming_streams);
crypto_test_utils::HandshakeWithFakeServer(
&config, &helper_, &alarm_factory_, connection_, stream, options);
}
QuicCryptoClientConfig crypto_config_;
MockQuicConnectionHelper helper_;
MockAlarmFactory alarm_factory_;
PacketSavingConnection* connection_;
std::unique_ptr<TestQuicSpdyClientSession> session_;
QuicClientPushPromiseIndex push_promise_index_;
SpdyHeaderBlock push_promise_;
QuicString promise_url_;
QuicStreamId promised_stream_id_;
QuicStreamId associated_stream_id_;
};
INSTANTIATE_TEST_SUITE_P(Tests, QuicSpdyClientSessionTest,
::testing::ValuesIn(AllSupportedVersions()));
TEST_P(QuicSpdyClientSessionTest, CryptoConnect) {
CompleteCryptoHandshake();
}
TEST_P(QuicSpdyClientSessionTest, NoEncryptionAfterInitialEncryption) {
if (GetParam().handshake_protocol == PROTOCOL_TLS1_3) {
// This test relies on resumption and is QUIC crypto specific, so it is
// disabled for TLS.
// TODO(nharper): Add support for resumption to the TLS handshake, and fix
// this test to not rely on QUIC crypto.
return;
}
// Complete a handshake in order to prime the crypto config for 0-RTT.
CompleteCryptoHandshake();
// Now create a second session using the same crypto config.
Initialize();
EXPECT_CALL(*connection_, OnCanWrite());
// Starting the handshake should move immediately to encryption
// established and will allow streams to be created.
session_->CryptoConnect();
EXPECT_TRUE(session_->IsEncryptionEstablished());
QuicSpdyClientStream* stream = session_->CreateOutgoingBidirectionalStream();
ASSERT_TRUE(stream != nullptr);
EXPECT_NE(QuicUtils::GetCryptoStreamId(connection_->transport_version()),
stream->id());
// Process an "inchoate" REJ from the server which will cause
// an inchoate CHLO to be sent and will leave the encryption level
// at NONE.
CryptoHandshakeMessage rej;
crypto_test_utils::FillInDummyReject(&rej, /* stateless */ false);
EXPECT_TRUE(session_->IsEncryptionEstablished());
crypto_test_utils::SendHandshakeMessageToStream(
session_->GetMutableCryptoStream(), rej, Perspective::IS_CLIENT);
EXPECT_FALSE(session_->IsEncryptionEstablished());
EXPECT_EQ(ENCRYPTION_NONE,
QuicPacketCreatorPeer::GetEncryptionLevel(
QuicConnectionPeer::GetPacketCreator(connection_)));
// Verify that no new streams may be created.
EXPECT_TRUE(session_->CreateOutgoingBidirectionalStream() == nullptr);
// Verify that no data may be send on existing streams.
char data[] = "hello world";
QuicConsumedData consumed = session_->WritevData(
stream, stream->id(), QUIC_ARRAYSIZE(data), 0, NO_FIN);
EXPECT_FALSE(consumed.fin_consumed);
EXPECT_EQ(0u, consumed.bytes_consumed);
}
TEST_P(QuicSpdyClientSessionTest, MaxNumStreamsWithNoFinOrRst) {
if (GetParam().handshake_protocol == PROTOCOL_TLS1_3) {
// This test relies on the MIDS transport parameter, which is not yet
// supported in TLS 1.3.
// TODO(nharper): Add support for Transport Parameters in the TLS handshake.
return;
}
EXPECT_CALL(*connection_, SendControlFrame(_)).Times(AnyNumber());
EXPECT_CALL(*connection_, OnStreamReset(_, _)).Times(AnyNumber());
const uint32_t kServerMaxIncomingStreams = 1;
CompleteCryptoHandshake(kServerMaxIncomingStreams);
QuicSpdyClientStream* stream = session_->CreateOutgoingBidirectionalStream();
ASSERT_TRUE(stream);
EXPECT_FALSE(session_->CreateOutgoingBidirectionalStream());
// Close the stream, but without having received a FIN or a RST_STREAM
// or MAX_STREAM_ID (V99) and check that a new one can not be created.
session_->CloseStream(stream->id());
EXPECT_EQ(1u, session_->GetNumOpenOutgoingStreams());
stream = session_->CreateOutgoingBidirectionalStream();
EXPECT_FALSE(stream);
}
TEST_P(QuicSpdyClientSessionTest, MaxNumStreamsWithRst) {
if (GetParam().handshake_protocol == PROTOCOL_TLS1_3) {
// This test relies on the MIDS transport parameter, which is not yet
// supported in TLS 1.3.
// TODO(nharper): Add support for Transport Parameters in the TLS handshake.
return;
}
EXPECT_CALL(*connection_, SendControlFrame(_)).Times(AnyNumber());
EXPECT_CALL(*connection_, OnStreamReset(_, _)).Times(AnyNumber());
const uint32_t kServerMaxIncomingStreams = 1;
CompleteCryptoHandshake(kServerMaxIncomingStreams);
QuicSpdyClientStream* stream = session_->CreateOutgoingBidirectionalStream();
ASSERT_NE(nullptr, stream);
EXPECT_EQ(nullptr, session_->CreateOutgoingBidirectionalStream());
// Close the stream and receive an RST frame to remove the unfinished stream
session_->CloseStream(stream->id());
session_->OnRstStream(QuicRstStreamFrame(kInvalidControlFrameId, stream->id(),
QUIC_RST_ACKNOWLEDGEMENT, 0));
// Check that a new one can be created.
EXPECT_EQ(0u, session_->GetNumOpenOutgoingStreams());
if (GetParam().transport_version == QUIC_VERSION_99) {
// In V99 the stream limit increases only if we get a MAX_STREAM_ID
// frame; pretend we got one.
// Note that this is to be the second stream created, but GetNth... starts
// numbering at 0 (the first stream is 0, second is 1...)
QuicMaxStreamIdFrame frame(0, GetNthClientInitiatedBidirectionalStreamId(
connection_->transport_version(), 1));
session_->OnMaxStreamIdFrame(frame);
}
stream = session_->CreateOutgoingBidirectionalStream();
EXPECT_NE(nullptr, stream);
}
TEST_P(QuicSpdyClientSessionTest, ResetAndTrailers) {
if (GetParam().handshake_protocol == PROTOCOL_TLS1_3) {
// This test relies on the MIDS transport parameter, which is not yet
// supported in TLS 1.3.
// TODO(nharper): Add support for Transport Parameters in the TLS handshake.
return;
}
// Tests the situation in which the client sends a RST at the same time that
// the server sends trailing headers (trailers). Receipt of the trailers by
// the client should result in all outstanding stream state being tidied up
// (including flow control, and number of available outgoing streams).
const uint32_t kServerMaxIncomingStreams = 1;
CompleteCryptoHandshake(kServerMaxIncomingStreams);
QuicSpdyClientStream* stream = session_->CreateOutgoingBidirectionalStream();
ASSERT_NE(nullptr, stream);
if (GetParam().transport_version == QUIC_VERSION_99) {
// For v99, trying to open a stream and failing due to lack
// of stream ids will result in a STREAM_ID_BLOCKED. Make
// sure we get one. Also clear out the frame because if it's
// left sitting, the later SendRstStream will not actually
// transmit the RST_STREAM because the connection will be in write-blocked
// state. This means that the SendControlFrame that is expected w.r.t. the
// RST_STREAM, below, will not be satisfied.
EXPECT_CALL(*connection_, SendControlFrame(_))
.WillOnce(Invoke(
this,
&QuicSpdyClientSessionTest::ClearStreamIdBlockedControlFrame));
}
EXPECT_EQ(nullptr, session_->CreateOutgoingBidirectionalStream());
QuicStreamId stream_id = stream->id();
EXPECT_CALL(*connection_, SendControlFrame(_)).Times(1);
EXPECT_CALL(*connection_, OnStreamReset(_, _)).Times(1);
session_->SendRstStream(stream_id, QUIC_STREAM_PEER_GOING_AWAY, 0);
// A new stream cannot be created as the reset stream still counts as an open
// outgoing stream until closed by the server.
EXPECT_EQ(1u, session_->GetNumOpenOutgoingStreams());
stream = session_->CreateOutgoingBidirectionalStream();
EXPECT_EQ(nullptr, stream);
// The stream receives trailers with final byte offset: this is one of three
// ways that a peer can signal the end of a stream (the others being RST,
// stream data + FIN).
QuicHeaderList trailers;
trailers.OnHeaderBlockStart();
trailers.OnHeader(kFinalOffsetHeaderKey, "0");
trailers.OnHeaderBlockEnd(0, 0);
session_->OnStreamHeaderList(stream_id, /*fin=*/false, 0, trailers);
// The stream is now complete from the client's perspective, and it should
// be able to create a new outgoing stream.
EXPECT_EQ(0u, session_->GetNumOpenOutgoingStreams());
if (GetParam().transport_version == QUIC_VERSION_99) {
// Note that this is to be the second stream created, but GetNth... starts
// numbering at 0 (the first stream is 0, second is 1...)
QuicMaxStreamIdFrame frame(0, GetNthClientInitiatedBidirectionalStreamId(
connection_->transport_version(), 1));
session_->OnMaxStreamIdFrame(frame);
}
stream = session_->CreateOutgoingBidirectionalStream();
EXPECT_NE(nullptr, stream);
}
TEST_P(QuicSpdyClientSessionTest, ReceivedMalformedTrailersAfterSendingRst) {
// Tests the situation where the client has sent a RST to the server, and has
// received trailing headers with a malformed final byte offset value.
CompleteCryptoHandshake();
QuicSpdyClientStream* stream = session_->CreateOutgoingBidirectionalStream();
ASSERT_NE(nullptr, stream);
// Send the RST, which results in the stream being closed locally (but some
// state remains while the client waits for a response from the server).
QuicStreamId stream_id = stream->id();
EXPECT_CALL(*connection_, SendControlFrame(_)).Times(1);
EXPECT_CALL(*connection_, OnStreamReset(_, _)).Times(1);
session_->SendRstStream(stream_id, QUIC_STREAM_PEER_GOING_AWAY, 0);
// The stream receives trailers with final byte offset, but the header value
// is non-numeric and should be treated as malformed.
QuicHeaderList trailers;
trailers.OnHeaderBlockStart();
trailers.OnHeader(kFinalOffsetHeaderKey, "invalid non-numeric value");
trailers.OnHeaderBlockEnd(0, 0);
EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(1);
session_->OnStreamHeaderList(stream_id, /*fin=*/false, 0, trailers);
}
TEST_P(QuicSpdyClientSessionTest, OnStreamHeaderListWithStaticStream) {
// Test situation where OnStreamHeaderList is called by stream with static id.
CompleteCryptoHandshake();
QuicHeaderList trailers;
trailers.OnHeaderBlockStart();
trailers.OnHeader(kFinalOffsetHeaderKey, "0");
trailers.OnHeaderBlockEnd(0, 0);
EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(1);
session_->OnStreamHeaderList(
QuicUtils::GetCryptoStreamId(connection_->transport_version()),
/*fin=*/false, 0, trailers);
}
TEST_P(QuicSpdyClientSessionTest, OnPromiseHeaderListWithStaticStream) {
// Test situation where OnPromiseHeaderList is called by stream with static
// id.
CompleteCryptoHandshake();
QuicHeaderList trailers;
trailers.OnHeaderBlockStart();
trailers.OnHeader(kFinalOffsetHeaderKey, "0");
trailers.OnHeaderBlockEnd(0, 0);
EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(1);
session_->OnPromiseHeaderList(
QuicUtils::GetCryptoStreamId(connection_->transport_version()),
promised_stream_id_, 0, trailers);
}
TEST_P(QuicSpdyClientSessionTest, GoAwayReceived) {
CompleteCryptoHandshake();
// After receiving a GoAway, I should no longer be able to create outgoing
// streams.
session_->connection()->OnGoAwayFrame(QuicGoAwayFrame(
kInvalidControlFrameId, QUIC_PEER_GOING_AWAY, 1u, "Going away."));
EXPECT_EQ(nullptr, session_->CreateOutgoingBidirectionalStream());
}
static bool CheckForDecryptionError(QuicFramer* framer) {
return framer->error() == QUIC_DECRYPTION_FAILURE;
}
// Various sorts of invalid packets that should not cause a connection
// to be closed.
TEST_P(QuicSpdyClientSessionTest, InvalidPacketReceived) {
QuicSocketAddress server_address(TestPeerIPAddress(), kTestPort);
QuicSocketAddress client_address(TestPeerIPAddress(), kTestPort);
EXPECT_CALL(*connection_, ProcessUdpPacket(server_address, client_address, _))
.WillRepeatedly(Invoke(static_cast<MockQuicConnection*>(connection_),
&MockQuicConnection::ReallyProcessUdpPacket));
EXPECT_CALL(*connection_, OnCanWrite()).Times(AnyNumber());
EXPECT_CALL(*connection_, OnError(_)).Times(1);
// Verify that empty packets don't close the connection.
QuicReceivedPacket zero_length_packet(nullptr, 0, QuicTime::Zero(), false);
EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(0);
session_->ProcessUdpPacket(client_address, server_address,
zero_length_packet);
// Verifiy that small, invalid packets don't close the connection.
char buf[2] = {0x00, 0x01};
QuicConnectionId connection_id = session_->connection()->connection_id();
QuicReceivedPacket valid_packet(buf, 2, QuicTime::Zero(), false);
// Close connection shouldn't be called.
EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(0);
if (connection_->transport_version() > QUIC_VERSION_44) {
// Illegal fixed bit value.
EXPECT_CALL(*connection_, OnError(_)).Times(1);
}
session_->ProcessUdpPacket(client_address, server_address, valid_packet);
// Verify that a non-decryptable packet doesn't close the connection.
QuicFramerPeer::SetLastSerializedConnectionId(
QuicConnectionPeer::GetFramer(connection_), connection_id);
ParsedQuicVersionVector versions = SupportedVersions(GetParam());
std::unique_ptr<QuicEncryptedPacket> packet(ConstructEncryptedPacket(
connection_id, EmptyQuicConnectionId(), false, false, 100, "data",
PACKET_0BYTE_CONNECTION_ID, PACKET_0BYTE_CONNECTION_ID,
PACKET_4BYTE_PACKET_NUMBER, &versions, Perspective::IS_SERVER));
std::unique_ptr<QuicReceivedPacket> received(
ConstructReceivedPacket(*packet, QuicTime::Zero()));
// Change the last byte of the encrypted data.
*(const_cast<char*>(received->data() + received->length() - 1)) += 1;
EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(0);
EXPECT_CALL(*connection_, OnError(Truly(CheckForDecryptionError))).Times(1);
session_->ProcessUdpPacket(client_address, server_address, *received);
}
// A packet with invalid framing should cause a connection to be closed.
TEST_P(QuicSpdyClientSessionTest, InvalidFramedPacketReceived) {
QuicSocketAddress server_address(TestPeerIPAddress(), kTestPort);
QuicSocketAddress client_address(TestPeerIPAddress(), kTestPort);
EXPECT_CALL(*connection_, ProcessUdpPacket(server_address, client_address, _))
.WillRepeatedly(Invoke(static_cast<MockQuicConnection*>(connection_),
&MockQuicConnection::ReallyProcessUdpPacket));
EXPECT_CALL(*connection_, OnError(_)).Times(1);
// Verify that a decryptable packet with bad frames does close the connection.
QuicConnectionId connection_id = session_->connection()->connection_id();
QuicFramerPeer::SetLastSerializedConnectionId(
QuicConnectionPeer::GetFramer(connection_), connection_id);
ParsedQuicVersionVector versions = {GetParam()};
std::unique_ptr<QuicEncryptedPacket> packet(ConstructMisFramedEncryptedPacket(
connection_id, EmptyQuicConnectionId(), false, false, 100, "data",
PACKET_0BYTE_CONNECTION_ID, PACKET_0BYTE_CONNECTION_ID,
PACKET_4BYTE_PACKET_NUMBER, &versions, Perspective::IS_SERVER));
std::unique_ptr<QuicReceivedPacket> received(
ConstructReceivedPacket(*packet, QuicTime::Zero()));
EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(1);
session_->ProcessUdpPacket(client_address, server_address, *received);
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseOnPromiseHeaders) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
MockQuicSpdyClientStream* stream = static_cast<MockQuicSpdyClientStream*>(
session_->CreateOutgoingBidirectionalStream());
EXPECT_CALL(*stream, OnPromiseHeaderList(_, _, _));
session_->OnPromiseHeaderList(associated_stream_id_, promised_stream_id_, 0,
QuicHeaderList());
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseOnPromiseHeadersAlreadyClosed) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->CreateOutgoingBidirectionalStream();
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_,
OnStreamReset(associated_stream_id_, QUIC_REFUSED_STREAM));
session_->ResetPromised(associated_stream_id_, QUIC_REFUSED_STREAM);
session_->OnPromiseHeaderList(associated_stream_id_, promised_stream_id_, 0,
QuicHeaderList());
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseOutOfOrder) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
MockQuicSpdyClientStream* stream = static_cast<MockQuicSpdyClientStream*>(
session_->CreateOutgoingBidirectionalStream());
EXPECT_CALL(*stream, OnPromiseHeaderList(promised_stream_id_, _, _));
session_->OnPromiseHeaderList(associated_stream_id_, promised_stream_id_, 0,
QuicHeaderList());
associated_stream_id_ +=
QuicUtils::StreamIdDelta(connection_->transport_version());
EXPECT_CALL(*connection_,
CloseConnection(QUIC_INVALID_STREAM_ID,
"Received push stream id lesser or equal to the"
" last accepted before",
_));
session_->OnPromiseHeaderList(associated_stream_id_, promised_stream_id_, 0,
QuicHeaderList());
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseOutgoingStreamId) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
MockQuicSpdyClientStream* stream = static_cast<MockQuicSpdyClientStream*>(
session_->CreateOutgoingBidirectionalStream());
// Promise an illegal (outgoing) stream id.
promised_stream_id_ = GetNthClientInitiatedBidirectionalStreamId(
connection_->transport_version(), 0);
EXPECT_CALL(
*connection_,
CloseConnection(QUIC_INVALID_STREAM_ID,
"Received push stream id for outgoing stream.", _));
session_->OnPromiseHeaderList(stream->id(), promised_stream_id_, 0,
QuicHeaderList());
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseHandlePromise) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->CreateOutgoingBidirectionalStream();
EXPECT_TRUE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, push_promise_));
EXPECT_NE(session_->GetPromisedById(promised_stream_id_), nullptr);
EXPECT_NE(session_->GetPromisedByUrl(promise_url_), nullptr);
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseAlreadyClosed) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->CreateOutgoingBidirectionalStream();
session_->GetOrCreateStream(promised_stream_id_);
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_,
OnStreamReset(promised_stream_id_, QUIC_REFUSED_STREAM));
session_->ResetPromised(promised_stream_id_, QUIC_REFUSED_STREAM);
SpdyHeaderBlock promise_headers;
EXPECT_FALSE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, promise_headers));
// Verify that the promise was not created.
EXPECT_EQ(session_->GetPromisedById(promised_stream_id_), nullptr);
EXPECT_EQ(session_->GetPromisedByUrl(promise_url_), nullptr);
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseDuplicateUrl) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->CreateOutgoingBidirectionalStream();
EXPECT_TRUE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, push_promise_));
EXPECT_NE(session_->GetPromisedById(promised_stream_id_), nullptr);
EXPECT_NE(session_->GetPromisedByUrl(promise_url_), nullptr);
promised_stream_id_ +=
QuicUtils::StreamIdDelta(connection_->transport_version());
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_,
OnStreamReset(promised_stream_id_, QUIC_DUPLICATE_PROMISE_URL));
EXPECT_FALSE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, push_promise_));
// Verify that the promise was not created.
EXPECT_EQ(session_->GetPromisedById(promised_stream_id_), nullptr);
}
TEST_P(QuicSpdyClientSessionTest, ReceivingPromiseEnhanceYourCalm) {
for (size_t i = 0u; i < session_->get_max_promises(); i++) {
push_promise_[":path"] = QuicStringPrintf("/bar%zu", i);
QuicStreamId id =
promised_stream_id_ +
i * QuicUtils::StreamIdDelta(connection_->transport_version());
EXPECT_TRUE(
session_->HandlePromised(associated_stream_id_, id, push_promise_));
// Verify that the promise is in the unclaimed streams map.
QuicString promise_url(SpdyUtils::GetPromisedUrlFromHeaders(push_promise_));
EXPECT_NE(session_->GetPromisedByUrl(promise_url), nullptr);
EXPECT_NE(session_->GetPromisedById(id), nullptr);
}
// One more promise, this should be refused.
int i = session_->get_max_promises();
push_promise_[":path"] = QuicStringPrintf("/bar%d", i);
QuicStreamId id =
promised_stream_id_ +
i * QuicUtils::StreamIdDelta(connection_->transport_version());
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_, OnStreamReset(id, QUIC_REFUSED_STREAM));
EXPECT_FALSE(
session_->HandlePromised(associated_stream_id_, id, push_promise_));
// Verify that the promise was not created.
QuicString promise_url(SpdyUtils::GetPromisedUrlFromHeaders(push_promise_));
EXPECT_EQ(session_->GetPromisedById(id), nullptr);
EXPECT_EQ(session_->GetPromisedByUrl(promise_url), nullptr);
}
TEST_P(QuicSpdyClientSessionTest, IsClosedTrueAfterResetPromisedAlreadyOpen) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->GetOrCreateStream(promised_stream_id_);
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_,
OnStreamReset(promised_stream_id_, QUIC_REFUSED_STREAM));
session_->ResetPromised(promised_stream_id_, QUIC_REFUSED_STREAM);
EXPECT_TRUE(session_->IsClosedStream(promised_stream_id_));
}
TEST_P(QuicSpdyClientSessionTest, IsClosedTrueAfterResetPromisedNonexistant) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_,
OnStreamReset(promised_stream_id_, QUIC_REFUSED_STREAM));
session_->ResetPromised(promised_stream_id_, QUIC_REFUSED_STREAM);
EXPECT_TRUE(session_->IsClosedStream(promised_stream_id_));
}
TEST_P(QuicSpdyClientSessionTest, OnInitialHeadersCompleteIsPush) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->GetOrCreateStream(promised_stream_id_);
EXPECT_TRUE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, push_promise_));
EXPECT_NE(session_->GetPromisedById(promised_stream_id_), nullptr);
EXPECT_NE(session_->GetPromisedStream(promised_stream_id_), nullptr);
EXPECT_NE(session_->GetPromisedByUrl(promise_url_), nullptr);
session_->OnInitialHeadersComplete(promised_stream_id_, SpdyHeaderBlock());
}
TEST_P(QuicSpdyClientSessionTest, OnInitialHeadersCompleteIsNotPush) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->CreateOutgoingBidirectionalStream();
session_->OnInitialHeadersComplete(promised_stream_id_, SpdyHeaderBlock());
}
TEST_P(QuicSpdyClientSessionTest, DeletePromised) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->GetOrCreateStream(promised_stream_id_);
EXPECT_TRUE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, push_promise_));
QuicClientPromisedInfo* promised =
session_->GetPromisedById(promised_stream_id_);
EXPECT_NE(promised, nullptr);
EXPECT_NE(session_->GetPromisedStream(promised_stream_id_), nullptr);
EXPECT_NE(session_->GetPromisedByUrl(promise_url_), nullptr);
session_->DeletePromised(promised);
EXPECT_EQ(session_->GetPromisedById(promised_stream_id_), nullptr);
EXPECT_EQ(session_->GetPromisedByUrl(promise_url_), nullptr);
}
TEST_P(QuicSpdyClientSessionTest, ResetPromised) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->GetOrCreateStream(promised_stream_id_);
EXPECT_TRUE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, push_promise_));
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_,
OnStreamReset(promised_stream_id_, QUIC_STREAM_PEER_GOING_AWAY));
session_->SendRstStream(promised_stream_id_, QUIC_STREAM_PEER_GOING_AWAY, 0);
QuicClientPromisedInfo* promised =
session_->GetPromisedById(promised_stream_id_);
EXPECT_NE(promised, nullptr);
EXPECT_NE(session_->GetPromisedByUrl(promise_url_), nullptr);
EXPECT_EQ(session_->GetPromisedStream(promised_stream_id_), nullptr);
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseInvalidMethod) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->CreateOutgoingBidirectionalStream();
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_,
OnStreamReset(promised_stream_id_, QUIC_INVALID_PROMISE_METHOD));
push_promise_[":method"] = "POST";
EXPECT_FALSE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, push_promise_));
EXPECT_EQ(session_->GetPromisedById(promised_stream_id_), nullptr);
EXPECT_EQ(session_->GetPromisedByUrl(promise_url_), nullptr);
}
TEST_P(QuicSpdyClientSessionTest, PushPromiseInvalidHost) {
// Initialize crypto before the client session will create a stream.
CompleteCryptoHandshake();
session_->CreateOutgoingBidirectionalStream();
EXPECT_CALL(*connection_, SendControlFrame(_));
EXPECT_CALL(*connection_,
OnStreamReset(promised_stream_id_, QUIC_INVALID_PROMISE_URL));
push_promise_[":authority"] = "";
EXPECT_FALSE(session_->HandlePromised(associated_stream_id_,
promised_stream_id_, push_promise_));
EXPECT_EQ(session_->GetPromisedById(promised_stream_id_), nullptr);
EXPECT_EQ(session_->GetPromisedByUrl(promise_url_), nullptr);
}
TEST_P(QuicSpdyClientSessionTest,
TryToCreateServerInitiatedBidirectionalStream) {
if (connection_->transport_version() == QUIC_VERSION_99) {
EXPECT_CALL(*connection_, CloseConnection(QUIC_INVALID_STREAM_ID, _, _));
} else {
EXPECT_CALL(*connection_, CloseConnection(_, _, _)).Times(0);
}
session_->GetOrCreateStream(GetNthServerInitiatedBidirectionalStreamId(
connection_->transport_version(), 0));
}
} // namespace
} // namespace test
} // namespace quic