quiche/quic/tools/connect_tunnel_test.cc - quiche.git - Git at Google

 // Copyright 2022 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 "quiche/quic/tools/connect_tunnel.h"

 #include <cstdint>
 #include <utility>

 #include "absl/container/flat_hash_set.h"
 #include "absl/status/status.h"
 #include "absl/status/statusor.h"
 #include "absl/strings/str_cat.h"
 #include "absl/strings/string_view.h"
 #include "quiche/quic/core/connecting_client_socket.h"
 #include "quiche/quic/core/quic_connection_id.h"
 #include "quiche/quic/core/quic_error_codes.h"
 #include "quiche/quic/core/quic_types.h"
 #include "quiche/quic/core/socket_factory.h"
 #include "quiche/quic/platform/api/quic_socket_address.h"
 #include "quiche/quic/platform/api/quic_test_loopback.h"
 #include "quiche/quic/test_tools/quic_test_utils.h"
 #include "quiche/quic/tools/quic_backend_response.h"
 #include "quiche/quic/tools/quic_simple_server_backend.h"
 #include "quiche/common/platform/api/quiche_mem_slice.h"
 #include "quiche/common/platform/api/quiche_test.h"
 #include "quiche/spdy/core/http2_header_block.h"

 namespace quic::test {
 namespace {

 using ::testing::_;
 using ::testing::AllOf;
 using ::testing::AnyOf;
 using ::testing::ElementsAre;
 using ::testing::Eq;
 using ::testing::Ge;
 using ::testing::Gt;
 using ::testing::InvokeWithoutArgs;
 using ::testing::IsEmpty;
 using ::testing::Matcher;
 using ::testing::NiceMock;
 using ::testing::Pair;
 using ::testing::Property;
 using ::testing::Return;
 using ::testing::StrictMock;

 class MockRequestHandler : public QuicSimpleServerBackend::RequestHandler {
  public:
   QuicConnectionId connection_id() const override {
     return TestConnectionId(41212);
   }
   QuicStreamId stream_id() const override { return 100; }
   std::string peer_host() const override { return "127.0.0.1"; }

   MOCK_METHOD(QuicSpdyStream*, GetStream, (), (override));
   MOCK_METHOD(void, OnResponseBackendComplete,
               (const QuicBackendResponse* response), (override));
   MOCK_METHOD(void, SendStreamData, (absl::string_view data, bool close_stream),
               (override));
   MOCK_METHOD(void, TerminateStreamWithError, (QuicResetStreamError error),
               (override));
 };

 class MockSocketFactory : public SocketFactory {
  public:
   MOCK_METHOD(std::unique_ptr<ConnectingClientSocket>, CreateTcpClientSocket,
               (const quic::QuicSocketAddress& peer_address,
                QuicByteCount receive_buffer_size,
                QuicByteCount send_buffer_size,
                ConnectingClientSocket::AsyncVisitor* async_visitor),
               (override));
   MOCK_METHOD(std::unique_ptr<ConnectingClientSocket>,
               CreateConnectingUdpClientSocket,
               (const quic::QuicSocketAddress& peer_address,
                QuicByteCount receive_buffer_size,
                QuicByteCount send_buffer_size,
                ConnectingClientSocket::AsyncVisitor* async_visitor),
               (override));
 };

 class MockSocket : public ConnectingClientSocket {
  public:
   MOCK_METHOD(absl::Status, ConnectBlocking, (), (override));
   MOCK_METHOD(void, ConnectAsync, (), (override));
   MOCK_METHOD(void, Disconnect, (), (override));
   MOCK_METHOD(absl::StatusOr<QuicSocketAddress>, GetLocalAddress, (),
               (override));
   MOCK_METHOD(absl::StatusOr<quiche::QuicheMemSlice>, ReceiveBlocking,
               (QuicByteCount max_size), (override));
   MOCK_METHOD(void, ReceiveAsync, (QuicByteCount max_size), (override));
   MOCK_METHOD(absl::Status, SendBlocking, (std::string data), (override));
   MOCK_METHOD(absl::Status, SendBlocking, (quiche::QuicheMemSlice data),
               (override));
   MOCK_METHOD(void, SendAsync, (std::string data), (override));
   MOCK_METHOD(void, SendAsync, (quiche::QuicheMemSlice data), (override));
 };

 class ConnectTunnelTest : public quiche::test::QuicheTest {
  public:
   void SetUp() override {
     auto socket = std::make_unique<StrictMock<MockSocket>>();
     socket_ = socket.get();
     ON_CALL(socket_factory_,
             CreateTcpClientSocket(
                 AnyOf(QuicSocketAddress(TestLoopback4(), kAcceptablePort),
                       QuicSocketAddress(TestLoopback6(), kAcceptablePort)),
                 _, _, &tunnel_))
         .WillByDefault(Return(ByMove(std::move(socket))));
   }

  protected:
   static constexpr absl::string_view kAcceptableDestination = "localhost";
   static constexpr uint16_t kAcceptablePort = 977;

   StrictMock<MockRequestHandler> request_handler_;
   NiceMock<MockSocketFactory> socket_factory_;
   StrictMock<MockSocket>* socket_;

   ConnectTunnel tunnel_{
       &request_handler_,
       &socket_factory_,
       /*acceptable_destinations=*/
       {{std::string(kAcceptableDestination), kAcceptablePort},
        {TestLoopback4().ToString(), kAcceptablePort},
        {absl::StrCat("[", TestLoopback6().ToString(), "]"), kAcceptablePort}}};
 };

 TEST_F(ConnectTunnelTest, OpenTunnel) {
   EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
   EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
   EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
     tunnel_.ReceiveComplete(absl::CancelledError());
   }));

   spdy::Http2HeaderBlock expected_response_headers;
   expected_response_headers[":status"] = "200";
   QuicBackendResponse expected_response;
   expected_response.set_headers(std::move(expected_response_headers));
   expected_response.set_response_type(QuicBackendResponse::INCOMPLETE_RESPONSE);
   EXPECT_CALL(request_handler_,
               OnResponseBackendComplete(
                   AllOf(Property(&QuicBackendResponse::response_type,
                                  QuicBackendResponse::INCOMPLETE_RESPONSE),
                         Property(&QuicBackendResponse::headers,
                                  ElementsAre(Pair(":status", "200"))),
                         Property(&QuicBackendResponse::trailers, IsEmpty()),
                         Property(&QuicBackendResponse::body, IsEmpty()))));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   request_headers[":authority"] =
       absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

   tunnel_.OpenTunnel(request_headers);
   EXPECT_TRUE(tunnel_.IsConnectedToDestination());
   tunnel_.OnClientStreamClose();
   EXPECT_FALSE(tunnel_.IsConnectedToDestination());
 }

 TEST_F(ConnectTunnelTest, OpenTunnelToIpv4LiteralDestination) {
   EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
   EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
   EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
     tunnel_.ReceiveComplete(absl::CancelledError());
   }));

   spdy::Http2HeaderBlock expected_response_headers;
   expected_response_headers[":status"] = "200";
   QuicBackendResponse expected_response;
   expected_response.set_headers(std::move(expected_response_headers));
   expected_response.set_response_type(QuicBackendResponse::INCOMPLETE_RESPONSE);
   EXPECT_CALL(request_handler_,
               OnResponseBackendComplete(
                   AllOf(Property(&QuicBackendResponse::response_type,
                                  QuicBackendResponse::INCOMPLETE_RESPONSE),
                         Property(&QuicBackendResponse::headers,
                                  ElementsAre(Pair(":status", "200"))),
                         Property(&QuicBackendResponse::trailers, IsEmpty()),
                         Property(&QuicBackendResponse::body, IsEmpty()))));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   request_headers[":authority"] =
       absl::StrCat(TestLoopback4().ToString(), ":", kAcceptablePort);

   tunnel_.OpenTunnel(request_headers);
   EXPECT_TRUE(tunnel_.IsConnectedToDestination());
   tunnel_.OnClientStreamClose();
   EXPECT_FALSE(tunnel_.IsConnectedToDestination());
 }

 TEST_F(ConnectTunnelTest, OpenTunnelToIpv6LiteralDestination) {
   EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
   EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
   EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
     tunnel_.ReceiveComplete(absl::CancelledError());
   }));

   spdy::Http2HeaderBlock expected_response_headers;
   expected_response_headers[":status"] = "200";
   QuicBackendResponse expected_response;
   expected_response.set_headers(std::move(expected_response_headers));
   expected_response.set_response_type(QuicBackendResponse::INCOMPLETE_RESPONSE);
   EXPECT_CALL(request_handler_,
               OnResponseBackendComplete(
                   AllOf(Property(&QuicBackendResponse::response_type,
                                  QuicBackendResponse::INCOMPLETE_RESPONSE),
                         Property(&QuicBackendResponse::headers,
                                  ElementsAre(Pair(":status", "200"))),
                         Property(&QuicBackendResponse::trailers, IsEmpty()),
                         Property(&QuicBackendResponse::body, IsEmpty()))));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   request_headers[":authority"] =
       absl::StrCat("[", TestLoopback6().ToString(), "]:", kAcceptablePort);

   tunnel_.OpenTunnel(request_headers);
   EXPECT_TRUE(tunnel_.IsConnectedToDestination());
   tunnel_.OnClientStreamClose();
   EXPECT_FALSE(tunnel_.IsConnectedToDestination());
 }

 TEST_F(ConnectTunnelTest, OpenTunnelWithMalformedRequest) {
   EXPECT_CALL(request_handler_,
               TerminateStreamWithError(Property(
                   &QuicResetStreamError::ietf_application_code,
                   static_cast<uint64_t>(QuicHttp3ErrorCode::MESSAGE_ERROR))));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   // No ":authority" header.

   tunnel_.OpenTunnel(request_headers);
   EXPECT_FALSE(tunnel_.IsConnectedToDestination());
   tunnel_.OnClientStreamClose();
 }

 TEST_F(ConnectTunnelTest, OpenTunnelWithUnacceptableDestination) {
   EXPECT_CALL(
       request_handler_,
       TerminateStreamWithError(Property(
           &QuicResetStreamError::ietf_application_code,
           static_cast<uint64_t>(QuicHttp3ErrorCode::REQUEST_REJECTED))));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   request_headers[":authority"] = "unacceptable.test:100";

   tunnel_.OpenTunnel(request_headers);
   EXPECT_FALSE(tunnel_.IsConnectedToDestination());
   tunnel_.OnClientStreamClose();
 }

 TEST_F(ConnectTunnelTest, ReceiveFromDestination) {
   static constexpr absl::string_view kData = "\x11\x22\x33\x44\x55";

   EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
   EXPECT_CALL(*socket_, ReceiveAsync(Ge(kData.size()))).Times(2);
   EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
     tunnel_.ReceiveComplete(absl::CancelledError());
   }));

   EXPECT_CALL(request_handler_, OnResponseBackendComplete(_));

   EXPECT_CALL(request_handler_, SendStreamData(kData, /*close_stream=*/false));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   request_headers[":authority"] =
       absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

   tunnel_.OpenTunnel(request_headers);

   // Simulate receiving `kData`.
   tunnel_.ReceiveComplete(MemSliceFromString(kData));

   tunnel_.OnClientStreamClose();
 }

 TEST_F(ConnectTunnelTest, SendToDestination) {
   static constexpr absl::string_view kData = "\x11\x22\x33\x44\x55";

   EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
   EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
   EXPECT_CALL(*socket_, SendBlocking(Matcher<std::string>(Eq(kData))))
       .WillOnce(Return(absl::OkStatus()));
   EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
     tunnel_.ReceiveComplete(absl::CancelledError());
   }));

   EXPECT_CALL(request_handler_, OnResponseBackendComplete(_));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   request_headers[":authority"] =
       absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

   tunnel_.OpenTunnel(request_headers);
   tunnel_.SendDataToDestination(kData);
   tunnel_.OnClientStreamClose();
 }

 TEST_F(ConnectTunnelTest, DestinationDisconnect) {
   EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
   EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
   EXPECT_CALL(*socket_, Disconnect());

   EXPECT_CALL(request_handler_, OnResponseBackendComplete(_));
   EXPECT_CALL(request_handler_, SendStreamData("", /*close_stream=*/true));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   request_headers[":authority"] =
       absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

   tunnel_.OpenTunnel(request_headers);

   // Simulate receiving empty data.
   tunnel_.ReceiveComplete(quiche::QuicheMemSlice());

   EXPECT_FALSE(tunnel_.IsConnectedToDestination());

   tunnel_.OnClientStreamClose();
 }

 TEST_F(ConnectTunnelTest, DestinationTcpConnectionError) {
   EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
   EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
   EXPECT_CALL(*socket_, Disconnect());

   EXPECT_CALL(request_handler_, OnResponseBackendComplete(_));
   EXPECT_CALL(request_handler_,
               TerminateStreamWithError(Property(
                   &QuicResetStreamError::ietf_application_code,
                   static_cast<uint64_t>(QuicHttp3ErrorCode::CONNECT_ERROR))));

   spdy::Http2HeaderBlock request_headers;
   request_headers[":method"] = "CONNECT";
   request_headers[":authority"] =
       absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

   tunnel_.OpenTunnel(request_headers);

   // Simulate receving error.
   tunnel_.ReceiveComplete(absl::UnknownError("error"));

   tunnel_.OnClientStreamClose();
 }

 }  // namespace
 }  // namespace quic::test
	// Copyright 2022 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 "quiche/quic/tools/connect_tunnel.h"

	#include <cstdint>
	#include <utility>

	#include "absl/container/flat_hash_set.h"
	#include "absl/status/status.h"
	#include "absl/status/statusor.h"
	#include "absl/strings/str_cat.h"
	#include "absl/strings/string_view.h"
	#include "quiche/quic/core/connecting_client_socket.h"
	#include "quiche/quic/core/quic_connection_id.h"
	#include "quiche/quic/core/quic_error_codes.h"
	#include "quiche/quic/core/quic_types.h"
	#include "quiche/quic/core/socket_factory.h"
	#include "quiche/quic/platform/api/quic_socket_address.h"
	#include "quiche/quic/platform/api/quic_test_loopback.h"
	#include "quiche/quic/test_tools/quic_test_utils.h"
	#include "quiche/quic/tools/quic_backend_response.h"
	#include "quiche/quic/tools/quic_simple_server_backend.h"
	#include "quiche/common/platform/api/quiche_mem_slice.h"
	#include "quiche/common/platform/api/quiche_test.h"
	#include "quiche/spdy/core/http2_header_block.h"

	namespace quic::test {
	namespace {

	using ::testing::_;
	using ::testing::AllOf;
	using ::testing::AnyOf;
	using ::testing::ElementsAre;
	using ::testing::Eq;
	using ::testing::Ge;
	using ::testing::Gt;
	using ::testing::InvokeWithoutArgs;
	using ::testing::IsEmpty;
	using ::testing::Matcher;
	using ::testing::NiceMock;
	using ::testing::Pair;
	using ::testing::Property;
	using ::testing::Return;
	using ::testing::StrictMock;

	class MockRequestHandler : public QuicSimpleServerBackend::RequestHandler {
	public:
	QuicConnectionId connection_id() const override {
	return TestConnectionId(41212);
	}
	QuicStreamId stream_id() const override { return 100; }
	std::string peer_host() const override { return "127.0.0.1"; }

	MOCK_METHOD(QuicSpdyStream*, GetStream, (), (override));
	MOCK_METHOD(void, OnResponseBackendComplete,
	(const QuicBackendResponse* response), (override));
	MOCK_METHOD(void, SendStreamData, (absl::string_view data, bool close_stream),
	(override));
	MOCK_METHOD(void, TerminateStreamWithError, (QuicResetStreamError error),
	(override));
	};

	class MockSocketFactory : public SocketFactory {
	public:
	MOCK_METHOD(std::unique_ptr<ConnectingClientSocket>, CreateTcpClientSocket,
	(const quic::QuicSocketAddress& peer_address,
	QuicByteCount receive_buffer_size,
	QuicByteCount send_buffer_size,
	ConnectingClientSocket::AsyncVisitor* async_visitor),
	(override));
	MOCK_METHOD(std::unique_ptr<ConnectingClientSocket>,
	CreateConnectingUdpClientSocket,
	(const quic::QuicSocketAddress& peer_address,
	QuicByteCount receive_buffer_size,
	QuicByteCount send_buffer_size,
	ConnectingClientSocket::AsyncVisitor* async_visitor),
	(override));
	};

	class MockSocket : public ConnectingClientSocket {
	public:
	MOCK_METHOD(absl::Status, ConnectBlocking, (), (override));
	MOCK_METHOD(void, ConnectAsync, (), (override));
	MOCK_METHOD(void, Disconnect, (), (override));
	MOCK_METHOD(absl::StatusOr<QuicSocketAddress>, GetLocalAddress, (),
	(override));
	MOCK_METHOD(absl::StatusOr<quiche::QuicheMemSlice>, ReceiveBlocking,
	(QuicByteCount max_size), (override));
	MOCK_METHOD(void, ReceiveAsync, (QuicByteCount max_size), (override));
	MOCK_METHOD(absl::Status, SendBlocking, (std::string data), (override));
	MOCK_METHOD(absl::Status, SendBlocking, (quiche::QuicheMemSlice data),
	(override));
	MOCK_METHOD(void, SendAsync, (std::string data), (override));
	MOCK_METHOD(void, SendAsync, (quiche::QuicheMemSlice data), (override));
	};

	class ConnectTunnelTest : public quiche::test::QuicheTest {
	public:
	void SetUp() override {
	auto socket = std::make_unique<StrictMock<MockSocket>>();
	socket_ = socket.get();
	ON_CALL(socket_factory_,
	CreateTcpClientSocket(
	AnyOf(QuicSocketAddress(TestLoopback4(), kAcceptablePort),
	QuicSocketAddress(TestLoopback6(), kAcceptablePort)),
	_, _, &tunnel_))
	.WillByDefault(Return(ByMove(std::move(socket))));
	}

	protected:
	static constexpr absl::string_view kAcceptableDestination = "localhost";
	static constexpr uint16_t kAcceptablePort = 977;

	StrictMock<MockRequestHandler> request_handler_;
	NiceMock<MockSocketFactory> socket_factory_;
	StrictMock<MockSocket>* socket_;

	ConnectTunnel tunnel_{
	&request_handler_,
	&socket_factory_,
	/acceptable_destinations=/
	{{std::string(kAcceptableDestination), kAcceptablePort},
	{TestLoopback4().ToString(), kAcceptablePort},
	{absl::StrCat("[", TestLoopback6().ToString(), "]"), kAcceptablePort}}};
	};

	TEST_F(ConnectTunnelTest, OpenTunnel) {
	EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
	EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
	EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
	tunnel_.ReceiveComplete(absl::CancelledError());
	}));

	spdy::Http2HeaderBlock expected_response_headers;
	expected_response_headers[":status"] = "200";
	QuicBackendResponse expected_response;
	expected_response.set_headers(std::move(expected_response_headers));
	expected_response.set_response_type(QuicBackendResponse::INCOMPLETE_RESPONSE);
	EXPECT_CALL(request_handler_,
	OnResponseBackendComplete(
	AllOf(Property(&QuicBackendResponse::response_type,
	QuicBackendResponse::INCOMPLETE_RESPONSE),
	Property(&QuicBackendResponse::headers,
	ElementsAre(Pair(":status", "200"))),
	Property(&QuicBackendResponse::trailers, IsEmpty()),
	Property(&QuicBackendResponse::body, IsEmpty()))));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	request_headers[":authority"] =
	absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

	tunnel_.OpenTunnel(request_headers);
	EXPECT_TRUE(tunnel_.IsConnectedToDestination());
	tunnel_.OnClientStreamClose();
	EXPECT_FALSE(tunnel_.IsConnectedToDestination());
	}

	TEST_F(ConnectTunnelTest, OpenTunnelToIpv4LiteralDestination) {
	EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
	EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
	EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
	tunnel_.ReceiveComplete(absl::CancelledError());
	}));

	spdy::Http2HeaderBlock expected_response_headers;
	expected_response_headers[":status"] = "200";
	QuicBackendResponse expected_response;
	expected_response.set_headers(std::move(expected_response_headers));
	expected_response.set_response_type(QuicBackendResponse::INCOMPLETE_RESPONSE);
	EXPECT_CALL(request_handler_,
	OnResponseBackendComplete(
	AllOf(Property(&QuicBackendResponse::response_type,
	QuicBackendResponse::INCOMPLETE_RESPONSE),
	Property(&QuicBackendResponse::headers,
	ElementsAre(Pair(":status", "200"))),
	Property(&QuicBackendResponse::trailers, IsEmpty()),
	Property(&QuicBackendResponse::body, IsEmpty()))));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	request_headers[":authority"] =
	absl::StrCat(TestLoopback4().ToString(), ":", kAcceptablePort);

	tunnel_.OpenTunnel(request_headers);
	EXPECT_TRUE(tunnel_.IsConnectedToDestination());
	tunnel_.OnClientStreamClose();
	EXPECT_FALSE(tunnel_.IsConnectedToDestination());
	}

	TEST_F(ConnectTunnelTest, OpenTunnelToIpv6LiteralDestination) {
	EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
	EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
	EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
	tunnel_.ReceiveComplete(absl::CancelledError());
	}));

	spdy::Http2HeaderBlock expected_response_headers;
	expected_response_headers[":status"] = "200";
	QuicBackendResponse expected_response;
	expected_response.set_headers(std::move(expected_response_headers));
	expected_response.set_response_type(QuicBackendResponse::INCOMPLETE_RESPONSE);
	EXPECT_CALL(request_handler_,
	OnResponseBackendComplete(
	AllOf(Property(&QuicBackendResponse::response_type,
	QuicBackendResponse::INCOMPLETE_RESPONSE),
	Property(&QuicBackendResponse::headers,
	ElementsAre(Pair(":status", "200"))),
	Property(&QuicBackendResponse::trailers, IsEmpty()),
	Property(&QuicBackendResponse::body, IsEmpty()))));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	request_headers[":authority"] =
	absl::StrCat("[", TestLoopback6().ToString(), "]:", kAcceptablePort);

	tunnel_.OpenTunnel(request_headers);
	EXPECT_TRUE(tunnel_.IsConnectedToDestination());
	tunnel_.OnClientStreamClose();
	EXPECT_FALSE(tunnel_.IsConnectedToDestination());
	}

	TEST_F(ConnectTunnelTest, OpenTunnelWithMalformedRequest) {
	EXPECT_CALL(request_handler_,
	TerminateStreamWithError(Property(
	&QuicResetStreamError::ietf_application_code,
	static_cast<uint64_t>(QuicHttp3ErrorCode::MESSAGE_ERROR))));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	// No ":authority" header.

	tunnel_.OpenTunnel(request_headers);
	EXPECT_FALSE(tunnel_.IsConnectedToDestination());
	tunnel_.OnClientStreamClose();
	}

	TEST_F(ConnectTunnelTest, OpenTunnelWithUnacceptableDestination) {
	EXPECT_CALL(
	request_handler_,
	TerminateStreamWithError(Property(
	&QuicResetStreamError::ietf_application_code,
	static_cast<uint64_t>(QuicHttp3ErrorCode::REQUEST_REJECTED))));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	request_headers[":authority"] = "unacceptable.test:100";

	tunnel_.OpenTunnel(request_headers);
	EXPECT_FALSE(tunnel_.IsConnectedToDestination());
	tunnel_.OnClientStreamClose();
	}

	TEST_F(ConnectTunnelTest, ReceiveFromDestination) {
	static constexpr absl::string_view kData = "\x11\x22\x33\x44\x55";

	EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
	EXPECT_CALL(*socket_, ReceiveAsync(Ge(kData.size()))).Times(2);
	EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
	tunnel_.ReceiveComplete(absl::CancelledError());
	}));

	EXPECT_CALL(request_handler_, OnResponseBackendComplete(_));

	EXPECT_CALL(request_handler_, SendStreamData(kData, /close_stream=/false));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	request_headers[":authority"] =
	absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

	tunnel_.OpenTunnel(request_headers);

	// Simulate receiving `kData`.
	tunnel_.ReceiveComplete(MemSliceFromString(kData));

	tunnel_.OnClientStreamClose();
	}

	TEST_F(ConnectTunnelTest, SendToDestination) {
	static constexpr absl::string_view kData = "\x11\x22\x33\x44\x55";

	EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
	EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
	EXPECT_CALL(*socket_, SendBlocking(Matcher<std::string>(Eq(kData))))
	.WillOnce(Return(absl::OkStatus()));
	EXPECT_CALL(*socket_, Disconnect()).WillOnce(InvokeWithoutArgs([this]() {
	tunnel_.ReceiveComplete(absl::CancelledError());
	}));

	EXPECT_CALL(request_handler_, OnResponseBackendComplete(_));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	request_headers[":authority"] =
	absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

	tunnel_.OpenTunnel(request_headers);
	tunnel_.SendDataToDestination(kData);
	tunnel_.OnClientStreamClose();
	}

	TEST_F(ConnectTunnelTest, DestinationDisconnect) {
	EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
	EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
	EXPECT_CALL(*socket_, Disconnect());

	EXPECT_CALL(request_handler_, OnResponseBackendComplete(_));
	EXPECT_CALL(request_handler_, SendStreamData("", /close_stream=/true));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	request_headers[":authority"] =
	absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

	tunnel_.OpenTunnel(request_headers);

	// Simulate receiving empty data.
	tunnel_.ReceiveComplete(quiche::QuicheMemSlice());

	EXPECT_FALSE(tunnel_.IsConnectedToDestination());

	tunnel_.OnClientStreamClose();
	}

	TEST_F(ConnectTunnelTest, DestinationTcpConnectionError) {
	EXPECT_CALL(*socket_, ConnectBlocking()).WillOnce(Return(absl::OkStatus()));
	EXPECT_CALL(*socket_, ReceiveAsync(Gt(0)));
	EXPECT_CALL(*socket_, Disconnect());

	EXPECT_CALL(request_handler_, OnResponseBackendComplete(_));
	EXPECT_CALL(request_handler_,
	TerminateStreamWithError(Property(
	&QuicResetStreamError::ietf_application_code,
	static_cast<uint64_t>(QuicHttp3ErrorCode::CONNECT_ERROR))));

	spdy::Http2HeaderBlock request_headers;
	request_headers[":method"] = "CONNECT";
	request_headers[":authority"] =
	absl::StrCat(kAcceptableDestination, ":", kAcceptablePort);

	tunnel_.OpenTunnel(request_headers);

	// Simulate receving error.
	tunnel_.ReceiveComplete(absl::UnknownError("error"));

	tunnel_.OnClientStreamClose();
	}

	} // namespace
	} // namespace quic::test