quic/quartc/quartc_endpoint_test.cc - quiche - Git at Google

 // Copyright (c) 2017 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/quartc/quartc_endpoint.h"

 #include <utility>

 #include "net/third_party/quiche/src/quic/core/quic_versions.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_test.h"
 #include "net/third_party/quiche/src/quic/quartc/quartc_crypto_helpers.h"
 #include "net/third_party/quiche/src/quic/quartc/quartc_fakes.h"
 #include "net/third_party/quiche/src/quic/quartc/simulated_packet_transport.h"
 #include "net/third_party/quiche/src/quic/test_tools/simulator/link.h"
 #include "net/third_party/quiche/src/quic/test_tools/simulator/simulator.h"

 namespace quic {
 namespace {

 class QuartcEndpointTest : public QuicTest {
  protected:
   QuartcEndpointTest()
       : client_transport_(&simulator_,
                           "client_transport",
                           "server_transport",
                           10 * kDefaultMaxPacketSize),
         server_transport_(&simulator_,
                           "server_transport",
                           "client_transport",
                           10 * kDefaultMaxPacketSize),
         client_server_link_(&client_transport_,
                             &server_transport_,
                             QuicBandwidth::FromKBitsPerSecond(10000),
                             QuicTime::Delta::FromMilliseconds(1)),
         server_endpoint_delegate_(&server_stream_delegate_,
                                   simulator_.GetClock()),
         server_endpoint_(std::make_unique<QuartcServerEndpoint>(
             simulator_.GetAlarmFactory(),
             simulator_.GetClock(),
             simulator_.GetRandomGenerator(),
             &server_endpoint_delegate_,
             QuartcSessionConfig())),
         client_endpoint_delegate_(&client_stream_delegate_,
                                   simulator_.GetClock()),
         client_endpoint_(std::make_unique<QuartcClientEndpoint>(
             simulator_.GetAlarmFactory(),
             simulator_.GetClock(),
             simulator_.GetRandomGenerator(),
             &client_endpoint_delegate_,
             QuartcSessionConfig(),
             /*serialized_server_config=*/"")) {}

   simulator::Simulator simulator_;

   simulator::SimulatedQuartcPacketTransport client_transport_;
   simulator::SimulatedQuartcPacketTransport server_transport_;
   simulator::SymmetricLink client_server_link_;

   FakeQuartcStreamDelegate server_stream_delegate_;
   FakeQuartcEndpointDelegate server_endpoint_delegate_;

   std::unique_ptr<QuartcServerEndpoint> server_endpoint_;

   FakeQuartcStreamDelegate client_stream_delegate_;
   FakeQuartcEndpointDelegate client_endpoint_delegate_;

   std::unique_ptr<QuartcClientEndpoint> client_endpoint_;
 };

 // After calling Connect, the client endpoint must wait for an async callback.
 // The callback occurs after a finite amount of time and produces a session.
 TEST_F(QuartcEndpointTest, ClientCreatesSessionAsynchronously) {
   client_endpoint_->Connect(&client_transport_);

   EXPECT_EQ(client_endpoint_delegate_.session(), nullptr);

   EXPECT_TRUE(simulator_.RunUntil(
       [this] { return client_endpoint_delegate_.session() != nullptr; }));
 }

 // Tests that the server can negotiate for an older QUIC version if the client
 // attempts to connect using a newer version.
 TEST_F(QuartcEndpointTest,
        QUIC_TEST_DISABLED_IN_CHROME(ServerNegotiatesForOldVersion)) {
   // Reset the client endpoint to prefer version 46 but also be capable of
   // speaking version 43.
   ParsedQuicVersionVector client_versions;
   client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_46});
   client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
   client_endpoint_ = std::make_unique<QuartcClientEndpoint>(
       simulator_.GetAlarmFactory(), simulator_.GetClock(),
       simulator_.GetRandomGenerator(), &client_endpoint_delegate_,
       QuartcSessionConfig(),
       /*serialized_server_config=*/"",
       std::make_unique<QuicVersionManager>(client_versions));

   // Reset the server endpoint to only speak version 43.
   ParsedQuicVersionVector server_versions;
   server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
   server_endpoint_ = std::make_unique<QuartcServerEndpoint>(
       simulator_.GetAlarmFactory(), simulator_.GetClock(),
       simulator_.GetRandomGenerator(), &server_endpoint_delegate_,
       QuartcSessionConfig(),
       std::make_unique<QuicVersionManager>(server_versions));

   // The endpoints should be able to establish a connection using version 46.
   server_endpoint_->Connect(&server_transport_);
   client_endpoint_->Connect(&client_transport_);

   ASSERT_TRUE(simulator_.RunUntil([this] {
     return client_endpoint_delegate_.session() != nullptr &&
            client_endpoint_delegate_.session()->IsEncryptionEstablished() &&
            server_endpoint_delegate_.session() != nullptr &&
            server_endpoint_delegate_.session()->IsEncryptionEstablished();
   }));
   EXPECT_EQ(client_endpoint_delegate_.session()->connection()->version(),
             server_versions[0]);
   EXPECT_EQ(server_endpoint_delegate_.session()->connection()->version(),
             server_versions[0]);
 }

 // Tests that the server can accept connections from clients that use older
 // QUIC versions.
 TEST_F(QuartcEndpointTest,
        QUIC_TEST_DISABLED_IN_CHROME(ServerAcceptsOldVersion)) {
   // Reset the client endpoint to only speak version 43.
   ParsedQuicVersionVector client_versions;
   client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
   client_endpoint_ = std::make_unique<QuartcClientEndpoint>(
       simulator_.GetAlarmFactory(), simulator_.GetClock(),
       simulator_.GetRandomGenerator(), &client_endpoint_delegate_,
       QuartcSessionConfig(),
       /*serialized_server_config=*/"",
       std::make_unique<QuicVersionManager>(client_versions));

   // Reset the server endpoint to prefer version 46 but also be capable of
   // speaking version 43.
   ParsedQuicVersionVector server_versions;
   server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_46});
   server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
   server_endpoint_ = std::make_unique<QuartcServerEndpoint>(
       simulator_.GetAlarmFactory(), simulator_.GetClock(),
       simulator_.GetRandomGenerator(), &server_endpoint_delegate_,
       QuartcSessionConfig(),
       std::make_unique<QuicVersionManager>(server_versions));

   // The endpoints should be able to establish a connection using version 46.
   server_endpoint_->Connect(&server_transport_);
   client_endpoint_->Connect(&client_transport_);

   ASSERT_TRUE(simulator_.RunUntil([this] {
     return client_endpoint_delegate_.session() != nullptr &&
            client_endpoint_delegate_.session()->IsEncryptionEstablished() &&
            server_endpoint_delegate_.session() != nullptr &&
            server_endpoint_delegate_.session()->IsEncryptionEstablished();
   }));
   EXPECT_EQ(client_endpoint_delegate_.session()->connection()->version(),
             client_versions[0]);
   EXPECT_EQ(server_endpoint_delegate_.session()->connection()->version(),
             client_versions[0]);
 }

 // Tests that version negotiation fails when the client and server support
 // completely disjoint sets of versions.
 TEST_F(QuartcEndpointTest,
        QUIC_TEST_DISABLED_IN_CHROME(VersionNegotiationWithDisjointVersions)) {
   // Reset the client endpoint to only speak version 43.
   ParsedQuicVersionVector client_versions;
   client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
   client_endpoint_ = std::make_unique<QuartcClientEndpoint>(
       simulator_.GetAlarmFactory(), simulator_.GetClock(),
       simulator_.GetRandomGenerator(), &client_endpoint_delegate_,
       QuartcSessionConfig(),
       /*serialized_server_config=*/"",
       std::make_unique<QuicVersionManager>(client_versions));

   // Reset the server endpoint to only speak version 46.
   ParsedQuicVersionVector server_versions;
   server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_46});
   server_endpoint_ = std::make_unique<QuartcServerEndpoint>(
       simulator_.GetAlarmFactory(), simulator_.GetClock(),
       simulator_.GetRandomGenerator(), &server_endpoint_delegate_,
       QuartcSessionConfig(),
       std::make_unique<QuicVersionManager>(server_versions));

   // The endpoints should be unable to establish a connection.
   server_endpoint_->Connect(&server_transport_);
   client_endpoint_->Connect(&client_transport_);

   // Note that the error is reported from the client and *not* the server.  The
   // server sees an invalid version, sends a version negotiation packet, and
   // never gets a response, because the client stops sending when it can't find
   // a mutually supported versions.
   ASSERT_TRUE(simulator_.RunUntil([this] {
     return client_endpoint_delegate_.session() != nullptr &&
            client_endpoint_delegate_.session()->error() != QUIC_NO_ERROR;
   }));
   EXPECT_EQ(client_endpoint_delegate_.session()->error(), QUIC_INVALID_VERSION);
 }

 // Tests that the client endpoint can create a new session in order to continue
 // version negotiation.
 TEST_F(QuartcEndpointTest,
        QUIC_TEST_DISABLED_IN_CHROME(CreatesNewSessionWhenRequired)) {
   // Reset the client endpoint to prefer version 46 but also be capable of
   // speaking version 43.
   ParsedQuicVersionVector client_versions;
   client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_46});
   client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
   client_endpoint_ = std::make_unique<QuartcClientEndpoint>(
       simulator_.GetAlarmFactory(), simulator_.GetClock(),
       simulator_.GetRandomGenerator(), &client_endpoint_delegate_,
       QuartcSessionConfig(),
       /*serialized_server_config=*/"",
       std::make_unique<QuicVersionManager>(client_versions));

   // Reset the server endpoint to only speak version 43.
   ParsedQuicVersionVector server_versions;
   server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
   server_endpoint_ = std::make_unique<QuartcServerEndpoint>(
       simulator_.GetAlarmFactory(), simulator_.GetClock(),
       simulator_.GetRandomGenerator(), &server_endpoint_delegate_,
       QuartcSessionConfig(),
       std::make_unique<QuicVersionManager>(server_versions));

   // The endpoints should be able to establish a connection using version 46.
   server_endpoint_->Connect(&server_transport_);
   client_endpoint_->Connect(&client_transport_);

   ASSERT_TRUE(simulator_.RunUntil([this] {
     return client_endpoint_delegate_.session() != nullptr &&
            client_endpoint_delegate_.session()->IsEncryptionEstablished() &&
            server_endpoint_delegate_.session() != nullptr &&
            server_endpoint_delegate_.session()->IsEncryptionEstablished();
   }));
   EXPECT_EQ(client_endpoint_delegate_.session()->connection()->version(),
             server_versions[0]);
   EXPECT_EQ(server_endpoint_delegate_.session()->connection()->version(),
             server_versions[0]);

   EXPECT_EQ(2, client_endpoint_delegate_.num_sessions_created());
 }

 }  // namespace
 }  // namespace quic
	// Copyright (c) 2017 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/quartc/quartc_endpoint.h"

	#include <utility>

	#include "net/third_party/quiche/src/quic/core/quic_versions.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_test.h"
	#include "net/third_party/quiche/src/quic/quartc/quartc_crypto_helpers.h"
	#include "net/third_party/quiche/src/quic/quartc/quartc_fakes.h"
	#include "net/third_party/quiche/src/quic/quartc/simulated_packet_transport.h"
	#include "net/third_party/quiche/src/quic/test_tools/simulator/link.h"
	#include "net/third_party/quiche/src/quic/test_tools/simulator/simulator.h"

	namespace quic {
	namespace {

	class QuartcEndpointTest : public QuicTest {
	protected:
	QuartcEndpointTest()
	: client_transport_(&simulator_,
	"client_transport",
	"server_transport",
	10 * kDefaultMaxPacketSize),
	server_transport_(&simulator_,
	"server_transport",
	"client_transport",
	10 * kDefaultMaxPacketSize),
	client_server_link_(&client_transport_,
	&server_transport_,
	QuicBandwidth::FromKBitsPerSecond(10000),
	QuicTime::Delta::FromMilliseconds(1)),
	server_endpoint_delegate_(&server_stream_delegate_,
	simulator_.GetClock()),
	server_endpoint_(std::make_unique<QuartcServerEndpoint>(
	simulator_.GetAlarmFactory(),
	simulator_.GetClock(),
	simulator_.GetRandomGenerator(),
	&server_endpoint_delegate_,
	QuartcSessionConfig())),
	client_endpoint_delegate_(&client_stream_delegate_,
	simulator_.GetClock()),
	client_endpoint_(std::make_unique<QuartcClientEndpoint>(
	simulator_.GetAlarmFactory(),
	simulator_.GetClock(),
	simulator_.GetRandomGenerator(),
	&client_endpoint_delegate_,
	QuartcSessionConfig(),
	/serialized_server_config=/"")) {}

	simulator::Simulator simulator_;

	simulator::SimulatedQuartcPacketTransport client_transport_;
	simulator::SimulatedQuartcPacketTransport server_transport_;
	simulator::SymmetricLink client_server_link_;

	FakeQuartcStreamDelegate server_stream_delegate_;
	FakeQuartcEndpointDelegate server_endpoint_delegate_;

	std::unique_ptr<QuartcServerEndpoint> server_endpoint_;

	FakeQuartcStreamDelegate client_stream_delegate_;
	FakeQuartcEndpointDelegate client_endpoint_delegate_;

	std::unique_ptr<QuartcClientEndpoint> client_endpoint_;
	};

	// After calling Connect, the client endpoint must wait for an async callback.
	// The callback occurs after a finite amount of time and produces a session.
	TEST_F(QuartcEndpointTest, ClientCreatesSessionAsynchronously) {
	client_endpoint_->Connect(&client_transport_);

	EXPECT_EQ(client_endpoint_delegate_.session(), nullptr);

	EXPECT_TRUE(simulator_.RunUntil(
	[this] { return client_endpoint_delegate_.session() != nullptr; }));
	}

	// Tests that the server can negotiate for an older QUIC version if the client
	// attempts to connect using a newer version.
	TEST_F(QuartcEndpointTest,
	QUIC_TEST_DISABLED_IN_CHROME(ServerNegotiatesForOldVersion)) {
	// Reset the client endpoint to prefer version 46 but also be capable of
	// speaking version 43.
	ParsedQuicVersionVector client_versions;
	client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_46});
	client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
	client_endpoint_ = std::make_unique<QuartcClientEndpoint>(
	simulator_.GetAlarmFactory(), simulator_.GetClock(),
	simulator_.GetRandomGenerator(), &client_endpoint_delegate_,
	QuartcSessionConfig(),
	/serialized_server_config=/"",
	std::make_unique<QuicVersionManager>(client_versions));

	// Reset the server endpoint to only speak version 43.
	ParsedQuicVersionVector server_versions;
	server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
	server_endpoint_ = std::make_unique<QuartcServerEndpoint>(
	simulator_.GetAlarmFactory(), simulator_.GetClock(),
	simulator_.GetRandomGenerator(), &server_endpoint_delegate_,
	QuartcSessionConfig(),
	std::make_unique<QuicVersionManager>(server_versions));

	// The endpoints should be able to establish a connection using version 46.
	server_endpoint_->Connect(&server_transport_);
	client_endpoint_->Connect(&client_transport_);

	ASSERT_TRUE(simulator_.RunUntil([this] {
	return client_endpoint_delegate_.session() != nullptr &&
	client_endpoint_delegate_.session()->IsEncryptionEstablished() &&
	server_endpoint_delegate_.session() != nullptr &&
	server_endpoint_delegate_.session()->IsEncryptionEstablished();
	}));
	EXPECT_EQ(client_endpoint_delegate_.session()->connection()->version(),
	server_versions[0]);
	EXPECT_EQ(server_endpoint_delegate_.session()->connection()->version(),
	server_versions[0]);
	}

	// Tests that the server can accept connections from clients that use older
	// QUIC versions.
	TEST_F(QuartcEndpointTest,
	QUIC_TEST_DISABLED_IN_CHROME(ServerAcceptsOldVersion)) {
	// Reset the client endpoint to only speak version 43.
	ParsedQuicVersionVector client_versions;
	client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
	client_endpoint_ = std::make_unique<QuartcClientEndpoint>(
	simulator_.GetAlarmFactory(), simulator_.GetClock(),
	simulator_.GetRandomGenerator(), &client_endpoint_delegate_,
	QuartcSessionConfig(),
	/serialized_server_config=/"",
	std::make_unique<QuicVersionManager>(client_versions));

	// Reset the server endpoint to prefer version 46 but also be capable of
	// speaking version 43.
	ParsedQuicVersionVector server_versions;
	server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_46});
	server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
	server_endpoint_ = std::make_unique<QuartcServerEndpoint>(
	simulator_.GetAlarmFactory(), simulator_.GetClock(),
	simulator_.GetRandomGenerator(), &server_endpoint_delegate_,
	QuartcSessionConfig(),
	std::make_unique<QuicVersionManager>(server_versions));

	// The endpoints should be able to establish a connection using version 46.
	server_endpoint_->Connect(&server_transport_);
	client_endpoint_->Connect(&client_transport_);

	ASSERT_TRUE(simulator_.RunUntil([this] {
	return client_endpoint_delegate_.session() != nullptr &&
	client_endpoint_delegate_.session()->IsEncryptionEstablished() &&
	server_endpoint_delegate_.session() != nullptr &&
	server_endpoint_delegate_.session()->IsEncryptionEstablished();
	}));
	EXPECT_EQ(client_endpoint_delegate_.session()->connection()->version(),
	client_versions[0]);
	EXPECT_EQ(server_endpoint_delegate_.session()->connection()->version(),
	client_versions[0]);
	}

	// Tests that version negotiation fails when the client and server support
	// completely disjoint sets of versions.
	TEST_F(QuartcEndpointTest,
	QUIC_TEST_DISABLED_IN_CHROME(VersionNegotiationWithDisjointVersions)) {
	// Reset the client endpoint to only speak version 43.
	ParsedQuicVersionVector client_versions;
	client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
	client_endpoint_ = std::make_unique<QuartcClientEndpoint>(
	simulator_.GetAlarmFactory(), simulator_.GetClock(),
	simulator_.GetRandomGenerator(), &client_endpoint_delegate_,
	QuartcSessionConfig(),
	/serialized_server_config=/"",
	std::make_unique<QuicVersionManager>(client_versions));

	// Reset the server endpoint to only speak version 46.
	ParsedQuicVersionVector server_versions;
	server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_46});
	server_endpoint_ = std::make_unique<QuartcServerEndpoint>(
	simulator_.GetAlarmFactory(), simulator_.GetClock(),
	simulator_.GetRandomGenerator(), &server_endpoint_delegate_,
	QuartcSessionConfig(),
	std::make_unique<QuicVersionManager>(server_versions));

	// The endpoints should be unable to establish a connection.
	server_endpoint_->Connect(&server_transport_);
	client_endpoint_->Connect(&client_transport_);

	// Note that the error is reported from the client and not the server. The
	// server sees an invalid version, sends a version negotiation packet, and
	// never gets a response, because the client stops sending when it can't find
	// a mutually supported versions.
	ASSERT_TRUE(simulator_.RunUntil([this] {
	return client_endpoint_delegate_.session() != nullptr &&
	client_endpoint_delegate_.session()->error() != QUIC_NO_ERROR;
	}));
	EXPECT_EQ(client_endpoint_delegate_.session()->error(), QUIC_INVALID_VERSION);
	}

	// Tests that the client endpoint can create a new session in order to continue
	// version negotiation.
	TEST_F(QuartcEndpointTest,
	QUIC_TEST_DISABLED_IN_CHROME(CreatesNewSessionWhenRequired)) {
	// Reset the client endpoint to prefer version 46 but also be capable of
	// speaking version 43.
	ParsedQuicVersionVector client_versions;
	client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_46});
	client_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
	client_endpoint_ = std::make_unique<QuartcClientEndpoint>(
	simulator_.GetAlarmFactory(), simulator_.GetClock(),
	simulator_.GetRandomGenerator(), &client_endpoint_delegate_,
	QuartcSessionConfig(),
	/serialized_server_config=/"",
	std::make_unique<QuicVersionManager>(client_versions));

	// Reset the server endpoint to only speak version 43.
	ParsedQuicVersionVector server_versions;
	server_versions.push_back({PROTOCOL_QUIC_CRYPTO, QUIC_VERSION_43});
	server_endpoint_ = std::make_unique<QuartcServerEndpoint>(
	simulator_.GetAlarmFactory(), simulator_.GetClock(),
	simulator_.GetRandomGenerator(), &server_endpoint_delegate_,
	QuartcSessionConfig(),
	std::make_unique<QuicVersionManager>(server_versions));

	// The endpoints should be able to establish a connection using version 46.
	server_endpoint_->Connect(&server_transport_);
	client_endpoint_->Connect(&client_transport_);

	ASSERT_TRUE(simulator_.RunUntil([this] {
	return client_endpoint_delegate_.session() != nullptr &&
	client_endpoint_delegate_.session()->IsEncryptionEstablished() &&
	server_endpoint_delegate_.session() != nullptr &&
	server_endpoint_delegate_.session()->IsEncryptionEstablished();
	}));
	EXPECT_EQ(client_endpoint_delegate_.session()->connection()->version(),
	server_versions[0]);
	EXPECT_EQ(server_endpoint_delegate_.session()->connection()->version(),
	server_versions[0]);

	EXPECT_EQ(2, client_endpoint_delegate_.num_sessions_created());
	}

	} // namespace
	} // namespace quic