/* * Copyright 2016 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "p2p/base/tcp_port.h" #include #include #include #include "p2p/base/basic_packet_socket_factory.h" #include "p2p/base/p2p_constants.h" #include "p2p/base/transport_description.h" #include "rtc_base/gunit.h" #include "rtc_base/helpers.h" #include "rtc_base/ip_address.h" #include "rtc_base/third_party/sigslot/sigslot.h" #include "rtc_base/thread.h" #include "rtc_base/time_utils.h" #include "rtc_base/virtual_socket_server.h" #include "test/gtest.h" using cricket::Connection; using cricket::ICE_PWD_LENGTH; using cricket::ICE_UFRAG_LENGTH; using cricket::Port; using cricket::TCPPort; using rtc::SocketAddress; static int kTimeout = 1000; static const SocketAddress kLocalAddr("11.11.11.11", 0); static const SocketAddress kLocalIPv6Addr("2401:fa00:4:1000:be30:5bff:fee5:c3", 0); static const SocketAddress kAlternateLocalAddr("1.2.3.4", 0); static const SocketAddress kRemoteAddr("22.22.22.22", 0); static const SocketAddress kRemoteIPv6Addr("2401:fa00:4:1000:be30:5bff:fee5:c4", 0); class ConnectionObserver : public sigslot::has_slots<> { public: explicit ConnectionObserver(Connection* conn) { conn->SignalDestroyed.connect(this, &ConnectionObserver::OnDestroyed); } bool connection_destroyed() { return connection_destroyed_; } private: void OnDestroyed(Connection*) { connection_destroyed_ = true; } bool connection_destroyed_ = false; }; class TCPPortTest : public ::testing::Test, public sigslot::has_slots<> { public: TCPPortTest() : ss_(new rtc::VirtualSocketServer()), main_(ss_.get()), socket_factory_(rtc::Thread::Current()), username_(rtc::CreateRandomString(ICE_UFRAG_LENGTH)), password_(rtc::CreateRandomString(ICE_PWD_LENGTH)) {} rtc::Network* MakeNetwork(const SocketAddress& addr) { networks_.emplace_back("unittest", "unittest", addr.ipaddr(), 32); networks_.back().AddIP(addr.ipaddr()); return &networks_.back(); } std::unique_ptr CreateTCPPort(const SocketAddress& addr) { return std::unique_ptr( TCPPort::Create(&main_, &socket_factory_, MakeNetwork(addr), 0, 0, username_, password_, true)); } std::unique_ptr CreateTCPPort(rtc::Network* network) { return std::unique_ptr(TCPPort::Create( &main_, &socket_factory_, network, 0, 0, username_, password_, true)); } protected: // When a "create port" helper method is called with an IP, we create a // Network with that IP and add it to this list. Using a list instead of a // vector so that when it grows, pointers aren't invalidated. std::list networks_; std::unique_ptr ss_; rtc::AutoSocketServerThread main_; rtc::BasicPacketSocketFactory socket_factory_; std::string username_; std::string password_; }; TEST_F(TCPPortTest, TestTCPPortWithLocalhostAddress) { SocketAddress local_address("127.0.0.1", 0); // After calling this, when TCPPort attempts to get a socket bound to // kLocalAddr, it will end up using localhost instead. ss_->SetAlternativeLocalAddress(kLocalAddr.ipaddr(), local_address.ipaddr()); auto local_port = CreateTCPPort(kLocalAddr); auto remote_port = CreateTCPPort(kRemoteAddr); local_port->PrepareAddress(); remote_port->PrepareAddress(); Connection* conn = local_port->CreateConnection(remote_port->Candidates()[0], Port::ORIGIN_MESSAGE); EXPECT_TRUE_WAIT(conn->connected(), kTimeout); // Verify that the socket actually used localhost, otherwise this test isn't // doing what it meant to. ASSERT_EQ(local_address.ipaddr(), local_port->Candidates()[0].address().ipaddr()); } // If the address the socket ends up bound to does not match any address of the // TCPPort's Network, then the socket should be discarded and no candidates // should be signaled. In the context of ICE, where one TCPPort is created for // each Network, when this happens it's likely that the unexpected address is // associated with some other Network, which another TCPPort is already // covering. TEST_F(TCPPortTest, TCPPortDiscardedIfBoundAddressDoesNotMatchNetwork) { // Sockets bound to kLocalAddr will actually end up with kAlternateLocalAddr. ss_->SetAlternativeLocalAddress(kLocalAddr.ipaddr(), kAlternateLocalAddr.ipaddr()); // Create ports (local_port is the one whose IP will end up reassigned). auto local_port = CreateTCPPort(kLocalAddr); auto remote_port = CreateTCPPort(kRemoteAddr); local_port->PrepareAddress(); remote_port->PrepareAddress(); // Tell port to create a connection; it should be destroyed when it's // realized that it's using an unexpected address. Connection* conn = local_port->CreateConnection(remote_port->Candidates()[0], Port::ORIGIN_MESSAGE); ConnectionObserver observer(conn); EXPECT_TRUE_WAIT(observer.connection_destroyed(), kTimeout); } // A caveat for the above logic: if the socket ends up bound to one of the IPs // associated with the Network, just not the "best" one, this is ok. TEST_F(TCPPortTest, TCPPortNotDiscardedIfNotBoundToBestIP) { // Sockets bound to kLocalAddr will actually end up with kAlternateLocalAddr. ss_->SetAlternativeLocalAddress(kLocalAddr.ipaddr(), kAlternateLocalAddr.ipaddr()); // Set up a network with kLocalAddr1 as the "best" IP, and kAlternateLocalAddr // as an alternate. rtc::Network* network = MakeNetwork(kLocalAddr); network->AddIP(kAlternateLocalAddr.ipaddr()); ASSERT_EQ(kLocalAddr.ipaddr(), network->GetBestIP()); // Create ports (using our special 2-IP Network for local_port). auto local_port = CreateTCPPort(network); auto remote_port = CreateTCPPort(kRemoteAddr); local_port->PrepareAddress(); remote_port->PrepareAddress(); // Expect connection to succeed. Connection* conn = local_port->CreateConnection(remote_port->Candidates()[0], Port::ORIGIN_MESSAGE); EXPECT_TRUE_WAIT(conn->connected(), kTimeout); // Verify that the socket actually used the alternate address, otherwise this // test isn't doing what it meant to. ASSERT_EQ(kAlternateLocalAddr.ipaddr(), local_port->Candidates()[0].address().ipaddr()); } // Regression test for crbug.com/webrtc/8972, caused by buggy comparison // between rtc::IPAddress and rtc::InterfaceAddress. TEST_F(TCPPortTest, TCPPortNotDiscardedIfBoundToTemporaryIP) { networks_.emplace_back("unittest", "unittest", kLocalIPv6Addr.ipaddr(), 32); networks_.back().AddIP(rtc::InterfaceAddress( kLocalIPv6Addr.ipaddr(), rtc::IPV6_ADDRESS_FLAG_TEMPORARY)); auto local_port = CreateTCPPort(&networks_.back()); auto remote_port = CreateTCPPort(kRemoteIPv6Addr); local_port->PrepareAddress(); remote_port->PrepareAddress(); // Connection should succeed if the port isn't discarded. Connection* conn = local_port->CreateConnection(remote_port->Candidates()[0], Port::ORIGIN_MESSAGE); ASSERT_NE(nullptr, conn); EXPECT_TRUE_WAIT(conn->connected(), kTimeout); } class SentPacketCounter : public sigslot::has_slots<> { public: explicit SentPacketCounter(TCPPort* p) { p->SignalSentPacket.connect(this, &SentPacketCounter::OnSentPacket); } int sent_packets() const { return sent_packets_; } private: void OnSentPacket(const rtc::SentPacket&) { ++sent_packets_; } int sent_packets_ = 0; }; // Test that SignalSentPacket is fired when a packet is successfully sent, for // both TCP client and server sockets. TEST_F(TCPPortTest, SignalSentPacket) { std::unique_ptr client(CreateTCPPort(kLocalAddr)); std::unique_ptr server(CreateTCPPort(kRemoteAddr)); client->SetIceRole(cricket::ICEROLE_CONTROLLING); server->SetIceRole(cricket::ICEROLE_CONTROLLED); client->PrepareAddress(); server->PrepareAddress(); Connection* client_conn = client->CreateConnection(server->Candidates()[0], Port::ORIGIN_MESSAGE); ASSERT_NE(nullptr, client_conn); ASSERT_TRUE_WAIT(client_conn->connected(), kTimeout); // Need to get the port of the actual outgoing socket, not the server socket.. cricket::Candidate client_candidate = client->Candidates()[0]; client_candidate.set_address(static_cast(client_conn) ->socket() ->GetLocalAddress()); Connection* server_conn = server->CreateConnection(client_candidate, Port::ORIGIN_THIS_PORT); ASSERT_NE(nullptr, server_conn); ASSERT_TRUE_WAIT(server_conn->connected(), kTimeout); client_conn->Ping(rtc::TimeMillis()); server_conn->Ping(rtc::TimeMillis()); ASSERT_TRUE_WAIT(client_conn->writable(), kTimeout); ASSERT_TRUE_WAIT(server_conn->writable(), kTimeout); SentPacketCounter client_counter(client.get()); SentPacketCounter server_counter(server.get()); static const char kData[] = "hello"; for (int i = 0; i < 10; ++i) { client_conn->Send(&kData, sizeof(kData), rtc::PacketOptions()); server_conn->Send(&kData, sizeof(kData), rtc::PacketOptions()); } EXPECT_EQ_WAIT(10, client_counter.sent_packets(), kTimeout); EXPECT_EQ_WAIT(10, server_counter.sent_packets(), kTimeout); }