// Copyright 2012 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/socket/tcp_server_socket.h" #include #include #include #include "base/compiler_specific.h" #include "base/memory/ref_counted.h" #include "net/base/address_list.h" #include "net/base/io_buffer.h" #include "net/base/ip_address.h" #include "net/base/ip_endpoint.h" #include "net/base/net_errors.h" #include "net/base/test_completion_callback.h" #include "net/log/net_log_source.h" #include "net/socket/tcp_client_socket.h" #include "net/test/gtest_util.h" #include "net/test/test_with_task_environment.h" #include "net/traffic_annotation/network_traffic_annotation_test_helper.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" #include "testing/platform_test.h" using net::test::IsError; using net::test::IsOk; namespace net { namespace { const int kListenBacklog = 5; class TCPServerSocketTest : public PlatformTest, public WithTaskEnvironment { protected: TCPServerSocketTest() : socket_(nullptr, NetLogSource()) {} void SetUpIPv4() { IPEndPoint address(IPAddress::IPv4Localhost(), 0); ASSERT_THAT( socket_.Listen(address, kListenBacklog, /*ipv6_only=*/std::nullopt), IsOk()); ASSERT_THAT(socket_.GetLocalAddress(&local_address_), IsOk()); } void SetUpIPv6(bool* success) { *success = false; IPEndPoint address(IPAddress::IPv6Localhost(), 0); if (socket_.Listen(address, kListenBacklog, /*ipv6_only=*/std::nullopt) != 0) { LOG(ERROR) << "Failed to listen on ::1 - probably because IPv6 is " "disabled. Skipping the test"; return; } ASSERT_THAT(socket_.GetLocalAddress(&local_address_), IsOk()); *success = true; } void SetUpIPv6AllInterfaces(bool ipv6_only) { IPEndPoint address(IPAddress::IPv6AllZeros(), 0); ASSERT_THAT(socket_.Listen(address, kListenBacklog, ipv6_only), IsOk()); ASSERT_THAT(socket_.GetLocalAddress(&local_address_), IsOk()); } static IPEndPoint GetPeerAddress(StreamSocket* socket) { IPEndPoint address; EXPECT_THAT(socket->GetPeerAddress(&address), IsOk()); return address; } AddressList local_address_list() const { return AddressList(local_address_); } TCPServerSocket socket_; IPEndPoint local_address_; }; TEST_F(TCPServerSocketTest, Accept) { ASSERT_NO_FATAL_FAILURE(SetUpIPv4()); TestCompletionCallback connect_callback; TCPClientSocket connecting_socket(local_address_list(), nullptr, nullptr, nullptr, NetLogSource()); int connect_result = connecting_socket.Connect(connect_callback.callback()); TestCompletionCallback accept_callback; std::unique_ptr accepted_socket; IPEndPoint peer_address; int result = socket_.Accept(&accepted_socket, accept_callback.callback(), &peer_address); result = accept_callback.GetResult(result); ASSERT_THAT(result, IsOk()); ASSERT_TRUE(accepted_socket.get() != nullptr); // |peer_address| should be correctly populated. EXPECT_EQ(peer_address.address(), local_address_.address()); // Both sockets should be on the loopback network interface. EXPECT_EQ(GetPeerAddress(accepted_socket.get()).address(), local_address_.address()); EXPECT_THAT(connect_callback.GetResult(connect_result), IsOk()); } // Test Accept() callback. TEST_F(TCPServerSocketTest, AcceptAsync) { ASSERT_NO_FATAL_FAILURE(SetUpIPv4()); TestCompletionCallback accept_callback; std::unique_ptr accepted_socket; IPEndPoint peer_address; ASSERT_THAT(socket_.Accept(&accepted_socket, accept_callback.callback(), &peer_address), IsError(ERR_IO_PENDING)); TestCompletionCallback connect_callback; TCPClientSocket connecting_socket(local_address_list(), nullptr, nullptr, nullptr, NetLogSource()); int connect_result = connecting_socket.Connect(connect_callback.callback()); EXPECT_THAT(connect_callback.GetResult(connect_result), IsOk()); EXPECT_THAT(accept_callback.WaitForResult(), IsOk()); EXPECT_TRUE(accepted_socket != nullptr); // |peer_address| should be correctly populated. EXPECT_EQ(peer_address.address(), local_address_.address()); // Both sockets should be on the loopback network interface. EXPECT_EQ(GetPeerAddress(accepted_socket.get()).address(), local_address_.address()); } // Test Accept() when client disconnects right after trying to connect. TEST_F(TCPServerSocketTest, AcceptClientDisconnectAfterConnect) { ASSERT_NO_FATAL_FAILURE(SetUpIPv4()); TestCompletionCallback accept_callback; std::unique_ptr accepted_socket; IPEndPoint peer_address; TestCompletionCallback connect_callback; TCPClientSocket connecting_socket(local_address_list(), nullptr, nullptr, nullptr, NetLogSource()); int connect_result = connecting_socket.Connect(connect_callback.callback()); EXPECT_THAT(connect_callback.GetResult(connect_result), IsOk()); int accept_result = socket_.Accept(&accepted_socket, accept_callback.callback(), &peer_address); connecting_socket.Disconnect(); EXPECT_THAT(accept_callback.GetResult(accept_result), IsOk()); EXPECT_TRUE(accepted_socket != nullptr); // |peer_address| should be correctly populated. EXPECT_EQ(peer_address.address(), local_address_.address()); } // Accept two connections simultaneously. TEST_F(TCPServerSocketTest, Accept2Connections) { ASSERT_NO_FATAL_FAILURE(SetUpIPv4()); TestCompletionCallback accept_callback; std::unique_ptr accepted_socket; IPEndPoint peer_address; ASSERT_EQ(ERR_IO_PENDING, socket_.Accept(&accepted_socket, accept_callback.callback(), &peer_address)); TestCompletionCallback connect_callback; TCPClientSocket connecting_socket(local_address_list(), nullptr, nullptr, nullptr, NetLogSource()); int connect_result = connecting_socket.Connect(connect_callback.callback()); TestCompletionCallback connect_callback2; TCPClientSocket connecting_socket2(local_address_list(), nullptr, nullptr, nullptr, NetLogSource()); int connect_result2 = connecting_socket2.Connect(connect_callback2.callback()); EXPECT_THAT(accept_callback.WaitForResult(), IsOk()); TestCompletionCallback accept_callback2; std::unique_ptr accepted_socket2; IPEndPoint peer_address2; int result = socket_.Accept(&accepted_socket2, accept_callback2.callback(), &peer_address2); result = accept_callback2.GetResult(result); ASSERT_THAT(result, IsOk()); EXPECT_THAT(connect_callback.GetResult(connect_result), IsOk()); EXPECT_THAT(connect_callback2.GetResult(connect_result2), IsOk()); EXPECT_TRUE(accepted_socket != nullptr); EXPECT_TRUE(accepted_socket2 != nullptr); EXPECT_NE(accepted_socket.get(), accepted_socket2.get()); EXPECT_EQ(peer_address.address(), local_address_.address()); EXPECT_EQ(GetPeerAddress(accepted_socket.get()).address(), local_address_.address()); EXPECT_EQ(peer_address2.address(), local_address_.address()); EXPECT_EQ(GetPeerAddress(accepted_socket2.get()).address(), local_address_.address()); } TEST_F(TCPServerSocketTest, AcceptIPv6) { bool initialized = false; ASSERT_NO_FATAL_FAILURE(SetUpIPv6(&initialized)); if (!initialized) return; TestCompletionCallback connect_callback; TCPClientSocket connecting_socket(local_address_list(), nullptr, nullptr, nullptr, NetLogSource()); int connect_result = connecting_socket.Connect(connect_callback.callback()); TestCompletionCallback accept_callback; std::unique_ptr accepted_socket; IPEndPoint peer_address; int result = socket_.Accept(&accepted_socket, accept_callback.callback(), &peer_address); result = accept_callback.GetResult(result); ASSERT_THAT(result, IsOk()); ASSERT_TRUE(accepted_socket.get() != nullptr); // |peer_address| should be correctly populated. EXPECT_EQ(peer_address.address(), local_address_.address()); // Both sockets should be on the loopback network interface. EXPECT_EQ(GetPeerAddress(accepted_socket.get()).address(), local_address_.address()); EXPECT_THAT(connect_callback.GetResult(connect_result), IsOk()); } class TCPServerSocketTestWithIPv6Only : public TCPServerSocketTest, public testing::WithParamInterface { public: void AttemptToConnect(const IPAddress& dest_addr, bool should_succeed) { TCPClientSocket connecting_socket( AddressList(IPEndPoint(dest_addr, local_address_.port())), nullptr, nullptr, nullptr, NetLogSource()); TestCompletionCallback connect_cb; int connect_result = connecting_socket.Connect(connect_cb.callback()); if (!should_succeed) { connect_result = connect_cb.GetResult(connect_result); ASSERT_EQ(connect_result, net::ERR_CONNECTION_REFUSED); return; } std::unique_ptr accepted_socket; IPEndPoint peer_address; TestCompletionCallback accept_cb; int accept_result = socket_.Accept(&accepted_socket, accept_cb.callback(), &peer_address); ASSERT_EQ(accept_cb.GetResult(accept_result), net::OK); ASSERT_EQ(connect_cb.GetResult(connect_result), net::OK); // |accepted_socket| should be available. ASSERT_NE(accepted_socket.get(), nullptr); // |peer_address| should be correctly populated. if (peer_address.address().IsIPv4MappedIPv6()) { ASSERT_EQ(ConvertIPv4MappedIPv6ToIPv4(peer_address.address()), dest_addr); } else { ASSERT_EQ(peer_address.address(), dest_addr); } } }; TEST_P(TCPServerSocketTestWithIPv6Only, AcceptIPv6Only) { const bool ipv6_only = GetParam(); ASSERT_NO_FATAL_FAILURE(SetUpIPv6AllInterfaces(ipv6_only)); ASSERT_FALSE(local_address_list().empty()); // 127.0.0.1 succeeds when |ipv6_only| is false and vice versa. AttemptToConnect(IPAddress::IPv4Localhost(), /*should_succeed=*/!ipv6_only); // ::1 succeeds regardless of |ipv6_only|. AttemptToConnect(IPAddress::IPv6Localhost(), /*should_succeed=*/true); } INSTANTIATE_TEST_SUITE_P(All, TCPServerSocketTestWithIPv6Only, testing::Bool()); TEST_F(TCPServerSocketTest, AcceptIO) { ASSERT_NO_FATAL_FAILURE(SetUpIPv4()); TestCompletionCallback connect_callback; TCPClientSocket connecting_socket(local_address_list(), nullptr, nullptr, nullptr, NetLogSource()); int connect_result = connecting_socket.Connect(connect_callback.callback()); TestCompletionCallback accept_callback; std::unique_ptr accepted_socket; IPEndPoint peer_address; int result = socket_.Accept(&accepted_socket, accept_callback.callback(), &peer_address); ASSERT_THAT(accept_callback.GetResult(result), IsOk()); ASSERT_TRUE(accepted_socket.get() != nullptr); // |peer_address| should be correctly populated. EXPECT_EQ(peer_address.address(), local_address_.address()); // Both sockets should be on the loopback network interface. EXPECT_EQ(GetPeerAddress(accepted_socket.get()).address(), local_address_.address()); EXPECT_THAT(connect_callback.GetResult(connect_result), IsOk()); const std::string message("test message"); std::vector buffer(message.size()); size_t bytes_written = 0; while (bytes_written < message.size()) { scoped_refptr write_buffer = base::MakeRefCounted(message.size() - bytes_written); memmove(write_buffer->data(), message.data(), message.size()); TestCompletionCallback write_callback; int write_result = accepted_socket->Write( write_buffer.get(), write_buffer->size(), write_callback.callback(), TRAFFIC_ANNOTATION_FOR_TESTS); write_result = write_callback.GetResult(write_result); ASSERT_TRUE(write_result >= 0); ASSERT_TRUE(bytes_written + write_result <= message.size()); bytes_written += write_result; } size_t bytes_read = 0; while (bytes_read < message.size()) { scoped_refptr read_buffer = base::MakeRefCounted(message.size() - bytes_read); TestCompletionCallback read_callback; int read_result = connecting_socket.Read( read_buffer.get(), read_buffer->size(), read_callback.callback()); read_result = read_callback.GetResult(read_result); ASSERT_TRUE(read_result >= 0); ASSERT_TRUE(bytes_read + read_result <= message.size()); memmove(&buffer[bytes_read], read_buffer->data(), read_result); bytes_read += read_result; } std::string received_message(buffer.begin(), buffer.end()); ASSERT_EQ(message, received_message); } } // namespace } // namespace net