// This file Copyright (C) 2013-2022 Mnemosyne LLC. // It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only), // or any future license endorsed by Mnemosyne LLC. // License text can be found in the licenses/ folder. #include #include #include #include #include #include #include "test-fixtures.h" using NetTest = ::testing::Test; using namespace std::literals; TEST_F(NetTest, conversionsIPv4) { auto constexpr Port = tr_port::fromHost(80); auto constexpr AddrStr = "127.0.0.1"sv; auto addr = tr_address::from_string(AddrStr); EXPECT_TRUE(addr.has_value()); assert(addr.has_value()); EXPECT_EQ(AddrStr, addr->display_name()); auto [ss, sslen] = addr->to_sockaddr(Port); EXPECT_EQ(AF_INET, ss.ss_family); EXPECT_EQ(Port.network(), reinterpret_cast(&ss)->sin_port); auto addrport = tr_address::from_sockaddr(reinterpret_cast(&ss)); ASSERT_TRUE(addrport.has_value()); assert(addrport.has_value()); EXPECT_EQ(addr, addrport->first); EXPECT_EQ(Port, addrport->second); } TEST_F(NetTest, trAddress) { EXPECT_EQ("0.0.0.0", tr_address::any_ipv4().display_name()); EXPECT_EQ("::", tr_address::any_ipv6().display_name()); } TEST_F(NetTest, compact4) { static auto constexpr ExpectedReadable = "10.10.10.5"sv; static auto constexpr ExpectedPort = tr_port::fromHost(128); static auto constexpr Compact4 = std::array{ std::byte{ 0x0A }, std::byte{ 0x0A }, std::byte{ 0x0A }, std::byte{ 0x05 }, std::byte{ 0x00 }, std::byte{ 0x80 } }; /// compact <--> tr_address, port // extract the address and port from a compact stream... auto in = std::data(Compact4); auto addr = tr_address{}; auto port = tr_port{}; std::tie(addr, in) = tr_address::from_compact_ipv4(in); std::tie(port, in) = tr_port::fromCompact(in); EXPECT_EQ(std::data(Compact4) + std::size(Compact4), in); EXPECT_EQ(ExpectedReadable, addr.display_name()); EXPECT_EQ(ExpectedPort, port); // ...serialize it back again auto compact4 = std::array{}; auto out = std::data(compact4); out = addr.to_compact_ipv4(out, port); EXPECT_EQ(std::size(Compact4), static_cast(out - std::data(compact4))); EXPECT_EQ(Compact4, compact4); /// sockaddr --> compact auto [ss, sslen] = addr.to_sockaddr(port); std::fill(std::begin(compact4), std::end(compact4), std::byte{}); out = std::data(compact4); out = tr_address::to_compact(out, &ss); EXPECT_EQ(out, std::data(compact4) + std::size(compact4)); EXPECT_EQ(Compact4, compact4); /// compact <--> tr_pex // extract them into a tr_pex struct... auto const pex = tr_pex::from_compact_ipv4(std::data(compact4), std::size(compact4), nullptr, 0U); ASSERT_EQ(1U, std::size(pex)); EXPECT_EQ(addr, pex.front().addr); EXPECT_EQ(port, pex.front().port); // ...serialize that back again too std::fill(std::begin(compact4), std::end(compact4), std::byte{}); out = std::data(compact4); out = tr_pex::to_compact_ipv4(out, std::data(pex), std::size(pex)); EXPECT_EQ(std::data(compact4) + std::size(compact4), out); EXPECT_EQ(Compact4, compact4); } TEST_F(NetTest, compact6) { static auto constexpr ExpectedReadable = "1002:1035:4527:3546:7854:1237:3247:3217"sv; static auto constexpr ExpectedPort = tr_port::fromHost(6881); static auto constexpr Compact6 = std::array{ std::byte{ 0x10 }, std::byte{ 0x02 }, std::byte{ 0x10 }, std::byte{ 0x35 }, std::byte{ 0x45 }, std::byte{ 0x27 }, std::byte{ 0x35 }, std::byte{ 0x46 }, std::byte{ 0x78 }, std::byte{ 0x54 }, std::byte{ 0x12 }, std::byte{ 0x37 }, std::byte{ 0x32 }, std::byte{ 0x47 }, std::byte{ 0x32 }, std::byte{ 0x17 }, std::byte{ 0x1A }, std::byte{ 0xE1 } }; /// compact <--> tr_address, tr_port // extract the address and port from a compact stream... auto in = std::data(Compact6); auto addr = tr_address{}; auto port = tr_port{}; std::tie(addr, in) = tr_address::from_compact_ipv6(in); std::tie(port, in) = tr_port::fromCompact(in); EXPECT_EQ(std::data(Compact6) + std::size(Compact6), in); EXPECT_EQ(ExpectedReadable, addr.display_name()); EXPECT_EQ(ExpectedPort, port); // ...serialize it back again auto compact6 = std::array{}; auto out = std::data(compact6); out = addr.to_compact_ipv6(out, port); EXPECT_EQ(std::size(Compact6), static_cast(out - std::data(compact6))); EXPECT_EQ(Compact6, compact6); /// sockaddr --> compact auto [ss, sslen] = addr.to_sockaddr(port); std::fill(std::begin(compact6), std::end(compact6), std::byte{}); out = std::data(compact6); out = tr_address::to_compact(out, &ss); EXPECT_EQ(out, std::data(compact6) + std::size(compact6)); EXPECT_EQ(Compact6, compact6); /// compact <--> tr_pex // extract them into a tr_pex struct... auto const pex = tr_pex::from_compact_ipv6(std::data(compact6), std::size(compact6), nullptr, 0U); ASSERT_EQ(1U, std::size(pex)); EXPECT_EQ(addr, pex.front().addr); EXPECT_EQ(port, pex.front().port); // ...serialize that back again too std::fill(std::begin(compact6), std::end(compact6), std::byte{}); out = std::data(compact6); out = tr_pex::to_compact_ipv6(out, std::data(pex), std::size(pex)); EXPECT_EQ(std::data(compact6) + std::size(compact6), out); EXPECT_EQ(Compact6, compact6); } TEST_F(NetTest, isGlobalUnicastAddress) { static auto constexpr Tests = std::array, 17>{ { { "0.0.0.0"sv, false }, { "1.0.0.0"sv, true }, { "10.0.0.0"sv, false }, { "10.255.0.0"sv, false }, { "10.255.0.255"sv, false }, { "100.64.0.0"sv, false }, { "100.128.0.0"sv, true }, { "126.0.0.0"sv, true }, { "127.0.0.0"sv, true }, { "169.253.255.255"sv, true }, { "169.254.0.0"sv, false }, { "169.254.255.255"sv, false }, { "169.255.0.0"sv, true }, { "223.0.0.0"sv, true }, { "224.0.0.0"sv, false }, { "0:0:0:0:0:0:0:1", false }, { "2001:0:0eab:dead::a0:abcd:4e", true }, } }; for (auto const& [presentation, expected] : Tests) { auto const address = tr_address::from_string(presentation); EXPECT_TRUE(address.has_value()); assert(address.has_value()); EXPECT_EQ(expected, address->is_global_unicast_address()) << presentation; } } TEST_F(NetTest, globalIPv6) { auto const addr = tr_globalIPv6(); EXPECT_TRUE(!addr || addr->is_global_unicast_address()); }