/* * Copyright (c) 2021 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include namespace transport { namespace core { namespace { class PrefixTest : public ::testing::Test { protected: static inline const char prefix_str0[] = "2001:db8:1::/64"; static inline const char prefix_str1[] = "10.11.12.0/24"; static inline const char prefix_str2[] = "2001:db8:1::abcd/64"; static inline const char prefix_str3[] = "10.11.12.245/27"; static inline const char wrong_prefix_str0[] = "10.11.12.245/45"; static inline const char wrong_prefix_str1[] = "10.400.12.13/8"; static inline const char wrong_prefix_str2[] = "2001:db8:1::/640"; static inline const char wrong_prefix_str3[] = "20011::db8:1::/16"; static inline const char wrong_prefix_str4[] = "2001::db8:1::fffff/96"; PrefixTest() = default; ~PrefixTest() override = default; // If the constructor and destructor are not enough for setting up // and cleaning up each test, you can define the following methods: void SetUp() override { // Code here will be called immediately after the constructor (right // before each test). } void TearDown() override { // Code here will be called immediately after each test (right // before the destructor). } }; TEST_F(PrefixTest, ConstructorRightString) { // Create empty prefix Prefix p; // Create prefix from string Prefix p0(prefix_str0); // Reconstruct string and check it is equal to original address std::string network = p0.getNetwork(); std::uint16_t prefix_length = p0.getPrefixLength(); EXPECT_THAT(network + "/" + std::to_string(prefix_length), ::testing::StrEq(prefix_str0)); // Create prefix from string Prefix p1(prefix_str1); // Reconstruct string and check it is equal to original address network = p1.getNetwork(); prefix_length = p1.getPrefixLength(); EXPECT_THAT(network + "/" + std::to_string(prefix_length), ::testing::StrEq(prefix_str1)); // Create prefix from string Prefix p2(prefix_str2); // Reconstruct string and check it is equal to original address network = p2.getNetwork(); prefix_length = p2.getPrefixLength(); EXPECT_THAT(network + "/" + std::to_string(prefix_length), ::testing::StrEq(prefix_str2)); // Create prefix from string Prefix p3(prefix_str3); // Reconstruct string and check it is equal to original address network = p3.getNetwork(); prefix_length = p3.getPrefixLength(); EXPECT_THAT(network + "/" + std::to_string(prefix_length), ::testing::StrEq(prefix_str3)); // Create prefix from string and prefix length Prefix p4("2001::1234", 66); // Reconstruct string and check it is equal to original address network = p4.getNetwork(); prefix_length = p4.getPrefixLength(); auto af = p4.getAddressFamily(); EXPECT_THAT(network, ::testing::StrEq("2001::1234")); EXPECT_THAT(prefix_length, ::testing::Eq(66)); EXPECT_THAT(af, ::testing::Eq(AF_INET6)); } TEST_F(PrefixTest, ConstructorWrongString) { try { Prefix p0(wrong_prefix_str0); FAIL() << "Expected exception"; } catch (const errors::InvalidIpAddressException &) { // Expected exception } try { Prefix p1(wrong_prefix_str1); FAIL() << "Expected exception"; } catch (const errors::InvalidIpAddressException &) { // Expected exception } try { Prefix p2(wrong_prefix_str2); FAIL() << "Expected exception"; } catch (const errors::InvalidIpAddressException &) { // Expected exception } try { Prefix p3(wrong_prefix_str3); FAIL() << "Expected exception"; } catch (const errors::InvalidIpAddressException &) { // Expected exception } try { Prefix p4(wrong_prefix_str4); FAIL() << "Expected exception"; } catch (const errors::InvalidIpAddressException &) { // Expected exception } } TEST_F(PrefixTest, Comparison) { Prefix p0(prefix_str0); Prefix p1(prefix_str1); // Expect they are different EXPECT_THAT(p0, ::testing::Ne(p1)); auto p2 = p1; // Expect they are equal EXPECT_THAT(p1, ::testing::Eq(p2)); } TEST_F(PrefixTest, ToSockAddress) { Prefix p0(prefix_str3); auto ret = p0.toSockaddr(); auto sockaddr = reinterpret_cast(ret.get()); EXPECT_THAT(sockaddr->sin_family, ::testing::Eq(AF_INET)); EXPECT_THAT(sockaddr->sin_addr.s_addr, portability::host_to_net(0x0a0b0cf5)); } TEST_F(PrefixTest, GetPrefixLength) { Prefix p0(prefix_str3); EXPECT_THAT(p0.getPrefixLength(), ::testing::Eq(27)); } TEST_F(PrefixTest, SetPrefixLength) { Prefix p0(prefix_str3); EXPECT_THAT(p0.getPrefixLength(), ::testing::Eq(27)); p0.setPrefixLength(20); EXPECT_THAT(p0.getPrefixLength(), ::testing::Eq(20)); try { p0.setPrefixLength(33); FAIL() << "Expected exception"; } catch ([[maybe_unused]] const errors::InvalidIpAddressException &) { // Expected exception } } TEST_F(PrefixTest, SetGetNetwork) { Prefix p0(prefix_str0); EXPECT_THAT(p0.getPrefixLength(), ::testing::Eq(64)); p0.setNetwork("b001::1234"); EXPECT_THAT(p0.getNetwork(), ::testing::StrEq("b001::1234")); EXPECT_THAT(p0.getPrefixLength(), ::testing::Eq(64)); } TEST_F(PrefixTest, Contains) { // IPv6 prefix Prefix p0(prefix_str0); hicn_ip_address_t ip0, ip1; hicn_ip_address_pton("2001:db8:1::1234", &ip0); hicn_ip_address_pton("2001:db9:1::1234", &ip1); EXPECT_TRUE(p0.contains(ip0)); EXPECT_FALSE(p0.contains(ip1)); Prefix p1(prefix_str1); hicn_ip_address_pton("10.11.12.12", &ip0); hicn_ip_address_pton("10.12.12.13", &ip1); EXPECT_TRUE(p1.contains(ip0)); EXPECT_FALSE(p1.contains(ip1)); Prefix p2(prefix_str2); hicn_ip_address_pton("2001:db8:1::dbca", &ip0); hicn_ip_address_pton("10.12.12.12", &ip1); EXPECT_TRUE(p2.contains(ip0)); EXPECT_FALSE(p2.contains(ip1)); Prefix p3(prefix_str3); hicn_ip_address_pton("10.11.12.245", &ip0); hicn_ip_address_pton("10.11.12.1", &ip1); EXPECT_TRUE(p3.contains(ip0)); EXPECT_FALSE(p3.contains(ip1)); // Corner cases Prefix p4("::/0"); hicn_ip_address_pton("7001:db8:1::1234", &ip0); hicn_ip_address_pton("8001:db8:1::1234", &ip1); EXPECT_TRUE(p4.contains(ip0)); EXPECT_TRUE(p4.contains(ip1)); // Corner cases Prefix p5("b001:a:b:c:d:e:f:1/128"); hicn_ip_address_pton("b001:a:b:c:d:e:f:1", &ip0); hicn_ip_address_pton("b001:a:b:c:d:e:f:2", &ip1); EXPECT_TRUE(p5.contains(ip0)); EXPECT_FALSE(p5.contains(ip1)); } TEST_F(PrefixTest, GetAddressFamily) { Prefix p0(prefix_str0); auto af = p0.getAddressFamily(); EXPECT_THAT(af, ::testing::Eq(AF_INET6)); Prefix p1(prefix_str1); af = p1.getAddressFamily(); EXPECT_THAT(af, ::testing::Eq(AF_INET)); } TEST_F(PrefixTest, MakeName) { Prefix p0(prefix_str0); auto name0 = p0.makeName(); EXPECT_THAT(name0.toString(), ::testing::StrEq("2001:db8:1::|0")); Prefix p1(prefix_str1); auto name1 = p1.makeName(); EXPECT_THAT(name1.toString(), ::testing::StrEq("10.11.12.0|0")); Prefix p2(prefix_str2); auto name2 = p2.makeName(); EXPECT_THAT(name2.toString(), ::testing::StrEq("2001:db8:1::|0")); Prefix p3(prefix_str3); auto name3 = p3.makeName(); EXPECT_THAT(name3.toString(), ::testing::StrEq("10.11.12.224|0")); Prefix p4("b001:a:b:c:d:e:f:1/128"); auto name4 = p4.makeName(); EXPECT_THAT(name4.toString(), ::testing::StrEq("b001:a:b:c:d:e:f:1|0")); } TEST_F(PrefixTest, MakeRandomName) { Prefix p0(prefix_str0); auto name0 = p0.makeRandomName(); auto name1 = p0.makeRandomName(); auto name2 = p0.makeRandomName(); auto name3 = p0.makeRandomName(); EXPECT_THAT(name0, ::testing::Not(::testing::Eq(name1))); EXPECT_THAT(name0, ::testing::Not(::testing::Eq(name2))); EXPECT_THAT(name0, ::testing::Not(::testing::Eq(name3))); EXPECT_THAT(name1, ::testing::Not(::testing::Eq(name2))); EXPECT_THAT(name1, ::testing::Not(::testing::Eq(name3))); EXPECT_THAT(name2, ::testing::Not(::testing::Eq(name3))); // Corner case Prefix p2("b001:a:b:c:d:e:f:1/128"); name0 = p2.makeRandomName(); name1 = p2.makeRandomName(); name2 = p2.makeRandomName(); name3 = p2.makeRandomName(); EXPECT_THAT(name0, ::testing::Eq(name1)); EXPECT_THAT(name0, ::testing::Eq(name2)); EXPECT_THAT(name0, ::testing::Eq(name3)); EXPECT_THAT(name1, ::testing::Eq(name2)); EXPECT_THAT(name1, ::testing::Eq(name3)); EXPECT_THAT(name2, ::testing::Eq(name3)); } TEST_F(PrefixTest, MakeNameWithIndex) { Prefix p0(prefix_str0); auto name0 = p0.makeNameWithIndex(0); EXPECT_THAT(name0.toString(), ::testing::StrEq("2001:db8:1::|0")); auto name1 = p0.makeNameWithIndex(1); EXPECT_THAT(name1.toString(), ::testing::StrEq("2001:db8:1::1|0")); auto name2 = p0.makeNameWithIndex(2); EXPECT_THAT(name2.toString(), ::testing::StrEq("2001:db8:1::2|0")); auto name3 = p0.makeNameWithIndex(3); EXPECT_THAT(name3.toString(), ::testing::StrEq("2001:db8:1::3|0")); Prefix p1(prefix_str1); name0 = p1.makeNameWithIndex(0); EXPECT_THAT(name0.toString(), ::testing::StrEq("10.11.12.0|0")); name1 = p1.makeNameWithIndex(1); EXPECT_THAT(name1.toString(), ::testing::StrEq("10.11.12.1|0")); name2 = p1.makeNameWithIndex(2); EXPECT_THAT(name2.toString(), ::testing::StrEq("10.11.12.2|0")); name3 = p1.makeNameWithIndex(3); EXPECT_THAT(name3.toString(), ::testing::StrEq("10.11.12.3|0")); // Test truncation Prefix p2("b001::/96"); name0 = p2.makeNameWithIndex(0xffffffffffffffff); EXPECT_THAT(name0.toString(), ::testing::StrEq("b001::ffff:ffff|0")); } } // namespace } // namespace core } // namespace transport