/* SPDX-License-Identifier: MPL-2.0 */ #include #include "../tests/testutil.hpp" #include "../unittests/unittest_resolver_common.hpp" #include #include void setUp () { } void tearDown () { } // Test an UDP address resolution. If 'dest_addr_' is NULL assume the // resolution is supposed to fail. static void test_resolve (bool bind_, int family_, const char *name_, const char *target_addr_, uint16_t expected_port_, const char *bind_addr_, bool multicast_) { if (family_ == AF_INET6 && !is_ipv6_available ()) { TEST_IGNORE_MESSAGE ("ipv6 is not available"); } zmq::udp_address_t addr; int rc = addr.resolve (name_, bind_, family_ == AF_INET6); if (target_addr_ == NULL) { TEST_ASSERT_EQUAL (-1, rc); TEST_ASSERT_EQUAL (EINVAL, errno); return; } TEST_ASSERT_EQUAL (0, rc); TEST_ASSERT_EQUAL (multicast_, addr.is_mcast ()); if (bind_addr_ == NULL) { // Bind ANY if (family_ == AF_INET) { bind_addr_ = "0.0.0.0"; } else { bind_addr_ = "::"; } } validate_address (family_, addr.target_addr (), target_addr_, expected_port_); validate_address (family_, addr.bind_addr (), bind_addr_, expected_port_); } static void test_resolve_bind (int family_, const char *name_, const char *dest_addr_, uint16_t expected_port_ = 0, const char *bind_addr_ = NULL, bool multicast_ = false) { test_resolve (true, family_, name_, dest_addr_, expected_port_, bind_addr_, multicast_); } static void test_resolve_connect (int family_, const char *name_, const char *dest_addr_, uint16_t expected_port_ = 0, const char *bind_addr_ = NULL, bool multicast_ = false) { test_resolve (false, family_, name_, dest_addr_, expected_port_, bind_addr_, multicast_); } static void test_resolve_ipv4_simple () { test_resolve_connect (AF_INET, "127.0.0.1:5555", "127.0.0.1", 5555); } static void test_resolve_ipv6_simple () { test_resolve_connect (AF_INET6, "[::1]:123", "::1", 123); } static void test_resolve_ipv4_bind () { test_resolve_bind (AF_INET, "127.0.0.1:5555", "127.0.0.1", 5555, "127.0.0.1"); } static void test_resolve_ipv6_bind () { test_resolve_bind (AF_INET6, "[abcd::1234:1]:5555", "abcd::1234:1", 5555, "abcd::1234:1"); } static void test_resolve_ipv4_bind_any () { test_resolve_bind (AF_INET, "*:*", "0.0.0.0", 0, "0.0.0.0"); } static void test_resolve_ipv6_bind_any () { test_resolve_bind (AF_INET6, "*:*", "::", 0, "::"); } static void test_resolve_ipv4_bind_anyport () { test_resolve_bind (AF_INET, "127.0.0.1:*", "127.0.0.1", 0, "127.0.0.1"); } static void test_resolve_ipv6_bind_anyport () { test_resolve_bind (AF_INET6, "[1:2:3:4::5]:*", "1:2:3:4::5", 0, "1:2:3:4::5"); } static void test_resolve_ipv4_bind_any_port () { test_resolve_bind (AF_INET, "*:5555", "0.0.0.0", 5555, "0.0.0.0"); } static void test_resolve_ipv6_bind_any_port () { test_resolve_bind (AF_INET6, "*:5555", "::", 5555, "::"); } static void test_resolve_ipv4_connect_any () { // Cannot use wildcard for connection test_resolve_connect (AF_INET, "*:5555", NULL); } static void test_resolve_ipv6_connect_any () { // Cannot use wildcard for connection test_resolve_connect (AF_INET6, "*:5555", NULL); } static void test_resolve_ipv4_connect_anyport () { test_resolve_connect (AF_INET, "127.0.0.1:*", NULL); } static void test_resolve_ipv6_connect_anyport () { test_resolve_connect (AF_INET6, "[::1]:*", NULL); } static void test_resolve_ipv4_connect_port0 () { test_resolve_connect (AF_INET, "127.0.0.1:0", "127.0.0.1", 0); } static void test_resolve_ipv6_connect_port0 () { test_resolve_connect (AF_INET6, "[2000:abcd::1]:0", "2000:abcd::1", 0); } static void test_resolve_ipv4_bind_mcast () { test_resolve_bind (AF_INET, "239.0.0.1:1234", "239.0.0.1", 1234, "0.0.0.0", true); } static void test_resolve_ipv6_bind_mcast () { test_resolve_bind (AF_INET6, "[ff00::1]:1234", "ff00::1", 1234, "::", true); } static void test_resolve_ipv4_connect_mcast () { test_resolve_connect (AF_INET, "239.0.0.1:2222", "239.0.0.1", 2222, NULL, true); } static void test_resolve_ipv6_connect_mcast () { test_resolve_connect (AF_INET6, "[ff00::1]:2222", "ff00::1", 2222, NULL, true); } static void test_resolve_ipv4_mcast_src_bind () { test_resolve_bind (AF_INET, "127.0.0.1;230.2.8.12:5555", "230.2.8.12", 5555, "127.0.0.1", true); } static void test_resolve_ipv6_mcast_src_bind () { if (!is_ipv6_available ()) { TEST_IGNORE_MESSAGE ("ipv6 is not available"); } zmq::udp_address_t addr; int rc = addr.resolve ("[::1];[ffab::4]:5555", true, true); // For the time being this fails because we only support binding multicast // by interface name, not interface IP TEST_ASSERT_EQUAL (-1, rc); TEST_ASSERT_EQUAL (ENODEV, errno); } static void test_resolve_ipv4_mcast_src_bind_any () { test_resolve_bind (AF_INET, "*;230.2.8.12:5555", "230.2.8.12", 5555, "0.0.0.0", true); } static void test_resolve_ipv6_mcast_src_bind_any () { test_resolve_bind (AF_INET6, "*;[ffff::]:5555", "ffff::", 5555, "::", true); } static void test_resolve_ipv4_mcast_src_connect () { test_resolve_connect (AF_INET, "8.9.10.11;230.2.8.12:5555", "230.2.8.12", 5555, "8.9.10.11", true); } static void test_resolve_ipv6_mcast_src_connect () { if (!is_ipv6_available ()) { TEST_IGNORE_MESSAGE ("ipv6 is not available"); } zmq::udp_address_t addr; int rc = addr.resolve ("[1:2:3::4];[ff01::1]:5555", false, true); // For the time being this fails because we only support binding multicast // by interface name, not interface IP TEST_ASSERT_EQUAL (-1, rc); TEST_ASSERT_EQUAL (ENODEV, errno); } static void test_resolve_ipv4_mcast_src_connect_any () { test_resolve_connect (AF_INET, "*;230.2.8.12:5555", "230.2.8.12", 5555, "0.0.0.0", true); } static void test_resolve_ipv6_mcast_src_connect_any () { test_resolve_connect (AF_INET6, "*;[ff10::1]:5555", "ff10::1", 5555, "::", true); } static void test_resolve_ipv4_mcast_src_bind_bad () { test_resolve_bind (AF_INET, "127.0.0.1;1.2.3.4:5555", NULL); } static void test_resolve_ipv6_mcast_src_bind_bad () { test_resolve_bind (AF_INET6, "[::1];[fe00::1]:5555", NULL); } static void test_resolve_ipv4_mcast_src_connect_bad () { test_resolve_connect (AF_INET, "127.0.0.1;1.2.3.4:5555", NULL); } static void test_resolve_ipv6_mcast_src_connect_bad () { test_resolve_connect (AF_INET6, "[::1];[fe00:1]:5555", NULL); } int main (void) { zmq::initialize_network (); setup_test_environment (); UNITY_BEGIN (); RUN_TEST (test_resolve_ipv4_simple); RUN_TEST (test_resolve_ipv6_simple); RUN_TEST (test_resolve_ipv4_bind); RUN_TEST (test_resolve_ipv6_bind); RUN_TEST (test_resolve_ipv4_bind_any); RUN_TEST (test_resolve_ipv6_bind_any); RUN_TEST (test_resolve_ipv4_bind_anyport); RUN_TEST (test_resolve_ipv6_bind_anyport); RUN_TEST (test_resolve_ipv4_bind_any_port); RUN_TEST (test_resolve_ipv6_bind_any_port); RUN_TEST (test_resolve_ipv4_connect_any); RUN_TEST (test_resolve_ipv6_connect_any); RUN_TEST (test_resolve_ipv4_connect_anyport); RUN_TEST (test_resolve_ipv6_connect_anyport); RUN_TEST (test_resolve_ipv4_connect_port0); RUN_TEST (test_resolve_ipv6_connect_port0); RUN_TEST (test_resolve_ipv4_bind_mcast); RUN_TEST (test_resolve_ipv6_bind_mcast); RUN_TEST (test_resolve_ipv4_connect_mcast); RUN_TEST (test_resolve_ipv6_connect_mcast); RUN_TEST (test_resolve_ipv4_mcast_src_bind); RUN_TEST (test_resolve_ipv6_mcast_src_bind); RUN_TEST (test_resolve_ipv4_mcast_src_bind_any); RUN_TEST (test_resolve_ipv6_mcast_src_bind_any); RUN_TEST (test_resolve_ipv4_mcast_src_connect); RUN_TEST (test_resolve_ipv6_mcast_src_connect); RUN_TEST (test_resolve_ipv4_mcast_src_connect_any); RUN_TEST (test_resolve_ipv6_mcast_src_connect_any); RUN_TEST (test_resolve_ipv4_mcast_src_bind_bad); RUN_TEST (test_resolve_ipv6_mcast_src_bind_bad); RUN_TEST (test_resolve_ipv4_mcast_src_connect_bad); RUN_TEST (test_resolve_ipv6_mcast_src_connect_bad); zmq::shutdown_network (); return UNITY_END (); }