// SPDX-License-Identifier: MPL-2.0 #include #include #include "test.h" static struct sockaddr_nl sk_addr = { .nl_family = AF_NETLINK }; #define C_PORT 1001 #define S_PORT 1002 static int sk_unbound; static int sk_bound; static int sk_connected; FN_SETUP(unbound) { sk_unbound = CHECK( socket(PF_NETLINK, SOCK_DGRAM | SOCK_NONBLOCK, NETLINK_ROUTE)); } END_SETUP() FN_SETUP(bound) { sk_bound = CHECK( socket(PF_NETLINK, SOCK_DGRAM | SOCK_NONBLOCK, NETLINK_ROUTE)); sk_addr.nl_pid = C_PORT; CHECK(bind(sk_bound, (struct sockaddr *)&sk_addr, sizeof(sk_addr))); } END_SETUP() FN_SETUP(connected) { sk_connected = CHECK( socket(PF_NETLINK, SOCK_DGRAM | SOCK_NONBLOCK, NETLINK_ROUTE)); sk_addr.nl_pid = S_PORT; CHECK(connect(sk_connected, (struct sockaddr *)&sk_addr, sizeof(sk_addr))); } END_SETUP() FN_TEST(getsockname) { struct sockaddr_nl saddr = { .nl_pid = 0xbeef }; struct sockaddr *psaddr = (struct sockaddr *)&saddr; socklen_t addrlen = 0; TEST_RES(getsockname(sk_unbound, psaddr, &addrlen), addrlen == sizeof(saddr) && saddr.nl_pid == 0xbeef); TEST_RES(getsockname(sk_unbound, psaddr, &addrlen), addrlen == sizeof(saddr) && saddr.nl_pid == 0); TEST_RES(getsockname(sk_bound, psaddr, &addrlen), addrlen == sizeof(saddr) && saddr.nl_pid == C_PORT); TEST_RES(getsockname(sk_connected, psaddr, &addrlen), addrlen == sizeof(saddr) && saddr.nl_pid != C_PORT); } END_TEST() FN_TEST(getpeername) { struct sockaddr_nl saddr = { .nl_pid = 0xbeef }; struct sockaddr *psaddr = (struct sockaddr *)&saddr; socklen_t addrlen = sizeof(saddr); TEST_RES(getpeername(sk_unbound, psaddr, &addrlen), addrlen == sizeof(saddr) && saddr.nl_pid == 0); TEST_RES(getpeername(sk_bound, psaddr, &addrlen), addrlen == sizeof(saddr) && saddr.nl_pid == 0); TEST_RES(getpeername(sk_connected, psaddr, &addrlen), addrlen == sizeof(saddr) && saddr.nl_pid == S_PORT); } END_TEST() FN_TEST(send) { char buf[1] = { 'z' }; TEST_RES(send(sk_bound, buf, 1, 0), 1); TEST_ERRNO(send(sk_connected, buf, 1, 0), ECONNREFUSED); } END_TEST() FN_TEST(recv) { char buf[1] = { 'z' }; TEST_ERRNO(recv(sk_unbound, buf, 1, 0), EAGAIN); TEST_ERRNO(recv(sk_bound, buf, 1, 0), EAGAIN); TEST_ERRNO(recv(sk_connected, buf, 1, 0), EAGAIN); } END_TEST() FN_TEST(bind) { struct sockaddr *psaddr = (struct sockaddr *)&sk_addr; socklen_t addrlen = sizeof(sk_addr); TEST_ERRNO(bind(sk_unbound, psaddr, addrlen - 1), EINVAL); TEST_ERRNO(bind(sk_bound, psaddr, addrlen), EINVAL); TEST_ERRNO(bind(sk_connected, psaddr, addrlen), EINVAL); } END_TEST() FN_TEST(listen) { TEST_ERRNO(listen(sk_unbound, 2), EOPNOTSUPP); TEST_ERRNO(listen(sk_bound, 2), EOPNOTSUPP); TEST_ERRNO(listen(sk_connected, 2), EOPNOTSUPP); } END_TEST() FN_TEST(accept) { struct sockaddr_nl saddr; struct sockaddr *psaddr = (struct sockaddr *)&saddr; socklen_t addrlen = sizeof(saddr); TEST_ERRNO(accept(sk_unbound, psaddr, &addrlen), EOPNOTSUPP); TEST_ERRNO(accept(sk_bound, psaddr, &addrlen), EOPNOTSUPP); TEST_ERRNO(accept(sk_connected, psaddr, &addrlen), EOPNOTSUPP); } END_TEST() FN_TEST(poll) { struct pollfd pfd = { .events = POLLIN | POLLOUT }; pfd.fd = sk_unbound; TEST_RES(poll(&pfd, 1, 0), (pfd.revents & (POLLIN | POLLOUT)) == POLLOUT); pfd.fd = sk_bound; TEST_RES(poll(&pfd, 1, 0), (pfd.revents & (POLLIN | POLLOUT)) == POLLOUT); pfd.fd = sk_connected; TEST_RES(poll(&pfd, 1, 0), (pfd.revents & (POLLIN | POLLOUT)) == POLLOUT); } END_TEST() FN_TEST(connect) { struct sockaddr *psaddr = (struct sockaddr *)&sk_addr; socklen_t addrlen = sizeof(sk_addr); TEST_SUCC(connect(sk_connected, psaddr, addrlen)); } END_TEST()