// SPDX-License-Identifier: GPL-2.0 /* Copyright Amazon.com Inc. or its affiliates. */ #include #include #include #include #include #include #include #include #include "../../kselftest_harness.h" #define BUF_SZ 32 FIXTURE(msg_oob) { int fd[4]; /* 0: AF_UNIX sender * 1: AF_UNIX receiver * 2: TCP sender * 3: TCP receiver */ int signal_fd; int epoll_fd[2]; /* 0: AF_UNIX receiver * 1: TCP receiver */ bool tcp_compliant; }; FIXTURE_VARIANT(msg_oob) { bool peek; }; FIXTURE_VARIANT_ADD(msg_oob, no_peek) { .peek = false, }; FIXTURE_VARIANT_ADD(msg_oob, peek) { .peek = true }; static void create_unix_socketpair(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self) { int ret; ret = socketpair(AF_UNIX, SOCK_STREAM | SOCK_NONBLOCK, 0, self->fd); ASSERT_EQ(ret, 0); } static void create_tcp_socketpair(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self) { struct sockaddr_in addr; socklen_t addrlen; int listen_fd; int ret; listen_fd = socket(AF_INET, SOCK_STREAM, 0); ASSERT_GE(listen_fd, 0); ret = listen(listen_fd, -1); ASSERT_EQ(ret, 0); addrlen = sizeof(addr); ret = getsockname(listen_fd, (struct sockaddr *)&addr, &addrlen); ASSERT_EQ(ret, 0); self->fd[2] = socket(AF_INET, SOCK_STREAM, 0); ASSERT_GE(self->fd[2], 0); ret = connect(self->fd[2], (struct sockaddr *)&addr, addrlen); ASSERT_EQ(ret, 0); self->fd[3] = accept(listen_fd, (struct sockaddr *)&addr, &addrlen); ASSERT_GE(self->fd[3], 0); ret = fcntl(self->fd[3], F_SETFL, O_NONBLOCK); ASSERT_EQ(ret, 0); } static void setup_sigurg(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self) { struct signalfd_siginfo siginfo; int pid = getpid(); sigset_t mask; int i, ret; for (i = 0; i < 2; i++) { ret = ioctl(self->fd[i * 2 + 1], FIOSETOWN, &pid); ASSERT_EQ(ret, 0); } ret = sigemptyset(&mask); ASSERT_EQ(ret, 0); ret = sigaddset(&mask, SIGURG); ASSERT_EQ(ret, 0); ret = sigprocmask(SIG_BLOCK, &mask, NULL); ASSERT_EQ(ret, 0); self->signal_fd = signalfd(-1, &mask, SFD_NONBLOCK); ASSERT_GE(self->signal_fd, 0); ret = read(self->signal_fd, &siginfo, sizeof(siginfo)); ASSERT_EQ(ret, -1); } static void setup_epollpri(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self) { struct epoll_event event = { .events = EPOLLPRI, }; int i; for (i = 0; i < 2; i++) { int ret; self->epoll_fd[i] = epoll_create1(0); ASSERT_GE(self->epoll_fd[i], 0); ret = epoll_ctl(self->epoll_fd[i], EPOLL_CTL_ADD, self->fd[i * 2 + 1], &event); ASSERT_EQ(ret, 0); } } static void close_sockets(FIXTURE_DATA(msg_oob) *self) { int i; for (i = 0; i < 4; i++) close(self->fd[i]); } FIXTURE_SETUP(msg_oob) { create_unix_socketpair(_metadata, self); create_tcp_socketpair(_metadata, self); setup_sigurg(_metadata, self); setup_epollpri(_metadata, self); self->tcp_compliant = true; } FIXTURE_TEARDOWN(msg_oob) { close_sockets(self); } static void __epollpair(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self, bool oob_remaining) { struct epoll_event event[2] = {}; int i, ret[2]; for (i = 0; i < 2; i++) ret[i] = epoll_wait(self->epoll_fd[i], &event[i], 1, 0); ASSERT_EQ(ret[0], oob_remaining); if (self->tcp_compliant) ASSERT_EQ(ret[0], ret[1]); if (oob_remaining) { ASSERT_EQ(event[0].events, EPOLLPRI); if (self->tcp_compliant) ASSERT_EQ(event[0].events, event[1].events); } } static void __sendpair(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self, const void *buf, size_t len, int flags) { int i, ret[2]; for (i = 0; i < 2; i++) { struct signalfd_siginfo siginfo = {}; int bytes; ret[i] = send(self->fd[i * 2], buf, len, flags); bytes = read(self->signal_fd, &siginfo, sizeof(siginfo)); if (flags & MSG_OOB) { ASSERT_EQ(bytes, sizeof(siginfo)); ASSERT_EQ(siginfo.ssi_signo, SIGURG); bytes = read(self->signal_fd, &siginfo, sizeof(siginfo)); } ASSERT_EQ(bytes, -1); } ASSERT_EQ(ret[0], len); ASSERT_EQ(ret[0], ret[1]); } static void __recvpair(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self, const char *expected_buf, int expected_len, int buf_len, int flags) { int i, ret[2], recv_errno[2], expected_errno = 0; char recv_buf[2][BUF_SZ] = {}; bool printed = false; ASSERT_GE(BUF_SZ, buf_len); errno = 0; for (i = 0; i < 2; i++) { ret[i] = recv(self->fd[i * 2 + 1], recv_buf[i], buf_len, flags); recv_errno[i] = errno; } if (expected_len < 0) { expected_errno = -expected_len; expected_len = -1; } if (ret[0] != expected_len || recv_errno[0] != expected_errno) { TH_LOG("AF_UNIX :%s", ret[0] < 0 ? strerror(recv_errno[0]) : recv_buf[0]); TH_LOG("Expected:%s", expected_errno ? strerror(expected_errno) : expected_buf); ASSERT_EQ(ret[0], expected_len); ASSERT_EQ(recv_errno[0], expected_errno); } if (ret[0] != ret[1] || recv_errno[0] != recv_errno[1]) { TH_LOG("AF_UNIX :%s", ret[0] < 0 ? strerror(recv_errno[0]) : recv_buf[0]); TH_LOG("TCP :%s", ret[1] < 0 ? strerror(recv_errno[1]) : recv_buf[1]); printed = true; if (self->tcp_compliant) { ASSERT_EQ(ret[0], ret[1]); ASSERT_EQ(recv_errno[0], recv_errno[1]); } } if (expected_len >= 0) { int cmp; cmp = strncmp(expected_buf, recv_buf[0], expected_len); if (cmp) { TH_LOG("AF_UNIX :%s", ret[0] < 0 ? strerror(recv_errno[0]) : recv_buf[0]); TH_LOG("Expected:%s", expected_errno ? strerror(expected_errno) : expected_buf); ASSERT_EQ(cmp, 0); } cmp = strncmp(recv_buf[0], recv_buf[1], expected_len); if (cmp) { if (!printed) { TH_LOG("AF_UNIX :%s", ret[0] < 0 ? strerror(recv_errno[0]) : recv_buf[0]); TH_LOG("TCP :%s", ret[1] < 0 ? strerror(recv_errno[1]) : recv_buf[1]); } if (self->tcp_compliant) ASSERT_EQ(cmp, 0); } } } static void __setinlinepair(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self) { int i, oob_inline = 1; for (i = 0; i < 2; i++) { int ret; ret = setsockopt(self->fd[i * 2 + 1], SOL_SOCKET, SO_OOBINLINE, &oob_inline, sizeof(oob_inline)); ASSERT_EQ(ret, 0); } } static void __siocatmarkpair(struct __test_metadata *_metadata, FIXTURE_DATA(msg_oob) *self, bool oob_head) { int answ[2] = {}; int i; for (i = 0; i < 2; i++) { int ret; ret = ioctl(self->fd[i * 2 + 1], SIOCATMARK, &answ[i]); ASSERT_EQ(ret, 0); } ASSERT_EQ(answ[0], oob_head); if (self->tcp_compliant) ASSERT_EQ(answ[0], answ[1]); } #define sendpair(buf, len, flags) \ __sendpair(_metadata, self, buf, len, flags) #define recvpair(expected_buf, expected_len, buf_len, flags) \ do { \ if (variant->peek) \ __recvpair(_metadata, self, \ expected_buf, expected_len, \ buf_len, (flags) | MSG_PEEK); \ __recvpair(_metadata, self, \ expected_buf, expected_len, buf_len, flags); \ } while (0) #define epollpair(oob_remaining) \ __epollpair(_metadata, self, oob_remaining) #define siocatmarkpair(oob_head) \ __siocatmarkpair(_metadata, self, oob_head) #define setinlinepair() \ __setinlinepair(_metadata, self) #define tcp_incompliant \ for (self->tcp_compliant = false; \ self->tcp_compliant == false; \ self->tcp_compliant = true) TEST_F(msg_oob, non_oob) { sendpair("x", 1, 0); epollpair(false); siocatmarkpair(false); recvpair("", -EINVAL, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, oob) { sendpair("x", 1, MSG_OOB); epollpair(true); siocatmarkpair(true); recvpair("x", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(true); } TEST_F(msg_oob, oob_drop) { sendpair("x", 1, MSG_OOB); epollpair(true); siocatmarkpair(true); recvpair("", -EAGAIN, 1, 0); /* Drop OOB. */ epollpair(false); siocatmarkpair(false); recvpair("", -EINVAL, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, oob_ahead) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("o", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); recvpair("hell", 4, 4, 0); epollpair(false); siocatmarkpair(true); } TEST_F(msg_oob, oob_break) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("hell", 4, 5, 0); /* Break at OOB even with enough buffer. */ epollpair(true); siocatmarkpair(true); recvpair("o", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(true); recvpair("", -EAGAIN, 1, 0); siocatmarkpair(false); } TEST_F(msg_oob, oob_ahead_break) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); sendpair("world", 5, 0); epollpair(true); siocatmarkpair(false); recvpair("o", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); recvpair("hell", 4, 9, 0); /* Break at OOB even after it's recv()ed. */ epollpair(false); siocatmarkpair(true); recvpair("world", 5, 5, 0); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, oob_break_drop) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); sendpair("world", 5, 0); epollpair(true); siocatmarkpair(false); recvpair("hell", 4, 10, 0); /* Break at OOB even with enough buffer. */ epollpair(true); siocatmarkpair(true); recvpair("world", 5, 10, 0); /* Drop OOB and recv() the next skb. */ epollpair(false); siocatmarkpair(false); recvpair("", -EINVAL, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, ex_oob_break) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); sendpair("wor", 3, MSG_OOB); epollpair(true); siocatmarkpair(false); sendpair("ld", 2, 0); epollpair(true); siocatmarkpair(false); recvpair("hellowo", 7, 10, 0); /* Break at OOB but not at ex-OOB. */ epollpair(true); siocatmarkpair(true); recvpair("r", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(true); recvpair("ld", 2, 2, 0); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, ex_oob_drop) { sendpair("x", 1, MSG_OOB); epollpair(true); siocatmarkpair(true); sendpair("y", 1, MSG_OOB); /* TCP drops "x" at this moment. */ epollpair(true); tcp_incompliant { siocatmarkpair(false); recvpair("x", 1, 1, 0); /* TCP drops "y" by passing through it. */ epollpair(true); siocatmarkpair(true); recvpair("y", 1, 1, MSG_OOB); /* TCP returns -EINVAL. */ epollpair(false); siocatmarkpair(true); } } TEST_F(msg_oob, ex_oob_drop_2) { sendpair("x", 1, MSG_OOB); epollpair(true); siocatmarkpair(true); sendpair("y", 1, MSG_OOB); /* TCP drops "x" at this moment. */ epollpair(true); tcp_incompliant { siocatmarkpair(false); } recvpair("y", 1, 1, MSG_OOB); epollpair(false); tcp_incompliant { siocatmarkpair(false); recvpair("x", 1, 1, 0); /* TCP returns -EAGAIN. */ epollpair(false); siocatmarkpair(true); } } TEST_F(msg_oob, ex_oob_ahead_break) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); sendpair("wor", 3, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("r", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); sendpair("ld", 2, MSG_OOB); epollpair(true); siocatmarkpair(false); tcp_incompliant { recvpair("hellowol", 8, 10, 0); /* TCP recv()s "helloworl", why "r" ?? */ } epollpair(true); siocatmarkpair(true); recvpair("d", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(true); } TEST_F(msg_oob, ex_oob_siocatmark) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("o", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); sendpair("world", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("hell", 4, 4, 0); /* Intentionally stop at ex-OOB. */ epollpair(true); siocatmarkpair(false); } TEST_F(msg_oob, inline_oob) { setinlinepair(); sendpair("x", 1, MSG_OOB); epollpair(true); siocatmarkpair(true); recvpair("", -EINVAL, 1, MSG_OOB); epollpair(true); siocatmarkpair(true); recvpair("x", 1, 1, 0); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, inline_oob_break) { setinlinepair(); sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("", -EINVAL, 1, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("hell", 4, 5, 0); /* Break at OOB but not at ex-OOB. */ epollpair(true); siocatmarkpair(true); recvpair("o", 1, 1, 0); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, inline_oob_ahead_break) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); sendpair("world", 5, 0); epollpair(true); siocatmarkpair(false); recvpair("o", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); setinlinepair(); recvpair("hell", 4, 9, 0); /* Break at OOB even with enough buffer. */ epollpair(false); siocatmarkpair(true); tcp_incompliant { recvpair("world", 5, 6, 0); /* TCP recv()s "oworld", ... "o" ??? */ } epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, inline_ex_oob_break) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); sendpair("wor", 3, MSG_OOB); epollpair(true); siocatmarkpair(false); sendpair("ld", 2, 0); epollpair(true); siocatmarkpair(false); setinlinepair(); recvpair("hellowo", 7, 10, 0); /* Break at OOB but not at ex-OOB. */ epollpair(true); siocatmarkpair(true); recvpair("rld", 3, 3, 0); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, inline_ex_oob_no_drop) { sendpair("x", 1, MSG_OOB); epollpair(true); siocatmarkpair(true); setinlinepair(); sendpair("y", 1, MSG_OOB); /* TCP does NOT drops "x" at this moment. */ epollpair(true); siocatmarkpair(false); recvpair("x", 1, 1, 0); epollpair(true); siocatmarkpair(true); recvpair("y", 1, 1, 0); epollpair(false); siocatmarkpair(false); } TEST_F(msg_oob, inline_ex_oob_drop) { sendpair("x", 1, MSG_OOB); epollpair(true); siocatmarkpair(true); sendpair("y", 1, MSG_OOB); /* TCP drops "x" at this moment. */ epollpair(true); setinlinepair(); tcp_incompliant { siocatmarkpair(false); recvpair("x", 1, 1, 0); /* TCP recv()s "y". */ epollpair(true); siocatmarkpair(true); recvpair("y", 1, 1, 0); /* TCP returns -EAGAIN. */ epollpair(false); siocatmarkpair(false); } } TEST_F(msg_oob, inline_ex_oob_siocatmark) { sendpair("hello", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("o", 1, 1, MSG_OOB); epollpair(false); siocatmarkpair(false); setinlinepair(); sendpair("world", 5, MSG_OOB); epollpair(true); siocatmarkpair(false); recvpair("hell", 4, 4, 0); /* Intentionally stop at ex-OOB. */ epollpair(true); siocatmarkpair(false); } TEST_HARNESS_MAIN