// // Copyright 2020 Staysail Systems, Inc. // // This software is supplied under the terms of the MIT License, a // copy of which should be located in the distribution where this // file was obtained (LICENSE.txt). A copy of the license may also be // found online at https://opensource.org/licenses/MIT. // #include static void test_rep_identity(void) { nng_socket s; int p1, p2; char * n1; char * n2; NUTS_PASS(nng_rep0_open(&s)); NUTS_PASS(nng_socket_get_int(s, NNG_OPT_PROTO, &p1)); NUTS_PASS(nng_socket_get_int(s, NNG_OPT_PEER, &p2)); NUTS_PASS(nng_socket_get_string(s, NNG_OPT_PROTONAME, &n1)); NUTS_PASS(nng_socket_get_string(s, NNG_OPT_PEERNAME, &n2)); NUTS_CLOSE(s); NUTS_TRUE(p1 == NNG_REP0_SELF); NUTS_TRUE(p2 == NNG_REP0_PEER); NUTS_MATCH(n1, NNG_REP0_SELF_NAME); NUTS_MATCH(n2, NNG_REP0_PEER_NAME); nng_strfree(n1); nng_strfree(n2); } void test_rep_send_bad_state(void) { nng_socket rep; nng_msg * msg = NULL; NUTS_TRUE(nng_rep0_open(&rep) == 0); NUTS_TRUE(nng_msg_alloc(&msg, 0) == 0); NUTS_TRUE(nng_sendmsg(rep, msg, 0) == NNG_ESTATE); nng_msg_free(msg); NUTS_CLOSE(rep); } void test_rep_poll_writeable(void) { int fd; nng_socket req; nng_socket rep; NUTS_PASS(nng_req0_open(&req)); NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_socket_get_int(rep, NNG_OPT_SENDFD, &fd)); NUTS_TRUE(fd >= 0); // Not writable before connect. NUTS_TRUE(nuts_poll_fd(fd) == false); NUTS_MARRY(req, rep); // Still not writable. NUTS_TRUE(nuts_poll_fd(fd) == false); // If we get a job, *then* we become writable NUTS_SEND(req, "abc"); NUTS_RECV(rep, "abc"); NUTS_TRUE(nuts_poll_fd(fd) == true); // And is no longer writable once we send a message NUTS_SEND(rep, "def"); NUTS_TRUE(nuts_poll_fd(fd) == false); // Even after receiving it NUTS_RECV(req, "def"); NUTS_TRUE(nuts_poll_fd(fd) == false); NUTS_CLOSE(req); NUTS_CLOSE(rep); } void test_rep_poll_readable(void) { int fd; nng_socket req; nng_socket rep; nng_msg * msg; NUTS_PASS(nng_req0_open(&req)); NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_socket_get_int(rep, NNG_OPT_RECVFD, &fd)); NUTS_TRUE(fd >= 0); // Not readable if not connected! NUTS_TRUE(nuts_poll_fd(fd) == false); // Even after connect (no message yet) NUTS_MARRY(req, rep); NUTS_TRUE(nuts_poll_fd(fd) == false); // But once we send messages, it is. // We have to send a request, in order to send a reply. NUTS_SEND(req, "abc"); NUTS_SLEEP(100); NUTS_TRUE(nuts_poll_fd(fd) == true); // and receiving makes it no longer ready NUTS_PASS(nng_recvmsg(rep, &msg, 0)); nng_msg_free(msg); NUTS_TRUE(nuts_poll_fd(fd) == false); // TODO verify unsolicited response NUTS_CLOSE(req); NUTS_CLOSE(rep); } void test_rep_context_no_poll(void) { int fd; nng_socket req; nng_ctx ctx; NUTS_PASS(nng_rep0_open(&req)); NUTS_PASS(nng_ctx_open(&ctx, req)); NUTS_FAIL(nng_ctx_get_int(ctx, NNG_OPT_SENDFD, &fd), NNG_ENOTSUP); NUTS_FAIL(nng_ctx_get_int(ctx, NNG_OPT_RECVFD, &fd), NNG_ENOTSUP); NUTS_PASS(nng_ctx_close(ctx)); NUTS_CLOSE(req); } void test_rep_validate_peer(void) { nng_socket s1, s2; nng_stat * stats; nng_stat * reject; char * addr; NUTS_ADDR(addr, "inproc"); NUTS_PASS(nng_rep0_open(&s1)); NUTS_PASS(nng_rep0_open(&s2)); NUTS_PASS(nng_listen(s1, addr, NULL, 0)); NUTS_PASS(nng_dial(s2, addr, NULL, NNG_FLAG_NONBLOCK)); NUTS_SLEEP(100); NUTS_PASS(nng_stats_get(&stats)); NUTS_TRUE(stats != NULL); NUTS_TRUE((reject = nng_stat_find_socket(stats, s1)) != NULL); NUTS_TRUE((reject = nng_stat_find(reject, "reject")) != NULL); NUTS_TRUE(nng_stat_type(reject) == NNG_STAT_COUNTER); NUTS_TRUE(nng_stat_value(reject) > 0); NUTS_CLOSE(s1); NUTS_CLOSE(s2); nng_stats_free(stats); } void test_rep_double_recv(void) { nng_socket s1; nng_aio * aio1; nng_aio * aio2; NUTS_PASS(nng_rep0_open(&s1)); NUTS_PASS(nng_aio_alloc(&aio1, NULL, NULL)); NUTS_PASS(nng_aio_alloc(&aio2, NULL, NULL)); nng_recv_aio(s1, aio1); nng_recv_aio(s1, aio2); nng_aio_wait(aio2); NUTS_FAIL(nng_aio_result(aio2), NNG_ESTATE); NUTS_CLOSE(s1); NUTS_FAIL(nng_aio_result(aio1), NNG_ECLOSED); nng_aio_free(aio1); nng_aio_free(aio2); } void test_rep_close_pipe_before_send(void) { nng_socket rep; nng_socket req; nng_pipe p; nng_aio * aio1; nng_msg * m; NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_req0_open(&req)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_aio_alloc(&aio1, NULL, NULL)); NUTS_MARRY(req, rep); NUTS_SEND(req, "test"); nng_recv_aio(rep, aio1); nng_aio_wait(aio1); NUTS_PASS(nng_aio_result(aio1)); NUTS_TRUE((m = nng_aio_get_msg(aio1)) != NULL); p = nng_msg_get_pipe(m); NUTS_PASS(nng_pipe_close(p)); NUTS_PASS(nng_sendmsg(rep, m, 0)); NUTS_CLOSE(req); NUTS_CLOSE(rep); nng_aio_free(aio1); } void test_rep_close_pipe_during_send(void) { nng_socket rep; nng_socket req; nng_pipe p = NNG_PIPE_INITIALIZER; nng_msg * m; NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_req0_open_raw(&req)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 200)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_int(rep, NNG_OPT_SENDBUF, 20)); NUTS_PASS(nng_socket_set_int(rep, NNG_OPT_RECVBUF, 20)); NUTS_PASS(nng_socket_set_int(req, NNG_OPT_SENDBUF, 20)); NUTS_PASS(nng_socket_set_int(req, NNG_OPT_RECVBUF, 1)); NUTS_MARRY(req, rep); for (int i = 0; i < 100; i++) { int rv; NUTS_PASS(nng_msg_alloc(&m, 4)); NUTS_PASS(nng_msg_append_u32(m, (unsigned) i | 0x80000000u)); NUTS_PASS(nng_sendmsg(req, m, 0)); NUTS_PASS(nng_recvmsg(rep, &m, 0)); p = nng_msg_get_pipe(m); rv = nng_sendmsg(rep, m, 0); if (rv == NNG_ETIMEDOUT) { // Queue is backed up, senders are busy. nng_msg_free(m); break; } NUTS_PASS(rv); } NUTS_PASS(nng_pipe_close(p)); NUTS_CLOSE(req); NUTS_CLOSE(rep); } void test_rep_ctx_recv_aio_stopped(void) { nng_socket rep; nng_ctx ctx; nng_aio * aio; NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_aio_alloc(&aio, NULL, NULL)); NUTS_PASS(nng_ctx_open(&ctx, rep)); nng_aio_stop(aio); nng_ctx_recv(ctx, aio); nng_aio_wait(aio); NUTS_FAIL(nng_aio_result(aio), NNG_ECANCELED); NUTS_PASS(nng_ctx_close(ctx)); NUTS_CLOSE(rep); nng_aio_free(aio); } void test_rep_close_pipe_context_send(void) { nng_socket rep; nng_socket req; nng_pipe p = NNG_PIPE_INITIALIZER; nng_msg * m; nng_ctx ctx[100]; nng_aio * aio[100]; int i; NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_req0_open_raw(&req)); for (i = 0; i < 100; i++) { NUTS_PASS(nng_ctx_open(&ctx[i], rep)); NUTS_PASS(nng_aio_alloc(&aio[i], NULL, NULL)); } NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_int(rep, NNG_OPT_SENDBUF, 1)); NUTS_PASS(nng_socket_set_int(rep, NNG_OPT_RECVBUF, 1)); NUTS_PASS(nng_socket_set_int(req, NNG_OPT_SENDBUF, 1)); NUTS_PASS(nng_socket_set_int(req, NNG_OPT_RECVBUF, 1)); NUTS_MARRY(req, rep); for (i = 0; i < 100; i++) { NUTS_PASS(nng_msg_alloc(&m, 4)); NUTS_PASS(nng_msg_append_u32(m, (unsigned) i | 0x80000000u)); NUTS_PASS(nng_sendmsg(req, m, 0)); nng_ctx_recv(ctx[i], aio[i]); } for (i = 0; i < 100; i++) { nng_aio_wait(aio[i]); NUTS_PASS(nng_aio_result(aio[i])); NUTS_TRUE((m = nng_aio_get_msg(aio[i])) != NULL); p = nng_msg_get_pipe(m); nng_aio_set_msg(aio[i], m); nng_ctx_send(ctx[i], aio[i]); } // Note that REQ socket is not reading the results. NUTS_PASS(nng_pipe_close(p)); for (i = 0; i < 100; i++) { int rv; nng_aio_wait(aio[i]); rv = nng_aio_result(aio[i]); if (rv != 0) { NUTS_FAIL(rv, NNG_ECLOSED); nng_msg_free(nng_aio_get_msg(aio[i])); } nng_aio_free(aio[i]); NUTS_PASS(nng_ctx_close(ctx[i])); } NUTS_CLOSE(req); NUTS_CLOSE(rep); } void test_rep_close_context_send(void) { nng_socket rep; nng_socket req; nng_msg * m; nng_ctx ctx[100]; nng_aio * aio[100]; int i; NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_req0_open_raw(&req)); for (i = 0; i < 100; i++) { NUTS_PASS(nng_ctx_open(&ctx[i], rep)); NUTS_PASS(nng_aio_alloc(&aio[i], NULL, NULL)); } NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_int(rep, NNG_OPT_SENDBUF, 1)); NUTS_PASS(nng_socket_set_int(rep, NNG_OPT_RECVBUF, 1)); NUTS_PASS(nng_socket_set_int(req, NNG_OPT_SENDBUF, 1)); NUTS_PASS(nng_socket_set_int(req, NNG_OPT_RECVBUF, 1)); NUTS_MARRY(req, rep); for (i = 0; i < 100; i++) { NUTS_PASS(nng_msg_alloc(&m, 4)); NUTS_PASS(nng_msg_append_u32(m, (unsigned) i | 0x80000000u)); NUTS_PASS(nng_sendmsg(req, m, 0)); nng_ctx_recv(ctx[i], aio[i]); } for (i = 0; i < 100; i++) { nng_aio_wait(aio[i]); NUTS_PASS(nng_aio_result(aio[i])); NUTS_TRUE((m = nng_aio_get_msg(aio[i])) != NULL); nng_aio_set_msg(aio[i], m); nng_ctx_send(ctx[i], aio[i]); } // Note that REQ socket is not reading the results. for (i = 0; i < 100; i++) { int rv; NUTS_PASS(nng_ctx_close(ctx[i])); nng_aio_wait(aio[i]); rv = nng_aio_result(aio[i]); if (rv != 0) { NUTS_FAIL(rv, NNG_ECLOSED); nng_msg_free(nng_aio_get_msg(aio[i])); } nng_aio_free(aio[i]); } NUTS_CLOSE(req); NUTS_CLOSE(rep); } void test_rep_close_recv(void) { nng_socket rep; nng_socket req; nng_aio * aio; NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_req0_open_raw(&req)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_MARRY(req, rep); NUTS_PASS(nng_aio_alloc(&aio, NULL, NULL)); nng_recv_aio(rep, aio); NUTS_CLOSE(rep); NUTS_CLOSE(req); nng_aio_wait(aio); NUTS_FAIL(nng_aio_result(aio), NNG_ECLOSED); nng_aio_free(aio); } struct rep_close_recv_cb_state { nng_aio *aio; nng_mtx *mtx; nng_cv * cv; int done; int result; nng_msg *msg; }; static void rep_close_recv_cb(void *arg) { struct rep_close_recv_cb_state *state = arg; nng_mtx_lock(state->mtx); state->result = nng_aio_result(state->aio); state->msg = nng_aio_get_msg(state->aio); state->done = true; nng_cv_wake(state->cv); nng_mtx_unlock(state->mtx); } void test_rep_close_recv_cb(void) { nng_socket rep; nng_socket req; struct rep_close_recv_cb_state state; memset(&state, 0, sizeof(state)); NUTS_PASS(nng_mtx_alloc(&state.mtx)); NUTS_PASS(nng_cv_alloc(&state.cv, state.mtx)); NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_req0_open_raw(&req)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_MARRY(req, rep); NUTS_PASS(nng_aio_alloc(&state.aio, rep_close_recv_cb, &state)); nng_recv_aio(rep, state.aio); NUTS_CLOSE(rep); NUTS_CLOSE(req); nng_mtx_lock(state.mtx); while (!state.done) { NUTS_PASS(nng_cv_until(state.cv, nng_clock() + 1000)); } nng_mtx_unlock(state.mtx); NUTS_TRUE(state.done != 0); NUTS_FAIL(nng_aio_result(state.aio), NNG_ECLOSED); NUTS_TRUE(nng_aio_get_msg(state.aio) == NULL); nng_aio_free(state.aio); nng_cv_free(state.cv); nng_mtx_free(state.mtx); } static void test_rep_ctx_recv_nonblock(void) { nng_socket rep; nng_ctx ctx; nng_aio * aio; NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_ctx_open(&ctx, rep)); NUTS_PASS(nng_aio_alloc(&aio, NULL, NULL)); nng_aio_set_timeout(aio, 0); // Instant timeout nng_ctx_recv(ctx, aio); nng_aio_wait(aio); NUTS_FAIL(nng_aio_result(aio), NNG_ETIMEDOUT); NUTS_CLOSE(rep); nng_aio_free(aio); } static void test_rep_ctx_send_nonblock(void) { nng_socket rep; nng_socket req; nng_ctx ctx; nng_aio * aio; nng_msg * msg; NUTS_PASS(nng_req0_open(&req)); NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 2000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_ctx_open(&ctx, rep)); NUTS_PASS(nng_aio_alloc(&aio, NULL, NULL)); NUTS_MARRY(req, rep); NUTS_SEND(req, "SEND"); nng_ctx_recv(ctx, aio); nng_aio_wait(aio); NUTS_PASS(nng_aio_result(aio)); // message carries over msg = nng_aio_get_msg(aio); nng_aio_set_msg(aio, msg); nng_aio_set_timeout(aio, 0); // Instant timeout nng_ctx_send(ctx, aio); nng_aio_wait(aio); NUTS_PASS(nng_aio_result(aio)); NUTS_CLOSE(rep); NUTS_CLOSE(req); nng_aio_free(aio); } static void test_rep_ctx_send_nonblock2(void) { nng_socket rep; nng_socket req; nng_ctx rep_ctx[10]; nng_aio * rep_aio[10]; int num_good = 0; int num_fail = 0; // We are going to send a bunch of requests, receive them, // but then see that non-block pressure exerts for some, but // that at least one non-blocking send works. NUTS_PASS(nng_req0_open_raw(&req)); NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); for (int i = 0; i < 10; i++) { NUTS_PASS(nng_ctx_open(&rep_ctx[i], rep)); NUTS_PASS(nng_aio_alloc(&rep_aio[i], NULL, NULL)); } NUTS_MARRY(req, rep); for (int i = 0; i < 10; i++) { nng_msg *msg; NUTS_PASS(nng_msg_alloc(&msg, 4)); NUTS_PASS(nng_msg_append_u32(msg, (unsigned) i | 0x80000000u)); nng_ctx_recv(rep_ctx[i], rep_aio[i]); NUTS_PASS(nng_sendmsg(req, msg, 0)); } for (int i = 0; i < 10; i++) { nng_msg *msg; nng_aio_wait(rep_aio[i]); NUTS_PASS(nng_aio_result(rep_aio[i])); msg = nng_aio_get_msg(rep_aio[i]); nng_aio_set_timeout(rep_aio[i], 0); nng_aio_set_msg(rep_aio[i], msg); nng_ctx_send(rep_ctx[i], rep_aio[i]); } for (int i = 0; i < 10; i++) { int rv; nng_aio_wait(rep_aio[i]); rv = nng_aio_result(rep_aio[i]); if (rv == 0) { num_good++; } else { NUTS_FAIL(rv, NNG_ETIMEDOUT); nng_msg_free(nng_aio_get_msg(rep_aio[i])); num_fail++; } } TEST_ASSERT(num_good > 0); TEST_ASSERT(num_fail > 0); for (int i = 0; i < 10; i++) { nng_aio_free(rep_aio[i]); nng_ctx_close(rep_ctx[i]); } NUTS_CLOSE(rep); NUTS_CLOSE(req); } static void test_rep_send_nonblock(void) { nng_socket rep; nng_socket req; int rv; NUTS_PASS(nng_req0_open(&req)); NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 1000)); NUTS_MARRY(req, rep); NUTS_SEND(req, "SEND"); NUTS_RECV(rep, "SEND"); // Use the nonblock flag rv = nng_send(rep, "RECV", 5, NNG_FLAG_NONBLOCK); NUTS_PASS(rv); NUTS_RECV(req, "RECV"); NUTS_CLOSE(rep); NUTS_CLOSE(req); } void test_rep_recv_garbage(void) { nng_socket rep; nng_socket req; nng_msg * m; NUTS_PASS(nng_rep0_open(&rep)); NUTS_PASS(nng_req0_open_raw(&req)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_RECVTIMEO, 200)); NUTS_PASS(nng_socket_set_ms(rep, NNG_OPT_SENDTIMEO, 200)); NUTS_PASS(nng_socket_set_ms(req, NNG_OPT_SENDTIMEO, 1000)); NUTS_MARRY(req, rep); NUTS_PASS(nng_msg_alloc(&m, 4)); NUTS_PASS(nng_msg_append_u32(m, 1u)); NUTS_PASS(nng_sendmsg(req, m, 0)); NUTS_FAIL(nng_recvmsg(rep, &m, 0), NNG_ETIMEDOUT); NUTS_CLOSE(req); NUTS_CLOSE(rep); } NUTS_TESTS = { { "rep identity", test_rep_identity }, { "rep send bad state", test_rep_send_bad_state }, { "rep poll readable", test_rep_poll_readable }, { "rep poll writable", test_rep_poll_writeable }, { "rep context does not poll", test_rep_context_no_poll }, { "rep validate peer", test_rep_validate_peer }, { "rep double recv", test_rep_double_recv }, { "rep send nonblock", test_rep_send_nonblock }, { "rep close pipe before send", test_rep_close_pipe_before_send }, { "rep close pipe during send", test_rep_close_pipe_during_send }, { "rep recv aio ctx stopped", test_rep_ctx_recv_aio_stopped }, { "rep close pipe context send", test_rep_close_pipe_context_send }, { "rep close context send", test_rep_close_context_send }, { "rep close recv", test_rep_close_recv }, { "rep close recv cb", test_rep_close_recv_cb }, { "rep context send nonblock", test_rep_ctx_send_nonblock }, { "rep context send nonblock 2", test_rep_ctx_send_nonblock2 }, { "rep context recv nonblock", test_rep_ctx_recv_nonblock }, { "rep recv garbage", test_rep_recv_garbage }, { NULL, NULL }, };