// // Copyright 2018 Staysail Systems, Inc. // Copyright 2018 Capitar IT Group BV // // 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 #include #include #include #include #include "convey.h" #include "stubs.h" static struct { nng_aio *aio; enum { START, SEND, RECV } state; nng_socket s; nng_msg * msg; int cnt; nng_mtx * mtx; } rep_state; void rep_cb(void *notused) { int rv; (void) notused; nng_mtx_lock(rep_state.mtx); if (rep_state.state == START) { rep_state.state = RECV; nng_recv_aio(rep_state.s, rep_state.aio); nng_mtx_unlock(rep_state.mtx); return; } if ((rv = nng_aio_result(rep_state.aio)) != 0) { if (rep_state.msg != NULL) { nng_msg_free(rep_state.msg); rep_state.msg = NULL; } nng_mtx_unlock(rep_state.mtx); return; } switch (rep_state.state) { case START: break; case RECV: rep_state.msg = nng_aio_get_msg(rep_state.aio); rep_state.state = SEND; nng_aio_set_msg(rep_state.aio, rep_state.msg); nng_send_aio(rep_state.s, rep_state.aio); break; case SEND: rep_state.msg = NULL; rep_state.state = RECV; nng_aio_set_msg(rep_state.aio, NULL); nng_recv_aio(rep_state.s, rep_state.aio); rep_state.cnt++; break; } nng_mtx_unlock(rep_state.mtx); } #define NCTX 1000 void markr(void *arg) { *(bool *) arg = true; } static void marks(void *arg) { *(bool *) arg = true; } nng_ctx ctxs[NCTX]; uint32_t recv_order[NCTX]; nng_aio *saios[NCTX]; nng_aio *raios[NCTX]; bool recd[NCTX]; bool sent[NCTX]; TestMain("REQ concurrent contexts", { int rv; const char *addr = "inproc://test"; int i; memset(recv_order, 0, NCTX * sizeof(int)); atexit(nng_fini); Convey("We can use REQ contexts concurrently", { nng_socket req; So(nng_mtx_alloc(&rep_state.mtx) == 0); So(nng_aio_alloc(&rep_state.aio, rep_cb, NULL) == 0); So(nng_rep_open(&rep_state.s) == 0); So(nng_req_open(&req) == 0); for (i = 0; i < NCTX; i++) { sent[i] = recd[i] = false; recv_order[i] = (uint32_t) i; if (nng_aio_alloc(&raios[i], markr, &(recd[i])) != 0) { break; } nng_aio_set_timeout(raios[i], 5000); if (nng_aio_alloc(&saios[i], marks, &(sent[i])) != 0) { break; } nng_aio_set_timeout(saios[i], 5000); } So(nng_setopt_int(rep_state.s, NNG_OPT_SENDBUF, NCTX) == 0); So(i == NCTX); for (i = 0; i < NCTX; i++) { uint32_t tmp; int ni = rand() % NCTX; // recv index tmp = recv_order[i]; recv_order[i] = recv_order[ni]; recv_order[ni] = tmp; } Reset({ for (i = 0; i < NCTX; i++) { nng_aio_free(saios[i]); nng_aio_free(raios[i]); } nng_close(req); nng_close(rep_state.s); nng_aio_free(rep_state.aio); nng_mtx_free(rep_state.mtx); }); So(nng_listen(rep_state.s, addr, NULL, 0) == 0); So(nng_dial(req, addr, NULL, 0) == 0); nng_msleep(100); // let things establish. // Start the rep state machine going. rep_cb(NULL); for (i = 0; i < NCTX; i++) { if ((rv = nng_ctx_open(&ctxs[i], req)) != 0) { break; } } So(rv == 0); So(i == NCTX); // Send messages for (i = 0; i < NCTX; i++) { nng_msg *m; if ((rv = nng_msg_alloc(&m, sizeof(uint32_t))) != 0) { Fail("msg alloc failed: %s", nng_strerror(rv)); } if ((rv = nng_msg_append_u32(m, i)) != 0) { Fail("append failed: %s", nng_strerror(rv)); } nng_aio_set_msg(saios[i], m); nng_ctx_send(ctxs[i], saios[i]); } So(rv == 0); So(i == NCTX); for (i = 0; i < NCTX; i++) { nng_aio_wait(saios[i]); if ((rv = nng_aio_result(saios[i])) != 0) { Fail("send failed: %s", nng_strerror(rv)); So(false); break; } } for (i = 0; i < NCTX; i++) { if (!sent[i]) { Fail("Index %d (%d) not sent", i, i); } } So(rv == 0); So(i == NCTX); // Receive answers for (i = 0; i < NCTX; i++) { int ri = recv_order[i]; nng_ctx_recv(ctxs[ri], raios[ri]); } for (i = 0; i < NCTX; i++) { nng_msg *msg; uint32_t x; nng_aio_wait(raios[i]); if ((rv = nng_aio_result(raios[i])) != 0) { Fail("recv %d (%d) %d failed: %s", i, recv_order[i], rep_state.cnt, nng_strerror(rv)); continue; } msg = nng_aio_get_msg(raios[i]); if ((rv = nng_msg_chop_u32(msg, &x)) != 0) { Fail("recv msg trim: %s", nng_strerror(rv)); break; } if (x != (uint32_t) i) { Fail("message body mismatch: %x %x\n", x, (uint32_t) i); break; } nng_msg_free(msg); } for (i = 0; i < NCTX; i++) { if (!recd[i]) { Fail("Index %d (%d) not received", i, recv_order[i]); break; } } So(rv == 0); So(i == NCTX); }); Convey("Given a socket and a context", { nng_socket req; nng_ctx ctx; nng_aio * aio; So(nng_req0_open(&req) == 0); So(nng_ctx_open(&ctx, req) == 0); So(nng_aio_alloc(&aio, NULL, NULL) == 0); nng_aio_set_timeout(aio, 1000); Reset({ nng_aio_free(aio); }); Convey("Closing the socket aborts a context send", { nng_msg *msg; So(nng_msg_alloc(&msg, 0) == 0); nng_aio_set_msg(aio, msg); nng_ctx_send(ctx, aio); nng_close(req); nng_aio_wait(aio); So(nng_aio_result(aio) == NNG_ECLOSED); nng_msg_free(msg); }); Convey("Closing the context aborts a context send", { nng_msg *msg; So(nng_msg_alloc(&msg, 0) == 0); nng_aio_set_msg(aio, msg); nng_ctx_send(ctx, aio); nng_ctx_close(ctx); nng_aio_wait(aio); So(nng_aio_result(aio) == NNG_ECLOSED); nng_msg_free(msg); nng_close(req); }); }); })