int pn_messenger_tsync(pn_messenger_t *messenger, bool (*predicate)(pn_messenger_t *), int timeout) { for (int i = 0; i < messenger->size; i++) { pn_connector_process(messenger->connectors[i]); } struct timeval now; if (gettimeofday(&now, NULL)) pn_fatal("gettimeofday failed\n"); long int deadline = millis(now) + timeout; bool pred; while (true) { pred = predicate(messenger); int remaining = deadline - millis(now); if (pred || (timeout >= 0 && remaining < 0)) break; pn_driver_wait(messenger->driver, remaining); pn_listener_t *l; while ((l = pn_driver_listener(messenger->driver))) { pn_connector_t *c = pn_listener_accept(l); pn_sasl_t *sasl = pn_connector_sasl(c); pn_sasl_mechanisms(sasl, "ANONYMOUS"); pn_sasl_server(sasl); pn_sasl_done(sasl, PN_SASL_OK); pn_connection_t *conn = pn_connection(); pn_connection_set_container(conn, messenger->name); pn_connector_set_connection(c, conn); messenger->connectors[messenger->size++] = c; } pn_connector_t *c; while ((c = pn_driver_connector(messenger->driver))) { pn_connector_process(c); pn_connection_t *conn = pn_connector_connection(c); pn_messenger_endpoints(messenger, conn); if (pn_connector_closed(c)) { for (int i = 0; i < messenger->size; i++) { if (c == messenger->connectors[i]) { memmove(messenger->connectors + i, messenger->connectors + i + 1, messenger->size - i - 1); messenger->size--; pn_connector_free(c); pn_messenger_reclaim(messenger, conn); pn_connection_free(conn); pn_messenger_flow(messenger); break; } } } else { pn_connector_process(c); } } if (timeout >= 0) { if (gettimeofday(&now, NULL)) pn_fatal("gettimeofday failed\n"); } } return pred ? 0 : PN_TIMEOUT; }
int main(int argc, char **argv) { char *url = NULL; char *address = "queue"; char *mechanism = "ANONYMOUS"; int count = 1; bool quiet = false; int high = 100; int low = 50; int size = 32; int opt; while ((opt = getopt(argc, argv, "c:a:m:n:s:u:l:qhVXY")) != -1) { switch (opt) { case 'c': if (url) pn_fatal("multiple connect urls not allowed\n"); url = optarg; break; case 'a': address = optarg; break; case 'm': mechanism = optarg; break; case 'n': count = atoi(optarg); break; case 's': size = atoi(optarg); break; case 'u': high = atoi(optarg); break; case 'l': low = atoi(optarg); break; case 'q': quiet = true; break; case 'V': printf("proton version %i.%i\n", PN_VERSION_MAJOR, PN_VERSION_MINOR); exit(EXIT_SUCCESS); case 'X': value(argc, argv); exit(EXIT_SUCCESS); case 'Y': buffer(argc, argv); exit(EXIT_SUCCESS); case 'h': printf("Usage: %s [-h] [-c [user[:password]@]host[:port]] [-a <address>] [-m <sasl-mech>]\n", argv[0]); printf("\n"); printf(" -c The connect url.\n"); printf(" -a The AMQP address.\n"); printf(" -m The SASL mechanism.\n"); printf(" -n The number of messages.\n"); printf(" -s Message size.\n"); printf(" -u Upper flow threshold.\n"); printf(" -l Lower flow threshold.\n"); printf(" -q Supress printouts.\n"); printf(" -h Print this help.\n"); exit(EXIT_SUCCESS); default: /* '?' */ pn_fatal("Usage: %s -h\n", argv[0]); } } char *user = NULL; char *pass = NULL; char *host = "0.0.0.0"; char *port = "5672"; parse_url(url, &user, &pass, &host, &port); pn_driver_t *drv = pn_driver(); if (url) { struct client_context ctx = {false, false, count, count, drv, quiet, size, high, low}; ctx.username = user; ctx.password = pass; ctx.mechanism = mechanism; ctx.hostname = host; ctx.address = address; pn_connector_t *ctor = pn_connector(drv, host, port, &ctx); if (!ctor) pn_fatal("connector failed\n"); pn_connector_set_connection(ctor, pn_connection()); while (!ctx.done) { pn_driver_wait(drv, -1); pn_connector_t *c; while ((c = pn_driver_connector(drv))) { pn_connector_process(c); client_callback(c); if (pn_connector_closed(c)) { pn_connection_free(pn_connector_connection(c)); pn_connector_free(c); } else { pn_connector_process(c); } } } } else { struct server_context ctx = {0, quiet, size}; if (!pn_listener(drv, host, port, &ctx)) pn_fatal("listener failed\n"); while (true) { pn_driver_wait(drv, -1); pn_listener_t *l; pn_connector_t *c; while ((l = pn_driver_listener(drv))) { c = pn_listener_accept(l); pn_connector_set_context(c, &ctx); } while ((c = pn_driver_connector(drv))) { pn_connector_process(c); server_callback(c); if (pn_connector_closed(c)) { pn_connection_free(pn_connector_connection(c)); pn_connector_free(c); } else { pn_connector_process(c); } } } } pn_driver_free(drv); return 0; }
int main ( int argc, char ** argv ) { char info[1000]; int expected = (argc > 1) ? atoi(argv[1]) : 100000; int received = 0; int size = 32; int msg_size = 50; bool done = false; int initial_credit = 500, new_credit = 250, low_credit_limit = 250; char const * host = "0.0.0.0"; char const * port = "5672"; bool sasl_done = false; pn_driver_t * driver; pn_listener_t * listener; pn_connector_t * connector; pn_connection_t * connection; pn_session_t * session; pn_link_t * link; pn_delivery_t * delivery; char * message_data = (char *) malloc ( MY_BUF_SIZE ); int message_data_capacity = MY_BUF_SIZE; fprintf ( stderr, "drecv expecting %d messages.\n", expected ); driver = pn_driver ( ); if ( ! pn_listener(driver, host, port, 0) ) { fprintf ( stderr, "listener creation failed.\n" ); exit ( 1 ); } while ( ! done) { pn_driver_wait ( driver, -1 ); if ( (listener = pn_driver_listener(driver)) ) pn_listener_accept( listener ); if ( (connector = pn_driver_connector(driver)) ) { pn_connector_process ( connector ); if ( ! sasl_done ) if( ! (sasl_done = get_sasl_over_with(connector) )) continue; connection = pn_connector_connection ( connector ); /*========================================================= Open everything that is ready on the other side but not here. =========================================================*/ pn_state_t hes_ready_im_not = PN_LOCAL_UNINIT | PN_REMOTE_ACTIVE; if (pn_connection_state(connection) == hes_ready_im_not) pn_connection_open( connection); for ( session = pn_session_head(connection, hes_ready_im_not); session; session = pn_session_next(session, hes_ready_im_not) ) pn_session_open(session); for ( link = pn_link_head(connection, hes_ready_im_not); link; link = pn_link_next(link, hes_ready_im_not) ) { pn_terminus_copy(pn_link_source(link), pn_link_remote_source(link)); pn_terminus_copy(pn_link_target(link), pn_link_remote_target(link)); pn_link_open ( link ); if ( pn_link_is_receiver(link) ) pn_link_flow ( link, initial_credit ); } /*========================================================== Get all available deliveries. ==========================================================*/ for ( delivery = pn_work_head ( connection ); delivery; delivery = pn_work_next ( delivery ) ) { if ( pn_delivery_readable(delivery) ) { link = pn_delivery_link ( delivery ); while ( PN_EOS != pn_link_recv(link, message_data, MY_BUF_SIZE) ) ; pn_link_advance ( link ); pn_delivery_update ( delivery, PN_ACCEPTED ); pn_delivery_settle ( delivery ); if ( ++ received >= expected ) { sprintf ( info, "received %d messages", received ); print_timestamp ( stderr, info ); done = true; } // a progress report for long tests. if ( ! (received % 5000000) ) fprintf ( stderr, "received: %d\n", received ); if ( pn_link_credit(link) <= low_credit_limit ) pn_link_flow ( link, new_credit ); } else { // TODO // Why am I getting writables? // And what to do with them? } } /*=============================================================== Shut down everything that the other side has closed. ===============================================================*/ pn_state_t active_here_closed_there = PN_LOCAL_ACTIVE | PN_REMOTE_CLOSED; if ( pn_connection_state(connection) == active_here_closed_there ) pn_connection_close ( connection ); for ( session = pn_session_head(connection, active_here_closed_there); session; session = pn_session_next(session, active_here_closed_there) ) pn_session_close ( session ); for ( link = pn_link_head(connection, active_here_closed_there); link; link = pn_link_next(link, active_here_closed_there) ) pn_link_close ( link ); if ( pn_connector_closed(connector) ) { pn_connection_free ( pn_connector_connection(connector) ); pn_connector_free ( connector ); done = true; } else pn_connector_process(connector); } } pn_driver_free(driver); return 0; }