/* url subtitle arguments */ int main (int argc, char *argv []) { void *context = zmq_init (1); void *subscriber = zmq_socket (context, ZMQ_SUB); size_t title_len = 0; assert(zmq_connect (subscriber, argv[1]) == 0); assert(title_len = strlen(argv[2]) > 1); assert(zmq_setsockopt (subscriber, ZMQ_SUBSCRIBE, argv[2], title_len) == 0); Bool verbose = 0; zloop_t *loop = zloop_new (); assert (loop); zloop_set_verbose (loop, verbose); zmq_pollitem_t sub_event = { subscriber, 0, ZMQ_POLLIN }; if ( argc > 3 ) { assert(zloop_poller (loop, &sub_event, subscriber_cb, (void*)(argv + 3)) == 0); } else { assert(zloop_poller (loop, &sub_event, subscriber_cb, NULL) == 0); } zloop_start (loop); zloop_destroy (&loop); assert (loop == NULL); zmq_close (subscriber); zmq_term (context); return 0; }
int main (void) { clonesrv_t *self = (clonesrv_t *) zmalloc (sizeof (clonesrv_t)); self->port = 5556; self->ctx = zctx_new (); self->kvmap = zhash_new (); self->loop = zloop_new (); zloop_set_verbose (self->loop, FALSE); // Set up our clone server sockets self->snapshot = zsocket_new (self->ctx, ZMQ_ROUTER); self->publisher = zsocket_new (self->ctx, ZMQ_PUB); self->collector = zsocket_new (self->ctx, ZMQ_PULL); zsocket_bind (self->snapshot, "tcp://*:%d", self->port); zsocket_bind (self->publisher, "tcp://*:%d", self->port + 1); zsocket_bind (self->collector, "tcp://*:%d", self->port + 2); // Register our handlers with reactor zmq_pollitem_t poller = { self->snapshot, 0, ZMQ_POLLIN }; zloop_poller (self->loop, &poller, s_snapshots, self); poller.socket = self->collector; zloop_poller (self->loop, &poller, s_collector, self); zloop_timer (self->loop, 1000, 0, s_flush_ttl, self); // Run reactor until process interrupted zloop_start (self->loop); zloop_destroy (&self->loop); zhash_destroy (&self->kvmap); zctx_destroy (&self->ctx); free (self); return 0; }
int main (void) { zsys_set_ipv6 (1); zactor_t *root = zactor_new (zgossip, "root"); assert (root); int rc = 0; rc = zstr_sendx (root, "BIND", "tcp://*:5670", NULL); assert (rc == 0); zloop_t *reactor = zloop_new (); assert (reactor); zloop_set_verbose (reactor, true); rc = zloop_reader (reactor, root, handle_pipe, NULL); assert (rc == 0); zloop_start (reactor); zloop_destroy (&reactor); zactor_destroy (&root); return 0; }
void subscriber(zsock_t *pipe, void *args) { set_thread_name("subscriber[0]"); int rc; zconfig_t* config = args; subscriber_state_t *state = subscriber_state_new(pipe, config, hosts); // signal readyiness after sockets have been created zsock_signal(pipe, 0); // subscribe to either all messages, or a subset setup_subscriptions(state); // set up event loop zloop_t *loop = zloop_new(); assert(loop); zloop_set_verbose(loop, 0); // setup handler for actor messages rc = zloop_reader(loop, state->pipe, actor_command, state); assert(rc == 0); // setup handler for the sub socket rc = zloop_reader(loop, state->sub_socket, read_request_and_forward, state); assert(rc == 0); // setup handler for the router socket rc = zloop_reader(loop, state->router_socket, read_router_request_forward, state); assert(rc == 0); // setup handler for the pull socket rc = zloop_reader(loop, state->pull_socket, read_request_and_forward, state); assert(rc == 0); // run the loop if (!quiet) fprintf(stdout, "[I] subscriber: listening\n"); bool should_continue_to_run = getenv("CPUPROFILE") != NULL; do { rc = zloop_start(loop); should_continue_to_run &= errno == EINTR; log_zmq_error(rc, __FILE__, __LINE__); } while (should_continue_to_run); if (!quiet) fprintf(stdout, "[I] subscriber: shutting down\n"); // shutdown subscriber_state_destroy(&state); zloop_destroy(&loop); assert(loop == NULL); if (!quiet) fprintf(stdout, "[I] subscriber: terminated\n"); }
int main(int argc, char const * const *argv) { int rc; zsys_set_sndhwm(1); zsys_set_linger(100); void *pusher = zsock_new(ZMQ_PUSH); assert(pusher); zsock_set_sndhwm(pusher, 1000); zsock_set_linger(pusher, 500); rc = zsock_connect(pusher, "tcp://localhost:12345"); assert(rc==0); void *puller = zsock_new(ZMQ_PULL); assert(puller); zsock_set_rcvhwm(puller, 1000); zsock_set_linger(puller, 500); rc = zsock_bind(puller, "tcp://*:12345"); if (rc != 12345){ printf("bind failed: %s\n", zmq_strerror(errno)); } assert(rc == 12345); void *publisher = zsock_new(ZMQ_PUB); assert(publisher); zsock_set_sndhwm(publisher, 1000); zsock_set_linger(publisher, 500); rc = zsock_bind(publisher, "tcp://*:12346"); assert(rc==12346); // set up event loop zloop_t *loop = zloop_new(); assert(loop); zloop_set_verbose(loop, 0); // push data every 10 ms rc = zloop_timer(loop, 1, 0, timer_event, pusher); assert(rc != -1); zmq_pollitem_t item; item.socket = puller; item.events = ZMQ_POLLIN; rc = zloop_poller(loop, &item, forward, publisher); assert(rc == 0); rc = zloop_start(loop); printf("zloop return: %d", rc); zloop_destroy(&loop); assert(loop == NULL); return 0; }
void vtx_tcp_driver (void *args, zctx_t *ctx, void *pipe) { // Create driver instance driver_t *driver = driver_new (ctx, pipe); char *verbose = zstr_recv (pipe); driver->verbose = atoi (verbose); free (verbose); zloop_set_verbose (driver->loop, driver->verbose); // Run reactor until we exit from failure or interrupt zloop_start (driver->loop); // Destroy driver instance driver_destroy (&driver); }
int main (int argc, char** argv) { int port = 5556; #ifdef FF_USE_LIBGC GC_INIT(); set_program_name (argv[0]); #endif if( argc >= 2 ) port = atoi( argv[1] ); clonesrv_t *self = (clonesrv_t *) zmalloc (sizeof (clonesrv_t)); self->port = port; self->ctx = zctx_new (); self->kvmap = zhash_new (); self->loop = zloop_new (); zloop_set_verbose (self->loop, false); // Set up our clone server sockets self->snapshot = zsocket_new (self->ctx, ZMQ_ROUTER); zsocket_bind (self->snapshot, "tcp://*:%d", self->port + socket_srv_offset_snapshot ); self->publisher = zsocket_new (self->ctx, ZMQ_PUB); zsocket_bind (self->publisher, "tcp://*:%d", self->port + socket_srv_offset_publisher ); self->collector = zsocket_new (self->ctx, ZMQ_PULL); zsocket_bind (self->collector, "tcp://*:%d", self->port + socket_srv_offset_collector ); self->ping = zsocket_new (self->ctx, ZMQ_REP); zsocket_bind (self->ping, "tcp://*:%d", self->port + socket_srv_offset_ping ); // Register our handlers with reactor zmq_pollitem_t poller = { 0, 0, ZMQ_POLLIN }; poller.socket = self->snapshot; zloop_poller (self->loop, &poller, s_snapshots, self); poller.socket = self->collector; zloop_poller (self->loop, &poller, s_collector, self); zloop_timer (self->loop, 1000, 0, s_flush_ttl, self); poller.socket = self->ping; zloop_poller (self->loop, &poller, s_ping, self); DEBUG ("I: server up and running on port:%d...", port ); // Run reactor until process interrupted zloop_start (self->loop); zloop_destroy (&self->loop); zhash_destroy (&self->kvmap); zctx_destroy (&self->ctx); free (self); return 0; }
void zloop_test (bool verbose) { printf (" * zloop: "); int rc = 0; // @selftest // Create two PAIR sockets and connect over inproc zsock_t *output = zsock_new (ZMQ_PAIR); assert (output); zsock_bind (output, "inproc://zloop.test"); zsock_t *input = zsock_new (ZMQ_PAIR); assert (input); zsock_connect (input, "inproc://zloop.test"); zloop_t *loop = zloop_new (); assert (loop); zloop_set_verbose (loop, verbose); // Create a timer that will be cancelled int timer_id = zloop_timer (loop, 1000, 1, s_timer_event, NULL); zloop_timer (loop, 5, 1, s_cancel_timer_event, &timer_id); // After 20 msecs, send a ping message to output3 zloop_timer (loop, 20, 1, s_timer_event, output); // Set up some tickets that will never expire zloop_set_ticket_delay (loop, 10000); void *ticket1 = zloop_ticket (loop, s_timer_event, NULL); void *ticket2 = zloop_ticket (loop, s_timer_event, NULL); void *ticket3 = zloop_ticket (loop, s_timer_event, NULL); // When we get the ping message, end the reactor rc = zloop_reader (loop, input, s_socket_event, NULL); assert (rc == 0); zloop_reader_set_tolerant (loop, input); zloop_start (loop); zloop_ticket_delete (loop, ticket1); zloop_ticket_delete (loop, ticket2); zloop_ticket_delete (loop, ticket3); zloop_destroy (&loop); assert (loop == NULL); zsock_destroy (&input); zsock_destroy (&output); // @end printf ("OK\n"); }
int graylog_forwarder_run_controller_loop(zconfig_t* config, zlist_t* devices, zlist_t *subscriptions, int rcv_hwm, int send_hwm) { set_thread_name("controller"); zsys_init(); controller_state_t state = {.config = config}; bool start_up_complete = controller_create_actors(&state, devices, subscriptions, rcv_hwm, send_hwm); if (!start_up_complete) goto exit; // set up event loop zloop_t *loop = zloop_new(); assert(loop); zloop_set_verbose(loop, 0); // send tick commands every second int rc = zloop_timer(loop, 1000, 1, send_tick_commands, &state); assert(rc != -1); // run the loop // when running under the google profiler, zmq_poll terminates with EINTR // so we keep the loop running in this case if (!zsys_interrupted) { bool should_continue_to_run = getenv("CPUPROFILE") != NULL; do { rc = zloop_start(loop); should_continue_to_run &= errno == EINTR && !zsys_interrupted; log_zmq_error(rc, __FILE__, __LINE__); } while (should_continue_to_run); } printf("[I] controller: shutting down\n"); // shutdown zloop_destroy(&loop); assert(loop == NULL); exit: printf("[I] controller: destroying actor threads\n"); controller_destroy_actors(&state); printf("[I] controller: calling zsys_shutdown\n"); zsys_shutdown(); printf("[I] controller: terminated\n"); return 0; }
/* ================ run_client() ================ */ int run_client(const char *endpoint, int op_code, int total_threads, uint32_t total_files, const char *key, const char *filename, int verbose) { info_log("run_client() with op_code:%d endpoint:%s threads:%d count:%d key:%s filename:%s", op_code, endpoint, total_threads, total_files, key, filename); if ( prepare_file_data(filename) != 0 ){ return -1; } total_actors = total_threads; client_t **clients = (client_t**)malloc(sizeof(client_t*) * total_actors); for ( int i = 0 ; i < total_actors ; i++ ){ client_t *client = client_new(i, endpoint); client->op_code = op_code; client->total_threads = total_threads; client->total_files = total_files; client->key = key; client->filename = filename; client->file_data = file_data; client->file_size = file_size; client_create_actor(client); clients[i] = client; } zloop_t *loop = zloop_new(); zloop_set_verbose(loop, verbose); for ( int i = 0 ; i < total_actors ; i++ ){ zactor_t *actor = clients[i]->actor; zloop_reader(loop, (zsock_t*)zactor_resolve(actor), handle_pullin_on_client_pipe, clients[i]); } zloop_start(loop); zloop_destroy(&loop); for ( int i = 0 ; i < total_actors ; i++ ){ client_free(clients[i]); } return 0; }
void rabbitmq_listener(zsock_t *pipe, void* args) { set_thread_name("rabbit-consumer"); // signal readyiness immediately so that zmq publishers are already processed // while the rabbitmq exchanges/queues/bindings are created zsock_signal(pipe, 0); amqp_connection_state_t conn = setup_amqp_connection(); int last_channel = rabbitmq_setup_queues(conn, (zlist_t*)args); // connect to the receiver socket zsock_t *receiver = zsock_new(ZMQ_PUSH); zsock_set_sndhwm(receiver, 10000); zsock_connect(receiver, "inproc://receiver"); // set up event loop zloop_t *loop = zloop_new(); assert(loop); zloop_set_verbose(loop, 0); zloop_ignore_interrupts(loop); // register actor command handler int rc = zloop_reader(loop, pipe, pipe_command, NULL); assert(rc==0); // register rabbitmq socket for pollin events zmq_pollitem_t rabbit_item = { .fd = amqp_get_sockfd(conn), .events = ZMQ_POLLIN }; rabbit_listener_state_t listener_state = { .conn = conn, .receiver = zsock_resolve(receiver) }; rc = zloop_poller(loop, &rabbit_item, rabbitmq_consume_message_and_forward, &listener_state); assert(rc==0); // start event loop zloop_start(loop); // shutdown zloop_destroy(&loop); zsock_destroy(&receiver); shutdown_amqp_connection(conn, 0, last_channel); }
static void graylog_forwarder_subscriber(zsock_t *pipe, void *args) { set_thread_name("graylog-forwarder-subscriber"); int rc; subscriber_state_t *state = subscriber_state_new(pipe, args); // signal readyiness after sockets have been created zsock_signal(pipe, 0); // set up event loop zloop_t *loop = zloop_new(); assert(loop); zloop_set_verbose(loop, 0); // we rely on the controller shutting us down zloop_ignore_interrupts(loop); // setup handler for actor messages rc = zloop_reader(loop, state->pipe, actor_command, state); assert(rc == 0); // setup handler for the sub socket rc = zloop_reader(loop, state->sub_socket, read_request_and_forward, state); assert(rc == 0); // run the loop fprintf(stdout, "[I] subscriber: listening\n"); bool should_continue_to_run = getenv("CPUPROFILE") != NULL; do { rc = zloop_start(loop); should_continue_to_run &= errno == EINTR; if (!zsys_interrupted) log_zmq_error(rc, __FILE__, __LINE__); } while (should_continue_to_run); fprintf(stdout, "[I] subscriber: shutting down\n"); // shutdown subscriber_state_destroy(&state); zloop_destroy(&loop); assert(loop == NULL); fprintf(stdout, "[I] subscriber: terminated\n"); }
void watchdog(zsock_t *pipe, void *args) { set_thread_name("watchdog[0]"); int rc; watchdog_state_t state = { .credit = CREDIT, .received_term_cmd = false }; // signal readyiness zsock_signal(pipe, 0); // set up event loop zloop_t *loop = zloop_new(); assert(loop); zloop_set_verbose(loop, 0); // we rely on the controller shutting us down zloop_ignore_interrupts(loop); // decrease credit every second rc = zloop_timer(loop, 1000, 0, timer_event, &state); assert(rc != -1); // setup handler for actor messages rc = zloop_reader(loop, pipe, actor_command, &state); assert(rc == 0); // run the loop bool should_continue_to_run = getenv("CPUPROFILE") != NULL; do { rc = zloop_start(loop); should_continue_to_run &= errno == EINTR; if (!state.received_term_cmd) log_zmq_error(rc, __FILE__, __LINE__); } while (should_continue_to_run); if (!quiet) printf("[I] watchdog[0]: shutting down\n"); // shutdown zloop_destroy(&loop); assert(loop == NULL); if (!quiet) printf("[I] watchdog[0]: terminated\n"); }
void zloop_test (bool verbose) { printf (" * zloop: "); int rc = 0; // @selftest zctx_t *ctx = zctx_new (); assert (ctx); void *output = zsocket_new (ctx, ZMQ_PAIR); assert (output); zsocket_bind (output, "inproc://zloop.test"); void *input = zsocket_new (ctx, ZMQ_PAIR); assert (input); zsocket_connect (input, "inproc://zloop.test"); zloop_t *loop = zloop_new (); assert (loop); zloop_set_verbose (loop, verbose); // Create a timer that will be canceled int timer_id = zloop_timer (loop, 1000, 1, s_timer_event, NULL); zloop_timer (loop, 5, 1, s_cancel_timer_event, &timer_id); // After 20 msecs, send a ping message to output zloop_timer (loop, 20, 1, s_timer_event, output); // When we get the ping message, end the reactor zmq_pollitem_t poll_input = { input, 0, ZMQ_POLLIN }; rc = zloop_poller (loop, &poll_input, s_socket_event, NULL); assert (rc == 0); zloop_set_tolerant (loop, &poll_input); zloop_start (loop); zloop_destroy (&loop); assert (loop == NULL); zctx_destroy (&ctx); // @end printf ("OK\n"); }
/// // Set verbose tracing of reactor on/off. The default verbose setting is // off (false). void QmlZloop::setVerbose (bool verbose) { zloop_set_verbose (self, verbose); };
JNIEXPORT void JNICALL Java_org_zeromq_czmq_Zloop__1_1setVerbose (JNIEnv *env, jclass c, jlong self, jboolean verbose) { zloop_set_verbose ((zloop_t *) (intptr_t) self, (bool) verbose); }
void zloop_test (bool verbose) { printf (" * zloop: "); int rc = 0; // @selftest // Create two PAIR sockets and connect over inproc zsock_t *output = zsock_new (ZMQ_PAIR); assert (output); zsock_bind (output, "inproc://zloop.test"); zsock_t *input = zsock_new (ZMQ_PAIR); assert (input); zsock_connect (input, "inproc://zloop.test"); zloop_t *loop = zloop_new (); assert (loop); zloop_set_verbose (loop, verbose); // Create a timer that will be cancelled int timer_id = zloop_timer (loop, 1000, 1, s_timer_event, NULL); zloop_timer (loop, 5, 1, s_cancel_timer_event, &timer_id); // After 20 msecs, send a ping message to output3 zloop_timer (loop, 20, 1, s_timer_event, output); // Set up some tickets that will never expire zloop_set_ticket_delay (loop, 10000); void *ticket1 = zloop_ticket (loop, s_timer_event, NULL); void *ticket2 = zloop_ticket (loop, s_timer_event, NULL); void *ticket3 = zloop_ticket (loop, s_timer_event, NULL); // When we get the ping message, end the reactor rc = zloop_reader (loop, input, s_socket_event, NULL); assert (rc == 0); zloop_reader_set_tolerant (loop, input); zloop_start (loop); zloop_ticket_delete (loop, ticket1); zloop_ticket_delete (loop, ticket2); zloop_ticket_delete (loop, ticket3); // Check whether loop properly ignores zsys_interrupted flag // when asked to zloop_destroy (&loop); loop = zloop_new (); bool timer_event_called = false; zloop_timer (loop, 1, 1, s_timer_event3, &timer_event_called); zsys_interrupted = 1; zloop_start (loop); // zloop returns immediately without giving any handler a chance to run assert (!timer_event_called); zloop_set_nonstop (loop, true); zloop_start (loop); // zloop runs the handler which will terminate the loop assert (timer_event_called); zsys_interrupted = 0; // Check if reader removed in timer is not called zloop_destroy (&loop); loop = zloop_new (); bool socket_event_called = false; zloop_reader (loop, output, s_socket_event1, &socket_event_called); zloop_timer (loop, 0, 1, s_timer_event5, output); zstr_send (input, "PING"); zloop_start (loop); assert (!socket_event_called); // cleanup zloop_destroy (&loop); assert (loop == NULL); zsock_destroy (&input); zsock_destroy (&output); #if defined (__WINDOWS__) zsys_shutdown(); #endif // @end printf ("OK\n"); }
int main(int argc, char * const *argv) { int rc = 0; process_arguments(argc, argv); setvbuf(stdout, NULL, _IOLBF, 0); setvbuf(stderr, NULL, _IOLBF, 0); if (!quiet) printf("[I] started %s\n" "[I] sub-port: %d\n" "[I] push-port: %d\n" "[I] io-threads: %lu\n" "[I] rcv-hwm: %d\n" "[I] snd-hwm: %d\n" , argv[0], pull_port, pub_port, io_threads, rcv_hwm, snd_hwm); // load config config_file_exists = zsys_file_exists(config_file_name); if (config_file_exists) { config_file_init(); config = zconfig_load((char*)config_file_name); } // set global config zsys_init(); zsys_set_rcvhwm(10000); zsys_set_sndhwm(10000); zsys_set_pipehwm(1000); zsys_set_linger(100); zsys_set_io_threads(io_threads); // create socket to receive messages on zsock_t *receiver = zsock_new(ZMQ_SUB); assert_x(receiver != NULL, "sub socket creation failed", __FILE__, __LINE__); zsock_set_rcvhwm(receiver, rcv_hwm); // bind externally char* host = zlist_first(hosts); while (host) { if (!quiet) printf("[I] connecting to: %s\n", host); rc = zsock_connect(receiver, "%s", host); assert_x(rc == 0, "sub socket connect failed", __FILE__, __LINE__); host = zlist_next(hosts); } tracker = device_tracker_new(hosts, receiver); // create socket for publishing zsock_t *publisher = zsock_new(ZMQ_PUSH); assert_x(publisher != NULL, "pub socket creation failed", __FILE__, __LINE__); zsock_set_sndhwm(publisher, snd_hwm); rc = zsock_bind(publisher, "tcp://%s:%d", "*", pub_port); assert_x(rc == pub_port, "pub socket bind failed", __FILE__, __LINE__); // create compressor sockets zsock_t *compressor_input = zsock_new(ZMQ_PUSH); assert_x(compressor_input != NULL, "compressor input socket creation failed", __FILE__, __LINE__); rc = zsock_bind(compressor_input, "inproc://compressor-input"); assert_x(rc==0, "compressor input socket bind failed", __FILE__, __LINE__); zsock_t *compressor_output = zsock_new(ZMQ_PULL); assert_x(compressor_output != NULL, "compressor output socket creation failed", __FILE__, __LINE__); rc = zsock_bind(compressor_output, "inproc://compressor-output"); assert_x(rc==0, "compressor output socket bind failed", __FILE__, __LINE__); // create compressor agents zactor_t *compressors[MAX_COMPRESSORS]; for (size_t i = 0; i < num_compressors; i++) compressors[i] = message_decompressor_new(i); // set up event loop zloop_t *loop = zloop_new(); assert(loop); zloop_set_verbose(loop, 0); // calculate statistics every 1000 ms int timer_id = zloop_timer(loop, 1000, 0, timer_event, NULL); assert(timer_id != -1); // setup handler for the receiver socket publisher_state_t publisher_state = { .receiver = zsock_resolve(receiver), .publisher = zsock_resolve(publisher), .compressor_input = zsock_resolve(compressor_input), .compressor_output = zsock_resolve(compressor_output), }; // setup handler for compression results rc = zloop_reader(loop, compressor_output, read_zmq_message_and_forward, &publisher_state); assert(rc == 0); zloop_reader_set_tolerant(loop, compressor_output); // setup handdler for messages incoming from the outside or rabbit_listener rc = zloop_reader(loop, receiver, read_zmq_message_and_forward, &publisher_state); assert(rc == 0); zloop_reader_set_tolerant(loop, receiver); // initialize clock global_time = zclock_time(); // setup subscriptions if (subscriptions == NULL || zlist_size(subscriptions) == 0) { if (!quiet) printf("[I] subscribing to all log messages\n"); zsock_set_subscribe(receiver, ""); } else { char *subscription = zlist_first(subscriptions); while (subscription) { if (!quiet) printf("[I] subscribing to %s\n", subscription); zsock_set_subscribe(receiver, subscription); subscription = zlist_next(subscriptions); } zsock_set_subscribe(receiver, "heartbeat"); } // run the loop if (!zsys_interrupted) { if (verbose) printf("[I] starting main event loop\n"); bool should_continue_to_run = getenv("CPUPROFILE") != NULL; do { rc = zloop_start(loop); should_continue_to_run &= errno == EINTR && !zsys_interrupted; log_zmq_error(rc, __FILE__, __LINE__); } while (should_continue_to_run); if (verbose) printf("[I] main event zloop terminated with return code %d\n", rc); } zloop_destroy(&loop); assert(loop == NULL); if (!quiet) { printf("[I] received %zu messages\n", received_messages_count); printf("[I] shutting down\n"); } zlist_destroy(&hosts); zlist_destroy(&subscriptions); zsock_destroy(&receiver); zsock_destroy(&publisher); zsock_destroy(&compressor_input); zsock_destroy(&compressor_output); device_tracker_destroy(&tracker); for (size_t i = 0; i < num_compressors; i++) zactor_destroy(&compressors[i]); zsys_shutdown(); if (!quiet) printf("[I] terminated\n"); return rc; }
void bstar_set_verbose(bstar_t *self, bool verbose) { zloop_set_verbose(self->loop, verbose); }