int log_init() { /* Initialize globals. */ LOG_FCL = 0; LOG_FCL_SIZE = 0; LOG_FDS = 0; LOG_FDS_OPEN = 0; /* Setup initial state. */ int ret = KNOT_EOK; int emask = LOG_MASK(LOG_WARNING)|LOG_MASK(LOG_ERR)|LOG_MASK(LOG_FATAL); int imask = LOG_MASK(LOG_INFO)|LOG_MASK(LOG_NOTICE); /* Add debug messages. */ emask |= LOG_MASK(LOG_DEBUG); ret = log_setup(0); log_levels_set(LOGT_SYSLOG, LOG_ANY, emask); log_levels_set(LOGT_STDERR, LOG_ANY, emask); log_levels_set(LOGT_STDOUT, LOG_ANY, imask); setlogmask(LOG_UPTO(LOG_DEBUG)); openlog(PACKAGE_NAME, LOG_PID, LOG_DAEMON); return ret; }
void init(char *name, char *pass, int port) { signal_setup(); memset(&config, 0, sizeof(config)); // set defaults config.buffer_start_fill = 220; config.port = port; config.password = pass; config.apname = name; if (config.daemonise) { daemon_init(); } log_setup(); config.output = audio_get_output(config.output_name); config.output->init(); uint8_t ap_md5[16]; MD5_CTX ctx; MD5_Init(&ctx); MD5_Update(&ctx, config.apname, strlen(config.apname)); MD5_Final(ap_md5, &ctx); memcpy(config.hw_addr, ap_md5, sizeof(config.hw_addr)); if (config.meta_dir) metadata_open(); rtsp_listen_loop(); }
static int Turbine_Init_Cmd(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[]) { TCL_ARGS(4); int amserver, rank, size; get_tcl_version(); int rc; rc = Tcl_GetIntFromObj(interp, objv[1], &amserver); TCL_CHECK(rc); rc = Tcl_GetIntFromObj(interp, objv[2], &rank); TCL_CHECK(rc); rc = Tcl_GetIntFromObj(interp, objv[3], &size); TCL_CHECK(rc); turbine_code code = turbine_init(amserver, rank, size); if (code != TURBINE_SUCCESS) { Tcl_AddErrorInfo(interp, " Could not initialize Turbine!\n"); return TCL_ERROR; } log_setup(rank); return TCL_OK; }
void setup() { #if ENABLE_LOGGER log_setup(); #endif storage = new Storage(); Serial.begin(SERIAL_SPEED); while (!Serial) { } }
int main(int argc, char* argv[]) { log_setup(0,"cids.conf","clog.conf","qwerty.log",true); log_trace("canal") << "traza"; log_debug("canal") << "debug"; log_info("canal") << "info " << 12 << " " << 2.9; log_warning("canal") << "warning"; log_error("canal") << "error"; log_fatal("canal") << "fatal"; log_error("asdf") << "asdf traza"; log_debug("net") << "net traza"; return 0; }
void read_netlist(const char *buffer, pstring name) { // read the netlist ... m_setup->register_source(palloc(netlist::netlist_source_mem_t, buffer)); m_setup->include(name); log_setup(); // start devices m_setup->start_devices(); m_setup->resolve_inputs(); // reset this->reset(); }
void read_netlist(const pstring &filename, const pstring &name) { // read the netlist ... m_setup->register_source(std::make_shared<netlist::source_file_t>(filename)); m_setup->include(name); log_setup(); // start devices m_setup->start_devices(); m_setup->resolve_inputs(); // reset this->reset(); }
int main(){ output_stream_t os = os_new_capture(4096); //output_stream_t os = os_new(stderr); log_setup(LOG_INFO, &os); info("test info: %d", 123); test(strcmp(os.buffer_ptr, "[info in logger_test.c:13 main()]: test info: 123\n") == 0, "expected the first log message but got %s", os.buffer_ptr); warn("test warning: %d, %s", 123, "hello"); test(strcmp(os.buffer_ptr, "[info in logger_test.c:13 main()]: test info: 123\n[warn in logger_test.c:15 main()]: test warning: 123, hello\n") == 0, "expected the first two log messages but got %s", os.buffer_ptr); error("test error: %s", "world"); test(strcmp(os.buffer_ptr, "[info in logger_test.c:13 main()]: test info: 123\n[warn in logger_test.c:15 main()]: test warning: 123, hello\n[ERROR in logger_test.c:17 main()]: test error: world\n") == 0, "expected the first tree log messages but got '%s'", os.buffer_ptr); os_destroy(&os); return show_test_report(); }
void read_netlist(const char *buffer) { // read the netlist ... netlist_sources_t sources; sources.add(netlist_source_t(buffer)); sources.parse(*m_setup,""); //m_setup->parse(buffer); log_setup(); // start devices m_setup->start_devices(); m_setup->resolve_inputs(); // reset this->reset(); }
int main(int argc, char **argv) { signal_setup(); memset(&config, 0, sizeof(config)); // set defaults config.buffer_start_fill = 220; config.port = 5002; char hostname[100]; gethostname(hostname, 100); config.apname = malloc(20 + 100); snprintf(config.apname, 20 + 100, "Shairport on %s", hostname); // parse arguments into config int audio_arg = parse_options(argc, argv); // mDNS supports maximum of 63-character names (we append 13). if (strlen(config.apname) > 50) die("Supplied name too long (max 50 characters)"); if (config.daemonise) { daemon_init(); } log_setup(); config.output = audio_get_output(config.output_name); if (!config.output) { audio_ls_outputs(); die("Invalid audio output specified!"); } config.output->init(argc-audio_arg, argv+audio_arg); uint8_t ap_md5[16]; MD5_CTX ctx; MD5_Init(&ctx); MD5_Update(&ctx, config.apname, strlen(config.apname)); MD5_Final(ap_md5, &ctx); memcpy(config.hw_addr, ap_md5, sizeof(config.hw_addr)); rtsp_listen_loop(); // should not. shairport_shutdown(1); return 1; }
void setup() { delay(3000); dutil_setup(); #if ENABLE_LOGGER log_setup(); #endif serialAPI = new SerialAPI(); ss = setupSelectSlaveLines(); disp = new Display(8, 3, ss); disp->setup(); disp->clear(); tempSensor = new TempSensor(); dateTimeDisplay = new DateTimeDisplay(disp, serialAPI, tempSensor); weatherDisplay = new WeatherDisplay(disp, serialAPI); brightness = new Brightness(disp); tempSensorDriver = new TempSensorDriver(&weatherDisplay->weatherTextArea, tempSensor); weatherDisplay->init(); }
/* * If filename == NULL its for syslog logging, otherwise its for file-logging. * "unsetuplog" calls with loglevel == NULL. * loglevel == NULL means: * if logtype == default * disable logging * else * set to default logging */ static void setuplog_internal(const char *loglevel, const char *logtype, const char *filename) { unsigned int typenum, levelnum; /* Parse logtype */ for( typenum=0; typenum < num_logtype_strings; typenum++) { if (strcasecmp(logtype, arr_logtype_strings[typenum]) == 0) break; } if (typenum >= num_logtype_strings) { return; } /* Parse loglevel */ if (loglevel == NULL) { levelnum = 0; } else { for(levelnum=1; levelnum < num_loglevel_strings; levelnum++) { if (strcasecmp(loglevel, arr_loglevel_strings[levelnum]) == 0) break; } if (levelnum >= num_loglevel_strings) { return; } } /* is this a syslog setup or a filelog setup ? */ if (filename == NULL) { /* must be syslog */ syslog_setup(levelnum, typenum, logoption_ndelay | logoption_pid, logfacility_daemon); } else { /* this must be a filelog */ log_setup(filename, levelnum, typenum); } return; }
void read_netlist(const pstring &filename, const pstring &name, const std::vector<pstring> &logs, const std::vector<pstring> &defines, const std::vector<pstring> &roms) { // read the netlist ... for (auto & d : defines) setup().register_define(d); for (auto & r : roms) setup().register_source(plib::make_unique_base<netlist::source_t, netlist_data_folder_t>(setup(), r)); setup().register_source(plib::make_unique_base<netlist::source_t, netlist::source_file_t>(setup(), filename)); setup().include(name); log_setup(logs); // start devices this->start(); // reset this->reset(); }
int main(int argc, char **argv) { /* struct mpd_connection *conn = NULL; conn = mpd_connection_new(NULL, 0, 3000); if (conn == NULL) {printf("%s", "Out of memory"); return -1;} mpd_run_stop(conn); mpd_connection_free(conn); */ signal_setup(); memset(&config, 0, sizeof(config)); // set defaults config.buffer_start_fill = 220; config.port = 5002; char hostname[100]; gethostname(hostname, 100); config.apname = malloc(20 + 100); snprintf(config.apname, 20 + 100, "%s", hostname); // parse arguments into config int audio_arg = parse_options(argc, argv); // mDNS supports maximum of 63-character names (we append 13). if (strlen(config.apname) > 50) die("Supplied name too long (max 50 characters)"); if (config.daemonise) { daemon_init(); } if(ggshutdown) { if (kill(0, SIGTERM)) { printf("kill(0, SIGTERM))"); } die("shairport shutted down...!"); } printf("stop mpc:\n"); system("mpc stop"); printf("mpc stopped\n"); printf("Starting Shairport %s\n", version); log_setup(); config.output = audio_get_output(config.output_name); if (!config.output) { audio_ls_outputs(); die("Invalid audio output specified!"); } config.output->init(argc-audio_arg, argv+audio_arg); uint8_t ap_md5[16]; MD5_CTX ctx; MD5_Init(&ctx); MD5_Update(&ctx, config.apname, strlen(config.apname)); MD5_Final(ap_md5, &ctx); memcpy(config.hw_addr, ap_md5, sizeof(config.hw_addr)); if (config.meta_dir) metadata_open(); rtsp_listen_loop(); // should not. shairport_shutdown(1); return 1; }
static void sig_logrotate(int foo, siginfo_t *bar, void *baz) { log_setup(); }
int main(void) { system_cm3_setup(); log_setup(); queue_setup(); init_usart1 ( 38400 ); // initialize USART1 @ 9600 baud init_usart2 ( 38400 ); //USART_puts ( USART1, "Init usart1 complete! Hello World!\r\n" ); USART_puts ( USART2, "Init usart2 complete! Hello World!\r\n" ); fb_setup(); #ifdef VGA_DMA vga_setup ( VGA_USE_DMA ); #else vga_setup ( VGA_NO_DMA ); #endif fb_test_pattern ( fb_active, fbt_offset_squares ); //fb_test_pattern ( fb_active, fbt_vlines ); //fb_test_pattern ( fb_active, fbt_v1lines ); //fb_test_pattern ( fb_active, fbt_onoff1 ); while ( 1 ) { // weeeeee! // any work for us to do? #if 1 if ( vblank ) { if ( queueready() ) { command_queue_run(); } } #endif // update framebuffers #if 0 if ( vblank ) { unsigned char i = 0; fb_clone ( fb_2, fb_active ); while ( vblank ) { __asm__("nop"); } fb_test_pattern ( fb_2, i & 0x03 ); i++; } #endif // handle queued logs #if 1 if ( logready() ) { char *log; while ( ( log = logpull() ) ) { USART_puts ( USART2, log ); } } #endif __asm__("nop"); } } // main
int main(void) { system_cm3_setup(); log_setup(); queue_setup(); init_usart1 ( 38400 ); // initialize USART1 @ 9600 baud init_usart2 ( 38400 ); //USART_puts ( USART1, "Init usart1 complete! Hello World!\r\n" ); USART_puts ( USART2, "Init usart2 complete! Hello World!\r\n" ); fb_setup(); #ifdef VGA_DMA vga_setup ( VGA_USE_DMA ); #else vga_setup ( VGA_NO_DMA ); #endif #ifdef BUS_FRAMEBUFFER bus_setup(); #endif //fb_test_pattern ( fb_active, fbt_topbottom ); fb_test_pattern ( fb_active, fbt_offset_squares ); //fb_test_pattern ( fb_active, fbt_vlines ); //fb_test_pattern ( fb_active, fbt_v1lines ); //fb_test_pattern ( fb_active, fbt_onoff1 ); //fb_test_pattern ( fb_active, fbt_spriteram ); while ( 1 ) { // weeeeee! // any work for us to do? #ifdef RUNMODE_COMMAND_SERIAL if ( vblank ) { if ( queueready() ) { command_queue_run(); } } #endif #ifdef RUNMODE_FRAMEBUFFER_FOREVER if ( vblank ) { queueit ( "BD" ); command_queue_run(); } #endif // update framebuffers #if 0 if ( vblank ) { unsigned char i = 0; fb_clone ( fb_2, fb_active ); while ( vblank ) { __asm__("nop"); } fb_test_pattern ( fb_2, i & 0x03 ); i++; } #endif // check for external RAM updates? #ifdef zzBUS_FRAMEBUFFER static uint16_t _done = 0; _done++; if ( vblank && _done > 30 && _done < 40 ) { bus_grab_and_wait(); uint32_t addr = 0x1C0000; uint8_t v; uint8_t i; char b [ 2 ]; USART_puts_optional ( USART2, "+REM cart dump: " ); for ( i = 0; i < 20; i++ ) { v = bus_perform_read ( addr ); b [ 0 ] = v; b [ 1 ] = '\0'; USART_puts_optional ( USART2, b ); addr++; } USART_puts_optional ( USART2, "+++\n" ); bus_release(); } #endif // handle queued logs #if 0 if ( logready() ) { char *log; while ( ( log = logpull() ) ) { USART_puts ( USART2, log ); } } #endif __asm__("nop"); } } // main
static void setup(void) { char *fname = NULL; uint64_t intvl; if (atexit(teardown) != 0) { log_stderr("cannot register teardown procedure with atexit()"); exit(EX_OSERR); /* only failure comes from NOMEM */ } /* Setup logging first */ log_setup(&stats.log); if (debug_setup(&setting.debug) != CC_OK) { log_stderr("debug log setup failed"); exit(EX_CONFIG); } /* setup top-level application options */ if (option_bool(&setting.ds.daemonize)) { daemonize(); } fname = option_str(&setting.ds.pid_filename); if (fname != NULL) { /* to get the correct pid, call create_pidfile after daemonize */ create_pidfile(fname); } /* setup library modules */ buf_setup(&setting.buf, &stats.buf); dbuf_setup(&setting.dbuf, &stats.dbuf); event_setup(&stats.event); sockio_setup(&setting.sockio, &stats.sockio); tcp_setup(&setting.tcp, &stats.tcp); timing_wheel_setup(&stats.timing_wheel); /* setup pelikan modules */ time_setup(&setting.time); procinfo_setup(&stats.procinfo); request_setup(&setting.request, &stats.request); response_setup(&setting.response, &stats.response); parse_setup(&stats.parse_req, NULL); compose_setup(NULL, &stats.compose_rsp); slab_setup(&setting.slab, &stats.slab); process_setup(&setting.process, &stats.process); admin_process_setup(); core_admin_setup(&setting.admin); core_server_setup(&setting.server, &stats.server); core_worker_setup(&setting.worker, &stats.worker); /* adding recurring events to maintenance/admin thread */ intvl = option_uint(&setting.ds.dlog_intvl); if (core_admin_register(intvl, debug_log_flush, NULL) == NULL) { log_stderr("Could not register timed event to flush debug log"); goto error; } return; error: if (fname != NULL) { remove_pidfile(fname); } /* since we registered teardown with atexit, it'll be called upon exit */ exit(EX_CONFIG); }