/* Copyright (c) 2017 - 2018 LiteSpeed Technologies Inc. See LICENSE. */ #include #ifndef WIN32 #include #include #endif #include #include #include #include #ifndef WIN32 #include #else #include #pragma warning(disable:4028) #endif// WIN32 #include #include #include "../src/liblsquic/lsquic_hash.h" #include "../src/liblsquic/lsquic_logger.h" #include "test_config.h" #include "test_common.h" #include "prog.h" static int prog_stopped; static void prog_set_onetimer (struct prog *prog, unsigned usec); static const struct lsquic_packout_mem_if pmi = { .pmi_allocate = pba_allocate, .pmi_release = pba_release, }; void prog_init (struct prog *prog, unsigned flags, struct sport_head *sports, const struct lsquic_stream_if *stream_if, void *stream_if_ctx) { /* prog-specific initialization: */ memset(prog, 0, sizeof(*prog)); prog->prog_engine_flags = flags; prog->prog_sports = sports; lsquic_engine_init_settings(&prog->prog_settings, flags); prog->prog_api.ea_settings = &prog->prog_settings; prog->prog_api.ea_stream_if = stream_if; prog->prog_api.ea_stream_if_ctx = stream_if_ctx; prog->prog_api.ea_packets_out = sport_packets_out; prog->prog_api.ea_packets_out_ctx = prog; prog->prog_api.ea_pmi = &pmi; prog->prog_api.ea_pmi_ctx = &prog->prog_pba; /* Non prog-specific initialization: */ lsquic_global_init(flags & LSENG_SERVER ? LSQUIC_GLOBAL_SERVER : LSQUIC_GLOBAL_CLIENT); lsquic_log_to_fstream(stderr, LLTS_HHMMSSMS); lsquic_logger_lopt("=notice"); } static int prog_add_sport (struct prog *prog, const char *arg) { struct service_port *sport; sport = sport_new(arg, prog); if (!sport) return -1; /* Default settings: */ sport->sp_flags = prog->prog_dummy_sport.sp_flags; sport->sp_sndbuf = prog->prog_dummy_sport.sp_sndbuf; sport->sp_rcvbuf = prog->prog_dummy_sport.sp_rcvbuf; TAILQ_INSERT_TAIL(prog->prog_sports, sport, next_sport); return 0; } void prog_print_common_options (const struct prog *prog, FILE *out) { fprintf(out, " -s SVCPORT Service port. Takes on the form of IPv4:port or\n" " IPv6:port. For example:\n" " 127.0.0.1:12345\n" " ::1:12345\n" " If no -s option is given, 0.0.0.0:12345 address\n" " is used.\n" " -i USEC Library will `tick' every USEC microseconds. The default\n" " is %u\n" #if LSQUIC_DONTFRAG_SUPPORTED " -D Set `do not fragment' flag on outgoing UDP packets\n" #endif " -z BYTES Maximum size of outgoing UDP packets. The default is 1370\n" " bytes for IPv4 socket and 1350 bytes for IPv6 socket\n" " -L LEVEL Log level for all modules. Possible values are `debug',\n" " `info', `notice', `warn', `error', `alert', `emerg',\n" " and `crit'.\n" " -l LEVELS Log levels for modules, e.g.\n" " -l event=info,engine=debug\n" " Can be specified more than once.\n" " -m MAX Maximum number of outgoing packet buffers that can be\n" " assigned at any one time. By default, there is no max.\n" " -y style Timestamp style used in log messages. The following styles\n" " are supported:\n" " 0 No timestamp\n" " 1 Millisecond time (this is the default).\n" " Example: 11:04:05.196\n" " 2 Full date and millisecond time.\n" " Example: 2017-03-21 13:43:46.671\n" " 3 Chrome-like timestamp: date/time.microseconds.\n" " Example: 1223/104613.946956\n" " 4 Microsecond time.\n" " Example: 11:04:05.196308\n" " 5 Full date and microsecond time.\n" " Example: 2017-03-21 13:43:46.671345\n" " -S opt=val Socket options. Supported options:\n" " sndbuf=12345 # Sets SO_SNDBUF\n" " rcvbuf=12345 # Sets SO_RCVBUF\n" , PROG_DEFAULT_PERIOD_USEC ); { if (prog->prog_engine_flags & LSENG_HTTP) fprintf(out, " -H host Value of `host' HTTP header. Defaults to `localhost'. This\n" " is also used as SNI.\n" ); else fprintf(out, " -H host Value of SNI in CHLO.\n" ); } fprintf(out, " -h Print this help screen and exit\n" ); } int prog_set_opt (struct prog *prog, int opt, const char *arg) { switch (opt) { case 'i': prog->prog_period_usec = atoi(arg); return 0; #if LSQUIC_DONTFRAG_SUPPORTED case 'D': { struct service_port *sport = TAILQ_LAST(prog->prog_sports, sport_head); if (!sport) sport = &prog->prog_dummy_sport; sport->sp_flags |= SPORT_DONT_FRAGMENT; } return 0; #endif case 'm': prog->prog_packout_max = atoi(arg); return 0; case 'z': prog->prog_max_packet_size = atoi(arg); return 0; case 'H': if (prog->prog_engine_flags & LSENG_SERVER) return -1; prog->prog_hostname = arg; return 0; case 'y': lsquic_log_to_fstream(stderr, atoi(arg)); return 0; case 'L': return lsquic_set_log_level(arg); case 'l': return lsquic_logger_lopt(arg); case 'o': return set_engine_option(&prog->prog_settings, &prog->prog_version_cleared, arg); case 's': if (0 == (prog->prog_engine_flags & LSENG_SERVER) && !TAILQ_EMPTY(prog->prog_sports)) return -1; return prog_add_sport(prog, arg); case 'S': { struct service_port *sport = TAILQ_LAST(prog->prog_sports, sport_head); if (!sport) sport = &prog->prog_dummy_sport; char *const name = strdup(optarg); char *val = strchr(name, '='); if (!val) { free(name); return -1; } *val = '\0'; ++val; if (0 == strcasecmp(name, "sndbuf")) { sport->sp_flags |= SPORT_SET_SNDBUF; sport->sp_sndbuf = atoi(val); free(name); return 0; } else if (0 == strcasecmp(name, "rcvbuf")) { sport->sp_flags |= SPORT_SET_RCVBUF; sport->sp_rcvbuf = atoi(val); free(name); return 0; } else { free(name); return -1; } } default: return 1; } } struct event_base * prog_eb (struct prog *prog) { return prog->prog_eb; } int prog_connect (struct prog *prog) { struct service_port *sport; sport = TAILQ_FIRST(prog->prog_sports); if (NULL == lsquic_engine_connect(prog->prog_engine, (struct sockaddr *) &sport->sas, sport, NULL, prog->prog_hostname ? prog->prog_hostname : sport->host, prog->prog_max_packet_size)) return -1; return 0; } static int prog_init_client (struct prog *prog) { struct service_port *sport; sport = TAILQ_FIRST(prog->prog_sports); if (0 != sport_init_client(sport, prog->prog_engine, prog->prog_eb)) return -1; return 0; } static int prog_init_server (struct prog *prog) { struct service_port *sport; TAILQ_FOREACH(sport, prog->prog_sports, next_sport) if (0 != sport_init_server(sport, prog->prog_engine, prog->prog_eb)) return -1; return 0; } static void drop_onetimer (struct prog *prog) { if (prog->prog_onetimer) { event_del(prog->prog_onetimer); event_free(prog->prog_onetimer); prog->prog_onetimer = NULL; } } void prog_maybe_set_onetimer (struct prog *prog) { int diff; if (lsquic_engine_earliest_adv_tick(prog->prog_engine, &diff)) { if (diff > 0) prog_set_onetimer(prog, (unsigned) diff); } else drop_onetimer(prog); } static void prog_timer_handler (int fd, short what, void *arg) { struct prog *const prog = arg; lsquic_engine_proc_all(prog->prog_engine); prog_maybe_set_onetimer(prog); } static void prog_onetimer_handler (int fd, short what, void *arg) { struct prog *const prog = arg; lsquic_engine_process_conns_to_tick(prog->prog_engine); prog_maybe_set_onetimer(prog); } static void prog_set_onetimer (struct prog *prog, unsigned usec) { struct timeval timeout; drop_onetimer(prog); if (usec < 4000) usec = 4000; timeout.tv_sec = 0; timeout.tv_usec = usec; prog->prog_onetimer = event_new(prog->prog_eb, -1, EV_TIMEOUT, prog_onetimer_handler, prog); event_add(prog->prog_onetimer, &timeout); } static void prog_usr1_handler (int fd, short what, void *arg) { LSQ_NOTICE("Got SIGUSR1, stopping engine"); prog_stop(arg); } int prog_run (struct prog *prog) { struct timeval timeout; timeout.tv_sec = 0; timeout.tv_usec = prog->prog_period_usec; prog->prog_timer = event_new(prog->prog_eb, -1, EV_PERSIST, prog_timer_handler, prog); event_add(prog->prog_timer, &timeout); #ifndef WIN32 prog->prog_usr1 = evsignal_new(prog->prog_eb, SIGUSR1, prog_usr1_handler, prog); evsignal_add(prog->prog_usr1, NULL); #endif event_base_loop(prog->prog_eb, 0); return 0; } void prog_cleanup (struct prog *prog) { lsquic_engine_destroy(prog->prog_engine); event_base_free(prog->prog_eb); pba_cleanup(&prog->prog_pba); lsquic_global_cleanup(); } void prog_stop (struct prog *prog) { struct service_port *sport; prog_stopped = 1; while ((sport = TAILQ_FIRST(prog->prog_sports))) { TAILQ_REMOVE(prog->prog_sports, sport, next_sport); sport_destroy(sport); } drop_onetimer(prog); if (prog->prog_timer) { event_del(prog->prog_timer); event_free(prog->prog_timer); prog->prog_timer = NULL; } if (prog->prog_usr1) { event_del(prog->prog_usr1); event_free(prog->prog_usr1); prog->prog_usr1 = NULL; } } int prog_prep (struct prog *prog) { int s; char err_buf[100]; if (0 == prog->prog_period_usec) prog->prog_period_usec = PROG_DEFAULT_PERIOD_USEC; if (prog->prog_settings.es_proc_time_thresh == LSQUIC_DF_PROC_TIME_THRESH) prog->prog_settings.es_proc_time_thresh = prog->prog_period_usec; if (0 != lsquic_engine_check_settings(prog->prog_api.ea_settings, prog->prog_engine_flags, err_buf, sizeof(err_buf))) { LSQ_ERROR("Error in settings: %s", err_buf); return -1; } pba_init(&prog->prog_pba, prog->prog_packout_max); if (TAILQ_EMPTY(prog->prog_sports)) { s = prog_add_sport(prog, "0.0.0.0:12345"); if (0 != s) return -1; } prog->prog_eb = event_base_new(); prog->prog_engine = lsquic_engine_new(prog->prog_engine_flags, &prog->prog_api); if (!prog->prog_engine) return -1; if (prog->prog_engine_flags & LSENG_SERVER) s = prog_init_server(prog); else s = prog_init_client(prog); if (s != 0) return -1; return 0; } int prog_is_stopped (void) { return prog_stopped != 0; }