#include #include #include #include #include #include #include #include #include #include enum state { APRS_IS_HEADER, APRS_IS_COMMENT, APRS_IS_BODY, APRS_IS_COMPLETE }; struct _patty_ax25_aprs_is { patty_ax25_if_stats stats; int fd; char rx_buf[PATTY_AX25_APRS_IS_PACKET_MAX], tx_buf[PATTY_AX25_APRS_IS_FRAME_MAX], call[PATTY_AX25_ADDRSTRLEN+1], info[PATTY_AX25_APRS_IS_PAYLOAD_MAX]; patty_ax25_frame frame; size_t rx_bufsz, tx_bufsz, infosz; enum state state; size_t offset_i, offset_call, offset_info; ssize_t readlen, encoded; }; static ssize_t aprs_is_vprintf(patty_ax25_aprs_is *aprs, const char *fmt, va_list args) { int len; if ((len = vsnprintf(aprs->tx_buf, PATTY_AX25_APRS_IS_PACKET_MAX, fmt, args)) < 0) { goto error_vsnprintf; } return write(aprs->fd, aprs->tx_buf, (size_t)len); error_vsnprintf: return -1; } static ssize_t aprs_is_printf(patty_ax25_aprs_is *aprs, const char *fmt, ...) { ssize_t len; va_list args; va_start(args, fmt); if ((len = aprs_is_vprintf(aprs, fmt, args)) < 0) { goto error_aprs_is_vprintf; } va_end(args); return len; error_aprs_is_vprintf: return -1; } static int aprs_is_connect(patty_ax25_aprs_is *aprs, patty_ax25_aprs_is_info *info) { struct addrinfo *ai0, *ai; if (getaddrinfo(info->host, info->port, NULL, &ai0) < 0) { goto error_getaddrinfo; } for (ai=ai0; ai; ai=ai->ai_next) { if (ai->ai_socktype == SOCK_DGRAM) { continue; } if ((aprs->fd = socket(ai->ai_family, ai->ai_socktype, ai->ai_protocol)) < 0) { continue; } if (connect(aprs->fd, ai->ai_addr, ai->ai_addrlen) < 0) { close(aprs->fd); continue; } freeaddrinfo(ai0); if (aprs_is_printf(aprs, "user %s pass %s vers %s %s filter %s\r\n", info->user, info->pass, info->appname, info->version, info->filter) < 0) { goto error_aprs_is_printf; } return 0; } error_aprs_is_printf: close(aprs->fd); error_getaddrinfo: return -1; } patty_ax25_aprs_is *patty_ax25_aprs_is_new(patty_ax25_aprs_is_info *info) { patty_ax25_aprs_is *aprs; if ((aprs = malloc(sizeof(*aprs))) == NULL) { goto error_malloc_aprs; } memset(aprs, '\0', sizeof(*aprs)); aprs->rx_bufsz = PATTY_AX25_APRS_IS_PACKET_MAX; aprs->tx_bufsz = PATTY_AX25_APRS_IS_FRAME_MAX; aprs->infosz = PATTY_AX25_APRS_IS_PAYLOAD_MAX; aprs->state = APRS_IS_HEADER; if (aprs_is_connect(aprs, info) < 0) { goto error_connect; } return aprs; error_connect: close(aprs->fd); free(aprs); error_malloc_aprs: return NULL; } void patty_ax25_aprs_is_destroy(patty_ax25_aprs_is *aprs) { (void)close(aprs->fd); free(aprs); } patty_ax25_if_stats *patty_ax25_aprs_is_stats(patty_ax25_aprs_is *aprs) { return &aprs->stats; } int patty_ax25_aprs_is_fd(patty_ax25_aprs_is *aprs) { return aprs->fd; } ssize_t patty_ax25_aprs_is_pending(patty_ax25_aprs_is *aprs) { return aprs->offset_i < aprs->readlen? 1: 0; } ssize_t patty_ax25_aprs_is_fill(patty_ax25_aprs_is *aprs) { if ((aprs->readlen = read(aprs->fd, aprs->rx_buf, aprs->rx_bufsz)) < 0) { goto error_read; } aprs->offset_i = 0; return aprs->readlen; error_read: return -1; } ssize_t patty_ax25_aprs_is_drain(patty_ax25_aprs_is *aprs, void *buf, size_t len) { ssize_t offset_start = aprs->offset_i; while (aprs->offset_i < aprs->readlen) { char c = aprs->rx_buf[aprs->offset_i++]; switch (aprs->state) { case APRS_IS_HEADER: { patty_ax25_addr *addr = NULL; if (c == '#') { aprs->state = APRS_IS_COMMENT; } else if (c == '>') { addr = &aprs->frame.src; } else if (c == ',' || c == ':') { if (aprs->frame.dest.callsign[0]) { if (aprs->frame.hops == PATTY_AX25_MAX_HOPS) { goto drop; } addr = &aprs->frame.repeaters[aprs->frame.hops++]; } else { addr = &aprs->frame.dest; } if (c == ':') { aprs->state = APRS_IS_BODY; } } else if (PATTY_AX25_ADDR_CHAR_VALID(c)) { if (aprs->offset_call == PATTY_AX25_ADDRSTRLEN) { goto drop; } aprs->call[aprs->offset_call++] = c; } else { goto drop; } if (addr) { aprs->call[aprs->offset_call] = '\0'; if (patty_ax25_pton(aprs->call, addr) < 0) { goto drop; } aprs->offset_call = 0; } break; } case APRS_IS_COMMENT: if (c == '\r') { break; } else if (c == '\n') { aprs->state = APRS_IS_HEADER; goto done; } break; case APRS_IS_BODY: if (c == '\r') { break; } else if (c == '\n') { aprs->state = APRS_IS_COMPLETE; aprs->frame.control = PATTY_AX25_FRAME_UI; aprs->frame.cr = PATTY_AX25_FRAME_COMMAND; aprs->frame.proto = PATTY_AX25_PROTO_NONE; aprs->frame.info = aprs->info; aprs->frame.infolen = aprs->offset_info; if ((aprs->encoded = patty_ax25_frame_encode(&aprs->frame, buf, len)) < 0) { goto error; } goto done; } else { if (aprs->offset_info == aprs->infosz) { goto drop; } aprs->info[aprs->offset_info++] = c; } break; case APRS_IS_COMPLETE: goto done; } } done: return aprs->offset_i - offset_start; drop: (void)patty_ax25_aprs_is_flush(aprs); return aprs->offset_i - offset_start; error: return -1; } int patty_ax25_aprs_is_ready(patty_ax25_aprs_is *aprs) { return aprs->state == APRS_IS_COMPLETE? 1: 0; } ssize_t patty_ax25_aprs_is_flush(patty_ax25_aprs_is *aprs) { ssize_t ret = aprs->encoded; aprs->state = APRS_IS_HEADER; aprs->offset_i = aprs->readlen; aprs->offset_call = 0; aprs->offset_info = 0; aprs->encoded = 0; memset(&aprs->frame, '\0', sizeof(aprs->frame)); return ret; } ssize_t patty_ax25_aprs_is_send(patty_ax25_aprs_is *aprs, const void *buf, size_t len) { patty_ax25_frame frame; size_t offset = 0; ssize_t decoded; int formatted, i; char call[PATTY_AX25_ADDRSTRLEN+1]; if ((decoded = patty_ax25_frame_decode_address(&frame, buf, len)) < 0) { goto error; } if (patty_ax25_frame_decode_control(&frame, PATTY_AX25_FRAME_NORMAL, buf, decoded, len) < 0) { goto error; } if (!PATTY_AX25_FRAME_CONTROL_UI(frame.control)) { return 0; } if (patty_ax25_ntop(&frame.src, call, sizeof(call)) < 0) { goto error; } if ((formatted = snprintf(aprs->tx_buf, aprs->tx_bufsz, "%s>", call)) < 0) { goto error; } else { offset += formatted; } if (patty_ax25_ntop(&frame.dest, call, sizeof(call)) < 0) { goto error; } if ((formatted = snprintf(aprs->tx_buf + offset, aprs->tx_bufsz - offset, "%s", call)) < 0) { goto error; } else { offset += formatted; } for (i=0; itx_buf + offset, aprs->tx_bufsz - offset, ",%s", call)) < 0) { goto error; } else { offset += formatted; } } if (aprs->tx_bufsz - offset < frame.infolen + 3) { errno = EOVERFLOW; goto error; } aprs->tx_buf[offset++] = ':'; memcpy(aprs->tx_buf + offset, frame.info, frame.infolen); offset += frame.infolen; aprs->tx_buf[offset++] = '\r'; aprs->tx_buf[offset++] = '\n'; return write(aprs->fd, aprs->tx_buf, offset); error: return -1; } patty_ax25_if_driver *patty_ax25_aprs_is_driver() { static patty_ax25_if_driver driver = { .create = (patty_ax25_if_driver_create *)patty_ax25_aprs_is_new, .destroy = (patty_ax25_if_driver_destroy *)patty_ax25_aprs_is_destroy, .stats = (patty_ax25_if_driver_stats *)patty_ax25_aprs_is_stats, .fd = (patty_ax25_if_driver_fd *)patty_ax25_aprs_is_fd, .pending = (patty_ax25_if_driver_pending *)patty_ax25_aprs_is_pending, .fill = (patty_ax25_if_driver_fill *)patty_ax25_aprs_is_fill, .drain = (patty_ax25_if_driver_drain *)patty_ax25_aprs_is_drain, .ready = (patty_ax25_if_driver_ready *)patty_ax25_aprs_is_ready, .flush = (patty_ax25_if_driver_flush *)patty_ax25_aprs_is_flush, .send = (patty_ax25_if_driver_send *)patty_ax25_aprs_is_send }; return &driver; };