// // This file is part of Dire Wolf, an amateur radio packet TNC. // // Copyright (C) 2011, 2013, 2014, 2015 John Langner, WB2OSZ // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // /*------------------------------------------------------------------ * * Module: beacon.c * * Purpose: Transmit messages on a fixed schedule. * * Description: Transmit periodic messages as specified in the config file. * *---------------------------------------------------------------*/ //#define DEBUG 1 #include #include #include #include #include #include #include #include "direwolf.h" #include "ax25_pad.h" #include "textcolor.h" #include "audio.h" #include "tq.h" #include "xmit.h" #include "config.h" #include "version.h" #include "encode_aprs.h" #include "beacon.h" #include "latlong.h" #include "dwgps.h" #include "log.h" #include "dlq.h" #include "aprs_tt.h" // for dw_run_cmd - should relocate someday. #if __WIN32__ /* * Windows doesn't have localtime_r. * It should have the equivalent localtime_s, with opposite parameter * order, but I get undefined reference when trying to use it. */ struct tm *localtime_r(time_t *clock, struct tm *res) { struct tm *tm; tm = localtime (clock); memcpy (res, tm, sizeof(struct tm)); return (res); } #endif /* * Save pointers to configuration settings. */ static struct audio_s *g_modem_config_p; static struct misc_config_s *g_misc_config_p; #if __WIN32__ static unsigned __stdcall beacon_thread (void *arg); #else static void * beacon_thread (void *arg); #endif static int g_tracker_debug_level = 0; // 1 for data from gps. // 2 + Smart Beaconing logic. // 3 + Send transmissions to log file. void beacon_tracker_set_debug (int level) { g_tracker_debug_level = level; } static time_t sb_calculate_next_time (time_t now, float current_speed_mph, float current_course, time_t last_xmit_time, float last_xmit_course); static void beacon_send (int j, dwgps_info_t *gpsinfo); /*------------------------------------------------------------------- * * Name: beacon_init * * Purpose: Initialize the beacon process. * * Inputs: pmodem - Audio device and modem configuration. * Used only to find valid channels. * * pconfig - misc. configuration from config file. * * * Outputs: Remember required information for future use. * * Description: Do some validity checking on the beacon configuration. * * Start up beacon_thread to actually send the packets * at the appropriate time. * *--------------------------------------------------------------------*/ void beacon_init (struct audio_s *pmodem, struct misc_config_s *pconfig) { time_t now; int j; int count; #if __WIN32__ HANDLE beacon_th; #else pthread_t beacon_tid; #endif #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf ("beacon_init ( ... )\n"); #endif /* * Save parameters for later use. */ g_modem_config_p = pmodem; g_misc_config_p = pconfig; /* * Precompute the packet contents so any errors are * Reported once at start up time rather than for each transmission. * If a serious error is found, set type to BEACON_IGNORE and that * table entry should be ignored later on. */ for (j=0; jnum_beacons; j++) { int chan = g_misc_config_p->beacon[j].sendto_chan; if (chan < 0) chan = 0; /* For IGate, use channel 0 call. */ if (g_modem_config_p->achan[chan].valid) { if (strlen(g_modem_config_p->achan[chan].mycall) > 0 && strcasecmp(g_modem_config_p->achan[chan].mycall, "N0CALL") != 0 && strcasecmp(g_modem_config_p->achan[chan].mycall, "NOCALL") != 0) { switch (g_misc_config_p->beacon[j].btype) { case BEACON_OBJECT: /* Object name is required. */ if (strlen(g_misc_config_p->beacon[j].objname) == 0) { text_color_set(DW_COLOR_ERROR); dw_printf ("Config file, line %d: OBJNAME is required for OBEACON.\n", g_misc_config_p->beacon[j].lineno); g_misc_config_p->beacon[j].btype = BEACON_IGNORE; continue; } /* Fall thru. Ignore any warning about missing break. */ case BEACON_POSITION: /* Location is required. */ if (g_misc_config_p->beacon[j].lat == G_UNKNOWN || g_misc_config_p->beacon[j].lon == G_UNKNOWN) { text_color_set(DW_COLOR_ERROR); dw_printf ("Config file, line %d: Latitude and longitude are required.\n", g_misc_config_p->beacon[j].lineno); g_misc_config_p->beacon[j].btype = BEACON_IGNORE; continue; } break; case BEACON_TRACKER: { dwgps_info_t gpsinfo; dwfix_t fix; fix = dwgps_read (&gpsinfo); if (fix == DWFIX_NOT_INIT) { text_color_set(DW_COLOR_ERROR); dw_printf ("Config file, line %d: GPS must be configured to use TBEACON.\n", g_misc_config_p->beacon[j].lineno); g_misc_config_p->beacon[j].btype = BEACON_IGNORE; } } break; case BEACON_CUSTOM: /* INFO or INFOCMD is required. */ if (g_misc_config_p->beacon[j].custom_info == NULL && g_misc_config_p->beacon[j].custom_infocmd == NULL) { text_color_set(DW_COLOR_ERROR); dw_printf ("Config file, line %d: INFO or INFOCMD is required for custom beacon.\n", g_misc_config_p->beacon[j].lineno); g_misc_config_p->beacon[j].btype = BEACON_IGNORE; continue; } break; case BEACON_IGNORE: break; } } else { text_color_set(DW_COLOR_ERROR); dw_printf ("Config file, line %d: MYCALL must be set for beacon on channel %d. \n", g_misc_config_p->beacon[j].lineno, chan); g_misc_config_p->beacon[j].btype = BEACON_IGNORE; } } else { text_color_set(DW_COLOR_ERROR); dw_printf ("Config file, line %d: Invalid channel number %d for beacon. \n", g_misc_config_p->beacon[j].lineno, chan); g_misc_config_p->beacon[j].btype = BEACON_IGNORE; } } /* * Calculate first time for each beacon from the 'delay' value. */ now = time(NULL); for (j=0; jnum_beacons; j++) { #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf ("beacon[%d] chan=%d, delay=%d, every=%d\n", j, g_misc_config_p->beacon[j].sendto_chan, g_misc_config_p->beacon[j].delay, g_misc_config_p->beacon[j].every); #endif g_misc_config_p->beacon[j].next = now + g_misc_config_p->beacon[j].delay; } /* * Start up thread for processing only if at least one is valid. */ count = 0; for (j=0; jnum_beacons; j++) { if (g_misc_config_p->beacon[j].btype != BEACON_IGNORE) { count++; } } if (count >= 1) { #if __WIN32__ beacon_th = (HANDLE)_beginthreadex (NULL, 0, &beacon_thread, NULL, 0, NULL); if (beacon_th == NULL) { text_color_set(DW_COLOR_ERROR); dw_printf ("Could not create beacon thread\n"); return; } #else int e; e = pthread_create (&beacon_tid, NULL, beacon_thread, (void *)0); if (e != 0) { text_color_set(DW_COLOR_ERROR); perror("Could not create beacon thread"); return; } #endif } } /* end beacon_init */ /*------------------------------------------------------------------- * * Name: beacon_thread * * Purpose: Transmit beacons when it is time. * * Inputs: g_misc_config_p->beacon * * Outputs: g_misc_config_p->beacon[].next_time * * Description: Go to sleep until it is time for the next beacon. * Transmit any beacons scheduled for now. * Repeat. * *--------------------------------------------------------------------*/ #define MIN(x,y) ((x) < (y) ? (x) : (y)) #if __WIN32__ static unsigned __stdcall beacon_thread (void *arg) #else static void * beacon_thread (void *arg) #endif { int j; /* Index into array of beacons. */ time_t earliest; time_t now; /* Current time. */ int number_of_tbeacons; /* Number of tracker beacons. */ /* * SmartBeaconing state. */ time_t sb_prev_time = 0; /* Time of most recent transmission. */ float sb_prev_course = 0; /* Most recent course reported. */ #if DEBUG struct tm tm; char hms[20]; now = time(NULL); localtime_r (&now, &tm); strftime (hms, sizeof(hms), "%H:%M:%S", &tm); text_color_set(DW_COLOR_DEBUG); dw_printf ("beacon_thread: started %s\n", hms); #endif /* * See if any tracker beacons are configured. * No need to obtain GPS data if none. */ number_of_tbeacons = 0; for (j=0; jnum_beacons; j++) { if (g_misc_config_p->beacon[j].btype == BEACON_TRACKER) { number_of_tbeacons++; } } now = time(NULL); while (1) { dwgps_info_t gpsinfo; /* * Sleep until time for the earliest scheduled or * the soonest we could transmit due to corner pegging. */ earliest = now + 60 * 60; for (j=0; jnum_beacons; j++) { if (g_misc_config_p->beacon[j].btype != BEACON_IGNORE) { earliest = MIN(g_misc_config_p->beacon[j].next, earliest); } } if (g_misc_config_p->sb_configured && number_of_tbeacons > 0) { earliest = MIN(now + g_misc_config_p->sb_turn_time, earliest); earliest = MIN(now + g_misc_config_p->sb_fast_rate, earliest); } if (earliest > now) { SLEEP_SEC (earliest - now); } /* * Woke up. See what needs to be done. */ now = time(NULL); #if DEBUG localtime_r (&now, &tm); strftime (hms, sizeof(hms), "%H:%M:%S", &tm); text_color_set(DW_COLOR_DEBUG); dw_printf ("beacon_thread: woke up %s\n", hms); #endif /* * Get information from GPS if being used. * This needs to be done before the next scheduled tracker * beacon because corner pegging make it sooner. */ if (number_of_tbeacons > 0) { dwfix_t fix = dwgps_read (&gpsinfo); float my_speed_mph = DW_KNOTS_TO_MPH(gpsinfo.speed_knots); if (g_tracker_debug_level >= 1) { struct tm tm; char hms[20]; localtime_r (&now, &tm); strftime (hms, sizeof(hms), "%H:%M:%S", &tm); text_color_set(DW_COLOR_DEBUG); if (fix == 3) { dw_printf ("%s 3D, %.6f, %.6f, %.1f mph, %.0f\xc2\xb0, %.1f m\n", hms, gpsinfo.dlat, gpsinfo.dlon, my_speed_mph, gpsinfo.track, gpsinfo.altitude); } else if (fix == 2) { dw_printf ("%s 2D, %.6f, %.6f, %.1f mph, %.0f\xc2\xb0\n", hms, gpsinfo.dlat, gpsinfo.dlon, my_speed_mph, gpsinfo.track); } else { dw_printf ("%s No GPS fix\n", hms); } } /* Don't complain here for no fix. */ /* Possibly at the point where about to transmit. */ /* * Run SmartBeaconing calculation if configured and GPS data available. */ if (g_misc_config_p->sb_configured && fix >= DWFIX_2D) { time_t tnext = sb_calculate_next_time (now, DW_KNOTS_TO_MPH(gpsinfo.speed_knots), gpsinfo.track, sb_prev_time, sb_prev_course); for (j=0; jnum_beacons; j++) { if (g_misc_config_p->beacon[j].btype == BEACON_TRACKER) { /* Haven't thought about the consequences of SmartBeaconing */ /* and having more than one tbeacon configured. */ if (tnext < g_misc_config_p->beacon[j].next) { g_misc_config_p->beacon[j].next = tnext; } } } /* Update next time if sooner. */ } /* apply SmartBeaconing */ } /* tbeacon(s) configured. */ /* * Send if the time has arrived. */ for (j=0; jnum_beacons; j++) { if (g_misc_config_p->beacon[j].btype == BEACON_IGNORE) continue; if (g_misc_config_p->beacon[j].next <= now) { /* Send the beacon. */ beacon_send (j, &gpsinfo); /* Calculate when the next one should be sent. */ /* Easy for fixed interval. SmartBeaconing takes more effort. */ if (g_misc_config_p->beacon[j].btype == BEACON_TRACKER) { if (gpsinfo.fix < DWFIX_2D) { /* Fix not available so beacon was not sent. */ /* Try again in a couple seconds. */ g_misc_config_p->beacon[j].next = now + 2; } else if (g_misc_config_p->sb_configured) { /* Remember most recent tracker beacon. */ /* Compute next time if not turning. */ sb_prev_time = now; sb_prev_course = gpsinfo.track; g_misc_config_p->beacon[j].next = sb_calculate_next_time (now, DW_KNOTS_TO_MPH(gpsinfo.speed_knots), gpsinfo.track, sb_prev_time, sb_prev_course); } else { g_misc_config_p->beacon[j].next = now + g_misc_config_p->beacon[j].every; } } else { /* non-tracker beacons are at fixed spacing. */ g_misc_config_p->beacon[j].next = now + g_misc_config_p->beacon[j].every; } } /* if time to send it */ } /* for each configured beacon */ } /* do forever */ #if __WIN32__ return(0); /* unreachable but warning if not here. */ #else return(NULL); #endif } /* end beacon_thread */ /*------------------------------------------------------------------- * * Name: sb_calculate_next_time * * Purpose: Calculate next transmission time using the SmartBeaconing algorithm. * * Inputs: now - Current time. * * current_speed_mph - Current speed from GPS. * Not expecting G_UNKNOWN but should check for it. * * current_course - Current direction of travel. * Could be G_UNKNOWN if stationary. * * last_xmit_time - Time of most recent transmission. * * last_xmit_course - Direction included in most recent transmission. * * Global In: g_misc_config_p-> * sb_configured TRUE if SmartBeaconing is configured. * sb_fast_speed MPH * sb_fast_rate seconds * sb_slow_speed MPH * sb_slow_rate seconds * sb_turn_time seconds * sb_turn_angle degrees * sb_turn_slope degrees * MPH * * Returns: Time of next transmission. * Could vary from now to sb_slow_rate in the future. * * Caution: The algorithm is defined in MPH units. GPS uses knots. * The caller must be careful about using the proper conversions. * *--------------------------------------------------------------------*/ /* Difference between two angles. */ static float heading_change (float a, float b) { float diff; diff = fabs(a - b); if (diff <= 180.) return (diff); else return (360. - diff); } static time_t sb_calculate_next_time (time_t now, float current_speed_mph, float current_course, time_t last_xmit_time, float last_xmit_course) { int beacon_rate; time_t next_time; /* * Compute time between beacons for travelling in a straight line. */ if (current_speed_mph == G_UNKNOWN) { beacon_rate = (int)roundf((g_misc_config_p->sb_fast_rate + g_misc_config_p->sb_slow_rate) / 2.); } else if (current_speed_mph > g_misc_config_p->sb_fast_speed) { beacon_rate = g_misc_config_p->sb_fast_rate; } else if (current_speed_mph < g_misc_config_p->sb_slow_speed) { beacon_rate = g_misc_config_p->sb_slow_rate; } else { /* Can't divide by 0 assuming sb_slow_speed > 0. */ beacon_rate = (int)roundf(( g_misc_config_p->sb_fast_rate * g_misc_config_p->sb_fast_speed ) / current_speed_mph); } if (g_tracker_debug_level >= 2) { text_color_set(DW_COLOR_DEBUG); dw_printf ("SmartBeaconing: Beacon Rate = %d seconds for %.1f MPH\n", beacon_rate, current_speed_mph); } next_time = last_xmit_time + beacon_rate; /* * Test for "Corner Pegging" if moving. */ if (current_speed_mph != G_UNKNOWN && current_speed_mph >= 1.0 && current_course != G_UNKNOWN && last_xmit_course != G_UNKNOWN) { float change = heading_change(current_course, last_xmit_course); float turn_threshold = g_misc_config_p->sb_turn_angle + g_misc_config_p->sb_turn_slope / current_speed_mph; if (change > turn_threshold && now >= last_xmit_time + g_misc_config_p->sb_turn_time) { if (g_tracker_debug_level >= 2) { text_color_set(DW_COLOR_DEBUG); dw_printf ("SmartBeaconing: Send now for heading change of %.0f\n", change); } next_time = now; } } return (next_time); } /* end sb_calculate_next_time */ /*------------------------------------------------------------------- * * Name: beacon_send * * Purpose: Transmit one beacon after it was determined to be time. * * Inputs: j Index into beacon configuration array below. * * gpsinfo Information from GPS. Used only for TBEACON. * * Global In: g_misc_config_p->beacon Array of beacon configurations. * * Outputs: Destination(s) specified: * - Transmit queue. * - IGate. * - Simulated reception. * * Description: Prepare text in monitor format. * Convert to packet object. * Send to desired destination(s). * *--------------------------------------------------------------------*/ static void beacon_send (int j, dwgps_info_t *gpsinfo) { int strict = 1; /* Strict packet checking because they will go over air. */ char stemp[20]; char info[AX25_MAX_INFO_LEN]; char beacon_text[AX25_MAX_PACKET_LEN]; packet_t pp = NULL; char mycall[AX25_MAX_ADDR_LEN]; char super_comment[AX25_MAX_INFO_LEN]; // Fixed part + any dynamic part. /* * Obtain source call for the beacon. * This could potentially be different on different channels. * When sending to IGate server, use call from first radio channel. * * Check added in version 1.0a. Previously used index of -1. * * Version 1.1 - channel should now be 0 for IGate. * Type of destination is encoded separately. */ strlcpy (mycall, "NOCALL", sizeof(mycall)); assert (g_misc_config_p->beacon[j].sendto_chan >= 0); strlcpy (mycall, g_modem_config_p->achan[g_misc_config_p->beacon[j].sendto_chan].mycall, sizeof(mycall)); if (strlen(mycall) == 0 || strcmp(mycall, "NOCALL") == 0) { text_color_set(DW_COLOR_ERROR); dw_printf ("MYCALL not set for beacon in config file line %d.\n", g_misc_config_p->beacon[j].lineno); return; } /* * Prepare the monitor format header. * * src > dest [ , via ] */ strlcpy (beacon_text, mycall, sizeof(beacon_text)); strlcat (beacon_text, ">", sizeof(beacon_text)); if (g_misc_config_p->beacon[j].dest != NULL) { strlcat (beacon_text, g_misc_config_p->beacon[j].dest, sizeof(beacon_text)); } else { snprintf (stemp, sizeof(stemp), "%s%1d%1d", APP_TOCALL, MAJOR_VERSION, MINOR_VERSION); strlcat (beacon_text, stemp, sizeof(beacon_text)); } if (g_misc_config_p->beacon[j].via != NULL) { strlcat (beacon_text, ",", sizeof(beacon_text)); strlcat (beacon_text, g_misc_config_p->beacon[j].via, sizeof(beacon_text)); } strlcat (beacon_text, ":", sizeof(beacon_text)); /* * If the COMMENTCMD option was specified, run specified command to get variable part. * Result is any fixed part followed by any variable part. */ // TODO: test & document. strlcpy (super_comment, "", sizeof(super_comment)); if (g_misc_config_p->beacon[j].comment != NULL) { strlcpy (super_comment, g_misc_config_p->beacon[j].comment, sizeof(super_comment)); } if (g_misc_config_p->beacon[j].commentcmd != NULL) { char var_comment[AX25_MAX_INFO_LEN]; int k; /* Run given command to get variable part of comment. */ k = dw_run_cmd (g_misc_config_p->beacon[j].commentcmd, 2, var_comment, sizeof(var_comment)); if (k > 0) { strlcat (super_comment, var_comment, sizeof(super_comment)); } else { text_color_set(DW_COLOR_ERROR); dw_printf ("xBEACON, config file line %d, COMMENTCMD failure.\n", g_misc_config_p->beacon[j].lineno); } } /* * Add the info part depending on beacon type. */ switch (g_misc_config_p->beacon[j].btype) { case BEACON_POSITION: encode_position (g_misc_config_p->beacon[j].messaging, g_misc_config_p->beacon[j].compress, g_misc_config_p->beacon[j].lat, g_misc_config_p->beacon[j].lon, 0, (int)roundf(DW_METERS_TO_FEET(g_misc_config_p->beacon[j].alt_m)), g_misc_config_p->beacon[j].symtab, g_misc_config_p->beacon[j].symbol, g_misc_config_p->beacon[j].power, g_misc_config_p->beacon[j].height, g_misc_config_p->beacon[j].gain, g_misc_config_p->beacon[j].dir, G_UNKNOWN, G_UNKNOWN, /* course, speed */ g_misc_config_p->beacon[j].freq, g_misc_config_p->beacon[j].tone, g_misc_config_p->beacon[j].offset, super_comment, info, sizeof(info)); strlcat (beacon_text, info, sizeof(beacon_text)); break; case BEACON_OBJECT: encode_object (g_misc_config_p->beacon[j].objname, g_misc_config_p->beacon[j].compress, 0, g_misc_config_p->beacon[j].lat, g_misc_config_p->beacon[j].lon, 0, g_misc_config_p->beacon[j].symtab, g_misc_config_p->beacon[j].symbol, g_misc_config_p->beacon[j].power, g_misc_config_p->beacon[j].height, g_misc_config_p->beacon[j].gain, g_misc_config_p->beacon[j].dir, G_UNKNOWN, G_UNKNOWN, /* course, speed */ g_misc_config_p->beacon[j].freq, g_misc_config_p->beacon[j].tone, g_misc_config_p->beacon[j].offset, super_comment, info, sizeof(info)); strlcat (beacon_text, info, sizeof(beacon_text)); break; case BEACON_TRACKER: if (gpsinfo->fix >= DWFIX_2D) { int coarse; /* Round to nearest integer. retaining unknown state. */ int my_alt_ft; /* Transmit altitude only if user asked for it. */ /* A positive altitude in the config file enables */ /* transmission of altitude from GPS. */ my_alt_ft = G_UNKNOWN; if (gpsinfo->fix >= 3 && gpsinfo->altitude != G_UNKNOWN && g_misc_config_p->beacon[j].alt_m > 0) { my_alt_ft = (int)roundf(DW_METERS_TO_FEET(gpsinfo->altitude)); } coarse = G_UNKNOWN; if (gpsinfo->track != G_UNKNOWN) { coarse = (int)roundf(gpsinfo->track); } encode_position (g_misc_config_p->beacon[j].messaging, g_misc_config_p->beacon[j].compress, gpsinfo->dlat, gpsinfo->dlon, 0, my_alt_ft, g_misc_config_p->beacon[j].symtab, g_misc_config_p->beacon[j].symbol, g_misc_config_p->beacon[j].power, g_misc_config_p->beacon[j].height, g_misc_config_p->beacon[j].gain, g_misc_config_p->beacon[j].dir, coarse, (int)roundf(gpsinfo->speed_knots), g_misc_config_p->beacon[j].freq, g_misc_config_p->beacon[j].tone, g_misc_config_p->beacon[j].offset, super_comment, info, sizeof(info)); strlcat (beacon_text, info, sizeof(beacon_text)); /* Write to log file for testing. */ /* The idea is to run log2gpx and map the result rather than */ /* actually transmitting and relying on someone else to receive */ /* the signals. */ if (g_tracker_debug_level >= 3) { decode_aprs_t A; alevel_t alevel; memset (&A, 0, sizeof(A)); A.g_freq = G_UNKNOWN; A.g_offset = G_UNKNOWN; A.g_tone = G_UNKNOWN; A.g_dcs = G_UNKNOWN; strlcpy (A.g_src, mycall, sizeof(A.g_src)); A.g_symbol_table = g_misc_config_p->beacon[j].symtab; A.g_symbol_code = g_misc_config_p->beacon[j].symbol; A.g_lat = gpsinfo->dlat; A.g_lon = gpsinfo->dlon; A.g_speed_mph = DW_KNOTS_TO_MPH(gpsinfo->speed_knots); A.g_course = coarse; A.g_altitude_ft = DW_METERS_TO_FEET(gpsinfo->altitude); /* Fake channel of 999 to distinguish from real data. */ memset (&alevel, 0, sizeof(alevel)); log_write (999, &A, NULL, alevel, 0); } } else { return; /* No fix. Skip this time. */ } break; case BEACON_CUSTOM: if (g_misc_config_p->beacon[j].custom_info != NULL) { /* Fixed handcrafted text. */ strlcat (beacon_text, g_misc_config_p->beacon[j].custom_info, sizeof(beacon_text)); } else if (g_misc_config_p->beacon[j].custom_infocmd != NULL) { char info_part[AX25_MAX_INFO_LEN]; int k; /* Run given command to obtain the info part for packet. */ k = dw_run_cmd (g_misc_config_p->beacon[j].custom_infocmd, 2, info_part, sizeof(info_part)); if (k > 0) { strlcat (beacon_text, info_part, sizeof(beacon_text)); } else { text_color_set(DW_COLOR_ERROR); dw_printf ("CBEACON, config file line %d, INFOCMD failure.\n", g_misc_config_p->beacon[j].lineno); strlcpy (beacon_text, "", sizeof(beacon_text)); // abort! } } else { text_color_set(DW_COLOR_ERROR); dw_printf ("Internal error. custom_info is null. %s %d\n", __FILE__, __LINE__); strlcpy (beacon_text, "", sizeof(beacon_text)); // abort! } break; case BEACON_IGNORE: default: break; } /* switch beacon type. */ /* * Parse monitor format into form for transmission. */ if (strlen(beacon_text) == 0) { return; } pp = ax25_from_text (beacon_text, strict); if (pp != NULL) { /* Send to desired destination. */ alevel_t alevel; switch (g_misc_config_p->beacon[j].sendto_type) { case SENDTO_IGATE: text_color_set(DW_COLOR_XMIT); dw_printf ("[ig] %s\n", beacon_text); igate_send_rec_packet (0, pp); ax25_delete (pp); break; case SENDTO_XMIT: default: tq_append (g_misc_config_p->beacon[j].sendto_chan, TQ_PRIO_1_LO, pp); break; case SENDTO_RECV: /* Simulated reception. */ memset (&alevel, 0xff, sizeof(alevel)); dlq_append (DLQ_REC_FRAME, g_misc_config_p->beacon[j].sendto_chan, 0, 0, pp, alevel, 0, ""); break; } } else { text_color_set(DW_COLOR_ERROR); dw_printf ("Config file: Failed to parse packet constructed from line %d.\n", g_misc_config_p->beacon[j].lineno); dw_printf ("%s\n", beacon_text); } } /* end beacon_send */ /* end beacon.c */