#!/usr/bin/env python3 # from HackRF import HackRF from PPM import PPM from ModeS import ModeS from sys import argv, exit import argparse import configparser import logging import logging.config import os import csv ############################################################### # Copyright (C) 2017 Linar Yusupov # 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 3 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 . ############################################################### # Further work on fork # Copyright (C) 2017 David Robinson def auto_int(x): """Parses HEX into for argParser""" return int(x, 0) def auto_bool(x): if x.lower() in ('yes', 'true', 't', 'y', '1'): return True elif x.lower() in ('no', 'false', 'f', 'n', '0'): return False else: raise argparse.ArgumentTypeError('Boolean value expected.') def argParser(): description = 'This tool will generate ADS-B data in a form that a hackRF can broadcast. In addition to providing the information at the command the defaults can be changed in the config.cfg file and the the logging config changed in logging.cfg.' parser = argparse.ArgumentParser(description=description) parser.add_argument('-i', '--icao', action='store', type=auto_int, dest='icao', default=cfg.get('plane', 'icao'), help='The ICAO number for the plane in hex. Ensure the ICAO is prefixed with \'0x\' to ensure this is parsed as a hex number. This is 24 bits long. Default: %(default)s') parser.add_argument('--lat', '--latitude', action='store', type=float, dest='latitude', default=cfg.getfloat('plane', 'latitude'), help='Latitude for the plane in decimal degrees. Default: %(default)s') parser.add_argument('--lon', '--long', '--longitude', action='store', type=float, dest='longitude', default=cfg.getfloat('plane', 'longitude'), help='Longitude for the place in decimal degrees. Default: %(default)s') parser.add_argument('-a', '--alt', '--altitude', action='store', type=float, dest='altitude', default=cfg.getfloat('plane', 'altitude'), help='Altitude in decimal feet. 12 bits. Default: %(default)s') parser.add_argument('--ca', '--capability', action='store', type=int, dest='capability', default=cfg.getint('plane', 'capability'), help='The capability. (Think this is always 5 from ADS-B messages. More info would be appreciated). 5 indicates that the responder is capable of Communication A and B, and the plane is not on the ground. 3 bits. Default: %(default)s') parser.add_argument('--tc', '--typecode', action='store', type=int, dest='typecode', default=cfg.getint('plane', 'typecode'), help='The type for the ADS-B message. 11 is an air position message. See https://adsb-decode-guide.readthedocs.io/en/latest/content/introduction.html#ads-b-message-types for more information. 5 bits. Default: %(default)s') parser.add_argument('--ss', '--surveillancestatus', action='store', type=int, dest='surveillancestatus', default=cfg.getint('plane', 'surveillancestatus'), help='The surveillance status. (Think this is always 0 from ADS-B messages. More info would be appreciated). Default: %(default)s') parser.add_argument('--nicsb', '--nicsupplementb', action='store', type=int, dest='nicsupplementb', default=cfg.getint('plane', 'nicsupplementb'), help='The NIC supplement-B.(Think this is always 0 from ADS-B messages. More info would be appreciated). Default: %(default)s') parser.add_argument('--time', action='store', type=int, dest='time', default=cfg.getint('plane', 'time'), help='The time. (Think this is always 0 from ADS-B messages. More info would be appreciated). Default: %(default)s') parser.add_argument('-s', '--surface', action='store', default=cfg.getboolean('plane', 'surface'), type=auto_bool, dest='surface', help='If the plane is on the ground or not. Default: %(default)s') parser.add_argument('-o', '--out', '--output', action='store', type=str, default=cfg.get('general', 'outputfilename'), dest='outputfilename', help='The iq8s output filename. This is the file which you will feed into the hackRF. Default: %(default)s') parser.add_argument('-r', '--repeats', action='store', dest='repeats', type=int, default=cfg.getint('general', 'repeats'), help='How many repeats of the data to perform. Default: %(default)s') parser.add_argument('--csv', '--csvfile', '--in', '--input', action='store', type=str, default=cfg.get('general', 'csvfile'), dest='csvfile', help='Import a CSV file with the plane data in it. Default: %(default)s') # TODO Make it so it can do a static checksum # TODO Get pause between messages # TODO Get pause between repeats # TODO Do a pause function return parser.parse_args() def singlePlane(arguments): logger.info('Processing default and command line options for a single plane') logger.info('Repeating the message %s times' % (arguments.repeats)) samples = bytearray() for i in range(0, arguments.repeats): modes = ModeS() (df17_even, df17_odd) = modes.df17_pos_rep_encode(arguments.capability, arguments.icao, arguments.typecode, arguments.surveillancestatus, arguments.nicsupplementb, arguments.altitude, arguments.time, arguments.latitude, arguments.longitude, arguments.surface) ppm = PPM() df17_array = ppm.frame_1090es_ppm_modulate(df17_even, df17_odd) hackrf = HackRF() samples_array = hackrf.hackrf_raw_IQ_format(df17_array) samples = samples+samples_array return samples def manyPlanes(arguments): logger.info('Processing CSV file') samples = bytearray() logger.info('Repeating the message %s times' % (arguments.repeats)) for i in range(0, arguments.repeats): with open(arguments.csvfile, newline='') as csvfile: reader = csv.DictReader(csvfile, delimiter=',') for row in reader: if not 'icao' in row.keys(): row['icao'] = arguments.icao else: row['icao'] = int(row['icao'], 0) if not 'latitude' in row.keys(): row['latitude'] = arguments.latitude if not 'longitude' in row.keys(): row['longitude'] = arguments.longitude if not 'altitude' in row.keys(): row['altitude'] = arguments.altitude if not 'capability' in row.keys(): row['capability'] = arguments.capability if not 'typecode' in row.keys(): row['typecode'] = arguments.typecode if not 'surveillancestatus' in row.keys(): row['surveillancestatus'] = arguments.surveillancestatus if not 'nicsupplementb' in row.keys(): row['nicsupplementb'] = arguments.nicsupplementb if not 'time' in row.keys(): row['time'] = arguments.time if not 'surface' in row.keys(): row['surface'] = arguments.surface logger.debug('Row from CSV: %s' % (row)) modes = ModeS() (df17_even, df17_odd) = modes.df17_pos_rep_encode(row['capability'], row['icao'], row['typecode'], row['surveillancestatus'], row['nicsupplementb'], row['altitude'], row['time'], row['latitude'], row['longitude'], row['surface']) ppm = PPM() df17_array = ppm.frame_1090es_ppm_modulate(df17_even, df17_odd) hackrf = HackRF() samples_array = hackrf.hackrf_raw_IQ_format(df17_array) samples = samples+samples_array return samples def writeOutputFile(filename, data): tmpfile = '%s.tmp'%(filename) logger.info('Writing %s file'%(tmpfile)) SamplesFile = open(tmpfile, 'wb') SamplesFile.write(data) SamplesFile.close() os.system('sync') os.system('rm %s' % (filename)) logger.info('dd for file: %s' % (filename)) os.system("dd if=%s of=%s bs=4k seek=63 > /dev/null 2>&1" % (tmpfile, filename)) os.system('sync') os.system('rm %s'%(tmpfile)) def main(): global cfg cfg = configparser.ConfigParser() cfg.read('config.cfg') arguments = argParser() global logger logging.config.fileConfig('logging.cfg') logger = logging.getLogger(__name__) logger.info('Starting ADSB Encoder') logger.debug('The arguments: %s' % (arguments)) data = None if arguments.csvfile == '': data = singlePlane(arguments) else: data = manyPlanes(arguments) writeOutputFile(arguments.outputfilename, data) logger.info('Complete') def threadingCSV(csv): global cfg cfg = configparser.ConfigParser() cfg.read('config.cfg') arguments = argParser() arguments.csvfile = csv[0] arguments.outputfilename = csv[1] global logger logging.config.fileConfig('logging.cfg') logger = logging.getLogger(__name__) logger.info('Starting ADSB Encoder') logger.debug('The arguments: %s' % (arguments)) data = None if arguments.csvfile == '': data = singlePlane(arguments) else: data = manyPlanes(arguments) writeOutputFile(arguments.outputfilename, data) logger.info('Complete') if __name__ == "__main__": main()