from location import * class ModeS: """This class handles the ModeS ADSB manipulation """ def df17_pos_rep_encode(self, ca, icao, tc, ss, nicsb, alt, time, lat, lon, surface): """ This will take the parameters for an ADSB type 17 message and reutrn the even and odd bytes """ format = 17 #The format type of an ADSB message enc_alt = encode_alt_modes(alt, surface) #print "Alt(%r): %X " % (surface, enc_alt) #encode that position (evenenclat, evenenclon) = cpr_encode(lat, lon, False, surface) (oddenclat, oddenclon) = cpr_encode(lat, lon, True, surface) #print "Even Lat/Lon: %X/%X " % (evenenclat, evenenclon) #print "Odd Lat/Lon: %X/%X " % (oddenclat, oddenclon) ff = 0 df17_even_bytes = [] df17_even_bytes.append((format<<3) | ca) df17_even_bytes.append((icao>>16) & 0xff) df17_even_bytes.append((icao>> 8) & 0xff) df17_even_bytes.append((icao ) & 0xff) # data df17_even_bytes.append((tc<<3) | (ss<<1) | nicsb) df17_even_bytes.append((enc_alt>>4) & 0xff) df17_even_bytes.append((enc_alt & 0xf) << 4 | (time<<3) | (ff<<2) | (evenenclat>>15)) df17_even_bytes.append((evenenclat>>7) & 0xff) df17_even_bytes.append(((evenenclat & 0x7f) << 1) | (evenenclon>>16)) df17_even_bytes.append((evenenclon>>8) & 0xff) df17_even_bytes.append((evenenclon ) & 0xff) df17_str = "{0:02x}{1:02x}{2:02x}{3:02x}{4:02x}{5:02x}{6:02x}{7:02x}{8:02x}{9:02x}{10:02x}".format(*df17_even_bytes[0:11]) #print df17_str , "%X" % bin2int(crc(df17_str+"000000", encode=True)) , "%X" % get_parity(hex2bin(df17_str+"000000"), extended=True) df17_crc = self.bin2int(self.modes_crc(df17_str+"000000", encode=True)) df17_even_bytes.append((df17_crc>>16) & 0xff) df17_even_bytes.append((df17_crc>> 8) & 0xff) df17_even_bytes.append((df17_crc ) & 0xff) ff = 1 df17_odd_bytes = [] df17_odd_bytes.append((format<<3) | ca) df17_odd_bytes.append((icao>>16) & 0xff) df17_odd_bytes.append((icao>> 8) & 0xff) df17_odd_bytes.append((icao ) & 0xff) # data df17_odd_bytes.append((tc<<3) | (ss<<1) | nicsb) df17_odd_bytes.append((enc_alt>>4) & 0xff) df17_odd_bytes.append((enc_alt & 0xf) << 4 | (time<<3) | (ff<<2) | (oddenclat>>15)) df17_odd_bytes.append((oddenclat>>7) & 0xff) df17_odd_bytes.append(((oddenclat & 0x7f) << 1) | (oddenclon>>16)) df17_odd_bytes.append((oddenclon>>8) & 0xff) df17_odd_bytes.append((oddenclon ) & 0xff) df17_str = "{0:02x}{1:02x}{2:02x}{3:02x}{4:02x}{5:02x}{6:02x}{7:02x}{8:02x}{9:02x}{10:02x}".format(*df17_odd_bytes[0:11]) df17_crc = self.bin2int(self.modes_crc(df17_str+"000000", encode=True)) df17_odd_bytes.append((df17_crc>>16) & 0xff) df17_odd_bytes.append((df17_crc>> 8) & 0xff) df17_odd_bytes.append((df17_crc ) & 0xff) return (df17_even_bytes, df17_odd_bytes) ############################################################### # Copyright (C) 2015 Junzi Sun (TU Delft) # 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 . # the polynominal generattor code for CRC def modes_crc(self, msg, encode=False): """Mode-S Cyclic Redundancy Check Detect if bit error occurs in the Mode-S message Args: msg (string): 28 bytes hexadecimal message string encode (bool): True to encode the date only and return the checksum Returns: string: message checksum, or partity bits (encoder) """ GENERATOR = "1111111111111010000001001" # Currently don't know what is magic about this number msgbin = list(self.hex2bin(msg)) if encode: msgbin[-24:] = ['0'] * 24 # loop all bits, except last 24 piraty bits for i in range(len(msgbin)-24): # if 1, perform modulo 2 multiplication, if msgbin[i] == '1': for j in range(len(GENERATOR)): # modulo 2 multiplication = XOR msgbin[i+j] = str((int(msgbin[i+j]) ^ int(GENERATOR[j]))) # last 24 bits reminder = ''.join(msgbin[-24:]) return reminder def hex2bin(self, hexstr): """Convert a hexdecimal string to binary string, with zero fillings. """ scale = 16 num_of_bits = len(hexstr) * math.log(scale, 2) binstr = bin(int(hexstr, scale))[2:].zfill(int(num_of_bits)) return binstr def bin2int(self, binstr): """Convert a binary string to integer. """ return int(binstr, 2)