# # Copyright 2010, 2012 Nick Foster # # This file is part of gr-air-modes # # gr-air-modes 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, or (at your option) # any later version. # # gr-air-modes 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 gr-air-modes; see the file COPYING. If not, write to # the Free Software Foundation, Inc., 51 Franklin Street, # Boston, MA 02110-1301, USA. # import time, os, sys from string import split, join import modes_parse from modes_exceptions import * import math class modes_output_print(modes_parse.modes_parse): def __init__(self, mypos): modes_parse.modes_parse.__init__(self, mypos) def parse(self, message): [data, ecc, reference, timestamp] = message.split() data = modes_parse.modes_reply(long(data, 16)) ecc = long(ecc, 16) reference = float(reference) timestamp = float(timestamp) #TODO this is suspect if reference == 0.0: refdb = -150.0 else: refdb = 10.0*math.log10(reference) output = "(%.0f %.10f) " % (refdb, timestamp); try: msgtype = data["df"] if msgtype == 0: output += self.print0(data, ecc) elif msgtype == 4: output += self.print4(data, ecc) elif msgtype == 5: output += self.print5(data, ecc) elif msgtype == 11: output += self.print11(data, ecc) elif msgtype == 17: output += self.print17(data) else: output += "No handler for message type %i from %x (but it's in modes_parse)" % (msgtype, ecc) print output except NoHandlerError as e: output += "No handler for message type %i from %x" % (msgtype, ecc) print output except MetricAltError: pass except CPRNoPositionError: pass def print0(self, shortdata, ecc): [vs, cc, sl, ri, altitude] = self.parse0(shortdata) retstr = "Type 0 (short A-A surveillance) from %x at %ift" % (ecc, altitude) # the ri values below 9 are used for other things. might want to print those someday. if ri == 0: retstr += " (No TCAS)" elif ri == 2: retstr += " (TCAS resolution inhibited)" elif ri == 3: retstr += " (Vertical TCAS resolution only)" elif ri == 4: retstr += " (Full TCAS resolution)" elif ri == 9: retstr += " (speed <75kt)" elif ri > 9: retstr += " (speed %i-%ikt)" % (75 * (1 << (ri-10)), 75 * (1 << (ri-9))) if vs is True: retstr += " (aircraft is on the ground)" return retstr def print4(self, shortdata, ecc): [fs, dr, um, altitude] = self.parse4(shortdata) retstr = "Type 4 (short surveillance altitude reply) from %x at %ift" % (ecc, altitude) if fs == 1: retstr += " (aircraft is on the ground)" elif fs == 2: retstr += " (AIRBORNE ALERT)" elif fs == 3: retstr += " (GROUND ALERT)" elif fs == 4: retstr += " (SPI ALERT)" elif fs == 5: retstr += " (SPI)" return retstr def print5(self, shortdata, ecc): [fs, dr, um, ident] = self.parse5(shortdata) retstr = "Type 5 (short surveillance ident reply) from %x with ident %i" % (ecc, ident) if fs == 1: retstr += " (aircraft is on the ground)" elif fs == 2: retstr += " (AIRBORNE ALERT)" elif fs == 3: retstr += " (GROUND ALERT)" elif fs == 4: retstr += " (SPI ALERT)" elif fs == 5: retstr += " (SPI)" return retstr def print11(self, data, ecc): [icao24, interrogator, ca] = self.parse11(data, ecc) retstr = "Type 11 (all call reply) from %x in reply to interrogator %i" % (icao24, interrogator) return retstr def print17(self, data): icao24 = data["aa"] subtype = data["me"]["ftc"] retstr = None if 1 <= subtype <= 4: (msg, typestring) = self.parseBDS08(data) retstr = "Type 17 subtype 04 (ident) from %x type %s ident %s" % (icao24, typestring, msg) elif subtype >= 5 and subtype <= 8: [altitude, decoded_lat, decoded_lon, rnge, bearing] = self.parseBDS06(data) retstr = "Type 17 subtype 06 (surface report) from %x at (%.6f, %.6f)" % (icao24, decoded_lat, decoded_lon) if rnge is not None and bearing is not None: retstr += " (%.2f @ %.0f)" % (rnge, bearing) elif subtype >= 9 and subtype <= 18: [altitude, decoded_lat, decoded_lon, rnge, bearing] = self.parseBDS05(data) retstr = "Type 17 subtype 05 (position report) from %x at (%.6f, %.6f)" % (icao24, decoded_lat, decoded_lon) if rnge is not None and bearing is not None: retstr += " (" + "%.2f" % rnge + " @ " + "%.0f" % bearing + ")" retstr += " at " + str(altitude) + "ft" elif subtype == 19: subsubtype = data["me"]["bds09"]["sub"] if subsubtype == 0: [velocity, heading, vert_spd] = self.parseBDS09_0(data) retstr = "Type 17 subtype 09-0 (track report) from %x with velocity %.0fkt heading %.0f VS %.0f" % (icao24, velocity, heading, vert_spd) elif 1 <= subsubtype <= 2: [velocity, heading, vert_spd] = self.parseBDS09_1(data) retstr = "Type 17 subtype 09-%i (track report) from %x with velocity %.0fkt heading %.0f VS %.0f" % (subsubtype, icao24, velocity, heading, vert_spd) else: retstr = "Type 17 subtype 09-%i from %x not implemented" % (subsubtype, icao24) elif subtype == 28: emerg_str = self.parseBDS62(data) retstr = "Type 17 subtype 28 (emergency) from %x type %s" % (icao24, emerg_str) else: retstr = "Type 17 subtype %i from %x not implemented" % (subtype, icao24) return retstr def print20(self, data, ecc): [fs, dr, um, alt] = self.parse4(data) mb_fields = data["mb"].get_fields() bds1 = mb_fields["bds1"] bds2 = mb_fields["bds2"] if bds2 != 0: retstr = "No handler for BDS2 == %i from %x" % (bds2, ecc) elif bds1 == 0: retstr = "No handler for BDS1 == 0 from %x" % ecc elif bds1 == 1: retstr = "Type 20 link capability report from %x: ACS: 0x%x, BCS: 0x%x, ECS: 0x%x, continues %i" \ % (ecc, mb_fields["acs"], mb_fields["bcs"], mb_fields["ecs"], mb_fields["cfs"]) elif bds1 == 2: retstr = "Type 20 identification from %x with text %s" % (ecc, self.parseMB_id(data)) elif bds2 == 3: retstr = "TCAS report from %x: " % ecc tti = mb_fields["tcas"].get_type() if tti == 1: (resolutions, complements, rat, mte, threat_id) = self.parseMB_TCAS_threatid(data) retstr += "threat ID: %x advised: %s complement: %s" % (threat_id, resolutions, complements) elif tti == 2: (resolutions, complements, rat, mte, threat_alt, threat_range, threat_bearing) = self.parseMB_TCAS_threatloc(data) retstr += "range: %i bearing: %i alt: %i advised: %s complement: %s" % (threat_range, threat_bearing, threat_alt, resolutions, complements) else: retstr += " (no handler for TTI=%i)" % tti if mte == 1: retstr += " (multiple threats)" if rat == 1: retstr += " (resolved)" else: retstr = "No handler for BDS1 == %i from %x" % (bds1, ecc) return retstr