# # Copyright 2010 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, threading from string import split, join import air_modes import sqlite3 from air_modes.exceptions import * import zmq from gnuradio.gr.pubsub import pubsub class output_sql(air_modes.parse, pubsub): def __init__(self, mypos, filename, lock, addr=None): air_modes.parse.__init__(self, mypos) pubsub.__init__(self) self._lock = lock; #create the database self.filename = filename self._db = sqlite3.connect(filename) #now execute a schema to create the tables you need c = self._db.cursor() query = """CREATE TABLE IF NOT EXISTS "positions" ( "icao" INTEGER KEY NOT NULL, "seen" TEXT NOT NULL, "alt" INTEGER, "lat" REAL, "lon" REAL );""" c.execute(query) query = """CREATE TABLE IF NOT EXISTS "vectors" ( "icao" INTEGER KEY NOT NULL, "seen" TEXT NOT NULL, "speed" REAL, "heading" REAL, "vertical" REAL );""" c.execute(query) query = """CREATE TABLE IF NOT EXISTS "ident" ( "icao" INTEGER PRIMARY KEY NOT NULL, "ident" TEXT NOT NULL );""" c.execute(query) c.close() self._db.commit() #we close the db conn now to reopen it in the output() thread context. self._db.close() self._db = None def insert(self, message): with self._lock: try: #we're checking to see if the db is empty, and creating the db object #if it is. the reason for this is so that the db writing is done within #the thread context of output(), rather than the thread context of the #constructor. if self._db is None: self._db = sqlite3.connect(self.filename) query = self.make_insert_query(message) if query is not None: c = self._db.cursor() c.execute(query) c.close() # self._db.commit() except ADSBError: pass def make_insert_query(self, message): #assembles a SQL query tailored to our database #this version ignores anything that isn't Type 17 for now, because we just don't care [data, ecc, reference, timestamp] = message.split() data = air_modes.modes_reply(long(data, 16)) ecc = long(ecc, 16) # reference = float(reference) query = None msgtype = data["df"] if msgtype == 17: query = self.sql17(data) self["new_adsb"] = data["aa"] #publish change notification return query def sql17(self, data): icao24 = data["aa"] bdsreg = data["me"].get_type() if bdsreg == 0x08: (msg, typename) = self.parseBDS08(data) self["new_ident"] = icao24 return "INSERT OR REPLACE INTO ident (icao, ident) VALUES (" + "%i" % icao24 + ", '" + msg + "')" elif bdsreg == 0x06: [ground_track, decoded_lat, decoded_lon, rnge, bearing] = self.parseBDS06(data) altitude = 0 if decoded_lat is None: #no unambiguously valid position available raise CPRNoPositionError else: self["new_position"] = icao24 return "INSERT INTO positions (icao, seen, alt, lat, lon) VALUES (" + "%i" % icao24 + ", datetime('now'), " + str(altitude) + ", " + "%.6f" % decoded_lat + ", " + "%.6f" % decoded_lon + ")" elif bdsreg == 0x05: [altitude, decoded_lat, decoded_lon, rnge, bearing] = self.parseBDS05(data) if decoded_lat is None: #no unambiguously valid position available raise CPRNoPositionError else: self["new_position"] = icao24 return "INSERT INTO positions (icao, seen, alt, lat, lon) VALUES (" + "%i" % icao24 + ", datetime('now'), " + str(altitude) + ", " + "%.6f" % decoded_lat + ", " + "%.6f" % decoded_lon + ")" elif bdsreg == 0x09: subtype = data["bds09"].get_type() if subtype == 0: [velocity, heading, vert_spd, turnrate] = self.parseBDS09_0(data) self["new_vector"] = icao24 return "INSERT INTO vectors (icao, seen, speed, heading, vertical) VALUES (" + "%i" % icao24 + ", datetime('now'), " + "%.0f" % velocity + ", " + "%.0f" % heading + ", " + "%.0f" % vert_spd + ")" elif subtype == 1: [velocity, heading, vert_spd] = self.parseBDS09_1(data) self["new_vector"] = icao24 return "INSERT INTO vectors (icao, seen, speed, heading, vertical) VALUES (" + "%i" % icao24 + ", datetime('now'), " + "%.0f" % velocity + ", " + "%.0f" % heading + ", " + "%.0f" % vert_spd + ")" else: raise NoHandlerError