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logger.py
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import configparser
import json
import logging
import os
import shutil
import signal
import sys
import time
from datetime import datetime
import geopy.distance
DATA_PATH = None
STATION_LOCATION = None
data = {}
config = configparser.ConfigParser()
config.read('config.ini')
def load_config():
global DATA_PATH
global STATION_LOCATION
logging.basicConfig(level=logging.getLevelName(int(config['LOGGING']['LOG_LEVEL'])))
logging.info("Logging level: " + config['LOGGING']['LOG_LEVEL'])
DATA_PATH = config['PATHS']['data_path']
logging.info("Data path: " + DATA_PATH)
STATION_LOCATION = (config['LOCATION']['STATION_LAT'], config['LOCATION']['STATION_LNG'])
logging.info("Station location: " + str(STATION_LOCATION))
if config['UNITS']['USE_UTC'] == 'False':
logging.info("Using local time")
else:
logging.info("Using UTC time")
if config['LOGGING']['SENTRY_DSN'] != '':
import sentry_sdk
sentry_sdk.init(
config['LOGGING']['SENTRY_DSN'],
traces_sample_rate=1.0,
environment=config['LOGGING']['SENTRY_ENVIRONMENT']
)
def load_data():
logging.info("Loading data file...")
global data
with open('./data.json', 'r') as f:
data = json.load(f)
def save_data():
logging.info("Saving data file...")
global data
# print(data)
if os.path.exists('./data.json.backup'):
os.remove('./data.json.backup')
shutil.copyfile('./data.json', './data.json.backup')
with open('./data.json', 'w') as f:
json.dump(data, f)
with open('./data.json', 'w') as f:
json.dump(data, f)
def signal_handler(signal, frame):
print('You pressed Ctrl+C!')
sys.exit(0)
def init_data():
logging.info("Creating new data file...")
with open('./data.json', 'w') as f:
json.dump({
'times': {
'start': None,
'latest': None
},
'flights': [],
'operators': [],
'maxAltitude': {
'altitude': 0,
'latitude': 0,
'longitude': 0,
'flight': None,
'seenAt': None
},
'maxGroundSpeed': {
'groundSpeed': 0,
'latitude': 0,
'longitude': 0,
'flight': None,
'seenAt': None
},
'furthestFlight': {
'distance': 0,
'latitude': 0,
'longitude': 0,
'flight': None,
'seenAt': None
},
'closestFlight': {
'distance': 0,
'latitude': 0,
'longitude': 0,
'flight': None,
'seenAt': None
},
'maxSignal': {
'signal': 0,
'distance': 0,
'latitude': 0,
'longitude': 0,
'flight': None,
'seenAt': None
},
'minSignal': {
'signal': 0,
'distance': 0,
'latitude': 0,
'longitude': 0,
'flight': None,
'seenAt': None
},
}, f)
def parse_file():
logging.info("Parsing aircraft json")
if config['DEBUG']['USE_SAMPLE_DATA'] == 'True':
logging.warning("Using sample data")
hData = json.loads(open('./sample.json', 'r').read())
else:
try:
hData = json.loads(open(DATA_PATH + 'aircraft.json', 'r').read())
except FileNotFoundError:
logging.error("Could not load and parse aircraft json")
return
if config['UNITS']['USE_UTC'] == 'False':
data_time = datetime.fromtimestamp(hData['now'])
else:
data_time = datetime.utcfromtimestamp(hData['now'])
data_time_parsed = data_time.strftime('%Y-%m-%d %H:%M:%S')
# Updates data timeframes
if data['times']['latest'] is None or data_time > datetime.strptime(data['times']['latest'], '%Y-%m-%d %H:%M:%S'):
newer_file = data_time_parsed
data['times']['latest'] = newer_file
if data['times']['start'] is None or data_time < datetime.strptime(data['times']['start'], '%Y-%m-%d %H:%M:%S'):
oldest_file = data_time_parsed
data['times']['start'] = oldest_file
for flight in hData['aircraft']:
if 'flight' not in flight:
logging.debug("Flight without flight number: " + str(flight['hex']))
continue
flight['flight'] = flight['flight'].rstrip()
# Flights
if not any(x['flight'] == flight['flight'] for x in data['flights']):
logging.info("Found new flight: " + flight['flight'])
data['flights'].append({
'flight': flight['flight'],
'firstSeen': data_time_parsed,
'lastSeen': data_time_parsed,
})
else:
logging.info("Found existing flight: " + flight['flight'])
existing_flight = next(x for x in data['flights'] if x['flight'] == flight['flight'])
existing_flight_index = find(data['flights'], 'flight', flight['flight'])
data['flights'][existing_flight_index]['lastSeen'] = data_time_parsed
# Operators
operator = ''.join(flight['flight'][0:3])
if not any(x['operator'] == operator for x in data['operators']):
logging.info("Found new operator: " + operator)
data['operators'].append({
'operator': operator,
'firstSeen': data_time_parsed,
'lastSeen': data_time_parsed,
})
else:
logging.info("Found existing operator: " + operator)
existing_operator = next(x for x in data['operators'] if x['operator'] == operator)
existing_operator_index = find(data['operators'], 'operator', operator)
data['operators'][existing_operator_index]['lastSeen'] = data_time_parsed
# Max Altitude
if 'alt_geom' in flight:
altitude = flight['alt_geom']
if altitude > data['maxAltitude']['altitude']:
logging.info("Found new max altitude: " + str(altitude) + "ft by " + flight['flight'])
data['maxAltitude']['altitude'] = altitude
data['maxAltitude']['flight'] = flight['flight']
data['maxAltitude']['seenAt'] = data_time_parsed
if 'lat' in flight and 'lon' in flight:
data['maxAltitude']['latitude'] = flight['lat']
data['maxAltitude']['longitude'] = flight['lon']
else:
data['maxAltitude']['latitude'] = None
data['maxAltitude']['longitude'] = None
# Max Speed
if 'gs' in flight:
speed = flight['gs']
if speed > data['maxGroundSpeed']['groundSpeed']:
logging.info("Found new max ground speed: " + str(speed) + "kt by " + flight['flight'])
data['maxGroundSpeed']['groundSpeed'] = speed
data['maxGroundSpeed']['flight'] = flight['flight']
data['maxGroundSpeed']['seenAt'] = data_time_parsed
if 'lat' in flight and 'lon' in flight:
data['maxGroundSpeed']['latitude'] = flight['lat']
data['maxGroundSpeed']['longitude'] = flight['lon']
else:
data['maxGroundSpeed']['latitude'] = None
data['maxGroundSpeed']['longitude'] = None
# Station Distance
if 'lat' in flight and 'lon' in flight:
distance_to_station = geopy.distance.geodesic((flight['lat'], flight['lon']), STATION_LOCATION).nm
if distance_to_station > data['furthestFlight']['distance']:
logging.info("Found new furthest flight: " + str(distance_to_station) + "nm by " + flight['flight'])
data['furthestFlight']['distance'] = distance_to_station
data['furthestFlight']['flight'] = flight['flight']
data['furthestFlight']['seenAt'] = data_time_parsed
data['furthestFlight']['latitude'] = flight['lat']
data['furthestFlight']['longitude'] = flight['lon']
elif distance_to_station < data['closestFlight']['distance'] or data['closestFlight']['distance'] == 0:
logging.info("Found new closest flight: " + str(distance_to_station) + "nm by " + flight['flight'])
data['closestFlight']['distance'] = distance_to_station
data['closestFlight']['flight'] = flight['flight']
data['closestFlight']['seenAt'] = data_time_parsed
data['closestFlight']['latitude'] = flight['lat']
data['closestFlight']['longitude'] = flight['lon']
# Signal
if 'rssi' in flight:
signal = flight['rssi']
if signal > data['maxSignal']['signal'] or data['maxSignal']['signal'] == 0:
logging.info(
"Found new max signal: by " + flight[
'flight'] + " with signal: " + str(
signal))
data['maxSignal']['signal'] = signal
data['maxSignal']['flight'] = flight['flight']
data['maxSignal']['seenAt'] = data_time_parsed
if 'lat' in flight and 'lon' in flight:
distance_to_station = geopy.distance.geodesic((flight['lat'], flight['lon']), STATION_LOCATION).nm
data['maxSignal']['distance'] = distance_to_station
data['maxSignal']['latitude'] = flight['lat']
data['maxSignal']['longitude'] = flight['lon']
else:
data['maxSignal']['latitude'] = None
data['maxSignal']['longitude'] = None
data['maxSignal']['distance'] = None
elif signal < data['minSignal']['signal'] or data['minSignal']['signal'] == 0:
logging.info(
"Found new min signal: by " + flight[
'flight'] + " with signal: " + str(
signal))
data['minSignal']['signal'] = signal
data['minSignal']['flight'] = flight['flight']
data['minSignal']['seenAt'] = data_time_parsed
if 'lat' in flight and 'lon' in flight:
distance_to_station = geopy.distance.geodesic((flight['lat'], flight['lon']), STATION_LOCATION).nm
data['minSignal']['distance'] = distance_to_station
data['minSignal']['latitude'] = flight['lat']
data['minSignal']['longitude'] = flight['lon']
else:
data['minSignal']['latitude'] = None
data['minSignal']['longitude'] = None
data['minSignal']['distance'] = None
save_data()
def find(lst, key, value):
for i, dic in enumerate(lst):
if dic[key] == value:
return i
return -1
#####
signal.signal(signal.SIGINT, signal_handler)
load_config()
if not os.path.exists('./data.json'):
init_data()
load_data()
while True:
parse_file()
time.sleep(5)