2018-12-02 08:27:53 -07:00
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import requests
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import logging
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2018-12-02 10:55:02 -07:00
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import math
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import random
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from datetime import datetime, timedelta
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import ephem
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import lxml
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import settings
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2018-12-02 08:27:53 -07:00
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def get_active_transmitter_info(fmin, fmax):
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# Open session
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logging.info("Fetching transmitter information from DB.")
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2018-12-02 10:55:02 -07:00
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r = requests.get('{}/transmitters'.format(settings.DB_BASE_URL))
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2018-12-02 08:27:53 -07:00
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logging.info("Transmitters received!")
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# Loop
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transmitters = []
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for o in r.json():
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if o["downlink_low"]:
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if o["alive"] and o["downlink_low"] > fmin and o["downlink_low"] <= fmax:
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transmitter = {"norad_cat_id": o["norad_cat_id"],
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"uuid": o["uuid"]}
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transmitters.append(transmitter)
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logging.info("Transmitters filtered based on ground station capability.")
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return transmitters
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2018-12-02 09:05:50 -07:00
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def get_transmitter_stats():
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logging.debug("Requesting transmitter success rates for all satellite")
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2018-12-02 10:55:02 -07:00
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transmitters = requests.get('{}/transmitters/'.format(settings.NETWORK_BASE_URL))
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2018-12-02 09:05:50 -07:00
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return transmitters.json()
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2018-12-02 10:55:02 -07:00
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def get_scheduled_passes_from_network(ground_station, tmin, tmax):
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# Get first page
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client = requests.session()
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# Loop
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start = True
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scheduledpasses = []
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logging.info("Requesting scheduled passes for ground station %d" % ground_station)
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while True:
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if start:
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r = client.get('{}/observations/?ground_station={:d}'.format(
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settings.NETWORK_BASE_URL,
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ground_station))
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start = False
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else:
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nextpage = r.links.get("next")
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r = client.get(nextpage["url"])
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# r.json() is a list of dicts
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for o in r.json():
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satpass = {
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"id": o['norad_cat_id'],
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"tr": datetime.strptime(
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o['start'].replace(
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"Z",
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""),
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"%Y-%m-%dT%H:%M:%S"),
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"ts": datetime.strptime(
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o['end'].replace(
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"Z",
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""),
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"%Y-%m-%dT%H:%M:%S"),
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"scheduled": True}
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if satpass['ts'] > tmin and satpass['tr'] < tmax:
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scheduledpasses.append(satpass)
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if satpass['ts'] < tmin:
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break
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logging.info("Scheduled passes for ground station %d retrieved!" % ground_station)
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return scheduledpasses
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def overlap(satpass, scheduledpasses):
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# No overlap
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overlap = False
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# Loop over scheduled passes
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for scheduledpass in scheduledpasses:
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# Test pass falls within scheduled pass
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if satpass['tr'] >= scheduledpass['tr'] and satpass['ts'] < scheduledpass['ts']:
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overlap = True
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# Scheduled pass falls within test pass
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elif scheduledpass['tr'] >= satpass['tr'] and scheduledpass['ts'] < satpass['ts']:
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overlap = True
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# Pass start falls within pass
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elif satpass['tr'] >= scheduledpass['tr'] and satpass['tr'] < scheduledpass['ts']:
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overlap = True
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# Pass end falls within end
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elif satpass['ts'] >= scheduledpass['tr'] and satpass['ts'] < scheduledpass['ts']:
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overlap = True
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if overlap:
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break
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return overlap
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def ordered_scheduler(passes, scheduledpasses):
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"""Loop through a list of ordered passes and schedule each next one that fits"""
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# Loop over passes
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for satpass in passes:
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# Schedule if there is no overlap with already scheduled passes
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if not overlap(satpass, scheduledpasses):
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scheduledpasses.append(satpass)
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return scheduledpasses
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def random_scheduler(passes, scheduledpasses):
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"""Schedule passes based on random ordering"""
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# Shuffle passes
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random.shuffle(passes)
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return ordered_scheduler(passes, scheduledpasses)
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def efficiency(passes):
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# Loop over passes
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start = False
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for satpass in passes:
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if not start:
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dt = satpass['ts'] - satpass['tr']
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tmin = satpass['tr']
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tmax = satpass['ts']
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start = True
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else:
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dt += satpass['ts'] - satpass['tr']
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if satpass['tr'] < tmin:
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tmin = satpass['tr']
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if satpass['ts'] > tmax:
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tmax = satpass['ts']
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# Total time covered
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dttot = tmax - tmin
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return dt.total_seconds(), dttot.total_seconds(
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), dt.total_seconds() / dttot.total_seconds()
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def find_passes(satellites, observer, tmin, tmax, minimum_altitude):
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# Loop over satellites
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passes = []
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passid = 0
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for satellite in satellites:
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# Set start time
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observer.date = ephem.date(tmin)
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# Load TLE
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try:
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sat_ephem = ephem.readtle(str(satellite.tle0),
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str(satellite.tle1),
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str(satellite.tle2))
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except (ValueError, AttributeError):
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continue
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# Loop over passes
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keep_digging = True
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while keep_digging:
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try:
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tr, azr, tt, altt, ts, azs = observer.next_pass(sat_ephem)
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except ValueError:
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break # there will be sats in our list that fall below horizon, skip
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except TypeError:
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break # if there happens to be a non-EarthSatellite object in the list
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except Exception:
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break
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if tr is None:
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break
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# using the angles module convert the sexagesimal degree into
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# something more easily read by a human
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try:
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elevation = format(math.degrees(altt), '.0f')
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azimuth_r = format(math.degrees(azr), '.0f')
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azimuth_s = format(math.degrees(azs), '.0f')
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except TypeError:
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break
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passid += 1
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# show only if >= configured horizon and in next 6 hours,
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# and not directly overhead (tr < ts see issue 199)
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if tr < ephem.date(tmax):
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if (float(elevation) >= minimum_altitude and tr < ts):
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valid = True
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if tr < ephem.Date(datetime.now() +
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timedelta(minutes=5)):
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valid = False
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satpass = {'passid': passid,
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'mytime': str(observer.date),
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'name': str(satellite.name),
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'id': str(satellite.id),
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'tle1': str(satellite.tle1),
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'tle2': str(satellite.tle2),
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'tr': tr.datetime(), # Rise time
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'azr': azimuth_r, # Rise Azimuth
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'tt': tt.datetime(), # Max altitude time
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'altt': elevation, # Max altitude
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'ts': ts.datetime(), # Set time
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'azs': azimuth_s, # Set azimuth
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'valid': valid,
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'uuid': satellite.transmitter,
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'success_rate': satellite.success_rate,
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'good_count': satellite.good_count,
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'data_count': satellite.data_count,
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'scheduled': False}
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passes.append(satpass)
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observer.date = ephem.Date(
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ts).datetime() + timedelta(minutes=1)
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else:
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keep_digging = False
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return passes
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def get_groundstation_info(ground_station_id):
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logging.info("Requesting information for ground station %d" % ground_station_id)
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client = requests.session()
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# Loop
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found = False
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r = client.get("{}/stations/?id={:d}".format(
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settings.NETWORK_BASE_URL,
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ground_station_id))
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for o in r.json():
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if o['id'] == ground_station_id:
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found = True
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break
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if found:
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logging.info('Ground station infromation retrieved!')
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return o
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else:
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logging.info('No ground station information found!')
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return {}
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def get_last_update(fname):
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try:
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fp = open(fname, "r")
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line = fp.readline()
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fp.close()
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return datetime.strptime(line.strip(), "%Y-%m-%dT%H:%M:%S")
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except IOError:
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return None
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def schedule_observation(
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session,
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norad_cat_id,
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uuid,
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ground_station_id,
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starttime,
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endtime):
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obsURL = '{}/observations/new/'.format(settings.NETWORK_BASE_URL) # Observation URL
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# Get the observation/new/ page to get the CSFR token
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obs = session.get(obsURL)
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obs_html = lxml.html.fromstring(obs.text)
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hidden_inputs = obs_html.xpath(r'//form//input[@type="hidden"]')
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form = {x.attrib["name"]: x.attrib["value"] for x in hidden_inputs}
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form["satellite"] = norad_cat_id
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form["transmitter"] = uuid
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form["start-time"] = starttime
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form["end-time"] = endtime
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form["0-starting_time"] = starttime
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form["0-ending_time"] = endtime
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form["0-station"] = ground_station_id
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form["total"] = str(1)
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session.post(obsURL, data=form, headers={'referer': obsURL})
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