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#!/usr/bin/env python
import ephem
import time
import os
import sys
import urllib
from MmdDb import Db
from MmdLocation import Location
def dms2degdec (lonlat):
'''
convert a position argument from Deg:Min:Sec.Frac to
Deg.Frac and round the result to 5 decimal points
'''
parts = lonlat.split (':')
if len (parts) != 3:
return 0.0
degrees = float (parts[0])
fraction = (float (parts[1]) * 60.0 + float (parts[2])) / 3600
if parts[0][0] == '-':
return round (degrees - fraction, 5)
return round (degrees + fraction, 5)
class Satellite:
def __init__ (self, observer = False):
self.name = 'RADIOSCAF-B'
self.nickname = 'ARISSAT-1'
self.tle_filename = '/usr/local/mmd/tles/current'
self.db = Db ()
self._initSatellite (observer)
def getCurrentSSP (self):
ssp = self._loadCurrentSSP ()
return ssp['timestamp'], ssp['longitude'], ssp['latitude']
def getTrajectoryAsJavaArray (self, name, minutes = 180):
astring = 'var {0} = new Array (\n'.format (name)
astring = '{0}\tnew Array ('.format (astring)
astring = '{0}\n\t\tnew OpenLayers.LonLat ({1}, {2}).transform (from, to),'.format (
astring,
self.longitude,
self.latitude
)
last = 'east'
if str (self.longitude)[0] == '-':
last = 'west'
for row in self._loadTrajectory (minutes):
if str (row['longitude'])[0] == '-':
if last == 'east':
astring = astring[:-1]
astring = '{0}\n\t\t),\n\tnew Array ('.format (astring)
last = 'west'
else:
last = 'east'
astring = '{0}\n\t\tnew OpenLayers.LonLat ({1}, {2}).transform (from, to),'.format (
astring, row['longitude'], row['latitude'])
if astring[-1] == ',':
astring = astring[:-1]
astring = '{0}\n\t\t)\n\t);'.format (astring)
return astring
def cronJob (self):
if self._updateTLEFile ():
self._updateTrajectory ()
return self._computeTrajectory ()
def getLatestSSP (self):
return self.db.satelliteGetLatestSSP ()
def getNextPass (self):
'''
return 6-tuple with info for next pass
'''
sat = ephem.readtle (self._tle[0], self._tle[1], self._tle[2])
observer = ephem.Observer ()
observer.date = time.strftime ('%Y/%m/%d %H:%M', time.gmtime ())
observer.long, observer.lat, observer.elevation = str (self.observer.longitude), str (self.observer.latitude), self.observer.altitude
observer.pressure = 0
observer.horizon = '-0:34'
return observer.next_pass (sat)
def _loadTrajectory (self, minutes):
return self.db.satelliteLoadTrajectory (time.strftime ('%s'), minutes)
def _loadCurrentSSP (self):
return self.db.satelliteLoadCurrentSSP (time.strftime ('%s'))
def _initSatellite (self, observer = False):
if not self._loadTLE ():
return False
if observer:
self.observer = observer
else:
self.observer = Location ()
sat = ephem.readtle (self._tle[0], self._tle[1], self._tle[2])
observer = ephem.Observer ()
observer.long, observer.lat, observer.elevation = str (self.observer.longitude), str (self.observer.latitude), self.observer.altitude
sat.compute (observer)
self.longitude = dms2degdec (sat.sublong.__str__ ())
self.latitude = dms2degdec (sat.sublat.__str__ ())
self.altitude = round (float (sat.elevation.__str__ ()), 1)
def _computeTrajectory (self):
'''
computes 5 hours of future trajectory data, starting at the
latest timestamp found in data base
'''
if not self._loadTLE ():
return False
sat = ephem.readtle (self._tle[0], self._tle[1], self._tle[2])
graz = ephem.Observer ()
graz.long, graz.lat, graz.elevation = '15.44226', '47.06576', 376
latest = self.db.satelliteGetLatestSSP ()
if latest:
timestamp = int (latest['timestamp']) + 60
else:
timestamp = int (time.strftime ('%s')) + 60
while timestamp % 60 != 0:
timestamp += 1
for i in range (60 * 5):
graz.date = time.strftime ('%Y/%m/%d %H:%M:%S', time.gmtime (timestamp))
sat.compute (graz)
self.db.satelliteInsertNewSSP (timestamp, dms2degdec (sat.sublong.__str__ ()), dms2degdec (sat.sublat.__str__ ()))
timestamp += 60
return True
def _loadTLE (self):
try:
tle = open (self.tle_filename, 'r')
except IOError:
return False
self._tle = []
count = 0
for line in tle.readlines ():
self._tle.append (line)
count += 1
if count != 3:
return False
return True
def _updateTLEFile (self):
'''
store new TLE data in file with format
YYYYMMDDhhmmss (Year Month Day hour minute second)
and make symlink to self.tle_filename
'''
if not self._getTLEFileFromNetwork ():
return False
filename = '/usr/local/mmd/tles/{0}'.format (time.strftime ('%Y%m%d%H%M%S'))
for line in self.tle_data:
if line.startswith (self.name):
tle = open (filename, 'w')
tle.write (line)
tle.write (self.tle_data.next ())
tle.write (self.tle_data.next ())
tle.close ()
return self._compareAndLinkNewTLEFile (filename)
return False
def _createOrbtrackTLEFile (self):
tle_file = open (self.tle_filename)
orbtrack_file = open ("/var/www/hofos.at/mmd/static/tle.js", "w")
orbtrack_file.write ("//Created by MmdSatellite.py\n//{0}\nPLib.tleData = \n[\n".format (time.strftime ("%Y-%m-%d - %H:%M:%S")))
count = 0
for line in tle_file.readlines ():
l = line[:-2]
if count == 2:
orbtrack_file.write (' "{0}"'.format (l))
else:
orbtrack_file.write (' "{0}",\n'.format (l))
count += 1
orbtrack_file.write ("\n];\n// EOF\n")
tle_file.close ()
orbtrack_file.close ()
def _compareAndLinkNewTLEFile (self, filename):
'''
we should use field 21-32 from first line of TLE to
compare data; then use this date to generate a filename
and update the database;
'''
old_data = open (self.tle_filename).read ()
new_data = open (filename).read ()
if old_data == new_data:
os.unlink (filename)
return False
os.unlink (self.tle_filename)
os.symlink (filename, self.tle_filename)
self._createOrbtrackTLEFile ()
return True
def _updateTrajectory (self):
self.db.satelliteDeleteObsoleteSSPs (time.strftime ('%s'))
def _getTLEFileFromNetwork (self):
'''
retreive TLE update from NORAD/celestrak
'''
networkfile = 'http://www.celestrak.com/NORAD/elements/amateur.txt'
try:
self.tle_data = urllib.urlopen (networkfile)
except IOError:
return False
return True
if __name__ == "__main__":
satellite = Satellite ()
# print satellite.longitude, satellite.latitude
# print satellite.getTrajectoryAsJavaArray ('test', 100)
try:
assert satellite.cronJob (), 'executing cronjob failed'
# satellite._createOrbtrackTLEFile ()
# next_pass = satellite.getNextPass ()
# assert next_pass, 'getting next pass failed'
# print next_pass
except AssertionError as e:
print 'Error: {0}'.format (e)
sys.exit (1)
sys.exit (0)
# vim: tw=0 ts=2
# EOF
|
