301 lines
12 KiB
Python
301 lines
12 KiB
Python
from datetime import datetime, timedelta
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import requests
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from tqdm import tqdm
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from flask import Flask , render_template,redirect,url_for, request
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import json
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from collections import defaultdict, Counter
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import random
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from apscheduler.schedulers.background import BackgroundScheduler
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from satnogs_api_client import fetch_satellites
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from satnogs_api_client import DB_BASE_URL, get_paginated_endpoint
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from satellite_tle import fetch_tles
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from skyfield.api import EarthSatellite, utc, load
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scheduler = BackgroundScheduler()
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app = Flask(__name__)
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ts = load.timescale()
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broken = defaultdict(set)
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Usage = Counter()
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Sats = defaultdict(list)
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Passes = defaultdict(list)
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Stations = []
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TLEs = defaultdict(list)
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Transmitters = defaultdict(dict)
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StationsPasses = defaultdict(list)
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SatDescrip = defaultdict(str)
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CZML = []
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def getFuture():
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print "Getting future Passes"
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global Sats
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global TLEs
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observations = defaultdict(dict)
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start = datetime.utcnow().strftime('%Y-%m-%dT%H:%M:%S%z')
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end = (datetime.utcnow() + timedelta(hours=4, minutes=30))
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end = end.strftime('%Y-%m-%dT%H:%M:%S%z')
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passes = get_paginated_endpoint("https://network.satnogs.org/api/jobs/")
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obs = get_paginated_endpoint("https://network.satnogs.org/api/observations/?end="+end+"&format=json&start="+start)
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for x in tqdm(obs):
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observations[x["id"]] = x
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Sats = defaultdict(list)
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for x in tqdm(passes):
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if x["id"] in observations:
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try:
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start = datetime.strptime(x["start"], '%Y-%m-%dT%H:%M:%Sz')
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start = start.replace(tzinfo=utc)
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end = datetime.strptime(x["end"], '%Y-%m-%dT%H:%M:%Sz')
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end = end.replace(tzinfo=utc)
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# "transmitter":Transmitters[observations[x["id"]]["norad_cat_id"]][x["transmitter"]]
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Sats[observations[x["id"]]["norad_cat_id"]].append({"station": x["ground_station"], "transmitter": Transmitters[observations[x["id"]]["norad_cat_id"]][x["transmitter"]], "start": start, "end": end, "id": x["id"]})
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TLEs[observations[x["id"]]["norad_cat_id"]] = [x["tle0"], x["tle1"], x["tle2"]]
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StationsPasses[x["ground_station"]].append({"norad": observations[x["id"]]["norad_cat_id"], "transmitter": Transmitters[observations[x["id"]]["norad_cat_id"]][x["transmitter"]], "start": start, "end": end, "id": x["id"]})
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except Exception as e:
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print "Error on observation number: " + str(x["id"]) + " " + str(e)
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broken[observations[x["id"]]["norad_cat_id"]].update([x["transmitter"]])
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print str(len(Sats))+" Future passes found."
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def GetGroundStations():
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print "Getting Ground Stations"
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stations = get_paginated_endpoint("https://network.satnogs.org/api/stations/")
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return stations
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def updateTLE():
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print "Updating TLE"
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global TLEs
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sats = fetch_satellites(None, DB_BASE_URL)
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satnogs_db_norad_ids = set(sat['norad_cat_id'] for sat in sats if sat['status'] != 're-entered')
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# Remove satellites with temporary norad ids
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temporary_norad_ids = set(filter(lambda norad_id: norad_id >= 99900, satnogs_db_norad_ids))
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satnogs_db_norad_ids = satnogs_db_norad_ids - temporary_norad_ids
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# Fetch TLEs for the satellites of interest
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tles = fetch_tles(satnogs_db_norad_ids)
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TLEs = {}
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for norad_id, (source, tle) in tqdm(tles.items()):
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TLEs[norad_id] = [str(tle[0]), str(tle[1]), str(tle[2])]
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print('\nTLEs for {} of {} requested satellites found ({} satellites with temporary norad ids skipped).'.format(len(tles), len(satnogs_db_norad_ids), len(temporary_norad_ids)))
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@scheduler.scheduled_job('interval', days=5)
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def updateTransmitters():
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global Transmitters
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print "Updating Transmitters"
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temp = requests.get("https://db.satnogs.org/api/transmitters/").json()
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for x in tqdm(temp):
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Transmitters[x["norad_cat_id"]][x["uuid"]] = [x["description"], [random.randint(0, 255), random.randint(0, 255), random.randint(0, 255), 255]]
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for x in Transmitters.keys():
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for y in Transmitters[x].keys():
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SatDescrip[x] += '<div class="trans" style="background-color:#'+str("%02x" % Transmitters[x][y][1][0])+str("%02x" % Transmitters[x][y][1][1])+str("%02x" % Transmitters[x][y][1][2])+'";>'+Transmitters[x][y][0]+'</div>'
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@scheduler.scheduled_job('interval', hours=1)
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def updatePasses():
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getFuture()
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@scheduler.scheduled_job('interval', hours=1)
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def updateStations():
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global Stations
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print "Updating Stations"
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Stations = GetGroundStations()
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@scheduler.scheduled_job('interval', minutes=30)
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def updateCZML():
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global CZML
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CZML = []
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doc = {}
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doc["id"] = "document"
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doc["name"] = "sats"
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doc["version"] = "1.0"
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doc["clock"] = {}
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doc["clock"]["interval"] = "0000-00-00T00:00:00Z/9999-12-31T24:00:00Z"
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doc["clock"]["step"] = "SYSTEM_CLOCK"
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CZML.append(doc)
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for x in tqdm(Stations):
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color = [0, 230, 64, 255]
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if x["status"] == "Testing":
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color = [248, 148, 6, 255]
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if x["status"] == "Offline":
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color = [255, 0, 0, 50]
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station = {}
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station["id"] = str(x["id"])
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station["name"] = x["name"]
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station["point"] = {}
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station["show"] = True
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station["point"]["color"] = {}
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station["point"]["color"]["rgba"] = color
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station["point"]["outlineColor"] = {}
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station["point"]["outlineColor"]["rgba"] = [255, 255, 255, color[3]]
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station["point"]["outlineWidth"] = 2.0
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station["position"] = {}
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station["point"]["pixelSize"] = 7.0
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station["position"]["cartographicDegrees"] = [x["lng"], x['lat'], x["altitude"]]
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station["description"] = "<b>ID: "+str(x["id"]) + "</b><br><b>Total Observations: "
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station["description"] += str(x["observations"]) + "</b><br><b>Status: " + x["status"] + "</b><br><b>QTH: "
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station["description"] += x["qthlocator"] + "</b><br></b>Description: </b>" + x["description"]
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CZML.append(station)
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for x in tqdm(Sats.keys()):
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for y in Sats[x]:
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sat = {}
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sat["id"] = str(y["id"])
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sat["name"] = TLEs[x][0]
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sat["show"] = True
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sat["billboard"] = {"image": "static/sat.png", "scale": 0.50}
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sat["position"] = {}
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sat["position"]["cartographicDegrees"] = []
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sat["description"] = SatDescrip[x]
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temp = y["start"]
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satObj = EarthSatellite(TLEs[x][1], TLEs[x][2], TLEs[x][0])
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time = 0
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while temp <= y["end"] + timedelta(minutes=1):
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subpoint = satObj.at(ts.utc(temp)).subpoint()
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lat = subpoint.latitude.degrees
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lng = subpoint.longitude.degrees
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elevation = subpoint.elevation.m
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sat["position"]["cartographicDegrees"].extend([time, lng, lat, elevation])
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time += 60
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temp = temp + timedelta(minutes=1)
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sat["position"]["interpolationAlgorithm"] = "LAGRANGE"
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sat["position"]["interpolationDegree"] = 5
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sat["position"]["epoch"] = (y["start"].isoformat()+"Z").replace("+00:00", "")
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sat["path"] = {"show": {"interval": (y["start"].isoformat()+"Z").replace("+00:00", "") + "/" + ((y["end"] + timedelta(minutes=1)).isoformat()+"Z").replace("+00:00", ""), "boolean": True}, "width": 2, "material": {"solidColor": {"color": {"rgba": [0, 255, 0, 255]}}}, "leadTime": 100000, "trailTime": 100000}
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CZML.append(sat)
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for x in tqdm(Sats.keys()):
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for y in Sats[x]:
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sat = {}
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sat["id"] = str(y["id"])+"Link"
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sat["polyline"] = {"show": {"interval": (y["start"].isoformat()+"Z").replace("+00:00", "")+"/"+((y["end"]+timedelta(minutes=1)).isoformat()+"Z").replace("+00:00", ""), "boolean": True}, "width": 2, "material": {"solidColor": {"color": {"rgba": y["transmitter"][1]}}}, "followSurface": False, "positions": {"references": [str(y["id"])+"#position", str(y["station"]) + "#position"]}}
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CZML.append(sat)
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@app.route("/")
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def index():
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Usage.update([str(request.headers.get("CF-IPCountry"))])
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return render_template("index.html",url="/czml")
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@app.route("/rotating")
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def rotating():
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Usage.update([str(request.headers.get("CF-IPCountry"))])
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return render_template("rotating.html",url="/czml")
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@app.route("/station/<int:station_id>")
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def index_station(station_id):
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Usage.update(request.headers.get("CF-IPCountry"))
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return render_template("index.html",url="/czml/"+str(station_id))
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@app.route('/future_sats')
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def api_future_sats():
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return json.dumps(Sats)
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@app.route("/czml")
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def api_czml():
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return json.dumps(CZML)
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@app.route("/broken")
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def api_broken():
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output = defaultdict(list)
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for x in broken.keys():
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output[x]=list(broken[x])
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return json.dumps(output)
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@app.route("/czml/<int:station_id>")
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def api_station(station_id):
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czml = []
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doc = {}
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doc["id"] = "document"
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doc["name"] = "sats"
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doc["version"] = "1.0"
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doc["clock"] = {}
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doc["clock"]["interval"] = "0000-00-00T00:00:00Z/9999-12-31T24:00:00Z"
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doc["clock"]["currentTime"] = datetime.utcnow().isoformat() + "Z"
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doc["clock"]["step"] = "SYSTEM_CLOCK"
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czml.append(doc)
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for x in Stations:
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if x["id"] == station_id:
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color = [0, 230, 64, 255]
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if x["status"] == "Testing":
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color = [248, 148, 6, 255]
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if x["status"] == "Offline":
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color = [255, 0, 0, 50]
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station = {}
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station["id"] = str(x["id"])
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station["name"] = x["name"]
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station["point"] = {}
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station["show"] = True
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station["point"]["color"] = {}
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station["point"]["color"]["rgba"] = color
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station["point"]["outlineColor"] = {}
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station["point"]["outlineColor"]["rgba"] = [255, 255, 255, color[3]]
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station["point"]["outlineWidth"] = 2.0
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station["position"] = {}
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station["point"]["pixelSize"] = 7.0
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station["position"]["cartographicDegrees"] = [x["lng"], x['lat'], x["altitude"]]
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station["description"] = "<b>ID: " + str(x["id"]) + "</b><br><b>Total Observations: "
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station["description"] += str(x["observations"]) + "</b><br><b>Status: " + x["status"] + "</b><br><b>QTH: "
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station["description"] += x["qthlocator"] + "</b><br></b>Description: </b>" + x["description"]
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czml.append(station)
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break
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for y in StationsPasses[station_id]:
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sat = {}
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sat["id"] = str(y["id"])
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sat["name"] = TLEs[y["norad"]][0]
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sat["show"] = True
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sat["point"] = {}
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sat["point"]["color"] = {}
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sat["point"]["color"]["rgba"] = [255, 0, 0, 255]
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sat["point"]["pixelSize"] = 8.0
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sat["position"] = {}
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sat["position"]["cartographicDegrees"] = []
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sat["description"] = SatDescrip[y["norad"]]
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temp = y["start"]
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satObj = EarthSatellite(TLEs[y["norad"]][1], TLEs[y["norad"]][2], TLEs[y["norad"]][0])
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time = 0
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while temp <= y["end"]+timedelta(minutes=1):
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subpoint = satObj.at(ts.utc(temp)).subpoint()
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lat = subpoint.latitude.degrees
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lng = subpoint.longitude.degrees
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elevation = subpoint.elevation.m
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sat["position"]["cartographicDegrees"].extend([time, lng, lat, elevation])
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time += 60
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temp = temp + timedelta(minutes=1)
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sat["position"]["interpolationAlgorithm"] = "LAGRANGE"
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sat["position"]["interpolationDegree"] = 5
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sat["position"]["epoch"] = (y["start"].isoformat() + "Z").replace("+00:00", "")
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sat["path"] = {"show": {"interval": (y["start"].isoformat()+"Z").replace("+00:00", "") + "/" + ((y["end"] + timedelta(minutes=1)).isoformat() + "Z").replace("+00:00", ""), "boolean": True}, "width": 2, "material": {"solidColor": {"color": {"rgba": [0, 255, 0, 255]}}}, "leadTime": 100000, "trailTime": 100000}
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czml.append(sat)
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for y in StationsPasses[station_id]:
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sat = {}
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sat["id"] = str(y["id"])+"Link"
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sat["polyline"] = {"show": {"interval": (y["start"].isoformat()+"Z").replace("+00:00", "") + "/" + ((y["end"] + timedelta(minutes=1)).isoformat()+"Z").replace("+00:00", ""), "boolean": True}, "width": 2, "material": {"solidColor": {"color": {"rgba": y["transmitter"][1]}}}, "followSurface": False, "positions": {"references": [str(y["id"]) + "#position", str(station_id) + "#position"]}}
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czml.append(sat)
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return json.dumps(czml)
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updateStations()
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updateTransmitters()
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getFuture()
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updateCZML()
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scheduler.start()
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app.run(use_reloader=False, host="0.0.0.0", port=5001)
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