openwebrx-clone/owrx/service/schedule.py

273 lines
8.6 KiB
Python
Raw Permalink Normal View History

from datetime import datetime, timezone, timedelta
from owrx.source import SdrSource
2020-01-17 23:43:37 +00:00
from owrx.config import PropertyManager
import threading
2020-01-17 23:43:37 +00:00
import math
from abc import ABC, ABCMeta, abstractmethod
import logging
logger = logging.getLogger(__name__)
2020-01-19 16:04:14 +00:00
class ScheduleEntry(ABC):
def __init__(self, startTime, endTime, profile):
self.startTime = startTime
self.endTime = endTime
self.profile = profile
2020-01-19 16:04:14 +00:00
def getProfile(self):
return self.profile
def __str__(self):
return "{0} - {1}: {2}".format(self.startTime, self.endTime, self.profile)
@abstractmethod
def isCurrent(self, dt):
pass
@abstractmethod
def getScheduledEnd(self):
pass
@abstractmethod
def getNextActivation(self):
pass
class TimeScheduleEntry(ScheduleEntry):
def isCurrent(self, dt):
time = dt.time()
if self.startTime < self.endTime:
return self.startTime <= time < self.endTime
else:
return self.startTime <= time or time < self.endTime
def getScheduledEnd(self):
now = datetime.utcnow()
end = now.combine(date=now.date(), time=self.endTime)
while end < now:
end += timedelta(days=1)
return end
def getNextActivation(self):
now = datetime.utcnow()
start = now.combine(date=now.date(), time=self.startTime)
while start < now:
start += timedelta(days=1)
return start
2020-01-19 16:04:14 +00:00
class DatetimeScheduleEntry(ScheduleEntry):
def isCurrent(self, dt):
return self.startTime <= dt < self.endTime
def getScheduledEnd(self):
return self.endTime
def getNextActivation(self):
return self.startTime
class Schedule(ABC):
@staticmethod
def parse(props):
# downwards compatibility
if "schedule" in props:
return StaticSchedule(props["schedule"])
elif "scheduler" in props:
sc = props["scheduler"]
t = sc["type"] if "type" in sc else "static"
if t == "static":
return StaticSchedule(sc["schedule"])
2020-01-19 16:04:14 +00:00
elif t == "daylight":
return DaylightSchedule(sc["schedule"])
else:
logger.warning("Invalid scheduler type: %s", t)
@abstractmethod
def getCurrentEntry(self):
pass
@abstractmethod
def getNextEntry(self):
pass
class TimerangeSchedule(Schedule, metaclass=ABCMeta):
@abstractmethod
def getEntries(self):
pass
def getCurrentEntry(self):
2020-01-19 16:04:14 +00:00
current = [p for p in self.getEntries() if p.isCurrent(datetime.utcnow())]
if current:
return current[0]
return None
def getNextEntry(self):
s = sorted(self.getEntries(), key=lambda e: e.getNextActivation())
if s:
return s[0]
return None
class StaticSchedule(TimerangeSchedule):
def __init__(self, scheduleDict):
self.entries = []
for time, profile in scheduleDict.items():
if len(time) != 9:
logger.warning("invalid schedule spec: %s", time)
continue
startTime = datetime.strptime(time[0:4], "%H%M").replace(tzinfo=timezone.utc).time()
endTime = datetime.strptime(time[5:9], "%H%M").replace(tzinfo=timezone.utc).time()
2020-01-19 16:04:14 +00:00
self.entries.append(TimeScheduleEntry(startTime, endTime, profile))
def getEntries(self):
return self.entries
2020-01-19 16:04:14 +00:00
class DaylightSchedule(TimerangeSchedule):
2020-01-19 17:34:37 +00:00
greyLineTime = timedelta(hours=1)
def __init__(self, scheduleDict):
self.schedule = scheduleDict
2020-01-17 23:43:37 +00:00
def getSunTimes(self, date):
pm = PropertyManager.getSharedInstance()
lat, lng = pm["receiver_gps"]
degtorad = math.pi / 180
radtodeg = 180 / math.pi
2020-01-19 17:34:37 +00:00
#Number of days since 01/01
days = date.timetuple().tm_yday
2020-01-17 23:43:37 +00:00
# Longitudinal correction
longCorr = 4 * lng
2020-01-18 16:35:33 +00:00
# calibrate for solstice
2020-01-19 17:34:37 +00:00
b = 2 * math.pi * (days - 81) / 365
2020-01-17 23:43:37 +00:00
# Equation of Time Correction
2020-01-18 16:35:33 +00:00
eoTCorr = 9.87 * math.sin(2 * b) - 7.53 * math.cos(b) - 1.5 * math.sin(b)
2020-01-17 23:43:37 +00:00
# Solar correction
2020-01-18 16:35:33 +00:00
solarCorr = longCorr + eoTCorr
2020-01-17 23:43:37 +00:00
# Solar declination
2020-01-19 17:34:37 +00:00
declination = math.asin(math.sin(23.45 * degtorad) * math.sin(b))
2020-01-17 23:43:37 +00:00
2020-01-19 17:34:37 +00:00
sunrise = 12 - math.acos(-math.tan(lat * degtorad) * math.tan(declination)) * radtodeg / 15 - solarCorr / 60
sunset = 12 + math.acos(-math.tan(lat * degtorad) * math.tan(declination)) * radtodeg / 15 - solarCorr / 60
2020-01-17 23:43:37 +00:00
midnight = datetime.combine(date, datetime.min.time())
sunrise = midnight + timedelta(hours=sunrise)
sunset = midnight + timedelta(hours=sunset)
2020-01-18 16:35:33 +00:00
logger.debug("for {date} sunrise: {sunrise} sunset {sunset}".format(date=date, sunrise=sunrise, sunset=sunset))
2020-01-17 23:43:37 +00:00
return sunrise, sunset
def getEntries(self):
now = datetime.utcnow()
date = now.date()
2020-01-19 17:34:37 +00:00
# greyline is optional, it its set it will shorten the other profiles
useGreyline = "greyline" in self.schedule
entries = []
delta = DaylightSchedule.greyLineTime if useGreyline else timedelta()
events = []
# we need to start yesterday for longitudes close to the date line
offset = -1
while len(events) < 1:
sunrise, sunset = self.getSunTimes(date + timedelta(days=offset))
offset += 1
events += [{"type": "sunrise", "time": sunrise}, {"type": "sunset", "time": sunset}]
# keep only events in the future
events = [v for v in events if v["time"] + delta > now]
events.sort(key=lambda e: e["time"])
previousEvent = None
for event in events:
# night profile _until_ sunrise, day profile _until_ sunset
stype = "night" if event["type"] == "sunrise" else "day"
if previousEvent is not None or event["time"] - delta > now:
start = now if previousEvent is None else previousEvent
entries.append(DatetimeScheduleEntry(start, event["time"] - delta, self.schedule[stype]))
if useGreyline:
entries.append(
DatetimeScheduleEntry(event["time"] - delta, event["time"] + delta, self.schedule["greyline"])
)
previousEvent = event["time"] + delta
2020-01-19 17:34:37 +00:00
logger.debug([str(e) for e in entries])
return entries
class ServiceScheduler(object):
def __init__(self, source):
self.source = source
self.selectionTimer = None
self.source.addClient(self)
props = self.source.getProps()
self.schedule = Schedule.parse(props)
props.collect("center_freq", "samp_rate").wire(self.onFrequencyChange)
self.scheduleSelection()
def shutdown(self):
self.cancelTimer()
self.source.removeClient(self)
def scheduleSelection(self, time=None):
if self.source.getState() == SdrSource.STATE_FAILED:
return
seconds = 10
if time is not None:
delta = time - datetime.utcnow()
seconds = delta.total_seconds()
self.cancelTimer()
self.selectionTimer = threading.Timer(seconds, self.selectProfile)
self.selectionTimer.start()
def cancelTimer(self):
if self.selectionTimer:
self.selectionTimer.cancel()
def getClientClass(self):
return SdrSource.CLIENT_BACKGROUND
def onStateChange(self, state):
if state == SdrSource.STATE_STOPPING:
self.scheduleSelection()
elif state == SdrSource.STATE_FAILED:
self.cancelTimer()
def onBusyStateChange(self, state):
if state == SdrSource.BUSYSTATE_IDLE:
self.scheduleSelection()
def onFrequencyChange(self, name, value):
self.scheduleSelection()
def selectProfile(self):
if self.source.hasClients(SdrSource.CLIENT_USER):
logger.debug("source has active users; not touching")
return
logger.debug("source seems to be idle, selecting profile for background services")
entry = self.schedule.getCurrentEntry()
if entry is None:
logger.debug("schedule did not return a profile. checking next entry...")
nextEntry = self.schedule.getNextEntry()
if nextEntry is not None:
self.scheduleSelection(nextEntry.getNextActivation())
return
2020-01-19 16:04:14 +00:00
logger.debug("selected profile %s until %s", entry.getProfile(), entry.getScheduledEnd())
self.scheduleSelection(entry.getScheduledEnd())
try:
self.source.activateProfile(entry.getProfile())
self.source.start()
except KeyError:
pass