openwebrx-clone/owrx/service/__init__.py
Jakob Ketterl f3b05c6318 re-add m17
2021-09-07 14:45:52 +02:00

341 lines
12 KiB
Python

import threading
from owrx.source import SdrSourceEventClient, SdrSourceState, SdrClientClass
from owrx.sdr import SdrService
from owrx.bands import Bandplan
from owrx.wsjt import WsjtParser
from owrx.js8 import Js8Parser
from owrx.config import Config
from owrx.source.resampler import Resampler
from owrx.property import PropertyLayer, PropertyDeleted
from owrx.service.schedule import ServiceScheduler
from owrx.service.chain import ServiceDemodulatorChain
from owrx.modes import Modes, DigitalMode
from typing import Union
from csdr.chain.demodulator import BaseDemodulatorChain, SecondaryDemodulator, DialFrequencyReceiver
from csdr.chain.analog import NFm, Ssb
from csdr.chain.digimodes import AudioChopperDemodulator, PacketDemodulator
from pycsdr.modules import Buffer
import logging
logger = logging.getLogger(__name__)
class ServiceHandler(SdrSourceEventClient):
def __init__(self, source):
self.lock = threading.RLock()
self.services = []
self.source = source
self.startupTimer = None
self.activitySub = None
self.running = False
props = self.source.getProps()
self.enabledSub = props.wireProperty("services", self._receiveEvent)
self.decodersSub = None
# need to call _start() manually if property is not set since the default is True, but the initial call is only
# made if the property is present
if "services" not in props:
self._start()
def _receiveEvent(self, state):
# deletion means fall back to default, which is True
if state is PropertyDeleted:
state = True
if self.running == state:
return
if state:
self._start()
else:
self._stop()
def _start(self):
self.running = True
self.source.addClient(self)
props = self.source.getProps()
self.activitySub = props.filter("center_freq", "samp_rate").wire(self.onFrequencyChange)
self.decodersSub = Config.get().wireProperty("services_decoders", self.onFrequencyChange)
if self.source.isAvailable():
self._scheduleServiceStartup()
def _stop(self):
if self.activitySub is not None:
self.activitySub.cancel()
self.activitySub = None
if self.decodersSub is not None:
self.decodersSub.cancel()
self.decodersSub = None
self._cancelStartupTimer()
self.source.removeClient(self)
self.stopServices()
self.running = False
def getClientClass(self) -> SdrClientClass:
return SdrClientClass.INACTIVE
def onStateChange(self, state: SdrSourceState):
if state is SdrSourceState.RUNNING:
self._scheduleServiceStartup()
elif state is SdrSourceState.STOPPING:
logger.debug("sdr source becoming unavailable; stopping services.")
self.stopServices()
def onFail(self):
logger.debug("sdr source failed; stopping services.")
self.stopServices()
def onShutdown(self):
logger.debug("sdr source is shutting down; shutting down service handler, too.")
self.shutdown()
def onEnable(self):
self._scheduleServiceStartup()
def isSupported(self, mode):
configured = Config.get()["services_decoders"]
available = [m.modulation for m in Modes.getAvailableServices()]
return mode in configured and mode in available
def shutdown(self):
self._stop()
if self.enabledSub is not None:
self.enabledSub.cancel()
self.enabledSub = None
def stopServices(self):
with self.lock:
services = self.services
self.services = []
for service in services:
service.stop()
def onFrequencyChange(self, changes):
self.stopServices()
if not self.source.isAvailable():
return
self._scheduleServiceStartup()
def _cancelStartupTimer(self):
if self.startupTimer:
self.startupTimer.cancel()
self.startupTimer = None
def _scheduleServiceStartup(self):
self._cancelStartupTimer()
self.startupTimer = threading.Timer(10, self.updateServices)
self.startupTimer.start()
def updateServices(self):
with self.lock:
logger.debug("re-scheduling services due to sdr changes")
self.stopServices()
if not self.source.isAvailable():
logger.debug("sdr source is unavailable")
return
cf = self.source.getProps()["center_freq"]
sr = self.source.getProps()["samp_rate"]
srh = sr / 2
frequency_range = (cf - srh, cf + srh)
dials = [
dial
for dial in Bandplan.getSharedInstance().collectDialFrequencies(frequency_range)
if self.isSupported(dial["mode"])
]
if not dials:
logger.debug("no services available")
return
groups = self.optimizeResampling(dials, sr)
if groups is None:
for dial in dials:
self.services.append(self.setupService(dial["mode"], dial["frequency"], self.source))
else:
for group in groups:
if len(group) > 1:
cf = self.get_center_frequency(group)
bw = self.get_bandwidth(group)
logger.debug("setting up resampler on center frequency: {0}, bandwidth: {1}".format(cf, bw))
resampler_props = PropertyLayer(center_freq=cf, samp_rate=bw)
resampler = Resampler(resampler_props, self.source)
for dial in group:
self.services.append(self.setupService(dial["mode"], dial["frequency"], resampler))
# resampler goes in after the services since it must not be shutdown as long as the services are
# still running
self.services.append(resampler)
else:
dial = group[0]
self.services.append(self.setupService(dial["mode"], dial["frequency"], self.source))
def get_min_max(self, group):
frequencies = sorted(group, key=lambda f: f["frequency"])
lowest = frequencies[0]
min = lowest["frequency"] + Modes.findByModulation(lowest["mode"]).get_bandpass().low_cut
highest = frequencies[-1]
max = highest["frequency"] + Modes.findByModulation(highest["mode"]).get_bandpass().high_cut
return min, max
def get_center_frequency(self, group):
min, max = self.get_min_max(group)
return (min + max) / 2
def get_bandwidth(self, group):
minFreq, maxFreq = self.get_min_max(group)
# minimum bandwidth for a resampler: 25kHz
return max((maxFreq - minFreq) * 1.15, 25000)
def optimizeResampling(self, freqs, bandwidth):
freqs = sorted(freqs, key=lambda f: f["frequency"])
distances = [
{
"frequency": freqs[i]["frequency"],
"distance": freqs[i + 1]["frequency"] - freqs[i]["frequency"],
}
for i in range(0, len(freqs) - 1)
]
distances = [d for d in distances if d["distance"] > 0]
distances = sorted(distances, key=lambda f: f["distance"], reverse=True)
def calculate_usage(num_splits):
splits = sorted([f["frequency"] for f in distances[0:num_splits]])
previous = 0
groups = []
for split in splits:
groups.append([f for f in freqs if previous < f["frequency"] <= split])
previous = split
groups.append([f for f in freqs if previous < f["frequency"]])
def get_total_bandwidth(group):
if len(group) > 1:
return bandwidth + len(group) * self.get_bandwidth(group)
else:
return bandwidth
total_bandwidth = sum([get_total_bandwidth(group) for group in groups])
return {
"num_splits": num_splits,
"total_bandwidth": total_bandwidth,
"groups": groups,
}
usages = [calculate_usage(i) for i in range(0, len(freqs))]
# another possible outcome might be that it's best not to resample at all. this is a special case.
usages += [
{
"num_splits": None,
"total_bandwidth": bandwidth * len(freqs),
"groups": [freqs],
}
]
results = sorted(usages, key=lambda f: f["total_bandwidth"])
for r in results:
logger.debug("splits: {0}, total: {1}".format(r["num_splits"], r["total_bandwidth"]))
best = results[0]
if best["num_splits"] is None:
return None
return best["groups"]
def setupService(self, mode, frequency, source):
logger.debug("setting up service {0} on frequency {1}".format(mode, frequency))
modeObject = Modes.findByModulation(mode)
if not isinstance(modeObject, DigitalMode):
logger.warning("mode is not a digimode: %s", mode)
return None
demod = self._getDemodulator(modeObject.get_modulation())
secondaryDemod = self._getSecondaryDemodulator(modeObject.modulation)
center_freq = source.getProps()["center_freq"]
sampleRate = source.getProps()["samp_rate"]
shift = (center_freq - frequency) / sampleRate
bandpass = modeObject.get_bandpass()
if isinstance(secondaryDemod, DialFrequencyReceiver):
secondaryDemod.setDialFrequency(frequency)
chain = ServiceDemodulatorChain(demod, secondaryDemod, sampleRate, shift)
chain.setBandPass(bandpass.low_cut, bandpass.high_cut)
chain.setReader(source.getBuffer().getReader())
# dummy buffer, we don't use the output right now
buffer = Buffer(chain.getOutputFormat())
chain.setWriter(buffer)
return chain
# TODO move this elsewhere
def _getDemodulator(self, demod: Union[str, BaseDemodulatorChain]):
if isinstance(demod, BaseDemodulatorChain):
return demod
# TODO: move this to Modes
if demod == "nfm":
return NFm(48000)
elif demod in ["usb", "lsb", "cw"]:
return Ssb()
# TODO move this elsewhere
def _getSecondaryDemodulator(self, mod):
if isinstance(mod, SecondaryDemodulator):
return mod
# TODO add remaining modes
if mod in ["ft8", "wspr", "jt65", "jt9", "ft4", "fst4", "fst4w", "q65"]:
return AudioChopperDemodulator(mod, WsjtParser())
elif mod == "js8":
return AudioChopperDemodulator(mod, Js8Parser())
elif mod == "packet":
return PacketDemodulator(service=True)
return None
class Services(object):
handlers = {}
schedulers = {}
@staticmethod
def start():
config = Config.get()
config.wireProperty("services_enabled", Services._receiveEnabledEvent)
activeSources = SdrService.getActiveSources()
activeSources.wire(Services._receiveDeviceEvent)
for key, source in activeSources.items():
Services.schedulers[key] = ServiceScheduler(source)
@staticmethod
def _receiveEnabledEvent(state):
if state:
for key, source in SdrService.getActiveSources().__dict__().items():
Services.handlers[key] = ServiceHandler(source)
else:
for handler in list(Services.handlers.values()):
handler.shutdown()
Services.handlers = {}
@staticmethod
def _receiveDeviceEvent(changes):
for key, source in changes.items():
if source is PropertyDeleted:
if key in Services.handlers:
Services.handlers[key].shutdown()
del Services.handlers[key]
if key in Services.schedulers:
Services.schedulers[key].shutdown()
del Services.schedulers[key]
else:
Services.schedulers[key] = ServiceScheduler(source)
if Config.get()["services_enabled"]:
Services.handlers[key] = ServiceHandler(source)
@staticmethod
def stop():
for handler in list(Services.handlers.values()):
handler.shutdown()
Services.handlers = {}
for scheduler in list(Services.schedulers.values()):
scheduler.shutdown()
Services.schedulers = {}