from owrx.source import SdrSourceEventClient, SdrSourceState, SdrClientClass from owrx.property import PropertyStack, PropertyLayer, PropertyValidator from owrx.property.validators import OrValidator, RegexValidator, BoolValidator from owrx.modes import Modes from csdr.chain import Chain from csdr.chain.demodulator import BaseDemodulatorChain, FixedIfSampleRateChain, FixedAudioRateChain, HdAudio, SecondaryDemodulator, DialFrequencyReceiver, MetaProvider, SlotFilterChain, SecondarySelectorChain, DeemphasisTauChain from csdr.chain.selector import Selector, SecondarySelector from csdr.chain.clientaudio import ClientAudioChain from csdr.chain.fft import FftChain from pycsdr.modules import Buffer, Writer from pycsdr.types import Format from typing import Union, Optional from io import BytesIO from abc import ABC, abstractmethod import threading import re import pickle import logging logger = logging.getLogger(__name__) # now that's a name. help, i've reached enterprise level OOP here class ClientDemodulatorSecondaryDspEventClient(ABC): @abstractmethod def onSecondaryDspRateChange(self, rate): pass @abstractmethod def onSecondaryDspBandwidthChange(self, bw): pass class ClientDemodulatorChain(Chain): def __init__(self, demod: BaseDemodulatorChain, sampleRate: int, outputRate: int, hdOutputRate: int, audioCompression: str, secondaryDspEventReceiver: ClientDemodulatorSecondaryDspEventClient): self.sampleRate = sampleRate self.outputRate = outputRate self.hdOutputRate = hdOutputRate self.secondaryDspEventReceiver = secondaryDspEventReceiver self.selector = Selector(sampleRate, outputRate) self.selector.setBandpass(-4000, 4000) self.selectorBuffer = Buffer(Format.COMPLEX_FLOAT) self.audioBuffer = None self.demodulator = demod self.secondaryDemodulator = None self.centerFrequency = None self.frequencyOffset = None self.wfmDeemphasisTau = 50e-6 inputRate = demod.getFixedAudioRate() if isinstance(demod, FixedAudioRateChain) else outputRate oRate = hdOutputRate if isinstance(demod, HdAudio) else outputRate self.clientAudioChain = ClientAudioChain(demod.getOutputFormat(), inputRate, oRate, audioCompression) self.secondaryFftSize = 2048 self.secondaryFftOverlapFactor = 0.3 self.secondaryFftFps = 9 self.secondaryFftCompression = "adpcm" self.secondaryFftChain = None self.metaWriter = None self.secondaryFftWriter = None self.secondaryWriter = None self.squelchLevel = -150 self.secondarySelector = None self.secondaryFrequencyOffset = None super().__init__([self.selector, self.demodulator, self.clientAudioChain]) def stop(self): super().stop() if self.secondaryFftChain is not None: self.secondaryFftChain.stop() self.secondaryFftChain = None if self.secondaryDemodulator is not None: self.secondaryDemodulator.stop() self.secondaryDemodulator = None def _connect(self, w1, w2, buffer: Optional[Buffer] = None) -> None: if w1 is self.selector: super()._connect(w1, w2, self.selectorBuffer) elif w2 is self.clientAudioChain: format = w1.getOutputFormat() if self.audioBuffer is None or self.audioBuffer.getFormat() != format: self.audioBuffer = Buffer(format) if self.secondaryDemodulator is not None and self.secondaryDemodulator.getInputFormat() is not Format.COMPLEX_FLOAT: self.secondaryDemodulator.setReader(self.audioBuffer.getReader()) super()._connect(w1, w2, self.audioBuffer) else: super()._connect(w1, w2) def setDemodulator(self, demodulator: BaseDemodulatorChain): if demodulator is self.demodulator: return try: self.clientAudioChain.setFormat(demodulator.getOutputFormat()) except ValueError: # this will happen if the new format does not match the current demodulator. # it's expected and should be mended when swapping out the demodulator in the next step pass self.replace(1, demodulator) if self.demodulator is not None: self.demodulator.stop() self.demodulator = demodulator outputRate = self.hdOutputRate if isinstance(self.demodulator, HdAudio) else self.outputRate if isinstance(self.demodulator, FixedIfSampleRateChain): self.selector.setOutputRate(self.demodulator.getFixedIfSampleRate()) elif isinstance(self.secondaryDemodulator, FixedAudioRateChain): self.selector.setOutputRate(self.secondaryDemodulator.getFixedAudioRate()) else: self.selector.setOutputRate(outputRate) self.demodulator.setSampleRate(outputRate) if isinstance(self.demodulator, FixedAudioRateChain): self.clientAudioChain.setInputRate(self.demodulator.getFixedAudioRate()) elif isinstance(self.secondaryDemodulator, FixedAudioRateChain): self.clientAudioChain.setInputRate(self.secondaryDemodulator.getFixedAudioRate()) else: self.clientAudioChain.setInputRate(outputRate) if isinstance(self.demodulator, DeemphasisTauChain): self.demodulator.setDeemphasisTau(self.wfmDeemphasisTau) self._updateDialFrequency() self._syncSquelch() self.clientAudioChain.setClientRate(outputRate) if self.metaWriter is not None and isinstance(demodulator, MetaProvider): demodulator.setMetaWriter(self.metaWriter) def _getSelectorOutputRate(self): if isinstance(self.secondaryDemodulator, FixedAudioRateChain): if isinstance(self.demodulator, FixedAudioRateChain) and self.demodulator.getFixedAudioRate() != self.secondaryDemodulator.getFixedAudioRate(): raise ValueError("secondary and primary demodulator chain audio rates do not match!") return self.secondaryDemodulator.getFixedAudioRate() return self.outputRate def setSecondaryDemodulator(self, demod: Optional[SecondaryDemodulator]): if demod is self.secondaryDemodulator: return if self.secondaryDemodulator is not None: self.secondaryDemodulator.stop() self.secondaryDemodulator = demod rate = self._getSelectorOutputRate() self.selector.setOutputRate(rate) self.clientAudioChain.setInputRate(rate) self.demodulator.setSampleRate(rate) self._updateDialFrequency() self._syncSquelch() if isinstance(self.secondaryDemodulator, SecondarySelectorChain): bandwidth = self.secondaryDemodulator.getBandwidth() self.secondarySelector = SecondarySelector(rate, bandwidth) self.secondarySelector.setReader(self.selectorBuffer.getReader()) self.secondarySelector.setFrequencyOffset(self.secondaryFrequencyOffset) self.secondaryDspEventReceiver.onSecondaryDspBandwidthChange(bandwidth) else: self.secondarySelector = None if self.secondaryDemodulator is not None: self.secondaryDemodulator.setSampleRate(rate) if self.secondarySelector is not None: buffer = Buffer(Format.COMPLEX_FLOAT) self.secondarySelector.setWriter(buffer) self.secondaryDemodulator.setReader(buffer.getReader()) elif self.secondaryDemodulator.getInputFormat() is Format.COMPLEX_FLOAT: self.secondaryDemodulator.setReader(self.selectorBuffer.getReader()) else: self.secondaryDemodulator.setReader(self.audioBuffer.getReader()) self.secondaryDemodulator.setWriter(self.secondaryWriter) if self.secondaryDemodulator is None and self.secondaryFftChain is not None: self.secondaryFftChain.stop() self.secondaryFftChain = None if self.secondaryDemodulator is not None and self.secondaryFftChain is None: self._createSecondaryFftChain() if self.secondaryFftChain is not None: self.secondaryFftChain.setSampleRate(rate) self.secondaryDspEventReceiver.onSecondaryDspRateChange(rate) def _createSecondaryFftChain(self): if self.secondaryFftChain is not None: self.secondaryFftChain.stop() self.secondaryFftChain = FftChain(self._getSelectorOutputRate(), self.secondaryFftSize, self.secondaryFftOverlapFactor, self.secondaryFftFps, self.secondaryFftCompression) self.secondaryFftChain.setReader(self.selectorBuffer.getReader()) self.secondaryFftChain.setWriter(self.secondaryFftWriter) def _syncSquelch(self): if not self.demodulator.supportsSquelch() or (self.secondaryDemodulator is not None and not self.secondaryDemodulator.supportsSquelch()): self.selector.setSquelchLevel(-150) else: self.selector.setSquelchLevel(self.squelchLevel) def setLowCut(self, lowCut): self.selector.setLowCut(lowCut) def setHighCut(self, highCut): self.selector.setHighCut(highCut) def setBandpass(self, lowCut, highCut): self.selector.setBandpass(lowCut, highCut) def setFrequencyOffset(self, offset: int) -> None: if offset == self.frequencyOffset: return self.frequencyOffset = offset self.selector.setFrequencyOffset(offset) self._updateDialFrequency() def setCenterFrequency(self, frequency: int) -> None: if frequency == self.centerFrequency: return self.centerFrequency = frequency self._updateDialFrequency() def _updateDialFrequency(self): if self.centerFrequency is None or self.frequencyOffset is None: return dialFrequency = self.centerFrequency + self.frequencyOffset if isinstance(self.demodulator, DialFrequencyReceiver): self.demodulator.setDialFrequency(dialFrequency) if isinstance(self.secondaryDemodulator, DialFrequencyReceiver): self.secondaryDemodulator.setDialFrequency(dialFrequency) def setAudioCompression(self, compression: str) -> None: self.clientAudioChain.setAudioCompression(compression) def setSquelchLevel(self, level: float) -> None: if level == self.squelchLevel: return self.squelchLevel = level self._syncSquelch() def setOutputRate(self, outputRate) -> None: if outputRate == self.outputRate: return self.outputRate = outputRate if isinstance(self.demodulator, HdAudio): return self._updateDemodulatorOutputRate(outputRate) def setHdOutputRate(self, outputRate) -> None: if outputRate == self.hdOutputRate: return self.hdOutputRate = outputRate if not isinstance(self.demodulator, HdAudio): return self._updateDemodulatorOutputRate(outputRate) def _updateDemodulatorOutputRate(self, outputRate): if not isinstance(self.demodulator, FixedIfSampleRateChain): self.selector.setOutputRate(outputRate) self.demodulator.setSampleRate(outputRate) if self.secondaryDemodulator is not None: self.secondaryDemodulator.setSampleRate(outputRate) if not isinstance(self.demodulator, FixedAudioRateChain): self.clientAudioChain.setClientRate(outputRate) def setSampleRate(self, sampleRate: int) -> None: if sampleRate == self.sampleRate: return self.sampleRate = sampleRate self.selector.setInputRate(sampleRate) def setPowerWriter(self, writer: Writer) -> None: self.selector.setPowerWriter(writer) def setMetaWriter(self, writer: Writer) -> None: if writer is self.metaWriter: return self.metaWriter = writer if isinstance(self.demodulator, MetaProvider): self.demodulator.setMetaWriter(self.metaWriter) def setSecondaryFftWriter(self, writer: Writer) -> None: if writer is self.secondaryFftWriter: return self.secondaryFftWriter = writer if self.secondaryFftChain is not None: self.secondaryFftChain.setWriter(writer) def setSecondaryWriter(self, writer: Writer) -> None: if writer is self.secondaryWriter: return self.secondaryWriter = writer if self.secondaryDemodulator is not None: self.secondaryDemodulator.setWriter(writer) def setSlotFilter(self, filter: int) -> None: if not isinstance(self.demodulator, SlotFilterChain): return self.demodulator.setSlotFilter(filter) def setSecondaryFftSize(self, size: int) -> None: if size == self.secondaryFftSize: return self.secondaryFftSize = size if not self.secondaryFftChain: return self._createSecondaryFftChain() def setSecondaryFrequencyOffset(self, freq: int) -> None: if self.secondaryFrequencyOffset == freq: return self.secondaryFrequencyOffset = freq if self.secondarySelector is None: return self.secondarySelector.setFrequencyOffset(self.secondaryFrequencyOffset) def setSecondaryFftCompression(self, compression: str) -> None: if compression == self.secondaryFftCompression: return self.secondaryFftCompression = compression if not self.secondaryFftChain: return self.secondaryFftChain.setCompression(self.secondaryFftCompression) def setSecondaryFftOverlapFactor(self, overlap: float) -> None: if overlap == self.secondaryFftOverlapFactor: return self.secondaryFftOverlapFactor = overlap if not self.secondaryFftChain: return self.secondaryFftChain.setVOverlapFactor(self.secondaryFftOverlapFactor) def setSecondaryFftFps(self, fps: int) -> None: if fps == self.secondaryFftFps: return self.secondaryFftFps = fps if not self.secondaryFftChain: return self.secondaryFftChain.setFps(self.secondaryFftFps) def getSecondaryFftOutputFormat(self) -> Format: if self.secondaryFftCompression == "adpcm": return Format.CHAR return Format.SHORT def setWfmDeemphasisTau(self, tau: float) -> None: if tau == self.wfmDeemphasisTau: return self.wfmDeemphasisTau = tau if isinstance(self.demodulator, DeemphasisTauChain): self.demodulator.setDeemphasisTau(self.wfmDeemphasisTau) class ModulationValidator(OrValidator): """ This validator only allows alphanumeric characters and numbers, but no spaces or special characters """ def __init__(self): super().__init__(BoolValidator(), RegexValidator(re.compile("^[a-z0-9]+$"))) class DspManager(SdrSourceEventClient, ClientDemodulatorSecondaryDspEventClient): def __init__(self, handler, sdrSource): self.handler = handler self.sdrSource = sdrSource self.props = PropertyStack() # current audio mode. should be "audio" or "hd_audio" depending on what demodulatur is in use. self.audioOutput = None # local demodulator properties not forwarded to the sdr # ensure strict validation since these can be set from the client # and are used to build executable commands validators = { "output_rate": "int", "hd_output_rate": "int", "squelch_level": "num", "secondary_mod": ModulationValidator(), "low_cut": "num", "high_cut": "num", "offset_freq": "int", "mod": ModulationValidator(), "secondary_offset_freq": "int", "dmr_filter": "int", } self.localProps = PropertyValidator(PropertyLayer().filter(*validators.keys()), validators) self.props.addLayer(0, self.localProps) # properties that we inherit from the sdr self.props.addLayer( 1, self.sdrSource.getProps().filter( "audio_compression", "fft_compression", "digimodes_fft_size", "samp_rate", "center_freq", "start_mod", "start_freq", "wfm_deemphasis_tau", "digital_voice_codecserver", ), ) # defaults for values that may not be set self.props.addLayer( 2, PropertyLayer( output_rate=12000, hd_output_rate=48000, digital_voice_codecserver="", ).readonly() ) self.chain = ClientDemodulatorChain( self._getDemodulator("nfm"), self.props["samp_rate"], self.props["output_rate"], self.props["hd_output_rate"], self.props["audio_compression"], self ) self.readers = {} if "start_mod" in self.props: self.setDemodulator(self.props["start_mod"]) mode = Modes.findByModulation(self.props["start_mod"]) if mode and mode.bandpass: bpf = [mode.bandpass.low_cut, mode.bandpass.high_cut] self.chain.setBandpass(*bpf) if "start_freq" in self.props and "center_freq" in self.props: self.chain.setFrequencyOffset(self.props["start_freq"] - self.props["center_freq"]) else: self.chain.setFrequencyOffset(0) self.subscriptions = [ self.props.wireProperty("audio_compression", self.setAudioCompression), self.props.wireProperty("fft_compression", self.chain.setSecondaryFftCompression), self.props.wireProperty("fft_voverlap_factor", self.chain.setSecondaryFftOverlapFactor), self.props.wireProperty("fft_fps", self.chain.setSecondaryFftFps), self.props.wireProperty("digimodes_fft_size", self.setSecondaryFftSize), self.props.wireProperty("samp_rate", self.chain.setSampleRate), self.props.wireProperty("output_rate", self.chain.setOutputRate), self.props.wireProperty("hd_output_rate", self.chain.setHdOutputRate), self.props.wireProperty("offset_freq", self.chain.setFrequencyOffset), self.props.wireProperty("center_freq", self.chain.setCenterFrequency), self.props.wireProperty("squelch_level", self.chain.setSquelchLevel), self.props.wireProperty("low_cut", self.chain.setLowCut), self.props.wireProperty("high_cut", self.chain.setHighCut), self.props.wireProperty("mod", self.setDemodulator), self.props.wireProperty("dmr_filter", self.chain.setSlotFilter), self.props.wireProperty("wfm_deemphasis_tau", self.chain.setWfmDeemphasisTau), self.props.wireProperty("secondary_mod", self.setSecondaryDemodulator), self.props.wireProperty("secondary_offset_freq", self.chain.setSecondaryFrequencyOffset), ] # wire power level output buffer = Buffer(Format.FLOAT) self.chain.setPowerWriter(buffer) self.wireOutput("smeter", buffer) # wire meta output buffer = Buffer(Format.CHAR) self.chain.setMetaWriter(buffer) self.wireOutput("meta", buffer) # wire secondary FFT buffer = Buffer(self.chain.getSecondaryFftOutputFormat()) self.chain.setSecondaryFftWriter(buffer) self.wireOutput("secondary_fft", buffer) # wire secondary demodulator buffer = Buffer(Format.CHAR) self.chain.setSecondaryWriter(buffer) self.wireOutput("secondary_demod", buffer) self.startOnAvailable = False self.sdrSource.addClient(self) super().__init__() def setSecondaryFftSize(self, size): self.chain.setSecondaryFftSize(size) self.handler.write_secondary_dsp_config({"secondary_fft_size": size}) def _getDemodulator(self, demod: Union[str, BaseDemodulatorChain]) -> Optional[BaseDemodulatorChain]: if isinstance(demod, BaseDemodulatorChain): return demod # TODO: move this to Modes if demod == "nfm": from csdr.chain.analog import NFm return NFm(self.props["output_rate"]) elif demod == "wfm": from csdr.chain.analog import WFm return WFm(self.props["hd_output_rate"], self.props["wfm_deemphasis_tau"]) elif demod == "am": from csdr.chain.analog import Am return Am() elif demod in ["usb", "lsb", "cw"]: from csdr.chain.analog import Ssb return Ssb() elif demod == "dmr": from csdr.chain.digiham import Dmr return Dmr(self.props["digital_voice_codecserver"]) elif demod == "dstar": from csdr.chain.digiham import Dstar return Dstar(self.props["digital_voice_codecserver"]) elif demod == "ysf": from csdr.chain.digiham import Ysf return Ysf(self.props["digital_voice_codecserver"]) elif demod == "nxdn": from csdr.chain.digiham import Nxdn return Nxdn(self.props["digital_voice_codecserver"]) elif demod == "m17": from csdr.chain.m17 import M17 return M17() elif demod == "drm": from csdr.chain.drm import Drm return Drm() elif demod == "freedv": from csdr.chain.freedv import FreeDV return FreeDV() def setDemodulator(self, mod): demodulator = self._getDemodulator(mod) if demodulator is None: raise ValueError("unsupported demodulator: {}".format(mod)) self.chain.setDemodulator(demodulator) output = "hd_audio" if isinstance(demodulator, HdAudio) else "audio" if output != self.audioOutput: self.audioOutput = output # re-wire the audio to the correct client API buffer = Buffer(self.chain.getOutputFormat()) self.chain.setWriter(buffer) self.wireOutput(self.audioOutput, buffer) def _getSecondaryDemodulator(self, mod) -> Optional[SecondaryDemodulator]: if isinstance(mod, SecondaryDemodulator): return mod if mod in ["ft8", "wspr", "jt65", "jt9", "ft4", "fst4", "fst4w", "q65"]: from csdr.chain.digimodes import AudioChopperDemodulator from owrx.wsjt import WsjtParser return AudioChopperDemodulator(mod, WsjtParser()) elif mod == "js8": from csdr.chain.digimodes import AudioChopperDemodulator from owrx.js8 import Js8Parser return AudioChopperDemodulator(mod, Js8Parser()) elif mod == "packet": from csdr.chain.digimodes import PacketDemodulator return PacketDemodulator() elif mod == "pocsag": from csdr.chain.digimodes import PocsagDemodulator return PocsagDemodulator() elif mod == "bpsk31": from csdr.chain.digimodes import PskDemodulator return PskDemodulator(31.25) elif mod == "bpsk63": from csdr.chain.digimodes import PskDemodulator return PskDemodulator(62.5) def setSecondaryDemodulator(self, mod): demodulator = self._getSecondaryDemodulator(mod) if not demodulator: self.chain.setSecondaryDemodulator(None) else: self.chain.setSecondaryDemodulator(demodulator) def setAudioCompression(self, comp): try: self.chain.setAudioCompression(comp) except ValueError: # wrong output format... need to re-wire buffer = Buffer(self.chain.getOutputFormat()) self.chain.setWriter(buffer) self.wireOutput(self.audioOutput, buffer) def start(self): if self.sdrSource.isAvailable(): self.chain.setReader(self.sdrSource.getBuffer().getReader()) else: self.startOnAvailable = True def unwireOutput(self, t: str): if t in self.readers: self.readers[t].stop() del self.readers[t] def wireOutput(self, t: str, buffer: Buffer): logger.debug("wiring new output of type %s", t) writers = { "audio": self.handler.write_dsp_data, "hd_audio": self.handler.write_hd_audio, "smeter": self.handler.write_s_meter_level, "secondary_fft": self.handler.write_secondary_fft, "secondary_demod": self._unpickle(self.handler.write_secondary_demod), "meta": self._unpickle(self.handler.write_metadata), } write = writers[t] self.unwireOutput(t) reader = buffer.getReader() self.readers[t] = reader threading.Thread(target=self.chain.pump(reader.read, write), name="dsp_pump_{}".format(t)).start() def _unpickle(self, callback): def unpickler(data): b = data.tobytes() io = BytesIO(b) try: while True: callback(pickle.load(io)) except EOFError: pass # TODO: this is not ideal. is there a way to know beforehand if the data will be pickled? except pickle.UnpicklingError: callback(b.decode("ascii")) return unpickler def stop(self): if self.chain: self.chain.stop() self.chain = None for reader in self.readers.values(): reader.stop() self.readers = {} self.startOnAvailable = False self.sdrSource.removeClient(self) for sub in self.subscriptions: sub.cancel() self.subscriptions = [] def setProperties(self, props): for k, v in props.items(): self.setProperty(k, v) def setProperty(self, prop, value): self.localProps[prop] = value def getClientClass(self) -> SdrClientClass: return SdrClientClass.USER def onStateChange(self, state: SdrSourceState): if state is SdrSourceState.RUNNING: logger.debug("received STATE_RUNNING, attempting DspSource restart") if self.startOnAvailable: self.chain.setReader(self.sdrSource.getBuffer().getReader()) self.startOnAvailable = False elif state is SdrSourceState.STOPPING: logger.debug("received STATE_STOPPING, shutting down DspSource") self.stop() def onFail(self): logger.debug("received onFail(), shutting down DspSource") self.stop() def onShutdown(self): self.stop() def onSecondaryDspBandwidthChange(self, bw): self.handler.write_secondary_dsp_config({"secondary_bw": bw}) def onSecondaryDspRateChange(self, rate): self.handler.write_secondary_dsp_config({"if_samp_rate": rate})