from owrx.meta import MetaParser from owrx.wsjt import WsjtParser from owrx.js8 import Js8Parser from owrx.aprs import AprsParser from owrx.pocsag import PocsagParser from owrx.source import SdrSource, SdrSourceEventClient from owrx.property import PropertyStack, PropertyLayer from owrx.modes import Modes from csdr import csdr import threading import logging logger = logging.getLogger(__name__) class DspManager(csdr.output, SdrSourceEventClient): def __init__(self, handler, sdrSource): self.handler = handler self.sdrSource = sdrSource self.parsers = { "meta": MetaParser(self.handler), "wsjt_demod": WsjtParser(self.handler), "packet_demod": AprsParser(self.handler), "pocsag_demod": PocsagParser(self.handler), "js8_demod": Js8Parser(self.handler), } self.props = PropertyStack() # local demodulator properties not forwarded to the sdr self.props.addLayer(0, PropertyLayer().filter( "output_rate", "hd_output_rate", "squelch_level", "secondary_mod", "low_cut", "high_cut", "offset_freq", "mod", "secondary_offset_freq", "dmr_filter", )) # properties that we inherit from the sdr self.props.addLayer(1, self.sdrSource.getProps().filter( "audio_compression", "fft_compression", "digimodes_fft_size", "csdr_dynamic_bufsize", "csdr_print_bufsizes", "csdr_through", "digimodes_enable", "samp_rate", "digital_voice_unvoiced_quality", "temporary_directory", "center_freq", "start_mod", "start_freq", "wfm_deemphasis_tau", )) self.dsp = csdr.dsp(self) self.dsp.nc_port = self.sdrSource.getPort() def set_low_cut(cut): bpf = self.dsp.get_bpf() bpf[0] = cut self.dsp.set_bpf(*bpf) def set_high_cut(cut): bpf = self.dsp.get_bpf() bpf[1] = cut self.dsp.set_bpf(*bpf) def set_dial_freq(key, value): freq = self.props["center_freq"] + self.props["offset_freq"] for parser in self.parsers.values(): parser.setDialFrequency(freq) if "start_mod" in self.props: self.dsp.set_demodulator(self.props["start_mod"]) mode = Modes.findByModulation(self.props["start_mod"]) if mode and mode.bandpass: self.dsp.set_bpf(mode.bandpass.low_cut, mode.bandpass.high_cut) else: self.dsp.set_bpf(-4000, 4000) if "start_freq" in self.props and "center_freq" in self.props: self.dsp.set_offset_freq(self.props["start_freq"] - self.props["center_freq"]) else: self.dsp.set_offset_freq(0) self.subscriptions = [ self.props.wireProperty("audio_compression", self.dsp.set_audio_compression), self.props.wireProperty("fft_compression", self.dsp.set_fft_compression), self.props.wireProperty("digimodes_fft_size", self.dsp.set_secondary_fft_size), self.props.wireProperty("samp_rate", self.dsp.set_samp_rate), self.props.wireProperty("output_rate", self.dsp.set_output_rate), self.props.wireProperty("hd_output_rate", self.dsp.set_hd_output_rate), self.props.wireProperty("offset_freq", self.dsp.set_offset_freq), self.props.wireProperty("center_freq", self.dsp.set_center_freq), self.props.wireProperty("squelch_level", self.dsp.set_squelch_level), self.props.wireProperty("low_cut", set_low_cut), self.props.wireProperty("high_cut", set_high_cut), self.props.wireProperty("mod", self.dsp.set_demodulator), self.props.wireProperty("digital_voice_unvoiced_quality", self.dsp.set_unvoiced_quality), self.props.wireProperty("dmr_filter", self.dsp.set_dmr_filter), self.props.wireProperty("temporary_directory", self.dsp.set_temporary_directory), self.props.wireProperty("wfm_deemphasis_tau", self.dsp.set_wfm_deemphasis_tau), self.props.filter("center_freq", "offset_freq").wire(set_dial_freq), ] self.dsp.csdr_dynamic_bufsize = self.props["csdr_dynamic_bufsize"] self.dsp.csdr_print_bufsizes = self.props["csdr_print_bufsizes"] self.dsp.csdr_through = self.props["csdr_through"] if self.props["digimodes_enable"]: def set_secondary_mod(mod): if mod == False: mod = None self.dsp.set_secondary_demodulator(mod) if mod is not None: self.handler.write_secondary_dsp_config( { "secondary_fft_size": self.props["digimodes_fft_size"], "if_samp_rate": self.dsp.if_samp_rate(), "secondary_bw": self.dsp.secondary_bw(), } ) self.subscriptions += [ self.props.wireProperty("secondary_mod", set_secondary_mod), self.props.wireProperty("secondary_offset_freq", self.dsp.set_secondary_offset_freq), ] self.startOnAvailable = False self.sdrSource.addClient(self) super().__init__() def start(self): if self.sdrSource.isAvailable(): self.dsp.start() else: self.startOnAvailable = True def receive_output(self, t, read_fn): logger.debug("adding 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.handler.write_secondary_demod, } for demod, parser in self.parsers.items(): writers[demod] = parser.parse write = writers[t] threading.Thread(target=self.pump(read_fn, write), name="dsp_pump_{}".format(t)).start() def stop(self): self.dsp.stop() 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.props[prop] = value def getClientClass(self): return SdrSource.CLIENT_USER def onStateChange(self, state): if state == SdrSource.STATE_RUNNING: logger.debug("received STATE_RUNNING, attempting DspSource restart") if self.startOnAvailable: self.dsp.start() self.startOnAvailable = False elif state == SdrSource.STATE_STOPPING: logger.debug("received STATE_STOPPING, shutting down DspSource") self.dsp.stop() elif state == SdrSource.STATE_FAILED: logger.debug("received STATE_FAILED, shutting down DspSource") self.dsp.stop() def onBusyStateChange(self, state): pass