from owrx.config import Config from owrx.details import ReceiverDetails from owrx.dsp import DspManager from owrx.cpu import CpuUsageThread from owrx.sdr import SdrService from owrx.source import SdrSource, SdrSourceEventClient from owrx.client import ClientRegistry, TooManyClientsException from owrx.feature import FeatureDetector from owrx.version import openwebrx_version from owrx.bands import Bandplan from owrx.bookmarks import Bookmarks from owrx.map import Map from owrx.property import PropertyStack from owrx.modes import Modes, DigitalMode from queue import Queue, Full, Empty from js8py import Js8Frame from abc import ABC, ABCMeta, abstractmethod import json import threading import logging logger = logging.getLogger(__name__) PoisonPill = object() class Client(ABC): def __init__(self, conn): self.conn = conn self.multithreadingQueue = Queue(100) def mp_passthru(): run = True while run: try: data = self.multithreadingQueue.get() if data is PoisonPill: run = False else: self.send(data) self.multithreadingQueue.task_done() except (EOFError, OSError, ValueError): run = False except Exception: logger.exception("Exception on client multithreading queue") # unset the queue object to free shared memory file descriptors self.multithreadingQueue = None threading.Thread(target=mp_passthru, name="connection_mp_passthru").start() def send(self, data): try: self.conn.send(data) except IOError: self.close() def close(self): if self.multithreadingQueue is not None: while True: try: self.multithreadingQueue.get(block=False) except Empty: break try: self.multithreadingQueue.put(PoisonPill, block=False) except Full: # this shouldn't happen, we just emptied the queue, but it's not worth risking the exception logger.exception("impossible queue state: Full after Empty") self.conn.close() def mp_send(self, data): if self.multithreadingQueue is None: return try: self.multithreadingQueue.put(data, block=False) except Full: self.close() @abstractmethod def handleTextMessage(self, conn, message): pass def handleBinaryMessage(self, conn, data): logger.error("unsupported binary message, discarding") def handleClose(self): self.close() class OpenWebRxClient(Client, metaclass=ABCMeta): def __init__(self, conn): super().__init__(conn) receiver_details = ReceiverDetails() def send_receiver_info(*args): receiver_info = receiver_details.__dict__() self.write_receiver_details(receiver_info) # TODO unsubscribe receiver_details.wire(send_receiver_info) send_receiver_info() def write_receiver_details(self, details): self.send({"type": "receiver_details", "value": details}) class OpenWebRxReceiverClient(OpenWebRxClient, SdrSourceEventClient): config_keys = [ "waterfall_colors", "waterfall_min_level", "waterfall_max_level", "waterfall_auto_level_margin", "samp_rate", "fft_size", "audio_compression", "fft_compression", "max_clients", "start_mod", "start_freq", "center_freq", "initial_squelch_level", "profile_id", "squelch_auto_margin", ] def __init__(self, conn): super().__init__(conn) self.dsp = None self.sdr = None self.configSub = None self.connectionProperties = {} try: ClientRegistry.getSharedInstance().addClient(self) except TooManyClientsException: self.write_backoff_message("Too many clients") self.close() raise self.setSdr() features = FeatureDetector().feature_availability() self.write_features(features) modes = Modes.getModes() self.write_modes(modes) self.__sendProfiles() CpuUsageThread.getSharedInstance().add_client(self) def onStateChange(self, state): if state == SdrSource.STATE_RUNNING: self.handleSdrAvailable() elif state == SdrSource.STATE_FAILED: self.handleSdrFailed() def handleSdrFailed(self): logger.warning('SDR device "%s" has failed, selecting new device', self.sdr.getName()) self.write_log_message('SDR device "{0}" has failed, selecting new device'.format(self.sdr.getName())) self.setSdr() def onBusyStateChange(self, state): pass def getClientClass(self): return SdrSource.CLIENT_USER def __sendProfiles(self): profiles = [ {"name": s.getName() + " " + p["name"], "id": sid + "|" + pid} for (sid, s) in SdrService.getSources().items() for (pid, p) in s.getProfiles().items() ] self.write_profiles(profiles) def handleTextMessage(self, conn, message): try: message = json.loads(message) if "type" in message: if message["type"] == "dspcontrol": if "action" in message and message["action"] == "start": self.startDsp() if "params" in message: dsp = self.getDsp() if dsp is None: logger.warning("DSP not available; discarding client data") else: params = message["params"] dsp.setProperties(params) elif message["type"] == "config": if "params" in message: self.setParams(message["params"]) elif message["type"] == "setsdr": if "params" in message: self.setSdr(message["params"]["sdr"]) elif message["type"] == "selectprofile": if "params" in message and "profile" in message["params"]: profile = message["params"]["profile"].split("|") self.setSdr(profile[0]) self.sdr.activateProfile(profile[1]) elif message["type"] == "connectionproperties": if "params" in message: self.connectionProperties = message["params"] if self.dsp: self.getDsp().setProperties(self.connectionProperties) else: logger.warning("received message without type: {0}".format(message)) except json.JSONDecodeError: logger.warning("message is not json: {0}".format(message)) def setSdr(self, id=None): next = None if id is not None: next = SdrService.getSource(id) if next is None: next = SdrService.getFirstSource() # exit condition: no change if next == self.sdr and next is not None: return self.stopDsp() if self.configSub is not None: self.configSub.cancel() self.configSub = None if self.sdr is not None: self.sdr.removeClient(self) if next is None: # exit condition: no sdrs available logger.warning("no more SDR devices available") self.handleNoSdrsAvailable() return self.sdr = next self.sdr.addClient(self) def handleSdrAvailable(self): # send initial config self.getDsp().setProperties(self.connectionProperties) stack = PropertyStack() stack.addLayer(0, self.sdr.getProps()) stack.addLayer(1, Config.get()) configProps = stack.filter(*OpenWebRxReceiverClient.config_keys) def sendConfig(key, value): config = configProps.__dict__() # TODO mathematical properties? hmmmm config["start_offset_freq"] = configProps["start_freq"] - configProps["center_freq"] # TODO this is a hack to support multiple sdrs config["sdr_id"] = self.sdr.getId() self.write_config(config) cf = configProps["center_freq"] srh = configProps["samp_rate"] / 2 frequencyRange = (cf - srh, cf + srh) self.write_dial_frequendies(Bandplan.getSharedInstance().collectDialFrequencies(frequencyRange)) bookmarks = [b.__dict__() for b in Bookmarks.getSharedInstance().getBookmarks(frequencyRange)] self.write_bookmarks(bookmarks) self.configSub = configProps.wire(sendConfig) sendConfig(None, None) self.__sendProfiles() self.sdr.addSpectrumClient(self) def handleNoSdrsAvailable(self): self.write_sdr_error("No SDR Devices available") def startDsp(self): self.getDsp().start() def close(self): if self.sdr is not None: self.sdr.removeClient(self) self.stopDsp() CpuUsageThread.getSharedInstance().remove_client(self) ClientRegistry.getSharedInstance().removeClient(self) if self.configSub is not None: self.configSub.cancel() self.configSub = None super().close() def stopDsp(self): if self.dsp is not None: self.dsp.stop() self.dsp = None if self.sdr is not None: self.sdr.removeSpectrumClient(self) def setParams(self, params): config = Config.get() # allow direct configuration only if enabled in the config if "configurable_keys" not in config: return keys = config["configurable_keys"] if not keys: return # only the keys in the protected property manager can be overridden from the web stack = PropertyStack() stack.addLayer(0, self.sdr.getProps()) stack.addLayer(1, config) protected = stack.filter(*keys) for key, value in params.items(): try: protected[key] = value except KeyError: pass def getDsp(self): if self.dsp is None and self.sdr is not None: self.dsp = DspManager(self, self.sdr) return self.dsp def write_spectrum_data(self, data): self.mp_send(bytes([0x01]) + data) def write_dsp_data(self, data): self.send(bytes([0x02]) + data) def write_hd_audio(self, data): self.send(bytes([0x04]) + data) def write_s_meter_level(self, level): self.send({"type": "smeter", "value": level}) def write_cpu_usage(self, usage): self.mp_send({"type": "cpuusage", "value": usage}) def write_clients(self, clients): self.mp_send({"type": "clients", "value": clients}) def write_secondary_fft(self, data): self.send(bytes([0x03]) + data) def write_secondary_demod(self, data): message = data.decode("ascii", "replace") self.send({"type": "secondary_demod", "value": message}) def write_secondary_dsp_config(self, cfg): self.send({"type": "secondary_config", "value": cfg}) def write_config(self, cfg): self.send({"type": "config", "value": cfg}) def write_profiles(self, profiles): self.send({"type": "profiles", "value": profiles}) def write_features(self, features): self.send({"type": "features", "value": features}) def write_metadata(self, metadata): self.send({"type": "metadata", "value": metadata}) def write_wsjt_message(self, message): self.send({"type": "wsjt_message", "value": message}) def write_dial_frequendies(self, frequencies): self.send({"type": "dial_frequencies", "value": frequencies}) def write_bookmarks(self, bookmarks): self.send({"type": "bookmarks", "value": bookmarks}) def write_aprs_data(self, data): self.send({"type": "aprs_data", "value": data}) def write_log_message(self, message): self.send({"type": "log_message", "value": message}) def write_sdr_error(self, message): self.send({"type": "sdr_error", "value": message}) def write_pocsag_data(self, data): self.send({"type": "pocsag_data", "value": data}) def write_backoff_message(self, reason): self.send({"type": "backoff", "reason": reason}) def write_js8_message(self, frame: Js8Frame, freq: int): self.send({"type": "js8_message", "value": { "msg": str(frame), "timestamp": frame.timestamp, "db": frame.db, "dt": frame.dt, "freq": freq + frame.freq, "thread_type": frame.thread_type, "mode": frame.mode }}) def write_modes(self, modes): def to_json(m): res = { "modulation": m.modulation, "name": m.name, "type": "digimode" if isinstance(m, DigitalMode) else "analog", "requirements": m.requirements, "squelch": m.squelch, } if m.bandpass is not None: res["bandpass"] = { "low_cut": m.bandpass.low_cut, "high_cut": m.bandpass.high_cut } if isinstance(m, DigitalMode): res["underlying"] = m.underlying return res self.send({"type": "modes", "value": [to_json(m) for m in modes]}) class MapConnection(OpenWebRxClient): def __init__(self, conn): super().__init__(conn) pm = Config.get() self.write_config(pm.filter("google_maps_api_key", "receiver_gps", "map_position_retention_time").__dict__()) Map.getSharedInstance().addClient(self) def handleTextMessage(self, conn, message): pass def close(self): Map.getSharedInstance().removeClient(self) super().close() def write_config(self, cfg): self.send({"type": "config", "value": cfg}) def write_update(self, update): self.mp_send({"type": "update", "value": update}) class WebSocketMessageHandler(object): def __init__(self): self.handshake = None def handleTextMessage(self, conn, message): if message[:16] == "SERVER DE CLIENT": meta = message[17:].split(" ") self.handshake = {v[0]: "=".join(v[1:]) for v in map(lambda x: x.split("="), meta)} conn.send("CLIENT DE SERVER server=openwebrx version={version}".format(version=openwebrx_version)) logger.debug("client connection intitialized") if "type" in self.handshake: if self.handshake["type"] == "receiver": client = OpenWebRxReceiverClient(conn) if self.handshake["type"] == "map": client = MapConnection(conn) # backwards compatibility else: client = OpenWebRxReceiverClient(conn) # hand off all further communication to the correspondig connection conn.setMessageHandler(client) return if not self.handshake: logger.warning("not answering client request since handshake is not complete") return def handleBinaryMessage(self, conn, data): pass def handleClose(self): pass