openwebrx-clone/owrx/meta.py

import json
import logging
import threading
import pickle
import re
from abc import ABC, ABCMeta, abstractmethod
from datetime import datetime, timedelta
from urllib import request
from urllib.error import HTTPError

from csdr.module import PickleModule
from owrx.aprs import AprsParser, AprsLocation
from owrx.config import Config
from owrx.map import Map, LatLngLocation
from owrx.bands import Bandplan

logger = logging.getLogger(__name__)


class Enricher(ABC):
    def __init__(self, parser):
        self.parser = parser

    @abstractmethod
    def enrich(self, meta, callback):
        pass


class RadioIDCache(object):
    sharedInstance = None

    @staticmethod
    def getSharedInstance():
        if RadioIDCache.sharedInstance is None:
            RadioIDCache.sharedInstance = RadioIDCache()
        return RadioIDCache.sharedInstance

    def __init__(self):
        self.cache = {}
        self.cacheTimeout = timedelta(seconds=86400)

    def isValid(self, mode, radio_id):
        key = self.__key(mode, radio_id)
        if key not in self.cache:
            return False
        entry = self.cache[key]
        return entry["timestamp"] + self.cacheTimeout > datetime.now()

    def __key(self, mode, radio_id):
        return "{}-{}".format(mode, radio_id)

    def put(self, mode, radio_id, value):
        self.cache[self.__key(mode, radio_id)] = {"timestamp": datetime.now(), "data": value}

    def get(self, mode, radio_id):
        if not self.isValid(mode, radio_id):
            return None
        return self.cache[self.__key(mode, radio_id)]["data"]


class RadioIDEnricher(Enricher):
    def __init__(self, mode, parser):
        super().__init__(parser)
        self.mode = mode
        self.threads = {}
        self.callbacks = {}

    def _fillCache(self, id):
        data = self._downloadRadioIdData(id)
        RadioIDCache.getSharedInstance().put(self.mode, id, data)
        if id in self.callbacks:
            while self.callbacks[id]:
                self.callbacks[id].pop()(data)
            del self.callbacks[id]
        del self.threads[id]

    def _downloadRadioIdData(self, id):
        try:
            logger.debug("requesting radioid metadata for mode=%s and id=%s", self.mode, id)
            res = request.urlopen("https://www.radioid.net/api/{0}/user/?id={1}".format(self.mode, id), timeout=30)
            if res.status != 200:
                logger.warning("radioid API returned error %i for mode=%s and id=%s", res.status, self.mode, id)
                return None
            data = json.loads(res.read().decode("utf-8"))
            if "count" in data and data["count"] > 0 and "results" in data:
                for item in data["results"]:
                    if "id" in item and item["id"] == id:
                        return item
        except json.JSONDecodeError:
            logger.warning("unable to parse radioid response JSON")
        except HTTPError as e:
            logger.warning("radioid responded with error: %s", str(e))

        return None

    def enrich(self, meta, callback):
        config_key = "digital_voice_{}_id_lookup".format(self.mode)
        if not Config.get()[config_key]:
            return meta
        if "source" not in meta:
            return meta
        id = int(meta["source"])
        cache = RadioIDCache.getSharedInstance()
        if not cache.isValid(self.mode, id):
            if id not in self.threads:
                self.threads[id] = threading.Thread(target=self._fillCache, args=[id], daemon=True)
                self.threads[id].start()
            if id not in self.callbacks:
                self.callbacks[id] = []

            def onFinish(data):
                if data is not None:
                    meta["additional"] = data
                callback(meta)

            self.callbacks[id].append(onFinish)
            return meta
        data = cache.get(self.mode, id)
        if data is not None:
            meta["additional"] = data
        return meta


class DigihamEnricher(Enricher, metaclass=ABCMeta):
    def parseCoordinate(self, meta, mode):
        for key in ["lat", "lon"]:
            if key in meta:
                meta[key] = float(meta[key])
        callsign = self.getCallsign(meta)
        if callsign is not None and "lat" in meta and "lon" in meta:
            loc = LatLngLocation(meta["lat"], meta["lon"])
            Map.getSharedInstance().updateLocation({"callsign": callsign}, loc, mode, self.parser.getBand())
        return meta

    @abstractmethod
    def getCallsign(self, meta):
        pass


class DmrEnricher(DigihamEnricher, RadioIDEnricher):
    # callsign must be uppercase alphanumeric and at the beginning
    # if there's anything after the callsign, it must be separated by a whitespace
    talkerAliasRegex = re.compile("^([A-Z0-9]+)(\\s.*)?$")

    def __init__(self, parser):
        super().__init__("dmr", parser)

    def getCallsign(self, meta):
        # there's no explicit callsign data in dmr, so we can only rely on one of the following:
        # a) a callsign provided by a radioid lookup
        if "additional" in meta and "callsign" in meta["additional"]:
            return meta["additional"]["callsign"]
        # b) a callsign in the talker alias
        if "talkeralias" in meta:
            matches = DmrEnricher.talkerAliasRegex.match(meta["talkeralias"])
            if matches:
                return matches.group(1)

    def enrich(self, meta, callback):
        def asyncParse(meta):
            self.parseCoordinate(meta, "DMR")
            callback(meta)
        meta = super().enrich(meta, asyncParse)
        meta = self.parseCoordinate(meta, "DMR")
        return meta


class YsfMetaEnricher(DigihamEnricher):
    def getCallsign(self, meta):
        if "source" in meta:
            return meta["source"]

    def enrich(self, meta, callback):
        meta = self.parseCoordinate(meta, "YSF")
        return meta


class DStarEnricher(DigihamEnricher):
    def getCallsign(self, meta):
        if "ourcall" in meta:
            return meta["ourcall"]

    def enrich(self, meta, callback):
        meta = self.parseCoordinate(meta, "D-Star")
        meta = self.parseDprs(meta)
        return meta

    def parseDprs(self, meta):
        if "dprs" in meta:
            try:
                # we can send the DPRS stuff through our APRS parser to extract the information
                # TODO: only third-party parsing accepts this format right now
                parser = AprsParser()
                dprsData = parser.parseThirdpartyAprsData(meta["dprs"])
                if "data" in dprsData:
                    data = dprsData["data"]
                    if "lat" in data and "lon" in data:
                        # TODO: we could actually get the symbols from the parsed APRS data and show that on the meta panel
                        meta["lat"] = data["lat"]
                        meta["lon"] = data["lon"]

                        if "ourcall" in meta:
                            # send location info to map as well (it will show up with the correct symbol there!)
                            loc = AprsLocation(data)
                            Map.getSharedInstance().updateLocation({"callsign": meta["ourcall"]}, loc, "DPRS", self.parser.getBand())
            except Exception:
                logger.exception("Error while parsing DPRS data")

        return meta


class MetaParser(PickleModule):
    def __init__(self):
        self.enrichers = {
            "DMR": DmrEnricher(self),
            "YSF": YsfMetaEnricher(self),
            "DSTAR": DStarEnricher(self),
            "NXDN": RadioIDEnricher("nxdn", self),
        }
        self.currentMetaData = None
        self.band = None
        super().__init__()

    def process(self, meta):
        self.currentMetaData = None
        if "protocol" in meta:
            protocol = meta["protocol"]
            if protocol in self.enrichers:
                self.currentMetaData = meta = self.enrichers[protocol].enrich(meta, self.receive)
        return meta

    def receive(self, meta):
        # we may have moved on in the meantime
        if meta is not self.currentMetaData:
            return
        self.writer.write(pickle.dumps(meta))

    def setDialFrequency(self, freq):
        self.band = Bandplan.getSharedInstance().findBand(freq)

    def getBand(self):
        return self.band
show callsigns for ham radio dmr ids 2019-05-30 15:19:46 +00:00			`import json`
			`import logging`
download dmr ids asynchronously 2019-05-30 16:32:08 +00:00			`import threading`
refactor the metaparser into a modules and use accordingly 2021-09-09 13:11:33 +00:00			`import pickle`
add support for DMR locations 2021-09-17 16:24:33 +00:00			`import re`
			`from abc import ABC, ABCMeta, abstractmethod`
refactor the metaparser into a modules and use accordingly 2021-09-09 13:11:33 +00:00			`from datetime import datetime, timedelta`
			`from urllib import request`
catch http errors 2021-09-12 21:31:33 +00:00			`from urllib.error import HTTPError`
refactor the metaparser into a modules and use accordingly 2021-09-09 13:11:33 +00:00
receive metadata in pickled form 2021-09-09 20:25:45 +00:00			`from csdr.module import PickleModule`
refactor the metaparser into a modules and use accordingly 2021-09-09 13:11:33 +00:00			`from owrx.aprs import AprsParser, AprsLocation`
			`from owrx.config import Config`
			`from owrx.map import Map, LatLngLocation`
			`from owrx.bands import Bandplan`
show callsigns for ham radio dmr ids 2019-05-30 15:19:46 +00:00
			`logger = logging.getLogger(__name__)`

Reformatted with black -l 120 -t py35 . 2019-07-21 17:40:28 +00:00
add parsing of DPMR data 2021-06-08 16:38:53 +00:00			`class Enricher(ABC):`
			`def __init__(self, parser):`
			`self.parser = parser`

			`@abstractmethod`
update metadata asynchronously when download finishes 2021-08-06 19:23:44 +00:00			`def enrich(self, meta, callback):`
add parsing of DPMR data 2021-06-08 16:38:53 +00:00			`pass`


switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`class RadioIDCache(object):`
make the cache global 2019-05-30 16:54:45 +00:00			`sharedInstance = None`
Reformatted with black -l 120 -t py35 . 2019-07-21 17:40:28 +00:00
make the cache global 2019-05-30 16:54:45 +00:00			`@staticmethod`
			`def getSharedInstance():`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`if RadioIDCache.sharedInstance is None:`
			`RadioIDCache.sharedInstance = RadioIDCache()`
			`return RadioIDCache.sharedInstance`
display locations parsed from ysf on map 2019-07-01 19:20:53 +00:00
show callsigns for ham radio dmr ids 2019-05-30 15:19:46 +00:00			`def __init__(self):`
			`self.cache = {}`
Reformatted with black -l 120 -t py35 . 2019-07-21 17:40:28 +00:00			`self.cacheTimeout = timedelta(seconds=86400)`
display locations parsed from ysf on map 2019-07-01 19:20:53 +00:00
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`def isValid(self, mode, radio_id):`
			`key = self.__key(mode, radio_id)`
move ysf metadata parsing to server; improve map pin behavior 2021-01-17 18:21:13 +00:00			`if key not in self.cache:`
Reformatted with black -l 120 -t py35 . 2019-07-21 17:40:28 +00:00			`return False`
make the cache global 2019-05-30 16:54:45 +00:00			`entry = self.cache[key]`
show callsigns for ham radio dmr ids 2019-05-30 15:19:46 +00:00			`return entry["timestamp"] + self.cacheTimeout > datetime.now()`
display locations parsed from ysf on map 2019-07-01 19:20:53 +00:00
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`def __key(self, mode, radio_id):`
			`return "{}-{}".format(mode, radio_id)`
display locations parsed from ysf on map 2019-07-01 19:20:53 +00:00
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`def put(self, mode, radio_id, value):`
			`self.cache[self.__key(mode, radio_id)] = {"timestamp": datetime.now(), "data": value}`

			`def get(self, mode, radio_id):`
			`if not self.isValid(mode, radio_id):`
Reformatted with black -l 120 -t py35 . 2019-07-21 17:40:28 +00:00			`return None`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`return self.cache[self.__key(mode, radio_id)]["data"]`
make the cache global 2019-05-30 16:54:45 +00:00

switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`class RadioIDEnricher(Enricher):`
			`def __init__(self, mode, parser):`
add parsing of DPMR data 2021-06-08 16:38:53 +00:00			`super().__init__(parser)`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`self.mode = mode`
make the cache global 2019-05-30 16:54:45 +00:00			`self.threads = {}`
update metadata asynchronously when download finishes 2021-08-06 19:23:44 +00:00			`self.callbacks = {}`
display locations parsed from ysf on map 2019-07-01 19:20:53 +00:00
check if id contained in radioid data matches request 2021-06-28 11:04:47 +00:00			`def _fillCache(self, id):`
update metadata asynchronously when download finishes 2021-08-06 19:23:44 +00:00			`data = self._downloadRadioIdData(id)`
			`RadioIDCache.getSharedInstance().put(self.mode, id, data)`
			`if id in self.callbacks:`
			`while self.callbacks[id]:`
			`self.callbacks[id].pop()(data)`
			`del self.callbacks[id]`
check if id contained in radioid data matches request 2021-06-28 11:04:47 +00:00			`del self.threads[id]`

			`def _downloadRadioIdData(self, id):`
download dmr ids asynchronously 2019-05-30 16:32:08 +00:00			`try:`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`logger.debug("requesting radioid metadata for mode=%s and id=%s", self.mode, id)`
check if id contained in radioid data matches request 2021-06-28 11:04:47 +00:00			`res = request.urlopen("https://www.radioid.net/api/{0}/user/?id={1}".format(self.mode, id), timeout=30)`
			`if res.status != 200:`
			`logger.warning("radioid API returned error %i for mode=%s and id=%s", res.status, self.mode, id)`
			`return None`
			`data = json.loads(res.read().decode("utf-8"))`
			`if "count" in data and data["count"] > 0 and "results" in data:`
			`for item in data["results"]:`
			`if "id" in item and item["id"] == id:`
			`return item`
download dmr ids asynchronously 2019-05-30 16:32:08 +00:00			`except json.JSONDecodeError:`
check if id contained in radioid data matches request 2021-06-28 11:04:47 +00:00			`logger.warning("unable to parse radioid response JSON")`
catch http errors 2021-09-12 21:31:33 +00:00			`except HTTPError as e:`
			`logger.warning("radioid responded with error: %s", str(e))`
check if id contained in radioid data matches request 2021-06-28 11:04:47 +00:00
			`return None`
display locations parsed from ysf on map 2019-07-01 19:20:53 +00:00
update metadata asynchronously when download finishes 2021-08-06 19:23:44 +00:00			`def enrich(self, meta, callback):`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`config_key = "digital_voice_{}_id_lookup".format(self.mode)`
			`if not Config.get()[config_key]:`
move ysf metadata parsing to server; improve map pin behavior 2021-01-17 18:21:13 +00:00			`return meta`
			`if "source" not in meta:`
			`return meta`
check if id contained in radioid data matches request 2021-06-28 11:04:47 +00:00			`id = int(meta["source"])`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`cache = RadioIDCache.getSharedInstance()`
			`if not cache.isValid(self.mode, id):`
move ysf metadata parsing to server; improve map pin behavior 2021-01-17 18:21:13 +00:00			`if id not in self.threads:`
check if id contained in radioid data matches request 2021-06-28 11:04:47 +00:00			`self.threads[id] = threading.Thread(target=self._fillCache, args=[id], daemon=True)`
download dmr ids asynchronously 2019-05-30 16:32:08 +00:00			`self.threads[id].start()`
update metadata asynchronously when download finishes 2021-08-06 19:23:44 +00:00			`if id not in self.callbacks:`
			`self.callbacks[id] = []`

			`def onFinish(data):`
			`if data is not None:`
			`meta["additional"] = data`
			`callback(meta)`

			`self.callbacks[id].append(onFinish)`
move ysf metadata parsing to server; improve map pin behavior 2021-01-17 18:21:13 +00:00			`return meta`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`data = cache.get(self.mode, id)`
check if id contained in radioid data matches request 2021-06-28 11:04:47 +00:00			`if data is not None:`
			`meta["additional"] = data`
move ysf metadata parsing to server; improve map pin behavior 2021-01-17 18:21:13 +00:00			`return meta`
show callsigns for ham radio dmr ids 2019-05-30 15:19:46 +00:00

add support for DMR locations 2021-09-17 16:24:33 +00:00			`class DigihamEnricher(Enricher, metaclass=ABCMeta):`
			`def parseCoordinate(self, meta, mode):`
move ysf metadata parsing to server; improve map pin behavior 2021-01-17 18:21:13 +00:00			`for key in ["lat", "lon"]:`
			`if key in meta:`
			`meta[key] = float(meta[key])`
add support for DMR locations 2021-09-17 16:24:33 +00:00			`callsign = self.getCallsign(meta)`
			`if callsign is not None and "lat" in meta and "lon" in meta:`
move ysf metadata parsing to server; improve map pin behavior 2021-01-17 18:21:13 +00:00			`loc = LatLngLocation(meta["lat"], meta["lon"])`
structured callsign data 2022-11-30 00:07:16 +00:00			`Map.getSharedInstance().updateLocation({"callsign": callsign}, loc, mode, self.parser.getBand())`
move ysf metadata parsing to server; improve map pin behavior 2021-01-17 18:21:13 +00:00			`return meta`
display locations parsed from ysf on map 2019-07-01 19:20:53 +00:00
add support for DMR locations 2021-09-17 16:24:33 +00:00			`@abstractmethod`
			`def getCallsign(self, meta):`
			`pass`


			`class DmrEnricher(DigihamEnricher, RadioIDEnricher):`
			`# callsign must be uppercase alphanumeric and at the beginning`
			`# if there's anything after the callsign, it must be separated by a whitespace`
			`talkerAliasRegex = re.compile("^([A-Z0-9]+)(\\s.*)?$")`

			`def __init__(self, parser):`
			`super().__init__("dmr", parser)`

			`def getCallsign(self, meta):`
			`# there's no explicit callsign data in dmr, so we can only rely on one of the following:`
			`# a) a callsign provided by a radioid lookup`
			`if "additional" in meta and "callsign" in meta["additional"]:`
			`return meta["additional"]["callsign"]`
			`# b) a callsign in the talker alias`
			`if "talkeralias" in meta:`
			`matches = DmrEnricher.talkerAliasRegex.match(meta["talkeralias"])`
			`if matches:`
			`return matches.group(1)`
display locations parsed from ysf on map 2019-07-01 19:20:53 +00:00
update metadata asynchronously when download finishes 2021-08-06 19:23:44 +00:00			`def enrich(self, meta, callback):`
add support for DMR locations 2021-09-17 16:24:33 +00:00			`def asyncParse(meta):`
			`self.parseCoordinate(meta, "DMR")`
			`callback(meta)`
			`meta = super().enrich(meta, asyncParse)`
			`meta = self.parseCoordinate(meta, "DMR")`
			`return meta`


			`class YsfMetaEnricher(DigihamEnricher):`
			`def getCallsign(self, meta):`
			`if "source" in meta:`
			`return meta["source"]`

			`def enrich(self, meta, callback):`
			`meta = self.parseCoordinate(meta, "YSF")`
			`return meta`


			`class DStarEnricher(DigihamEnricher):`
			`def getCallsign(self, meta):`
			`if "ourcall" in meta:`
			`return meta["ourcall"]`

			`def enrich(self, meta, callback):`
			`meta = self.parseCoordinate(meta, "D-Star")`
			`meta = self.parseDprs(meta)`
			`return meta`

			`def parseDprs(self, meta):`
fix DPRS parsing and display 2021-06-11 12:36:11 +00:00			`if "dprs" in meta:`
handle errors while parsing dprs data 2021-07-09 11:52:33 +00:00			`try:`
			`# we can send the DPRS stuff through our APRS parser to extract the information`
			`# TODO: only third-party parsing accepts this format right now`
restore aprs functionality 2021-09-06 13:05:33 +00:00			`parser = AprsParser()`
handle errors while parsing dprs data 2021-07-09 11:52:33 +00:00			`dprsData = parser.parseThirdpartyAprsData(meta["dprs"])`
			`if "data" in dprsData:`
			`data = dprsData["data"]`
			`if "lat" in data and "lon" in data:`
			`# TODO: we could actually get the symbols from the parsed APRS data and show that on the meta panel`
			`meta["lat"] = data["lat"]`
			`meta["lon"] = data["lon"]`

			`if "ourcall" in meta:`
			`# send location info to map as well (it will show up with the correct symbol there!)`
			`loc = AprsLocation(data)`
structured callsign data 2022-11-30 00:07:16 +00:00			`Map.getSharedInstance().updateLocation({"callsign": meta["ourcall"]}, loc, "DPRS", self.parser.getBand())`
handle errors while parsing dprs data 2021-07-09 11:52:33 +00:00			`except Exception:`
			`logger.exception("Error while parsing DPRS data")`
add parsing of DPMR data 2021-06-08 16:38:53 +00:00
			`return meta`


receive metadata in pickled form 2021-09-09 20:25:45 +00:00			`class MetaParser(PickleModule):`
refactor the metaparser into a modules and use accordingly 2021-09-09 13:11:33 +00:00			`def __init__(self):`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`self.enrichers = {`
add support for DMR locations 2021-09-17 16:24:33 +00:00			`"DMR": DmrEnricher(self),`
switch NXDN to use digiham decoder; add meta panel 2021-06-15 20:50:30 +00:00			`"YSF": YsfMetaEnricher(self),`
			`"DSTAR": DStarEnricher(self),`
			`"NXDN": RadioIDEnricher("nxdn", self),`
			`}`
update metadata asynchronously when download finishes 2021-08-06 19:23:44 +00:00			`self.currentMetaData = None`
refactor the metaparser into a modules and use accordingly 2021-09-09 13:11:33 +00:00			`self.band = None`
			`super().__init__()`

receive metadata in pickled form 2021-09-09 20:25:45 +00:00			`def process(self, meta):`
			`self.currentMetaData = None`
			`if "protocol" in meta:`
			`protocol = meta["protocol"]`
			`if protocol in self.enrichers:`
			`self.currentMetaData = meta = self.enrichers[protocol].enrich(meta, self.receive)`
			`return meta`
update metadata asynchronously when download finishes 2021-08-06 19:23:44 +00:00
			`def receive(self, meta):`
			`# we may have moved on in the meantime`
			`if meta is not self.currentMetaData:`
			`return`
refactor the metaparser into a modules and use accordingly 2021-09-09 13:11:33 +00:00			`self.writer.write(pickle.dumps(meta))`

			`def setDialFrequency(self, freq):`
			`self.band = Bandplan.getSharedInstance().findBand(freq)`

			`def getBand(self):`
			`return self.band`