438 lines
17 KiB
Python
438 lines
17 KiB
Python
import subprocess
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from functools import reduce
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from operator import and_, or_
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import re
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from distutils.version import LooseVersion
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import inspect
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from owrx.config import Config
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import shlex
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import logging
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logger = logging.getLogger(__name__)
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class UnknownFeatureException(Exception):
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pass
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class FeatureDetector(object):
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features = {
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# core features; we won't start without these
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"core": ["csdr", "nmux", "nc"],
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# different types of sdrs and their requirements
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"rtl_sdr": ["rtl_connector"],
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"rtl_sdr_soapy": ["soapy_connector", "soapy_rtl_sdr"],
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"rtl_tcp": ["rtl_tcp_connector"],
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"sdrplay": ["soapy_connector", "soapy_sdrplay"],
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"hackrf": ["soapy_connector", "soapy_hackrf"],
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"perseussdr": ["perseustest"],
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"airspy": ["soapy_connector", "soapy_airspy"],
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"airspyhf": ["soapy_connector", "soapy_airspyhf"],
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"lime_sdr": ["soapy_connector", "soapy_lime_sdr"],
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"fifi_sdr": ["alsa", "rockprog"],
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"pluto_sdr": ["soapy_connector", "soapy_pluto_sdr"],
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"soapy_remote": ["soapy_connector", "soapy_remote"],
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"uhd": ["soapy_connector", "soapy_uhd"],
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"red_pitaya": ["soapy_connector", "soapy_red_pitaya"],
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"radioberry": ["soapy_connector", "soapy_radioberry"],
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"fcdpp": ["soapy_connector", "soapy_fcdpp"],
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# optional features and their requirements
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"digital_voice_digiham": ["digiham", "sox"],
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"digital_voice_dsd": ["dsd", "sox", "digiham"],
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"digital_voice_freedv": ["freedv_rx", "sox"],
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"wsjt-x": ["wsjtx", "sox"],
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"packet": ["direwolf", "sox"],
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"pocsag": ["digiham", "sox"],
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"js8call": ["js8", "sox"],
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}
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def feature_availability(self):
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return {name: self.is_available(name) for name in FeatureDetector.features}
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def feature_report(self):
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def requirement_details(name):
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available = self.has_requirement(name)
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return {
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"available": available,
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# as of now, features are always enabled as soon as they are available. this may change in the future.
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"enabled": available,
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"description": self.get_requirement_description(name),
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}
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def feature_details(name):
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return {
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"description": "",
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"available": self.is_available(name),
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"requirements": {name: requirement_details(name) for name in self.get_requirements(name)},
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}
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return {name: feature_details(name) for name in FeatureDetector.features}
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def is_available(self, feature):
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return self.has_requirements(self.get_requirements(feature))
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def get_requirements(self, feature):
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try:
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return FeatureDetector.features[feature]
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except KeyError:
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raise UnknownFeatureException('Feature "{0}" is not known.'.format(feature))
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def has_requirements(self, requirements):
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passed = True
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for requirement in requirements:
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passed = passed and self.has_requirement(requirement)
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return passed
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def _get_requirement_method(self, requirement):
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methodname = "has_" + requirement
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if hasattr(self, methodname) and callable(getattr(self, methodname)):
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return getattr(self, methodname)
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return None
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def has_requirement(self, requirement):
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method = self._get_requirement_method(requirement)
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if method is not None:
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return method()
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else:
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logger.error("detection of requirement {0} not implement. please fix in code!".format(requirement))
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return False
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def get_requirement_description(self, requirement):
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return inspect.getdoc(self._get_requirement_method(requirement))
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def command_is_runnable(self, command):
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tmp_dir = Config.get()["temporary_directory"]
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cmd = shlex.split(command)
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try:
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process = subprocess.Popen(cmd, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, cwd=tmp_dir)
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return process.wait() != 32512
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except FileNotFoundError:
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return False
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def has_csdr(self):
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"""
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OpenWebRX uses the demodulator and pipeline tools provided by the csdr project. Please check out [the project
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page on github](https://github.com/jketterl/csdr) for further details and installation instructions.
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"""
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required_version = LooseVersion("0.16.1")
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csdr_version_regex = re.compile("^csdr version (.*)$")
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try:
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process = subprocess.Popen(["csdr", "version"], stderr=subprocess.PIPE)
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matches = csdr_version_regex.match(process.stderr.readline().decode())
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if matches is None:
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return False
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version = LooseVersion(matches.group(1))
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process.wait(1)
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return version >= required_version
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except FileNotFoundError:
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return False
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def has_nmux(self):
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"""
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Nmux is another tool provided by the csdr project. It is used for internal multiplexing of the IQ data streams.
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If you're missing nmux even though you have csdr installed, please update your csdr version.
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"""
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return self.command_is_runnable("nmux --help")
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def has_nc(self):
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"""
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Nc is the client used to connect to the nmux multiplexer. It is provided by either the BSD netcat (recommended
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for better performance) or GNU netcat packages. Please check your distribution package manager for options.
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"""
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return self.command_is_runnable("nc --help")
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def has_perseustest(self):
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"""
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To use a Microtelecom Perseus HF receiver, compile and
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install the libperseus-sdr:
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```
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sudo apt install libusb-1.0-0-dev
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cd /tmp
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wget https://github.com/Microtelecom/libperseus-sdr/releases/download/v0.8.2/libperseus_sdr-0.8.2.tar.gz
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tar -zxvf libperseus_sdr-0.8.2.tar.gz
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cd libperseus_sdr-0.8.2/
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./configure
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make
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sudo make install
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sudo ldconfig
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perseustest
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```
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"""
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return self.command_is_runnable("perseustest -h")
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def has_digiham(self):
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"""
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To use digital voice modes, the digiham package is required. You can find the package and installation
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instructions [here](https://github.com/jketterl/digiham).
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Please note: there is close interaction between digiham and openwebrx, so older versions will probably not work.
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If you have an older verison of digiham installed, please update it along with openwebrx.
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As of now, we require version 0.3 of digiham.
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"""
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required_version = LooseVersion("0.3")
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digiham_version_regex = re.compile("^digiham version (.*)$")
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def check_digiham_version(command):
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try:
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process = subprocess.Popen([command, "--version"], stdout=subprocess.PIPE)
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matches = digiham_version_regex.match(process.stdout.readline().decode())
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if matches is None:
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return False
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version = LooseVersion(matches.group(1))
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process.wait(1)
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return version >= required_version
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except FileNotFoundError:
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return False
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return reduce(
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and_,
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map(
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check_digiham_version,
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[
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"rrc_filter",
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"ysf_decoder",
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"dmr_decoder",
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"mbe_synthesizer",
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"gfsk_demodulator",
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"digitalvoice_filter",
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"fsk_demodulator",
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"pocsag_decoder",
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],
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),
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True,
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)
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def _check_connector(self, command):
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required_version = LooseVersion("0.3")
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owrx_connector_version_regex = re.compile("^owrx-connector version (.*)$")
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try:
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process = subprocess.Popen([command, "--version"], stdout=subprocess.PIPE)
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matches = owrx_connector_version_regex.match(process.stdout.readline().decode())
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if matches is None:
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return False
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version = LooseVersion(matches.group(1))
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process.wait(1)
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return version >= required_version
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except FileNotFoundError:
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return False
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def has_rtl_connector(self):
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"""
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The owrx_connector package offers direct interfacing between your hardware and openwebrx. It allows quicker
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frequency switching, uses less CPU and can even provide more stability in some cases.
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You can get it [here](https://github.com/jketterl/owrx_connector).
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"""
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return self._check_connector("rtl_connector")
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def has_rtl_tcp_connector(self):
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"""
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The owrx_connector package offers direct interfacing between your hardware and openwebrx. It allows quicker
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frequency switching, uses less CPU and can even provide more stability in some cases.
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You can get it [here](https://github.com/jketterl/owrx_connector).
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"""
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return self._check_connector("rtl_tcp_connector")
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def has_soapy_connector(self):
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"""
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The owrx_connector package offers direct interfacing between your hardware and openwebrx. It allows quicker
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frequency switching, uses less CPU and can even provide more stability in some cases.
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You can get it [here](https://github.com/jketterl/owrx_connector).
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"""
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return self._check_connector("soapy_connector")
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def _has_soapy_driver(self, driver):
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try:
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process = subprocess.Popen(["SoapySDRUtil", "--info"], stdout=subprocess.PIPE, stderr=subprocess.DEVNULL)
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factory_regex = re.compile("^Available factories\\.\\.\\. ?(.*)$")
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drivers = []
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for line in process.stdout:
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matches = factory_regex.match(line.decode())
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if matches:
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drivers = [s.strip() for s in matches.group(1).split(", ")]
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return driver in drivers
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except FileNotFoundError:
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return False
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def has_soapy_rtl_sdr(self):
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"""
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The SoapySDR module for rtl-sdr devices can be used as an alternative to the rtl_connector. It provides
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additional support for the direct sampling mod.
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You can get it [here](https://github.com/pothosware/SoapyRTLSDR/wiki).
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"""
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return self._has_soapy_driver("rtlsdr")
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def has_soapy_sdrplay(self):
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"""
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The SoapySDR module for sdrplay devices is required for interfacing with SDRPlay devices (RSP1*, RSP2*, RSPDuo)
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You can get it [here](https://github.com/SDRplay/SoapySDRPlay).
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"""
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return self._has_soapy_driver("sdrplay")
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def has_soapy_airspy(self):
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"""
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The SoapySDR module for airspy devices is required for interfacing with Airspy devices (Airspy R2, Airspy Mini).
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You can get it [here](https://github.com/pothosware/SoapyAirspy/wiki).
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"""
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return self._has_soapy_driver("airspy")
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def has_soapy_airspyhf(self):
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"""
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The SoapySDR module for airspyhf devices is required for interfacing with Airspy HF devices (Airspy HF+,
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Airspy HF discovery).
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You can get it [here](https://github.com/pothosware/SoapyAirspyHF/wiki).
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"""
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return self._has_soapy_driver("airspyhf")
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def has_soapy_lime_sdr(self):
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"""
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The Lime Suite installs - amongst others - a Soapy driver for the LimeSDR device series.
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You can get it [here](https://github.com/myriadrf/LimeSuite).
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"""
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return self._has_soapy_driver("lime")
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def has_soapy_pluto_sdr(self):
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"""
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The SoapySDR module for PlutoSDR devices is required for interfacing with PlutoSDR devices.
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You can get it [here](https://github.com/photosware/SoapyPlutoSDR).
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"""
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return self._has_soapy_driver("plutosdr")
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def has_soapy_remote(self):
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"""
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The SoapyRemote allows the usage of remote SDR devices using the SoapySDRServer.
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You can get the code and find additional information [here](https://github.com/pothosware/SoapyRemote/wiki).
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"""
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return self._has_soapy_driver("remote")
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def has_soapy_uhd(self):
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"""
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The SoapyUHD module allows using UHD / USRP devices with SoapySDR.
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You can get it [here](https://github.com/pothosware/SoapyUHD/wiki).
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"""
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return self._has_soapy_driver("uhd")
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def has_soapy_red_pitaya(self):
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"""
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The SoapyRedPitaya allows Red Pitaya deviced to be used with SoapySDR.
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You can get it [here](https://github.com/pothosware/SoapyRedPitaya/wiki).
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"""
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return self._has_soapy_driver("redpitaya")
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def has_soapy_radioberry(self):
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"""
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The Radioberry is a SDR hat for the Raspberry Pi.
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You can find more information, along with its SoapySDR module [here](https://github.com/pa3gsb/Radioberry-2.x).
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"""
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return self._has_soapy_driver("radioberry")
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def has_soapy_hackrf(self):
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"""
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The SoapyHackRF allows HackRF to be used with SoapySDR.
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You can get it [here](https://github.com/pothosware/SoapyHackRF/wiki).
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"""
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return self._has_soapy_driver("hackrf")
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def has_soapy_fcdpp(self):
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"""
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The SoapyFCDPP module allows the use of the Funcube Dongle Pro+.
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You can get it [here](https://github.com/pothosware/SoapyFCDPP).
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"""
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return self._has_soapy_driver("fcdpp")
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def has_dsd(self):
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"""
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The digital voice modes NXDN and D-Star can be decoded by the dsd project. Please note that you need the version
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modified by F4EXB that provides stdin/stdout support. You can find it [here](https://github.com/f4exb/dsd).
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"""
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return self.command_is_runnable("dsd")
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def has_sox(self):
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"""
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The sox audio library is used to convert between the typical 8 kHz audio sampling rate used by digital modes and
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the audio sampling rate requested by the client.
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It is available for most distributions through the respective package manager.
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"""
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return self.command_is_runnable("sox")
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def has_direwolf(self):
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"""
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OpenWebRX uses the [direwolf](https://github.com/wb2osz/direwolf) software modem to decode Packet Radio and
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report data back to APRS-IS. Direwolf is available from the package manager on many distributions, or you can
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compile it from source.
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"""
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return self.command_is_runnable("direwolf --help")
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def has_airspy_rx(self):
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"""
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In order to use an Airspy Receiver, you need to install the airspy_rx receiver software.
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"""
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return self.command_is_runnable("airspy_rx --help")
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def has_wsjtx(self):
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"""
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To decode FT8 and other digimodes, you need to install the WSJT-X software suite. Please check the
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[WSJT-X homepage](https://physics.princeton.edu/pulsar/k1jt/wsjtx.html) for ready-made packages or instructions
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on how to build from source.
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"""
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return reduce(and_, map(self.command_is_runnable, ["jt9", "wsprd"]), True)
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def has_js8(self):
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"""
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To decode JS8, you will need to install [JS8Call](http://js8call.com/)
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Please note that the `js8` command line decoder is not made available on $PATH by some JS8Call package builds.
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You will need to manually make it available by either linking it to `/usr/bin` or by adding its location to
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$PATH.
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"""
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return self.command_is_runnable("js8")
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def has_alsa(self):
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"""
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Some SDR receivers are identifying themselves as a soundcard. In order to read their data, OpenWebRX relies
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on the Alsa library. It is available as a package for most Linux distributions.
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"""
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return self.command_is_runnable("arecord --help")
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def has_rockprog(self):
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"""
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The "rockprog" executable is required to send commands to your FiFiSDR. It needs to be installed separately.
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You can find instructions and downloads [here](https://o28.sischa.net/fifisdr/trac/wiki/De%3Arockprog).
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"""
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return self.command_is_runnable("rockprog")
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def has_freedv_rx(self):
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"""
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The "freedv\_rx" executable is required to demodulate FreeDV digital transmissions. It comes together with the
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codec2 library, but it's only a supplemental part and not installed by default or contained in its packages.
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To install it, you will need to compile codec2 from source and manually install freedv\_rx.
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You can find the codec2 source code [here](https://github.com/drowe67/codec2).
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"""
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return self.command_is_runnable("freedv_rx")
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