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base: jono:main
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jono:main
jono:wip
jono:feature/9128_change_radio_endpoints
jono:feature/9129_error_message_display
jono:9132-kafka-logging
jono:9130_dummy_audio
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compare: jono:9130_dummy_audio
Branches Tags
jono:wip
jono:feature/9128_change_radio_endpoints
jono:main
jono:feature/9129_error_message_display
jono:9132-kafka-logging
jono:9130_dummy_audio

No commits in common. "main" and "9130_dummy_audio" have entirely different histories.
main ... 9130_dummy

11 changed files with 398 additions and 499 deletions
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29
fileradio.py
View File

@ -6,7 +6,7 @@ import os
class FileRadio(Streamer): class FileRadio(Streamer):
REST_PATH = "sample" REST_PATH = 'sample'
def __init__(self, path): def __init__(self, path):
super().__init__() super().__init__()
@ -17,26 +17,22 @@ class FileRadio(Streamer):
def _stream_thread(self): def _stream_thread(self):
self.playback = subprocess.Popen( self.playback = subprocess.Popen(
[ [
"/usr/bin/ffmpeg", '/usr/bin/ffmpeg',
"-re", # http://trac.ffmpeg.org/wiki/StreamingGuide#The-reflag '-re', # http://trac.ffmpeg.org/wiki/StreamingGuide#The-reflag
"-stream_loop", # Loop the stream - '-stream_loop', '-1', # Loop the stream indefinitely
"-1", # ...indefinitely '-i', self.path,
"-i", '-c', 'copy',
self.path, '-f', 'rtsp',
"-c", self.stream_address('localhost')
"copy",
"-f",
"rtsp",
self.stream_address("localhost"),
], ],
stdin=subprocess.PIPE, stdin=subprocess.PIPE,
stdout=subprocess.DEVNULL, stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL, stderr=subprocess.DEVNULL
) )
while self.run: while self.run:
if not is_alive(self.playback): if not is_alive(self.playback):
print("Playback failed, aborting stream.", file=sys.stderr) print('Playback failed, aborting stream.', file=sys.stderr)
break break
time.sleep(0.1) time.sleep(0.1)
@ -47,8 +43,9 @@ class FileRadio(Streamer):
self.playback = None self.playback = None
if __name__ == "__main__":
fr = FileRadio("./data/sampleaudio/taunt.mp3") if __name__ == '__main__':
fr = FileRadio('./data/sampleaudio/taunt.mp3')
fr.start_stream() fr.start_stream()
while True: while True:

25
filters.py
View File

@ -10,9 +10,8 @@
import numpy, math, sys, time import numpy, math, sys, time
from numpy import fft from numpy import fft
def impulse(mask): def impulse(mask):
"""Convert frequency domain mask to time-domain""" ''' Convert frequency domain mask to time-domain '''
# Negative side, a mirror of positive side # Negative side, a mirror of positive side
negatives = mask[1:-1] negatives = mask[1:-1]
negatives.reverse() negatives.reverse()
@ -31,7 +30,7 @@ def impulse(mask):
def lo_mask(sample_rate, tap_count, freq, dboct): def lo_mask(sample_rate, tap_count, freq, dboct):
"""Create a freq domain mask for a lowpass filter""" ''' Create a freq domain mask for a lowpass filter '''
order = dboct / 6 order = dboct / 6
max_freq = sample_rate / 2.0 max_freq = sample_rate / 2.0
f2s = max_freq / (tap_count / 2.0) f2s = max_freq / (tap_count / 2.0)
@ -46,7 +45,7 @@ def lo_mask(sample_rate, tap_count, freq, dboct):
def hi_mask(sample_rate, tap_count, freq, dboct): def hi_mask(sample_rate, tap_count, freq, dboct):
"""Create a freq domain mask for a highpass filter""" ''' Create a freq domain mask for a highpass filter '''
order = dboct / 6 order = dboct / 6
max_freq = sample_rate / 2.0 max_freq = sample_rate / 2.0
f2s = max_freq / (tap_count / 2.0) f2s = max_freq / (tap_count / 2.0)
@ -61,7 +60,7 @@ def hi_mask(sample_rate, tap_count, freq, dboct):
def combine_masks(mask1, mask2): def combine_masks(mask1, mask2):
"""Combine two filter masks""" ''' Combine two filter masks '''
assert len(mask1) == len(mask2) assert len(mask1) == len(mask2)
return [ mask1[i] * mask2[i] for i in range(0, len(mask1)) ] return [ mask1[i] * mask2[i] for i in range(0, len(mask1)) ]
@ -89,7 +88,7 @@ class filter:
def feed(self, original): def feed(self, original):
unfiltered = numpy.concatenate((self.buf, original)) unfiltered = numpy.concatenate((self.buf, original))
self.buf = unfiltered[-len(self.coefs):] self.buf = unfiltered[-len(self.coefs):]
filtered = numpy.convolve(unfiltered, self.coefs, mode="valid") filtered = numpy.convolve(unfiltered, self.coefs, mode='valid')
assert len(filtered) == len(original) + 1 assert len(filtered) == len(original) + 1
return filtered[1:] return filtered[1:]
@ -112,9 +111,8 @@ class high_pass(filter):
class band_pass(filter): class band_pass(filter):
def __init__(self, sample_rate, lo, hi, dbo): def __init__(self, sample_rate, lo, hi, dbo):
tap_count = max( tap_count = max(taps(sample_rate, lo, dbo, True),
taps(sample_rate, lo, dbo, True), taps(sample_rate, hi, dbo, False) taps(sample_rate, hi, dbo, False))
)
lomask = lo_mask(sample_rate, tap_count, hi, dbo) lomask = lo_mask(sample_rate, tap_count, hi, dbo)
himask = hi_mask(sample_rate, tap_count, lo, dbo) himask = hi_mask(sample_rate, tap_count, lo, dbo)
mask = combine_masks(lomask, himask) mask = combine_masks(lomask, himask)
@ -133,9 +131,8 @@ class deemphasis(filter):
# slope in dB/octave of deemphasis filter # slope in dB/octave of deemphasis filter
dedbo = 10 / octaves dedbo = 10 / octaves
tap_count = max( tap_count = max(taps(sample_rate, lo, dedbo, False),
taps(sample_rate, lo, dedbo, False), taps(sample_rate, hi, final_dbo, False) taps(sample_rate, hi, final_dbo, False))
)
# Calculate deemphasis filter # Calculate deemphasis filter
demask = lo_mask(sample_rate, tap_count, lo, dedbo) demask = lo_mask(sample_rate, tap_count, lo, dedbo)
@ -158,10 +155,10 @@ class decimator(filter):
# Gets the last n-th sample of every n (n = factor) # Gets the last n-th sample of every n (n = factor)
# If e.g. gets 12 samples, gets s[4] and s[9], and # If e.g. gets 12 samples, gets s[4] and s[9], and
# stoves s[10:] to the next round # stoves s[10:] to the next round
""" '''
decimated = [ original[ self.factor * i + self.factor - 1 ] \ decimated = [ original[ self.factor * i + self.factor - 1 ] \
for i in range(0, len(original) // self.factor) ] for i in range(0, len(original) // self.factor) ]
""" '''
decimated = original[(self.factor - 1)::self.factor] decimated = original[(self.factor - 1)::self.factor]
self.buf2 = original[:-len(original) % self.factor] self.buf2 = original[:-len(original) % self.factor]

42
fm_demod.py
View File

@ -19,22 +19,10 @@ from formats import FORMATS
parser = argparse.ArgumentParser() parser = argparse.ArgumentParser()
parser.add_argument( parser.add_argument('-v', '--verbose', help='Print additional informational output', action='store_true')
"-v", "--verbose", help="Print additional informational output", action="store_true" parser.add_argument('-f', '--format', choices=list(FORMATS.keys()), help='Input sample format', required=True)
) parser.add_argument('-s', '--sample-rate', metavar='rate', help='Source sample rate (Hz)', required=True)
parser.add_argument( parser.add_argument('-d', '--demod-rate', metavar='rate', help='Output sample rate (Hz)', required=True)
"-f",
"--format",
choices=list(FORMATS.keys()),
help="Input sample format",
required=True,
)
parser.add_argument(
"-s", "--sample-rate", metavar="rate", help="Source sample rate (Hz)", required=True
)
parser.add_argument(
"-d", "--demod-rate", metavar="rate", help="Output sample rate (Hz)", required=True
)
# TODO JMT: Output to file # TODO JMT: Output to file
#parser.add_argument('-o', metavar='file', help='Specify an output file for demodulated audio. Omit for stdout or use \'-\'.') #parser.add_argument('-o', metavar='file', help='Specify an output file for demodulated audio. Omit for stdout or use \'-\'.')
args = parser.parse_args() args = parser.parse_args()
@ -44,10 +32,7 @@ OUTPUT_RATE = int(prefixed.Float(args.demod_rate))
DECIMATION = INPUT_RATE / OUTPUT_RATE DECIMATION = INPUT_RATE / OUTPUT_RATE
if DECIMATION != math.floor(DECIMATION): if DECIMATION != math.floor(DECIMATION):
print( print(f'The output rate must be an integer divisor of the input rate: {INPUT_RATE}/{OUTPUT_RATE} = {DECIMATION}', file=sys.stderr)
f"The output rate must be an integer divisor of the input rate: {INPUT_RATE}/{OUTPUT_RATE} = {DECIMATION}",
file=sys.stderr,
)
sys.exit(1) sys.exit(1)
FORMAT = FORMATS[args.format].numpy FORMAT = FORMATS[args.format].numpy
@ -78,17 +63,15 @@ decimate2 = filters.decimator(DECIMATION)
lo_r = filters.deemphasis(INPUT_RATE, 75, FM_BANDWIDTH, 120) lo_r = filters.deemphasis(INPUT_RATE, 75, FM_BANDWIDTH, 120)
# Band-pass filter for stereo (L-R) modulated audio # Band-pass filter for stereo (L-R) modulated audio
hi = filters.band_pass( hi = filters.band_pass(INPUT_RATE,
INPUT_RATE, STEREO_CARRIER - FM_BANDWIDTH, STEREO_CARRIER + FM_BANDWIDTH, 120 STEREO_CARRIER - FM_BANDWIDTH, STEREO_CARRIER + FM_BANDWIDTH, 120)
)
# Filter to extract pilot signal # Filter to extract pilot signal
pilot = filters.band_pass( pilot = filters.band_pass(INPUT_RATE,
INPUT_RATE, STEREO_CARRIER / 2 - 100, STEREO_CARRIER / 2 + 100, 120 STEREO_CARRIER / 2 - 100, STEREO_CARRIER / 2 + 100, 120)
)
last_angle = 0.0 last_angle = 0.0
remaining_data = b"" remaining_data = b''
while True: while True:
# Ingest 0.1s worth of data # Ingest 0.1s worth of data
@ -190,7 +173,8 @@ while True:
last_deviation_avg = 0.0 last_deviation_avg = 0.0
# Translate rotation to frequency deviation # Translate rotation to frequency deviation
STEREO_CARRIER /= 1 + (rotation * 1.05) / tau STEREO_CARRIER /= (1 + (rotation * 1.05) / tau)
# Downsample, Low-pass/deemphasis demodulated L-R # Downsample, Low-pass/deemphasis demodulated L-R
output_jstereo = lo_r.feed(output_jstereo) output_jstereo = lo_r.feed(output_jstereo)
@ -212,4 +196,4 @@ while True:
output[1::2] = output_right output[1::2] = output_right
output = output.astype(int) output = output.astype(int)
sys.stdout.buffer.write(struct.pack("<%dh" % len(output), *output)) sys.stdout.buffer.write(struct.pack('<%dh' % len(output), *output))

10
formats.py
View File

@ -2,7 +2,6 @@ import numpy as np
from SoapySDR import * from SoapySDR import *
from dataclasses import dataclass from dataclasses import dataclass
@dataclass @dataclass
class FormatSpec: class FormatSpec:
name: str name: str
@ -10,10 +9,9 @@ class FormatSpec:
numpy: np.dtype numpy: np.dtype
packing: str packing: str
FORMATS = { FORMATS = {
"CU8": FormatSpec("CU8", SOAPY_SDR_CU8, np.uint8, "=%dB"), 'CU8': FormatSpec('CU8', SOAPY_SDR_CU8, np.uint8, '=%dB'),
"CS8": FormatSpec("CS8", SOAPY_SDR_CS8, np.int8, "=%db"), 'CS8': FormatSpec('CS8', SOAPY_SDR_CS8, np.int8, '=%db'),
"CS16": FormatSpec("CS16", SOAPY_SDR_CS16, np.int16, "=%dh"), 'CS16': FormatSpec('CS16', SOAPY_SDR_CS16, np.int16, '=%dh'),
"CF32": FormatSpec("CF32", SOAPY_SDR_CF32, np.float32, "=%df"), 'CF32': FormatSpec('CF32', SOAPY_SDR_CF32, np.float32, '=%df'),
} }

142
microservice.py
View File

@ -17,30 +17,28 @@ swag = Swagger(app)
radios = {} radios = {}
@app.route('/report')
@app.route("/report")
def report(): def report():
"""Get streams report from the RTSP relay. """Get streams report from the RTSP relay.
--- ---
responses: responses:
200: 200:
description: JSON with streams report. description: JSON
400:
description: JSON with error message.
""" """
try: try:
r = requests.get("http://localhost:9997/v1/paths/list") r = requests.get("http://localhost:9997/v1/paths/list")
j = r.json() j = r.json()
for item in j["items"]: for item in j['items']:
del j["items"][item]["conf"] del j['items'][item]['conf']
del j["items"][item]["confName"] del j['items'][item]['confName']
return jsonify(j) return jsonify(j)
except Exception as e: except:
return _error_message_json(e.message), 500 return "Shat the bed", 500
@app.route("/radio/report") @app.route('/radio/report')
def radio_report(): def radio_report():
"""List radio devices available to the system. """List radio devices available to the system.
--- ---
@ -52,8 +50,7 @@ def radio_report():
devices = [dict(device) for device in soapy.Device.enumerate()] devices = [dict(device) for device in soapy.Device.enumerate()]
return jsonify(devices) return jsonify(devices)
@app.route('/radio/<radio>/connect')
@app.route("/radio/<radio>/connect")
def connect(radio): def connect(radio):
"""Connect to a radio device, by driver name or serial number. """Connect to a radio device, by driver name or serial number.
--- ---
@ -65,29 +62,29 @@ def connect(radio):
required: true required: true
responses: responses:
200: 200:
description: JSON with message successfully connected to a radio. description: Successfully connected to a radio.
400: 400:
description: JSON with error message No radio device by that name is available. description: No radio device by that name is available.
500: 500:
description: JSON with error message failed to connect to radio. description: Failed to connect to radio.
""" """
if radio in radios: if radio in radios:
return _error_message_json("Radio device already connected"), 400 return "Radio device already connected", 400
devices = [dict(device) for device in soapy.Device.enumerate()] devices = [dict(device) for device in soapy.Device.enumerate()]
for device in devices: for device in devices:
if radio in device.values(): if radio in device.values():
try: try:
radios[radio] = Radio(radio, device) radios[radio] = Radio(radio, device)
return jsonify("message", "successfully connected radio"), 200 return "", 200
except Exception as e: except Exception as e:
radios.pop(radio) radios.pop(radio)
return _error_message_json(e.message), 500 return str(e), 500
return "Radio device not found", 400 return "Radio device not found", 400
@app.route('/radio/<radio>/disconnect')
@app.route("/radio/<radio>/disconnect")
def disconnect(radio): def disconnect(radio):
"""Disconnect from a radio device. """Disconnect from a radio device.
--- ---
@ -107,12 +104,11 @@ def disconnect(radio):
""" """
if radio in radios: if radio in radios:
radios.pop(radio) radios.pop(radio)
return jsonify("message", "succesfully disconnected radio"), 200 return "", 200
else: else:
return _error_message_json("Radio not connected"), 400 return "Radio not connected", 400
@app.route('/radio/<radio>/configure/<frequency>')
@app.route("/radio/<radio>/configure/<frequency>")
def configure(radio, frequency): def configure(radio, frequency):
"""Tune the radio to a frequency. """Tune the radio to a frequency.
You must connect to the radio before attempting to configure it. You must connect to the radio before attempting to configure it.
@ -131,17 +127,16 @@ def configure(radio, frequency):
required: true required: true
responses: responses:
200: 200:
description: JSON with radio configuration. description: JSON
400: 400:
description: The specified radio is not connected. description: The specified radio is not connected.
""" """
if radio in radios: if radio in radios:
return jsonify(radios[radio].configure(frequency)) return jsonify(radios[radio].configure(frequency))
else: else:
return _error_message_json("Radio not connected"), 400 return "Radio not connected", 400
@app.route('/radio/<radio>/start')
@app.route("/radio/<radio>/start")
def start_stream(radio): def start_stream(radio):
"""Start the radio stream. """Start the radio stream.
Once the stream has been started, connect to the stream at: Once the stream has been started, connect to the stream at:
@ -153,20 +148,14 @@ def start_stream(radio):
in: path in: path
type: string type: string
required: true required: true
responses:
200:
description: JSON with message successful start of radio stream.
400:
description: JSON with error message.
""" """
try: try:
radios[radio].start_stream() radios[radio].start_stream()
return jsonify("message", "successfully started radio stream"), 200 return "", 200
except Exception as e: except Exception as e:
return _error_message_json(e.message), 400 return str(e), 400
@app.route('/radio/<radio>/end')
@app.route("/radio/<radio>/end")
def end_stream(radio): def end_stream(radio):
"""Terminate the radio stream. """Terminate the radio stream.
--- ---
@ -176,21 +165,14 @@ def end_stream(radio):
in: path in: path
type: string type: string
required: true required: true
responses:
200:
description: JSON with message successful termination of radio stream.
400:
description: JSON with error message.
""" """
try: try:
radios[radio].end_stream() radios[radio].end_stream()
return jsonify("message", "successfully ended radio stream"), 200 return "", 200
except Exception as e: except Exception as e:
error_message = {"error_message": e.message} return str(e), 400
return _error_message_json(e.message), 400
@app.route('/radio/<radio>/info')
@app.route("/radio/<radio>/info")
def radio_info(radio): def radio_info(radio):
"""Get information about a radio. """Get information about a radio.
--- ---
@ -202,20 +184,19 @@ def radio_info(radio):
required: true required: true
responses: responses:
200: 200:
description: JSON with radio information. description: JSON
400: 400:
description: JSON with error message. description: The specified radio is not connected.
""" """
try: try:
return jsonify(radios[radio].get_info()) return jsonify(radios[radio].get_info())
except Exception as e: except Exception as e:
return _error_message_json(e.message), 400 return str(e), 400
tubes = {} tubes = {}
@app.route('/tuuube/<id>/start')
@app.route("/tuuube/<id>/start")
def start_tuuube_stream(id): def start_tuuube_stream(id):
"""Start streaming from a youtube source. """Start streaming from a youtube source.
Once the stream has been started, connect to the stream at: Once the stream has been started, connect to the stream at:
@ -233,23 +214,17 @@ def start_tuuube_stream(id):
in: path in: path
type: string type: string
required: true required: true
responses:
200:
description: JSON with message successful start of youtube stream.
400:
description: JSON with error message.
""" """
if id not in tubes: if id not in tubes:
tubes[id] = Tuuube(id) tubes[id] = Tuuube(id)
try: try:
tubes[id].start_stream() tubes[id].start_stream()
return jsonify("message", "successfully started youtube stream"), 200 return "", 200
except Exception as e: except Exception as e:
return _error_message_json(e.message), 400 return str(e), 400
@app.route('/tuuube/<id>/end')
@app.route("/tuuube/<id>/end")
def end_tuuube_stream(id): def end_tuuube_stream(id):
"""Terminate the youtube stream. """Terminate the youtube stream.
--- ---
@ -259,50 +234,41 @@ def end_tuuube_stream(id):
in: path in: path
type: string type: string
required: true required: true
responses:
200:
description: JSON with message successful termination of youtube stream.
400:
description: JSON with error message.
""" """
try: try:
tubes[id].end_stream() tubes[id].end_stream()
return jsonify("message", "succesfully ended youtube stream"), 200 return "", 200
except Exception as e: except Exception as e:
return _error_message_json(e.message), 400 return str(e), 400
"""
Helper function to return a JSON error message
parameters: error_message - the error message to return
returns: a JSON object with the error message
"""
if __name__ == '__main__':
def _error_message_json(error_message: str):
error_message = {"error_message": error_message}
return jsonify(error_message)
if __name__ == "__main__":
import subprocess import subprocess
rtsp_relay = subprocess.Popen( rtsp_relay = subprocess.Popen(
["./dependencies/mediamtx/mediamtx", "./mediamtx.yml"], [
'./dependencies/mediamtx/mediamtx',
'./mediamtx.yml'
],
stdout=subprocess.DEVNULL, stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL, stderr=subprocess.DEVNULL
) )
for path, _, files in os.walk("./data/sampleaudio"): for path, _, files in os.walk('./data/sampleaudio'):
for file in files: for file in files:
name,ext = os.path.splitext(file) name,ext = os.path.splitext(file)
if ext == ".mp3": if ext == '.mp3':
tubes[name] = FileRadio(f"{path}/{file}") tubes[name] = FileRadio(f"{path}/{file}")
tubes[name].start_stream() tubes[name].start_stream()
app.run(host="0.0.0.0", threaded=True, debug=False) app.run(
host='0.0.0.0',
threaded=True,
debug=False
)
print("Stopping any currently streaming radios...") print('Stopping any currently streaming radios...')
for radio in radios: for radio in radios:
if radios[radio].is_streaming(): if radios[radio].is_streaming():
radios[radio].end_stream() radios[radio].end_stream()
@ -313,6 +279,6 @@ if __name__ == "__main__":
tubes[tube].end_stream() tubes[tube].end_stream()
tubes = None tubes = None
print("Killing RTSP relay...") print('Killing RTSP relay...')
rtsp_relay.kill() rtsp_relay.kill()
rtsp_relay.wait() # Necessary? rtsp_relay.wait() # Necessary?

123
radio.py
View File

@ -11,8 +11,8 @@ from streamer import Streamer, is_alive
class Radio(Streamer): class Radio(Streamer):
REST_PATH = "radio" REST_PATH = 'radio'
FORMAT = "CS16" FORMAT = 'CS16'
SAMPLES = 8192 SAMPLES = 8192
def __init__(self, name, device_info): def __init__(self, name, device_info):
@ -33,7 +33,7 @@ class Radio(Streamer):
frequency = int(prefixed.Float(frequency)) frequency = int(prefixed.Float(frequency))
bandwidth = 200000 bandwidth = 200000
sample_rates = preferred_sample_rates(self.capabilities["rx"]["sample-rates"]) sample_rates = preferred_sample_rates(self.capabilities['rx']['sample-rates'])
if len(sample_rates) == 0: if len(sample_rates) == 0:
raise RuntimeError("No suitable sample rates are available") raise RuntimeError("No suitable sample rates are available")
self.sample_rate, self.output_rate = sample_rates[0] self.sample_rate, self.output_rate = sample_rates[0]
@ -46,43 +46,41 @@ class Radio(Streamer):
self.device.setGainMode(soapy.SOAPY_SDR_RX, 0, True) self.device.setGainMode(soapy.SOAPY_SDR_RX, 0, True)
return { return {
"frequency": self.device.getFrequency(soapy.SOAPY_SDR_RX, 0), 'frequency': self.device.getFrequency(soapy.SOAPY_SDR_RX, 0),
"sample-rate": self.device.getSampleRate(soapy.SOAPY_SDR_RX, 0), 'sample-rate': self.device.getSampleRate(soapy.SOAPY_SDR_RX, 0),
"bandwidth": self.device.getBandwidth(soapy.SOAPY_SDR_RX, 0), 'bandwidth': self.device.getBandwidth(soapy.SOAPY_SDR_RX, 0),
"gain-mode": "auto" 'gain-mode': 'auto' if self.device.getGainMode(soapy.SOAPY_SDR_RX, 0) else 'manual',
if self.device.getGainMode(soapy.SOAPY_SDR_RX, 0)
else "manual",
} }
def get_info(self): def get_info(self):
return { return {
"name": self.name, 'name': self.name,
"device": self.device_info, 'device': self.device_info,
"capabilities": self.capabilities, 'capabilities': self.capabilities,
"stream-path": self._stream_path(), 'stream-path': self._stream_path(),
"streaming": self.is_streaming(), 'streaming': self.is_streaming(),
} }
def _get_capabilities(self): def _get_capabilities(self):
def get_direction_capabilities(direction): def get_direction_capabilities(direction):
return { return {
"antennas": self.device.listAntennas(direction, 0), 'antennas': self.device.listAntennas(direction, 0),
"gains": self.device.listGains(direction, 0), 'gains': self.device.listGains(direction, 0),
"frequencies": self.device.listFrequencies(direction, 0), 'frequencies': self.device.listFrequencies(direction, 0),
"sample-rates": self.device.listSampleRates(direction, 0), 'sample-rates': self.device.listSampleRates(direction, 0),
"bandwidths": self.device.listBandwidths(direction, 0), 'bandwidths': self.device.listBandwidths(direction, 0),
"sensors": self.device.listSensors(direction, 0), 'sensors': self.device.listSensors(direction, 0),
"formats": self.device.getStreamFormats(direction, 0), 'formats': self.device.getStreamFormats(direction, 0),
} }
return { return {
"rx": get_direction_capabilities(soapy.SOAPY_SDR_RX), 'rx': get_direction_capabilities(soapy.SOAPY_SDR_RX),
"tx": get_direction_capabilities(soapy.SOAPY_SDR_TX), 'tx': get_direction_capabilities(soapy.SOAPY_SDR_TX),
"clock-sources": self.device.listClockSources(), 'clock-sources': self.device.listClockSources(),
"time-sources": self.device.listTimeSources(), 'time-sources': self.device.listTimeSources(),
"register-interfaces": self.device.listRegisterInterfaces(), 'register-interfaces': self.device.listRegisterInterfaces(),
"gpios": self.device.listGPIOBanks(), 'gpios': self.device.listGPIOBanks(),
"uarts": self.device.listUARTs(), 'uarts': self.device.listUARTs(),
} }
def _stream_thread(self): def _stream_thread(self):
@ -91,7 +89,7 @@ class Radio(Streamer):
while self.run: while self.run:
# Check that the child processes are still running # Check that the child processes are still running
if (not is_alive(self.demod)) or (not is_alive(self.playback)): if (not is_alive(self.demod)) or (not is_alive(self.playback)):
print("DSP chain failed, aborting stream.", file=sys.stderr) print('DSP chain failed, aborting stream.', file=sys.stderr)
break break
result = self.device.readStream(self.stream, [self.buffer], Radio.SAMPLES) result = self.device.readStream(self.stream, [self.buffer], Radio.SAMPLES)
@ -101,18 +99,14 @@ class Radio(Streamer):
elif result.ret < 0: elif result.ret < 0:
error = SoapyError(result.ret) error = SoapyError(result.ret)
if error is not SoapyError.Timeout: if error is not SoapyError.Timeout:
print( print("Stream read failed, aborting stream:", error, file=sys.stderr)
"Stream read failed, aborting stream:", error, file=sys.stderr
)
break break
continue continue
else: else:
read_size = int(result.ret * 2) read_size = int(result.ret * 2)
self.demod.stdin.write( self.demod.stdin.write(
struct.pack( struct.pack(FORMATS[Radio.FORMAT].packing % read_size,
FORMATS[Radio.FORMAT].packing % read_size, *self.buffer[:read_size])
*self.buffer[:read_size],
)
) )
self._cleanup_stream() self._cleanup_stream()
@ -120,44 +114,32 @@ class Radio(Streamer):
def _init_stream(self): def _init_stream(self):
self.playback = subprocess.Popen( self.playback = subprocess.Popen(
[ [
"/usr/bin/ffmpeg", '/usr/bin/ffmpeg',
"-f", '-f', 's16le',
"s16le", '-ar', str(self.output_rate),
"-ar", '-ac', '2',
str(self.output_rate), '-i', '-',
"-ac", '-f', 'rtsp', self.stream_address()
"2",
"-i",
"-",
"-f",
"rtsp",
self.stream_address(),
], ],
stdin=subprocess.PIPE, stdin=subprocess.PIPE,
stdout=subprocess.DEVNULL, stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL, stderr=subprocess.DEVNULL
) )
self.demod = subprocess.Popen( self.demod = subprocess.Popen(
[ [
"/usr/bin/python3", '/usr/bin/python3', 'fm_demod.py',
"fm_demod.py", '-f', 'CS16',
"-f", '-s', str(self.sample_rate),
"CS16", '-d', str(self.output_rate)
"-s",
str(self.sample_rate),
"-d",
str(self.output_rate),
], ],
stdin=subprocess.PIPE, stdin=subprocess.PIPE,
stdout=self.playback.stdin, stdout=self.playback.stdin,
stderr=subprocess.DEVNULL, stderr=subprocess.DEVNULL
) )
self.buffer = np.array([0] * Radio.SAMPLES * 2, FORMATS[Radio.FORMAT].numpy) self.buffer = np.array([0] * Radio.SAMPLES * 2, FORMATS[Radio.FORMAT].numpy)
self.stream = self.device.setupStream( self.stream = self.device.setupStream(soapy.SOAPY_SDR_RX, FORMATS[Radio.FORMAT].soapy)
soapy.SOAPY_SDR_RX, FORMATS[Radio.FORMAT].soapy
)
result = self.device.activateStream(self.stream) result = self.device.activateStream(self.stream)
if result != 0: if result != 0:
@ -182,25 +164,26 @@ class Radio(Streamer):
self.playback = None self.playback = None
""" """
Quick and dirty test of the Radio class. Quick and dirty test of the Radio class.
""" """
if __name__ == "__main__": if __name__ == '__main__':
import time import time
sdr = Radio("demo", {"driver": "sdrplay"}) sdr = Radio('demo', {'driver': 'sdrplay'})
print("Configuring...") print('Configuring...')
sdr.configure("105.5M") sdr.configure('105.5M')
print("Configured.") print('Configured.')
print("Starting stream...") print('Starting stream...')
sdr.start_stream() sdr.start_stream()
print("Stream started.") print('Stream started.')
# Let the stream play for a while # Let the stream play for a while
time.sleep(15) time.sleep(15)
print("Ending stream...") print('Ending stream...')
sdr.end_stream() sdr.end_stream()
print("Stream ended.") print('Stream ended.')

26
samplerates.py
View File

@ -17,7 +17,6 @@ supported_ouput_rates = [
192000, # Too much. 192000, # Too much.
] ]
def score(pair, target_output=32000, target_ratio=10): def score(pair, target_output=32000, target_ratio=10):
""" """
Heuristic for scoring input & output sample rates. The criteria are: Heuristic for scoring input & output sample rates. The criteria are:
@ -37,38 +36,29 @@ def score(pair, target_output=32000, target_ratio=10):
ratio = pair[0] // pair[1] ratio = pair[0] // pair[1]
return ( return abs(pair[1] - target_output)/2500 \
abs(pair[1] - target_output) / 2500 + max(0, target_output - pair[1])/2500 \
+ max(0, target_output - pair[1]) / 2500 + abs(ratio - target_ratio)**0.8 \
+ abs(ratio - target_ratio) ** 0.8
+ max(0, target_ratio - ratio)**2 + max(0, target_ratio - ratio)**2
)
def flatten(l): def flatten(l):
return [item for sublist in l for item in sublist] return [item for sublist in l for item in sublist]
def flatten_dict(d): def flatten_dict(d):
return [(key,value) for key,rates in d.items() for value in rates] return [(key,value) for key,rates in d.items() for value in rates]
def get_pairs(input_rate): def get_pairs(input_rate):
return [ return [
(input_rate, rate) for rate in supported_ouput_rates if (input_rate % rate == 0) (input_rate, rate)
for rate in supported_ouput_rates
if (input_rate % rate == 0)
] ]
def supported_sample_rates(supported_input_rates): def supported_sample_rates(supported_input_rates):
return { return {
in_rate: [ in_rate: [out_rate for out_rate in supported_ouput_rates if in_rate % out_rate == 0]
out_rate for out_rate in supported_ouput_rates if in_rate % out_rate == 0
]
for in_rate in supported_input_rates for in_rate in supported_input_rates
} }
def preferred_sample_rates(supported_input_rates): def preferred_sample_rates(supported_input_rates):
return sorted( return sorted(flatten_dict(supported_sample_rates(supported_input_rates)), key=score)
flatten_dict(supported_sample_rates(supported_input_rates)), key=score
)

7
scripts/.gitignore vendored
View File

@ -1,7 +0,0 @@
CubicSDR/
mediamtx/
SoapyRTLSDR/
SoapySDRPlay/
wxWidgets-3.2.1/
liquid-dsp/
SoapySDR/

2
soapyhelpers.py
View File

@ -1,7 +1,6 @@
import SoapySDR as soapy import SoapySDR as soapy
from enum import IntEnum from enum import IntEnum
class SoapyError(IntEnum): class SoapyError(IntEnum):
Timeout = soapy.SOAPY_SDR_TIMEOUT Timeout = soapy.SOAPY_SDR_TIMEOUT
StreamError = soapy.SOAPY_SDR_STREAM_ERROR StreamError = soapy.SOAPY_SDR_STREAM_ERROR
@ -11,7 +10,6 @@ class SoapyError(IntEnum):
TimeError = soapy.SOAPY_SDR_TIME_ERROR TimeError = soapy.SOAPY_SDR_TIME_ERROR
Underflow = soapy.SOAPY_SDR_UNDERFLOW Underflow = soapy.SOAPY_SDR_UNDERFLOW
class SoapyFlag(IntEnum): class SoapyFlag(IntEnum):
EndBurst = soapy.SOAPY_SDR_END_BURST EndBurst = soapy.SOAPY_SDR_END_BURST
HasTime = soapy.SOAPY_SDR_HAS_TIME HasTime = soapy.SOAPY_SDR_HAS_TIME

14
streamer.py
View File

@ -2,7 +2,7 @@ from threading import Thread
import yaml import yaml
with open("mediamtx.yml", "r") as config_file: with open('mediamtx.yml', 'r') as config_file:
MEDIASERVER_CONFIG = yaml.safe_load(config_file) MEDIASERVER_CONFIG = yaml.safe_load(config_file)
@ -11,8 +11,8 @@ def is_alive(subprocess):
class Streamer: class Streamer:
PROTOCOL = "rtsp" PROTOCOL = 'rtsp'
REST_PATH = "stream" REST_PATH = 'stream'
def __init__(self): def __init__(self):
self.run = False self.run = False
@ -30,7 +30,7 @@ class Streamer:
def start_stream(self): def start_stream(self):
if self.is_streaming(): if self.is_streaming():
raise RuntimeError("Stream thread is already running") raise RuntimeError('Stream thread is already running')
self.run = True self.run = True
self.thread = Thread(target=self._stream_thread, daemon=True, args=()) self.thread = Thread(target=self._stream_thread, daemon=True, args=())
@ -38,14 +38,14 @@ class Streamer:
def end_stream(self): def end_stream(self):
if self.thread is None: if self.thread is None:
raise RuntimeError("No stream thread to terminate") raise RuntimeError('No stream thread to terminate')
self.run = False self.run = False
self.thread.join() self.thread.join()
self.thread = None self.thread = None
if __name__ == "__main__":
from pprint import pprint
if __name__ == '__main__':
from pprint import pprint
pprint(MEDIASERVER_CONFIG) pprint(MEDIASERVER_CONFIG)

53
tuuube.py
View File

@ -17,7 +17,7 @@ import os
class Tuuube(Streamer): class Tuuube(Streamer):
REST_PATH = "tuuube" REST_PATH = 'tuuube'
def __init__(self, name): def __init__(self, name):
super().__init__() super().__init__()
@ -28,51 +28,43 @@ class Tuuube(Streamer):
return f"/tmp/{self.name}.mp3" return f"/tmp/{self.name}.mp3"
def _stream_thread(self): def _stream_thread(self):
if not os.path.exists(self.source_path()) or not os.path.isfile( if not os.path.exists(self.source_path()) or not os.path.isfile(self.source_path()):
self.source_path()
):
ydl_opts = { ydl_opts = {
"format": "bestaudio/best", 'format': 'bestaudio/best',
"outtmpl": f"/tmp/{self.name}.%(ext)s", # yt_dlp will append %(ext) if not specified, 'outtmpl': f'/tmp/{self.name}.%(ext)s', # yt_dlp will append %(ext) if not specified,
"postprocessors": [ # resulting in `/tmp/file.mp3.mp3` :/ 'postprocessors': [{ # resulting in `/tmp/file.mp3.mp3` :/
{ 'key': 'FFmpegExtractAudio',
"key": "FFmpegExtractAudio", 'preferredcodec': 'mp3',
"preferredcodec": "mp3", 'preferredquality': '192',
"preferredquality": "192", }],
}
],
} }
try: try:
with youtube_dl.YoutubeDL(ydl_opts) as ydl: with youtube_dl.YoutubeDL(ydl_opts) as ydl:
ydl.download([f"https://www.youtube.com/watch?v={self.name}"]) ydl.download([f'https://www.youtube.com/watch?v={self.name}'])
except Exception as e: except Exception as e:
print(f"File sourcing failed, aborting stream. {e}", file=sys.stderr) print(f'File sourcing failed, aborting stream. {e}', file=sys.stderr)
self.run = False self.run = False
return return
self.playback = subprocess.Popen( self.playback = subprocess.Popen(
[ [
"/usr/bin/ffmpeg", '/usr/bin/ffmpeg',
"-re", '-re',
"-stream_loop", '-stream_loop', '-1',
"-1", '-i', self.source_path(),
"-i", '-c', 'copy',
self.source_path(), '-f', 'rtsp',
"-c", self.stream_address('localhost')
"copy",
"-f",
"rtsp",
self.stream_address("localhost"),
], ],
stdin=subprocess.PIPE, stdin=subprocess.PIPE,
stdout=subprocess.DEVNULL, stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL, stderr=subprocess.DEVNULL
) )
while self.run: while self.run:
if not is_alive(self.playback): if not is_alive(self.playback):
print("Playback failed, aborting stream.", file=sys.stderr) print('Playback failed, aborting stream.', file=sys.stderr)
break break
time.sleep(0.1) time.sleep(0.1)
@ -83,8 +75,9 @@ class Tuuube(Streamer):
self.playback = None self.playback = None
if __name__ == "__main__":
tube = Tuuube("BaW_jenozKc") if __name__ == '__main__':
tube = Tuuube('BaW_jenozKc')
tube.start_stream() tube.start_stream()
while True: while True: