openwebrx-clone/owrx/audio.py
2020-04-23 00:34:49 +02:00

247 lines
7.7 KiB
Python

from abc import ABC, ABCMeta, abstractmethod
from owrx.config import Config
from owrx.metrics import Metrics, CounterMetric, DirectMetric
import threading
import wave
import subprocess
import os
from multiprocessing.connection import Pipe, wait
from datetime import datetime, timedelta
from queue import Queue, Full
import logging
logger = logging.getLogger(__name__)
logger.setLevel(logging.INFO)
class QueueJob(object):
def __init__(self, decoder, file, freq):
self.decoder = decoder
self.file = file
self.freq = freq
def run(self):
self.decoder.decode(self)
class QueueWorker(threading.Thread):
def __init__(self, queue):
self.queue = queue
self.doRun = True
super().__init__(daemon=True)
def run(self) -> None:
while self.doRun:
job = self.queue.get()
try:
job.run()
except Exception:
logger.exception("failed to decode job")
self.queue.onError()
self.queue.task_done()
class DecoderQueue(Queue):
sharedInstance = None
creationLock = threading.Lock()
@staticmethod
def getSharedInstance():
with DecoderQueue.creationLock:
if DecoderQueue.sharedInstance is None:
pm = Config.get()
DecoderQueue.sharedInstance = DecoderQueue(maxsize=pm["wsjt_queue_length"], workers=pm["wsjt_queue_workers"])
return DecoderQueue.sharedInstance
def __init__(self, maxsize, workers):
super().__init__(maxsize)
metrics = Metrics.getSharedInstance()
metrics.addMetric("wsjt.queue.length", DirectMetric(self.qsize))
self.inCounter = CounterMetric()
metrics.addMetric("wsjt.queue.in", self.inCounter)
self.outCounter = CounterMetric()
metrics.addMetric("wsjt.queue.out", self.outCounter)
self.overflowCounter = CounterMetric()
metrics.addMetric("wsjt.queue.overflow", self.overflowCounter)
self.errorCounter = CounterMetric()
metrics.addMetric("wsjt.queue.error", self.errorCounter)
self.workers = [self.newWorker() for _ in range(0, workers)]
def put(self, item, **kwars):
self.inCounter.inc()
try:
super(DecoderQueue, self).put(item, block=False)
except Full:
self.overflowCounter.inc()
raise
def get(self, **kwargs):
# super.get() is blocking, so it would mess up the stats to inc() first
out = super(DecoderQueue, self).get(**kwargs)
self.outCounter.inc()
return out
def newWorker(self):
worker = QueueWorker(self)
worker.start()
return worker
def onError(self):
self.errorCounter.inc()
class AudioChopperProfile(ABC):
@abstractmethod
def getInterval(self):
pass
@abstractmethod
def getFileTimestampFormat(self):
pass
@abstractmethod
def decoder_commandline(self, file):
pass
def decoding_depth(self, mode):
pm = Config.get()
# mode-specific setting?
if "wsjt_decoding_depths" in pm and mode in pm["wsjt_decoding_depths"]:
return pm["wsjt_decoding_depths"][mode]
# return global default
if "wsjt_decoding_depth" in pm:
return pm["wsjt_decoding_depth"]
# default when no setting is provided
return 3
class AudioWriter(object):
def __init__(self, dsp, source, profile: AudioChopperProfile):
self.dsp = dsp
self.source = source
self.profile = profile
self.tmp_dir = Config.get()["temporary_directory"]
self.wavefile = None
self.wavefilename = None
self.switchingLock = threading.Lock()
self.timer = None
(self.outputReader, self.outputWriter) = Pipe()
def getWaveFile(self):
filename = "{tmp_dir}/openwebrx-audiochopper-{id}-{timestamp}.wav".format(
tmp_dir=self.tmp_dir,
id=id(self),
timestamp=datetime.utcnow().strftime(self.profile.getFileTimestampFormat()),
)
wavefile = wave.open(filename, "wb")
wavefile.setnchannels(1)
wavefile.setsampwidth(2)
wavefile.setframerate(12000)
return filename, wavefile
def getNextDecodingTime(self):
t = datetime.utcnow()
zeroed = t.replace(minute=0, second=0, microsecond=0)
delta = t - zeroed
interval = self.profile.getInterval()
seconds = (int(delta.total_seconds() / interval) + 1) * interval
t = zeroed + timedelta(seconds=seconds)
logger.debug("scheduling: {0}".format(t))
return t
def cancelTimer(self):
if self.timer:
self.timer.cancel()
self.timer = None
def _scheduleNextSwitch(self):
self.cancelTimer()
delta = self.getNextDecodingTime() - datetime.utcnow()
self.timer = threading.Timer(delta.total_seconds(), self.switchFiles)
self.timer.start()
def switchFiles(self):
self.switchingLock.acquire()
file = self.wavefile
filename = self.wavefilename
(self.wavefilename, self.wavefile) = self.getWaveFile()
self.switchingLock.release()
file.close()
try:
DecoderQueue.getSharedInstance().put(QueueJob(self, filename, self.dsp.get_operating_freq()))
except Full:
logger.warning("wsjt decoding queue overflow; dropping one file")
os.unlink(filename)
self._scheduleNextSwitch()
def decode(self, job: QueueJob):
logger.debug("processing file %s", job.file)
decoder = subprocess.Popen(
["nice", "-n", "10"] + self.profile.decoder_commandline(job.file),
stdout=subprocess.PIPE,
cwd=self.tmp_dir,
close_fds=True,
)
for line in decoder.stdout:
self.outputWriter.send((job.freq, line))
try:
rc = decoder.wait(timeout=10)
if rc != 0:
logger.warning("decoder return code: %i", rc)
except subprocess.TimeoutExpired:
logger.warning("subprocess (pid=%i}) did not terminate correctly; sending kill signal.", decoder.pid)
decoder.kill()
os.unlink(job.file)
def start(self):
(self.wavefilename, self.wavefile) = self.getWaveFile()
self._scheduleNextSwitch()
def write(self, data):
self.switchingLock.acquire()
self.wavefile.writeframes(data)
self.switchingLock.release()
def stop(self):
self.outputReader.close()
self.outputWriter.close()
self.cancelTimer()
try:
os.unlink(self.wavefilename)
except Exception:
logger.exception("error removing undecoded file")
class AudioChopper(threading.Thread, metaclass=ABCMeta):
def __init__(self, dsp, source, *profiles: AudioChopperProfile):
self.source = source
self.writers = [AudioWriter(dsp, source, p) for p in profiles]
self.doRun = True
super().__init__()
def run(self) -> None:
logger.debug("Audio chopper starting up")
for w in self.writers:
w.start()
while self.doRun:
data = self.source.read(256)
if data is None or (isinstance(data, bytes) and len(data) == 0):
self.doRun = False
else:
for w in self.writers:
w.write(data)
logger.debug("Audio chopper shutting down")
for w in self.writers:
w.stop()
def read(self):
try:
readers = wait([w.outputReader for w in self.writers])
return [r.recv() for r in readers]
except EOFError:
return None