forked from auracaster/pyalsaaudio
404 lines
12 KiB
Python
404 lines
12 KiB
Python
#!/usr/bin/env python3
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# -*- mode: python; indent-tabs-mode: t; c-basic-offset: 4; tab-width: 4 -*-
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import sys
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import select
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import logging
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import re
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import struct
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import subprocess
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from datetime import datetime, timedelta
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from alsaaudio import (PCM, pcms, PCM_PLAYBACK, PCM_CAPTURE, PCM_NONBLOCK, Mixer,
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PCM_STATE_OPEN, PCM_STATE_SETUP, PCM_STATE_PREPARED, PCM_STATE_RUNNING, PCM_STATE_XRUN, PCM_STATE_DRAINING,
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PCM_STATE_PAUSED, PCM_STATE_SUSPENDED, ALSAAudioError)
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from argparse import ArgumentParser
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poll_names = {
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select.POLLIN: 'POLLIN',
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select.POLLPRI: 'POLLPRI',
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select.POLLOUT: 'POLLOUT',
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select.POLLERR: 'POLLERR',
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select.POLLHUP: 'POLLHUP',
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select.POLLRDHUP: 'POLLRDHUP',
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select.POLLNVAL: 'POLLNVAL'
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}
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state_names = {
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PCM_STATE_OPEN: 'PCM_STATE_OPEN',
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PCM_STATE_SETUP: 'PCM_STATE_SETUP',
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PCM_STATE_PREPARED: 'PCM_STATE_PREPARED',
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PCM_STATE_RUNNING: 'PCM_STATE_RUNNING',
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PCM_STATE_XRUN: 'PCM_STATE_XRUN',
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PCM_STATE_DRAINING: 'PCM_STATE_DRAINING',
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PCM_STATE_PAUSED: 'PCM_STATE_PAUSED',
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PCM_STATE_SUSPENDED: 'PCM_STATE_SUSPENDED'
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}
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def poll_desc(mask):
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return '|'.join([poll_names[bit] for bit, name in poll_names.items() if mask & bit])
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class PollDescriptor(object):
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'''File Descriptor, event mask and a name for logging'''
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def __init__(self, name, fd, mask):
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self.name = name
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self.fd = fd
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self.mask = mask
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def as_tuple(self):
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return (self.fd, self.mask)
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@classmethod
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def from_alsa_object(cls, name, alsaobject, mask=None):
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# TODO maybe refactor: we ignore objects that have more then one polldescriptor
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fd, alsamask = alsaobject.polldescriptors()[0]
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if mask is None:
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mask = alsamask
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return cls(name, fd, mask)
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class Loopback(object):
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'''Loopback state and event handling'''
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def __init__(self, capture, playback_args, volume_handler, run_after_stop=None, run_before_start=None):
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self.playback_args = playback_args
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self.playback = None
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self.volume_handler = volume_handler
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self.capture_started = None
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self.last_capture_event = None
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self.capture = capture
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self.capture_pd = PollDescriptor.from_alsa_object('capture', capture)
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self.run_after_stop = None
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if run_after_stop:
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self.run_after_stop = run_after_stop.split(' ')
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self.run_before_start = None
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if run_before_start:
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self.run_before_start = run_before_start.split(' ')
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self.run_after_stop_did_run = False
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self.waitBeforeOpen = False
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self.queue = []
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self.period_size = 0
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self.silent_periods = 0
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@staticmethod
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def compute_energy(data):
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values = struct.unpack(f'{len(data)//2}h', data)
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e = 0
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for v in values:
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e = e + v * v
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return e
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@staticmethod
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def run_command(cmd):
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if cmd:
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rc = subprocess.run(cmd)
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if rc.returncode:
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logging.warning(f'run {cmd}, return code {rc.returncode}')
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else:
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logging.info(f'run {cmd}, return code {rc.returncode}')
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def register(self, reactor):
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reactor.register_timeout_handler(self.timeout_handler)
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reactor.register(self.capture_pd, self)
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def start(self):
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# start reading data
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size, data = self.capture.read()
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if size:
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self.queue.append(data)
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def timeout_handler(self):
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if self.playback and self.capture_started:
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if self.last_capture_event:
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if datetime.now() - self.last_capture_event > timedelta(seconds=2):
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logging.info('timeout - closing playback device')
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self.playback.close()
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self.playback = None
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self.capture_started = None
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if self.volume_handler:
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self.volume_handler.stop()
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self.run_command(self.run_after_stop)
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return
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self.waitBeforeOpen = False
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if not self.run_after_stop_did_run and not self.playback:
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if self.volume_handler:
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self.volume_handler.stop()
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self.run_command(self.run_after_stop)
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self.run_after_stop_did_run = True
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def pop(self):
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if len(self.queue):
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return self.queue.pop()
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else:
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return None
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def handle_capture_event(self, eventmask, name):
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'''called when data is available for reading'''
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self.last_capture_event = datetime.now()
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size, data = self.capture.read()
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if not size:
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logging.warning(f'capture event but no data')
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return False
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energy = self.compute_energy(data)
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logging.debug(f'energy: {energy}')
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# the usecase is a USB capture device where we get perfect silence when it's idle
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if energy == 0:
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self.silent_periods = self.silent_periods + 1
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# turn off playback after two seconds of silence
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# 2 channels * 2 seconds * 2 bytes per sample
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fps = self.playback_args['rate'] * 8 // (self.playback_args['periodsize'] * self.playback_args['periods'])
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logging.debug(f'{self.silent_periods} of {fps} silent periods: {self.playback}')
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if self.silent_periods > fps and self.playback:
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logging.info(f'closing playback due to silence')
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self.playback.close()
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self.playback = None
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if self.volume_handler:
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self.volume_handler.stop()
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self.run_command(self.run_after_stop)
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self.run_after_stop_did_run = True
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if not self.playback:
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return
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else:
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self.silent_periods = 0
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if not self.playback:
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if self.waitBeforeOpen:
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return False
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try:
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if self.volume_handler:
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self.volume_handler.start()
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self.run_command(self.run_before_start)
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self.playback = PCM(**self.playback_args)
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self.period_size = self.playback.info()['period_size']
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logging.info(f'opened playback device with period_size {self.period_size}')
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except ALSAAudioError as e:
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logging.info('opening PCM playback device failed: %s', e)
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self.waitBeforeOpen = True
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return False
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self.capture_started = datetime.now()
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logging.info(f'{self.playback} capture started: {self.capture_started}')
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self.queue.append(data)
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if len(self.queue) <= 2:
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logging.info(f'buffering: {len(self.queue)}')
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return False
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try:
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data = self.pop()
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if data:
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space = self.playback.avail()
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written = self.playback.write(data)
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logging.debug(f'wrote {written} bytes while space was {space}')
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except ALSAAudioError:
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logging.error('underrun', exc_info=1)
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return True
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def __call__(self, fd, eventmask, name):
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if fd == self.capture_pd.fd:
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real_mask = self.capture.polldescriptors_revents([self.capture_pd.as_tuple()])
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if real_mask:
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return self.handle_capture_event(real_mask, name)
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else:
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logging.debug('null capture event')
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return False
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else:
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real_mask = self.playback.polldescriptors_revents([self.playback_pd.as_tuple()])
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if real_mask:
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return self.handle_playback_event(real_mask, name)
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else:
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logging.debug('null playback event')
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return False
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class VolumeForwarder(object):
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'''Volume control event handling'''
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def __init__(self, capture_control, playback_control):
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self.playback_control = playback_control
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self.capture_control = capture_control
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self.active = True
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self.volume = None
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def start(self):
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self.active = True
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if self.volume:
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self.volume = playback_control.setvolume(self.volume)
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def stop(self):
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self.active = False
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self.volume = self.playback_control.getvolume(pcmtype=PCM_CAPTURE)[0]
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def __call__(self, fd, eventmask, name):
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if not self.active:
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return
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volume = self.capture_control.getvolume(pcmtype=PCM_CAPTURE)
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# indicate that we've handled the event
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self.capture_control.handleevents()
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logging.info(f'{name} adjusting volume to {volume}')
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if volume:
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self.playback_control.setvolume(volume[0])
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class Reactor(object):
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'''A wrapper around select.poll'''
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def __init__(self):
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self.poll = select.poll()
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self.descriptors = {}
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self.timeout_handlers = set()
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def register(self, polldescriptor, callable):
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logging.debug(f'registered {polldescriptor.name}: {poll_desc(polldescriptor.mask)}')
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self.descriptors[polldescriptor.fd] = (polldescriptor, callable)
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self.poll.register(polldescriptor.fd, polldescriptor.mask)
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def unregister(self, polldescriptor):
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self.poll.unregister(polldescriptor.fd)
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del self.descriptors[polldescriptor.fd]
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def register_timeout_handler(self, callable):
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self.timeout_handlers.add(callable)
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def unregister_timeout_handler(self, callable):
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self.timeout_handlers.remove(callable)
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def run(self):
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last_timeout_ev = datetime.now()
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while True:
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# poll for a bit, then send a timeout to registered handlers
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events = self.poll.poll(0.25)
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for fd, ev in events:
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polldescriptor, handler = self.descriptors[fd]
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# very chatty - log all events
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# logging.debug(f'{polldescriptor.name}: {poll_desc(ev)} ({ev})')
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handler(fd, ev, polldescriptor.name)
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if datetime.now() - last_timeout_ev > timedelta(seconds=0.25):
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for t in self.timeout_handlers:
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t()
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last_timeout_ev = datetime.now()
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if __name__ == '__main__':
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logging.basicConfig(format='%(asctime)s %(levelname)s %(message)s', level=logging.INFO)
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parser = ArgumentParser(description='ALSA loopback (with volume forwarding)')
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playback_pcms = pcms(pcmtype=PCM_PLAYBACK)
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capture_pcms = pcms(pcmtype=PCM_CAPTURE)
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if not playback_pcms:
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logging.error('no playback PCM found')
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sys.exit(2)
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if not capture_pcms:
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logging.error('no capture PCM found')
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sys.exit(2)
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parser.add_argument('-d', '--debug', action='store_true')
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parser.add_argument('-i', '--input', default=capture_pcms[0])
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parser.add_argument('-o', '--output', default=playback_pcms[0])
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parser.add_argument('-r', '--rate', type=int, default=44100)
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parser.add_argument('-c', '--channels', type=int, default=2)
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parser.add_argument('-p', '--periodsize', type=int, default=444) # must be divisible by 6 for 44k1
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parser.add_argument('-P', '--periods', type=int, default=2)
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parser.add_argument('-I', '--input-mixer', help='Control of the input mixer, can contain the card index, e.g. Digital:2')
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parser.add_argument('-O', '--output-mixer', help='Control of the output mixer, can contain the card index, e.g. PCM:1')
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parser.add_argument('-A', '--run-after-stop', help='command to run when the capture device is idle/silent')
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parser.add_argument('-B', '--run-before-start', help='command to run when the capture device becomes active')
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parser.add_argument('-V', '--volume', help='Initial volume (default is leave unchanged)')
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args = parser.parse_args()
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if args.debug:
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logging.getLogger().setLevel(logging.DEBUG)
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playback_args = {
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'type': PCM_PLAYBACK,
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'mode': PCM_NONBLOCK,
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'device': args.output,
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'rate': args.rate,
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'channels': args.channels,
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'periodsize': args.periodsize,
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'periods': args.periods
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}
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reactor = Reactor()
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# If args.input_mixer and args.output_mixer are set, forward the capture volume to the playback volume.
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# The usecase is a capture device that is implemented using g_audio, i.e. the Linux USB gadget driver.
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# When a USB device (eg. an iPad) is connected to this machine, its volume events will go to the volume control
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# of the output device
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capture = None
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playback = None
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volume_handler = None
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if args.input_mixer and args.output_mixer:
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re_mixer = re.compile(r'([a-zA-Z0-9]+):?([0-9+])?')
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input_mixer_card = None
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m = re_mixer.match(args.input_mixer)
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if m:
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input_mixer = m.group(1)
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if m.group(2):
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input_mixer_card = int(m.group(2))
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else:
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parser.print_usage()
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sys.exit(1)
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output_mixer_card = None
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m = re_mixer.match(args.output_mixer)
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if m:
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output_mixer = m.group(1)
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if m.group(2):
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output_mixer_card = int(m.group(2))
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else:
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parser.print_usage()
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sys.exit(1)
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if input_mixer_card is None:
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capture = PCM(type=PCM_CAPTURE, mode=PCM_NONBLOCK, device=args.input, rate=args.rate,
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channels=args.channels, periodsize=args.periodsize, periods=args.periods)
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input_mixer_card = capture.info()['card_no']
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if output_mixer_card is None:
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playback = PCM(**playback_args)
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output_mixer_card = playback.info()['card_no']
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playback.close()
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playback_control = Mixer(control=output_mixer, cardindex=int(output_mixer_card))
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capture_control = Mixer(control=input_mixer, cardindex=int(input_mixer_card))
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volume_handler = VolumeForwarder(capture_control, playback_control)
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reactor.register(PollDescriptor.from_alsa_object('capture_control', capture_control, select.POLLIN), volume_handler)
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if args.volume and playback_control:
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playback_control.setvolume(int(args.volume))
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loopback = Loopback(capture, playback_args, volume_handler, args.run_after_stop, args.run_before_start)
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loopback.register(reactor)
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loopback.start()
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reactor.run()
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