diff --git a/va-recorder.py b/va-recorder.py index 8c0e5f3..b84bfc2 100755 --- a/va-recorder.py +++ b/va-recorder.py @@ -1,427 +1,425 @@ #!/usr/bin/env python3 import pyaudio import wave from ctypes import * from optparse import OptionParser from pathlib import Path import math import platform import psutil import struct import wave import time import os import sys from datetime import datetime import functools print = functools.partial(print, flush=True) # remove useless alsa logging # From alsa-lib Git 3fd4ab9be0db7c7430ebd258f2717a976381715d # $ grep -rn snd_lib_error_handler_t # include/error.h:59:typedef void (*snd_lib_error_handler_t)(const char *file, int line, const char *function, int err, const char *fmt, ...) /* __attribute__ ((format (printf, 5, 6))) */; # Define our error handler type ERROR_HANDLER_FUNC = CFUNCTYPE(None, c_char_p, c_int, c_char_p, c_int, c_char_p) def py_error_handler(filename, line, function, err, fmt): pass #print('messages are yummy') try: asound = cdll.LoadLibrary('libasound.so') # Set error handler c_error_handler = ERROR_HANDLER_FUNC(py_error_handler) asound.snd_lib_error_set_handler(c_error_handler) except OSError: pass #import sounddevice as sd #devices = sd.query_devices() #print(devices) def checkIfProcessRunning(processName): ''' Check if there is any running process that contains the given name processName. ''' #Iterate over the all the running process for proc in psutil.process_iter(): try: # Check if process name contains the given name string. if processName.lower() in proc.name().lower(): return True except (psutil.NoSuchProcess, psutil.AccessDenied, psutil.ZombieProcess): pass return False; f_name_directory = '%s/.sipclient/spool/playback' % Path.home() lock_file = '%s/.sipclient/spool/playback/playback.lock' % Path.home() class Recorder: chunk = 1024 channels = 1 stream = None recording_stream = None @staticmethod def rms(frame): SHORT_NORMALIZE = (1.0/32768.0) count = len(frame) / 2 format = "%dh" % (count) shorts = struct.unpack(format, frame) sum_squares = 0.0 for sample in shorts: n = sample * SHORT_NORMALIZE sum_squares += n * n rms = math.pow(sum_squares / count, 0.5) return rms * 1000 def __init__(self, target, options): self.p = pyaudio.PyAudio() info = self.p.get_host_api_info_by_index(0) numdevices = info.get('deviceCount') self.locks = set() self.target = target self.timeout_length = options.timeout self.rate = options.rate self.device = options.device self.min_rec_time = options.min_rec_time self.max_rec_time = options.max_rec_time self.external_lock_file = options.external_lock_file self.external_trigger_file = options.external_trigger_file self.level_lock_file = options.level_lock_file self.level_enable_file = options.level_enable_file self.quiet = options.quiet self.started_by_file = False self.started_by_level = False devices = {} devices_text = [] for i in range(0, numdevices): if (self.p.get_device_info_by_host_api_device_index(0, i).get('maxInputChannels')) > 0: devices[i] = self.p.get_device_info_by_host_api_device_index(0, i).get('name') if devices[i] == str(self.device): self.device = i elif str(i) == str(self.device): self.device = i devices_text.append("%s) %s" % (i, devices[i])) print('Available devices: %s' % ", ".join(devices_text)) try: print('Using audio device %s) %s at sample rate %d' % (self.device, devices[self.device], self.rate)) except KeyError: print('Non existent audio device') self.threshold = 0 if target == 'test' else options.threshold def start_recording_stream(self): if self.recording_stream: self.stop_recording_stream() self.stream.stop_stream() self.stream.close() self.stream = None self.recording_stream = self.p.open(format=pyaudio.paInt16, channels=self.channels, rate=self.rate, input=True, output=True, input_device_index=self.device, frames_per_buffer=self.chunk) def stop_recording_stream(self): self.recording_stream.stop_stream() self.recording_stream.close() self.recording_stream = None def listen(self): i = 0 while True: i = i + 1 if self.stream is None: self.stream = self.p.open(format=pyaudio.paInt16, channels=self.channels, rate=self.rate, input=True, output=True, input_device_index=self.device, frames_per_buffer=self.chunk) input = self.stream.read(self.chunk, exception_on_overflow = False) rms_val = self.rms(input) now = datetime.now().strftime('%Y-%m-%d %H:%M:%S') if os.path.exists(lock_file): if lock_file not in self.locks: print("%s - lock file %s present, listen paused" % (now, lock_file)) self.locks.add(lock_file) continue else: if lock_file in self.locks: print("%s - lock file %s absent" % (now, lock_file)) self.remove_lock(lock_file) if len(self.locks) == 0: print("%s - listen resumed" % now) if self.external_lock_file: if os.path.exists(self.external_lock_file): if self.external_lock_file not in self.locks: print("%s - external lock file %s present, listen paused" % (now, self.external_lock_file)) self.locks.add(self.external_lock_file) continue else: if self.external_lock_file in self.locks: print("%s - external lock file %s absent" % (now, self.external_lock_file)) self.remove_lock(self.external_lock_file) if len(self.locks) == 0: print("%s - listen resumed" % now) if self.level_lock_file: if os.path.exists(self.level_lock_file): if self.level_lock_file not in self.locks: print("%s - level lock file %s present, listen paused" % (now, self.level_lock_file)) self.locks.add(self.level_lock_file) continue else: if self.level_lock_file in self.locks: print("%s - level lock file %s absent" % (now, self.level_lock_file)) self.remove_lock(self.level_lock_file) if len(self.locks) == 0: print("%s - listen resumed" % now) if self.external_trigger_file: if os.path.exists(self.external_trigger_file): if not self.started_by_file: print('%s - recording by file %s' % (now, self.external_trigger_file)) self.started_by_file = True if self.threshold and not self.started_by_file: if self.level_enable_file: if not os.path.exists(self.level_enable_file): if self.level_enable_file not in self.locks: print("%s - level enable file %s missing, listen paused" % (now, self.level_enable_file)) self.locks.add(self.level_enable_file) print("%s - not listening, level %4d" % (now, rms_val), end='\r') continue else: if self.level_enable_file in self.locks: print("%s - level enable file %s present" % (now, self.level_enable_file)) self.remove_lock(self.level_enable_file) if len(self.locks) == 0: print("%s - listen resumed" % now) if rms_val >= self.threshold: #if not self.started_by_level: # print('%s - recording by level %3d > %d' % (now, rms_val, self.threshold)) self.started_by_level = True if self.started_by_level: self.record('level') elif self.started_by_file: self.record('file') else: if not self.quiet: if self.external_trigger_file: print("%s - listening, level %4d" % (now, rms_val), end='\r') else: if self.target == 'test': print("%s - listening, level %4d" % (now, rms_val), end='\r') else: print("%s - listening, level %4d < %4d" % (now, rms_val, self.threshold), end='\r') def remove_lock(self, lock): try: self.locks.remove(lock) except KeyError: pass def record(self, source=None): rec = [] current = time.time() end = time.time() + self.timeout_length start_time = current fst = 'festival' if checkIfProcessRunning(fst): now = datetime.now().strftime('%Y-%m-%d %H:%M:%S') self.started_by_file = False self.started_by_level = False return recording = False i = 0 rec_time = 0 self.start_recording_stream() now = datetime.now().strftime('%Y-%m-%d %H:%M:%S') print('%s - now recording by %s...' % (now, source)) if self.started_by_level: while current <= end: i = i + 1 data = self.recording_stream.read(self.chunk) rms_val = self.rms(data) now = datetime.now().strftime('%Y-%m-%d %H:%M:%S') if rms_val >= self.threshold: end = time.time() + self.timeout_length #if not recording: diff = time.time() - start_time if not self.quiet: print('%s - recording at level %3d for %.1f seconds' % (now, rms_val, diff), end='\r') recording = True current = time.time() rec.append(data) rec_time = time.time() - start_time if rec_time > self.max_rec_time: #print("%s - maximum recording time of %d seconds reached" % (now, rec_time)) break else: rec_time = time.time() - start_time - self.timeout_length if os.path.exists(lock_file): print("%s - lock file %s detected" % (now, lock_file)) break - if rec_time > self.min_rec_time: + if rec_time >= self.min_rec_time: self.write(b''.join(rec), rec_time) else: - if rec_time > 0: - print("%s - skip too short recording of %.1f seconds" % (now, rec_time)) - else: - print() + print("%s - skip too short recording of %.1f seconds" % (now, rec_time)) + return if self.started_by_file: while os.path.exists(self.external_trigger_file): i = i + 1 data = self.recording_stream.read(self.chunk) rms_val = self.rms(data) now = datetime.now().strftime('%Y-%m-%d %H:%M:%S') if not self.quiet: print('%s - recording by file at level %3d' % (now, rms_val), end='\r') recording = True current = time.time() rec.append(data) rec_time = time.time() - start_time - if rec_time > self.max_rec_time: + if self.max_rec_time and rec_time > self.max_rec_time: break if os.path.exists(lock_file): print("%s - lock file %s detected" % (now, lock_file)) break if rec_time: print("%s - recorded %.1f seconds" % (now, rec_time)) self.write(b''.join(rec), rec_time) self.started_by_file = False self.started_by_level = False def play(self, file): p = pyaudio.PyAudio() wf = wave.open(file, 'rb') stream = p.open( format = p.get_format_from_width(wf.getsampwidth()), channels = wf.getnchannels(), rate = wf.getframerate(), output = True ) data = wf.readframes(1024) while data != b'': stream.write(data) data = wf.readframes(1024) stream.close() p.terminate() def write(self, recording, duration): now = datetime.now().strftime('%Y-%m-%d %H:%M:%S') if os.path.exists(lock_file): print("%s - lock file %s present, skip file" % (now, lock_file)) return if self.external_lock_file and os.path.exists(self.external_lock_file): print("%s - external lock file %s present, skip file" % (now, self.external_lock_file)) return if self.level_lock_file and os.path.exists(self.level_lock_file): print("%s - level lock file %s present, skip file" % (now, self.level_lock_file)) return n_files = len(os.listdir(f_name_directory)) tmp_filename = os.path.join(f_name_directory, '%s.tmp' % self.target) wf = wave.open(tmp_filename, 'wb') wf.setnchannels(self.channels) wf.setsampwidth(self.p.get_sample_size(pyaudio.paInt16)) wf.setframerate(self.rate) wf.writeframes(recording) wf.close() filename = os.path.join(f_name_directory, '%s.wav' % self.target) os.rename(tmp_filename, filename) print('%s - saved %d seconds audio to %s' % (now, duration, filename)) if self.target == 'test': self.play(filename) def end(self): # Reset to default error handler self.p.terminate() asound.snd_lib_error_set_handler(None) if __name__ == '__main__': description = 'This script is a voice activate recorder that saves individual recording in the folder %s that is polled by sip-session to initiate an outgoing call and playback the file. The filename is in the format user@domain.wav. Use test argument to test audio level.' % f_name_directory usage = '%prog [options] [user@domain]' parser = OptionParser(usage=usage, description=description) parser.print_usage = parser.print_help os_type = platform.system() default_device = 'pulse' if os_type == 'Linux' else '1' parser.add_option('-r', '--sample_rate', type='int', default='16000', dest='rate', help='Audio sample rate') parser.add_option('-d', '--device', type='string', default=default_device, dest='device', help='Use selected input audio device') parser.add_option('-T', '--timeout', type='int', default=2, dest='timeout', help='Silence timeout to stop recording') parser.add_option('-m', '--min_rec_time', type='int', default=1, dest='min_rec_time', help='Minimum recording time to save recording') parser.add_option('-M', '--max_rec_time', type='int', default=5, dest='max_rec_time', help='Maximum recording time for each file') parser.add_option('-t', '--threshold', type='int', default=10, dest='threshold', help='Minimum signal level to start recording') parser.add_option('-l', '--level_lock_file', type='string', dest='level_lock_file', help='Skip level recording if file exists') parser.add_option('-L', '--level_enable_file', type='string', dest='level_enable_file', help='Enable level recording only if file exists') parser.add_option('-e', '--external_lock_file', type='string', dest='external_lock_file', help='Skip recording if file exists') parser.add_option('-E', '--external_trigger_file', type='string', dest='external_trigger_file', help='Start recording if file exists, regardless of level') parser.add_option('-q', '--quiet', action='store_true', dest='quiet', default=False, help='Minimize logging.') options, args = parser.parse_args() try: target = args[0] except IndexError: parser.print_help() sys.exit(1) try: a = Recorder(args[0], options) a.listen() except KeyboardInterrupt: a.end() print() sys.exit(0) except OSError as e: print("Error: %s" % str(e)) sys.exit(0)