import telnetlib from timeout import ls_timeout def create_liquidsoap_annotation(media): # We need liq_start_next value in the annotate. That is the value that controls overlap duration of crossfade. filename = media['dst'] annotation = ('annotate:media_id="%s",liq_start_next="0",liq_fade_in="%s",' + \ 'liq_fade_out="%s",liq_cue_in="%s",liq_cue_out="%s",' + \ 'schedule_table_id="%s",replay_gain="%s dB"') % \ (media['id'], float(media['fade_in']) / 1000, float(media['fade_out']) / 1000, float(media['cue_in']), float(media['cue_out']), media['row_id'], media['replay_gain']) # Override the the artist/title that Liquidsoap extracts from a file's metadata # with the metadata we get from Airtime. (You can modify metadata in Airtime's library, # which doesn't get saved back to the file.) if 'metadata' in media: if 'artist_name' in media['metadata']: annotation += ',artist="%s"' % (media['metadata']['artist_name']) if 'track_title' in media['metadata']: annotation += ',title="%s"' % (media['metadata']['track_title']) annotation += ":" + filename return annotation class TelnetLiquidsoap: def __init__(self, telnet_lock, logger, ls_host, ls_port, queues): self.telnet_lock = telnet_lock self.ls_host = ls_host self.ls_port = ls_port self.logger = logger self.queues = queues self.current_prebuffering_stream_id = None def __connect(self): return telnetlib.Telnet(self.ls_host, self.ls_port) def __is_empty(self, queue_id): return True tn = self.__connect() msg = '%s.queue\nexit\n' % queue_id tn.write(msg) output = tn.read_all().splitlines() if len(output) == 3: return len(output[0]) == 0 else: raise Exception("Unexpected list length returned: %s" % output) @ls_timeout def queue_clear_all(self): try: self.telnet_lock.acquire() tn = self.__connect() for i in self.queues: msg = 'queues.%s_skip\n' % i self.logger.debug(msg) tn.write(msg) tn.write("exit\n") self.logger.debug(tn.read_all()) except Exception: raise finally: self.telnet_lock.release() @ls_timeout def queue_remove(self, queue_id): try: self.telnet_lock.acquire() tn = self.__connect() msg = 'queues.%s_skip\n' % queue_id self.logger.debug(msg) tn.write(msg) tn.write("exit\n") self.logger.debug(tn.read_all()) except Exception: raise finally: self.telnet_lock.release() @ls_timeout def queue_push(self, queue_id, media_item): try: self.telnet_lock.acquire() if not self.__is_empty(queue_id): raise QueueNotEmptyException() tn = self.__connect() annotation = create_liquidsoap_annotation(media_item) msg = '%s.push %s\n' % (queue_id, annotation.encode('utf-8')) self.logger.debug(msg) tn.write(msg) show_name = media_item['show_name'] msg = 'vars.show_name %s\n' % show_name.encode('utf-8') tn.write(msg) self.logger.debug(msg) tn.write("exit\n") self.logger.debug(tn.read_all()) except Exception: raise finally: self.telnet_lock.release() @ls_timeout def stop_web_stream_buffer(self): try: self.telnet_lock.acquire() tn = telnetlib.Telnet(self.ls_host, self.ls_port) #dynamic_source.stop http://87.230.101.24:80/top100station.mp3 msg = 'http.stop\n' self.logger.debug(msg) tn.write(msg) msg = 'dynamic_source.id -1\n' self.logger.debug(msg) tn.write(msg) tn.write("exit\n") self.logger.debug(tn.read_all()) except Exception, e: self.logger.error(str(e)) finally: self.telnet_lock.release() @ls_timeout def stop_web_stream_output(self): try: self.telnet_lock.acquire() tn = telnetlib.Telnet(self.ls_host, self.ls_port) #dynamic_source.stop http://87.230.101.24:80/top100station.mp3 msg = 'dynamic_source.output_stop\n' self.logger.debug(msg) tn.write(msg) tn.write("exit\n") self.logger.debug(tn.read_all()) except Exception, e: self.logger.error(str(e)) finally: self.telnet_lock.release() @ls_timeout def start_web_stream(self, media_item): try: self.telnet_lock.acquire() tn = telnetlib.Telnet(self.ls_host, self.ls_port) #TODO: DO we need this? msg = 'streams.scheduled_play_start\n' tn.write(msg) msg = 'dynamic_source.output_start\n' self.logger.debug(msg) tn.write(msg) tn.write("exit\n") self.logger.debug(tn.read_all()) self.current_prebuffering_stream_id = None except Exception, e: self.logger.error(str(e)) finally: self.telnet_lock.release() @ls_timeout def start_web_stream_buffer(self, media_item): try: self.telnet_lock.acquire() tn = telnetlib.Telnet(self.ls_host, self.ls_port) msg = 'dynamic_source.id %s\n' % media_item['row_id'] self.logger.debug(msg) tn.write(msg) msg = 'http.restart %s\n' % media_item['uri'].encode('latin-1') self.logger.debug(msg) tn.write(msg) tn.write("exit\n") self.logger.debug(tn.read_all()) self.current_prebuffering_stream_id = media_item['row_id'] except Exception, e: self.logger.error(str(e)) finally: self.telnet_lock.release() @ls_timeout def get_current_stream_id(self): try: self.telnet_lock.acquire() tn = telnetlib.Telnet(self.ls_host, self.ls_port) msg = 'dynamic_source.get_id\n' self.logger.debug(msg) tn.write(msg) tn.write("exit\n") stream_id = tn.read_all().splitlines()[0] self.logger.debug("stream_id: %s" % stream_id) return stream_id except Exception, e: self.logger.error(str(e)) finally: self.telnet_lock.release() @ls_timeout def disconnect_source(self, sourcename): self.logger.debug('Disconnecting source: %s', sourcename) command = "" if(sourcename == "master_dj"): command += "master_harbor.kick\n" elif(sourcename == "live_dj"): command += "live_dj_harbor.kick\n" try: self.telnet_lock.acquire() tn = telnetlib.Telnet(self.ls_host, self.ls_port) self.logger.info(command) tn.write(command) tn.write('exit\n') tn.read_all() except Exception, e: self.logger.error(traceback.format_exc()) finally: self.telnet_lock.release() @ls_timeout def telnet_send(self, commands): try: self.telnet_lock.acquire() tn = telnetlib.Telnet(self.ls_host, self.ls_port) for i in commands: self.logger.info(i) tn.write(i) tn.write('exit\n') tn.read_all() except Exception, e: self.logger.error(str(e)) finally: self.telnet_lock.release() def switch_source(self, sourcename, status): self.logger.debug('Switching source: %s to "%s" status', sourcename, status) command = "streams." if sourcename == "master_dj": command += "master_dj_" elif sourcename == "live_dj": command += "live_dj_" elif sourcename == "scheduled_play": command += "scheduled_play_" if status == "on": command += "start\n" else: command += "stop\n" self.telnet_send([command]) class DummyTelnetLiquidsoap: def __init__(self, telnet_lock, logger): self.telnet_lock = telnet_lock self.liquidsoap_mock_queues = {} self.logger = logger for i in range(4): self.liquidsoap_mock_queues["s"+str(i)] = [] @ls_timeout def queue_push(self, queue_id, media_item): try: self.telnet_lock.acquire() self.logger.info("Pushing %s to queue %s" % (media_item, queue_id)) from datetime import datetime print "Time now: %s" % datetime.utcnow() annotation = create_liquidsoap_annotation(media_item) self.liquidsoap_mock_queues[queue_id].append(annotation) except Exception: raise finally: self.telnet_lock.release() @ls_timeout def queue_remove(self, queue_id): try: self.telnet_lock.acquire() self.logger.info("Purging queue %s" % queue_id) from datetime import datetime print "Time now: %s" % datetime.utcnow() except Exception: raise finally: self.telnet_lock.release() class QueueNotEmptyException(Exception): pass