sintonia/python_apps/pypo/pypofetch.py

486 lines
19 KiB
Python

import os
import sys
import time
import calendar
import logging
import logging.config
import shutil
import random
import string
import json
import telnetlib
import math
import socket
from threading import Thread
from subprocess import Popen, PIPE
from datetime import datetime
from datetime import timedelta
import filecmp
# For RabbitMQ
from kombu.connection import BrokerConnection
from kombu.messaging import Exchange, Queue, Consumer, Producer
from kombu.exceptions import MessageStateError
from api_clients import api_client
from configobj import ConfigObj
# configure logging
logging.config.fileConfig("logging.cfg")
# loading config file
try:
config = ConfigObj('/etc/airtime/pypo.cfg')
LS_HOST = config['ls_host']
LS_PORT = config['ls_port']
POLL_INTERVAL = int(config['poll_interval'])
except Exception, e:
logger = logging.getLogger()
logger.error('Error loading config file: %s', e)
sys.exit()
class PypoFetch(Thread):
def __init__(self, q):
Thread.__init__(self)
logger = logging.getLogger('fetch')
self.api_client = api_client.api_client_factory(config)
self.set_export_source('scheduler')
self.queue = q
self.schedule_data = []
logger.info("PypoFetch: init complete")
def init_rabbit_mq(self):
logger = logging.getLogger('fetch')
logger.info("Initializing RabbitMQ stuff")
try:
schedule_exchange = Exchange("airtime-pypo", "direct", durable=True, auto_delete=True)
schedule_queue = Queue("pypo-fetch", exchange=schedule_exchange, key="foo")
self.connection = BrokerConnection(config["rabbitmq_host"], config["rabbitmq_user"], config["rabbitmq_password"], "/")
channel = self.connection.channel()
consumer = Consumer(channel, schedule_queue)
consumer.register_callback(self.handle_message)
consumer.consume()
except Exception, e:
logger.error(e)
return False
return True
"""
Handle a message from RabbitMQ, put it into our yucky global var.
Hopefully there is a better way to do this.
"""
def handle_message(self, body, message):
try:
logger = logging.getLogger('fetch')
logger.info("Received event from RabbitMQ: " + message.body)
m = json.loads(message.body)
command = m['event_type']
logger.info("Handling command: " + command)
if command == 'update_schedule':
self.schedule_data = m['schedule']
self.process_schedule(self.schedule_data, "scheduler", False)
elif command == 'update_stream_setting':
logger.info("Updating stream setting...")
self.regenerateLiquidsoapConf(m['setting'])
elif command == 'cancel_current_show':
logger.info("Cancel current show command received...")
self.stop_current_show()
except Exception, e:
logger.error("Exception in handling RabbitMQ message: %s", e)
finally:
# ACK the message to take it off the queue
try:
message.ack()
except MessageStateError, m:
logger.error("Message ACK error: %s", m)
def stop_current_show(self):
logger = logging.getLogger('fetch')
logger.debug('Notifying Liquidsoap to stop playback.')
try:
tn = telnetlib.Telnet(LS_HOST, LS_PORT)
tn.write('source.skip\n')
tn.write('exit\n')
tn.read_all()
except Exception, e:
logger.debug(e)
logger.debug('Could not connect to liquidsoap')
def regenerateLiquidsoapConf(self, setting):
logger = logging.getLogger('fetch')
existing = {}
# create a temp file
fh = open('/etc/airtime/liquidsoap.cfg', 'r')
logger.info("Reading existing config...")
# read existing conf file and build dict
while 1:
line = fh.readline()
if not line:
break
line = line.strip()
if line.find('#') == 0:
continue
# if empty line
if not line:
continue
key, value = line.split('=')
key = key.strip()
value = value.strip()
value = value.replace('"', '')
if value == "" or value == "0":
value = ''
existing[key] = value
fh.close()
# dict flag for any change in cofig
change = {}
# this flag is to detect diable -> disable change
# in that case, we don't want to restart even if there are chnges.
state_change_restart = {}
#restart flag
restart = False
logger.info("Looking for changes...")
# look for changes
for s in setting:
if "output_sound_device" in s[u'keyname'] or "icecast_vorbis_metadata" in s[u'keyname']:
dump, stream = s[u'keyname'].split('_', 1)
state_change_restart[stream] = False
# This is the case where restart is required no matter what
if (existing[s[u'keyname']] != s[u'value']):
logger.info("'Need-to-restart' state detected for %s...", s[u'keyname'])
restart = True;
else:
stream, dump = s[u'keyname'].split('_',1)
if "_output" in s[u'keyname']:
if (existing[s[u'keyname']] != s[u'value']):
logger.info("'Need-to-restart' state detected for %s...", s[u'keyname'])
restart = True;
state_change_restart[stream] = True
elif ( s[u'value'] != 'disabled'):
state_change_restart[stream] = True
else:
state_change_restart[stream] = False
else:
# setting inital value
if stream not in change:
change[stream] = False
if not (s[u'value'] == existing[s[u'keyname']]):
logger.info("Keyname: %s, Curent value: %s, New Value: %s", s[u'keyname'], existing[s[u'keyname']], s[u'value'])
change[stream] = True
# set flag change for sound_device alway True
logger.info("Change:%s, State_Change:%s...", change, state_change_restart)
for k, v in state_change_restart.items():
if k == "sound_device" and v:
restart = True
elif v and change[k]:
logger.info("'Need-to-restart' state detected for %s...", k)
restart = True
# rewrite
if restart:
fh = open('/etc/airtime/liquidsoap.cfg', 'w')
logger.info("Rewriting liquidsoap.cfg...")
fh.write("################################################\n")
fh.write("# THIS FILE IS AUTO GENERATED. DO NOT CHANGE!! #\n")
fh.write("################################################\n")
for d in setting:
buffer = d[u'keyname'] + " = "
if(d[u'type'] == 'string'):
temp = d[u'value']
if(temp == ""):
temp = ""
buffer += "\"" + temp + "\""
else:
temp = d[u'value']
if(temp == ""):
temp = "0"
buffer += temp
buffer += "\n"
fh.write(buffer)
fh.write("log_file = \"/var/log/airtime/pypo-liquidsoap/<script>.log\"\n");
fh.close()
# restarting pypo.
# we could just restart liquidsoap but it take more time somehow.
logger.info("Restarting pypo...")
#p = Popen("/etc/init.d/airtime-playout restart >/dev/null 2>&1", shell=True)
#sts = os.waitpid(p.pid, 0)[1]
sys.exit()
self.process_schedule(self.schedule_data, "scheduler", False)
else:
logger.info("No change detected in setting...")
def set_export_source(self, export_source):
logger = logging.getLogger('fetch')
self.export_source = export_source
self.cache_dir = config["cache_dir"] + self.export_source + '/'
logger.info("Creating cache directory at %s", self.cache_dir)
"""
Process the schedule
- Reads the scheduled entries of a given range (actual time +/- "prepare_ahead" / "cache_for")
- Saves a serialized file of the schedule
- playlists are prepared. (brought to liquidsoap format) and, if not mounted via nsf, files are copied
to the cache dir (Folder-structure: cache/YYYY-MM-DD-hh-mm-ss)
- runs the cleanup routine, to get rid of unused cached files
"""
def process_schedule(self, schedule_data, export_source, bootstrapping):
logger = logging.getLogger('fetch')
playlists = schedule_data["playlists"]
# Push stream metadata to liquidsoap
# TODO: THIS LIQUIDSOAP STUFF NEEDS TO BE MOVED TO PYPO-PUSH!!!
stream_metadata = schedule_data['stream_metadata']
try:
logger.info(LS_HOST)
logger.info(LS_PORT)
tn = telnetlib.Telnet(LS_HOST, LS_PORT)
#encode in latin-1 due to telnet protocol not supporting utf-8
tn.write(('vars.stream_metadata_type %s\n' % stream_metadata['format']).encode('latin-1'))
tn.write(('vars.station_name %s\n' % stream_metadata['station_name']).encode('latin-1'))
tn.write('exit\n')
tn.read_all()
except Exception, e:
logger.error("Exception %s", e)
status = 0
# Download all the media and put playlists in liquidsoap "annotate" format
try:
liquidsoap_playlists = self.prepare_playlists(playlists, bootstrapping)
except Exception, e: logger.error("%s", e)
# Send the data to pypo-push
scheduled_data = dict()
scheduled_data['liquidsoap_playlists'] = liquidsoap_playlists
scheduled_data['schedule'] = playlists
scheduled_data['stream_metadata'] = schedule_data["stream_metadata"]
self.queue.put(scheduled_data)
# cleanup
try: self.cleanup(self.export_source)
except Exception, e: logger.error("%s", e)
"""
In this function every audio file is cut as necessary (cue_in/cue_out != 0)
and stored in a playlist folder.
file is e.g. 2010-06-23-15-00-00/17_cue_10.132-123.321.mp3
"""
def prepare_playlists(self, playlists, bootstrapping):
logger = logging.getLogger('fetch')
liquidsoap_playlists = dict()
# Dont do anything if playlists is empty
if not playlists:
logger.debug("Schedule is empty.")
return liquidsoap_playlists
scheduleKeys = sorted(playlists.iterkeys())
try:
for pkey in scheduleKeys:
logger.info("Playlist starting at %s", pkey)
playlist = playlists[pkey]
# create playlist directory
try:
os.mkdir(self.cache_dir + str(pkey))
except Exception, e:
logger.warning(e)
ls_playlist = self.handle_media_file(playlist, pkey, bootstrapping)
liquidsoap_playlists[pkey] = ls_playlist
except Exception, e:
logger.error("%s", e)
return liquidsoap_playlists
"""
Download and cache the media files.
This handles both remote and local files.
Returns an updated ls_playlist string.
"""
def handle_media_file(self, playlist, pkey, bootstrapping):
logger = logging.getLogger('fetch')
ls_playlist = []
dtnow = datetime.today()
str_tnow_s = dtnow.strftime('%Y-%m-%d-%H-%M-%S')
sortedKeys = sorted(playlist['medias'].iterkeys())
for key in sortedKeys:
media = playlist['medias'][key]
logger.debug("Processing track %s", media['uri'])
if bootstrapping:
start = media['start']
end = media['end']
if end <= str_tnow_s:
continue
elif start <= str_tnow_s and str_tnow_s < end:
#song is currently playing and we just started pypo. Maybe there
#was a power outage? Let's restart playback of this song.
start_split = map(int, start.split('-'))
media_start = datetime(start_split[0], start_split[1], start_split[2], start_split[3], start_split[4], start_split[5])
logger.debug("Found media item that started at %s.", media_start)
delta = dtnow - media_start #we get a TimeDelta object from this operation
logger.info("Starting media item at %d second point", delta.seconds)
media['cue_in'] = delta.seconds + 10
td = timedelta(seconds=10)
playlist['start'] = (dtnow + td).strftime('%Y-%m-%d-%H-%M-%S')
logger.info("Crash detected, setting playlist to restart at %s", (dtnow + td).strftime('%Y-%m-%d-%H-%M-%S'))
fileExt = os.path.splitext(media['uri'])[1]
try:
dst = "%s%s/%s%s" % (self.cache_dir, pkey, media['id'], fileExt)
# download media file
self.handle_remote_file(media, dst)
if True == os.access(dst, os.R_OK):
# check filesize (avoid zero-byte files)
try: fsize = os.path.getsize(dst)
except Exception, e:
logger.error("%s", e)
fsize = 0
if fsize > 0:
pl_entry = \
'annotate:export_source="%s",media_id="%s",liq_start_next="%s",liq_fade_in="%s",liq_fade_out="%s",liq_cue_in="%s",liq_cue_out="%s",schedule_table_id="%s":%s' \
% (media['export_source'], media['id'], 0, \
float(media['fade_in']) / 1000, \
float(media['fade_out']) / 1000, \
float(media['cue_in']), \
float(media['cue_out']), \
media['row_id'], dst)
"""
Tracks are only added to the playlist if they are accessible
on the file system and larger than 0 bytes.
So this can lead to playlists shorter than expectet.
(there is a hardware silence detector for this cases...)
"""
entry = dict()
entry['type'] = 'file'
entry['annotate'] = pl_entry
entry['show_name'] = playlist['show_name']
ls_playlist.append(entry)
else:
logger.warning("zero-size file - skipping %s. will not add it to playlist at %s", media['uri'], dst)
else:
logger.warning("something went wrong. file %s not available. will not add it to playlist", dst)
except Exception, e: logger.info("%s", e)
return ls_playlist
"""
Download a file from a remote server and store it in the cache.
"""
def handle_remote_file(self, media, dst):
logger = logging.getLogger('fetch')
if os.path.isfile(dst):
pass
#logger.debug("file already in cache: %s", dst)
else:
logger.debug("try to download %s", media['uri'])
self.api_client.get_media(media['uri'], dst)
"""
Cleans up folders in cache_dir. Look for modification date older than "now - CACHE_FOR"
and deletes them.
"""
def cleanup(self, export_source):
logger = logging.getLogger('fetch')
offset = 3600 * int(config["cache_for"])
now = time.time()
for r, d, f in os.walk(self.cache_dir):
for dir in d:
try:
timestamp = calendar.timegm(time.strptime(dir, "%Y-%m-%d-%H-%M-%S"))
if (now - timestamp) > offset:
try:
logger.debug('trying to remove %s - timestamp: %s', os.path.join(r, dir), timestamp)
shutil.rmtree(os.path.join(r, dir))
except Exception, e:
logger.error("%s", e)
pass
else:
logger.info('sucessfully removed %s', os.path.join(r, dir))
except Exception, e:
logger.error(e)
def main(self):
logger = logging.getLogger('fetch')
try: os.mkdir(self.cache_dir)
except Exception, e: pass
# Bootstrap: since we are just starting up, we need to grab the
# most recent schedule. After that we can just wait for updates.
status, self.schedule_data = self.api_client.get_schedule()
if status == 1:
logger.info("Bootstrap schedule received: %s", self.schedule_data)
self.process_schedule(self.schedule_data, "scheduler", True)
logger.info("Bootstrap complete: got initial copy of the schedule")
while not self.init_rabbit_mq():
logger.error("Error connecting to RabbitMQ Server. Trying again in few seconds")
time.sleep(5)
loops = 1
while True:
logger.info("Loop #%s", loops)
try:
# Wait for messages from RabbitMQ. Timeout if we
# dont get any after POLL_INTERVAL.
self.connection.drain_events(timeout=POLL_INTERVAL)
status = 1
except socket.timeout, se:
# We didnt get a message for a while, so poll the server
# to get an updated schedule.
status, self.schedule_data = self.api_client.get_schedule()
except Exception, e:
"""
This Generic exception is thrown whenever the RabbitMQ
Service is stopped. In this case let's check every few
seconds to see if it has come back up
"""
logger.info("Exception, %s", e)
return
#return based on the exception
if status == 1:
self.process_schedule(self.schedule_data, "scheduler", False)
loops += 1
"""
Main loop of the thread:
Wait for schedule updates from RabbitMQ, but in case there arent any,
poll the server to get the upcoming schedule.
"""
def run(self):
while True:
self.main()