# -*- coding: utf-8 -*- ############################################################################### from logging import getLogger import websocket from json import loads import xml.etree.ElementTree as etree from threading import Thread from ssl import CERT_NONE from xbmc import sleep from utils import window, settings, thread_methods from companion import process_command import state import variables as v ############################################################################### log = getLogger("PLEX."+__name__) ############################################################################### class WebSocket(Thread): opcode_data = (websocket.ABNF.OPCODE_TEXT, websocket.ABNF.OPCODE_BINARY) def __init__(self, callback=None): if callback is not None: self.mgr = callback self.ws = None Thread.__init__(self) def process(self, opcode, message): raise NotImplementedError def receive(self, ws): # Not connected yet if ws is None: raise websocket.WebSocketConnectionClosedException frame = ws.recv_frame() if not frame: raise websocket.WebSocketException("Not a valid frame %s" % frame) elif frame.opcode in self.opcode_data: return frame.opcode, frame.data elif frame.opcode == websocket.ABNF.OPCODE_CLOSE: ws.send_close() return frame.opcode, None elif frame.opcode == websocket.ABNF.OPCODE_PING: ws.pong("Hi!") return None, None def getUri(self): raise NotImplementedError def run(self): log.info("----===## Starting %s ##===----" % self.__class__.__name__) counter = 0 handshake_counter = 0 thread_stopped = self.thread_stopped thread_suspended = self.thread_suspended while not thread_stopped(): # In the event the server goes offline while thread_suspended(): # Set in service.py if self.ws is not None: try: self.ws.shutdown() except: pass self.ws = None if thread_stopped(): # Abort was requested while waiting. We should exit log.info("##===---- %s Stopped ----===##" % self.__class__.__name__) return sleep(1000) try: self.process(*self.receive(self.ws)) except websocket.WebSocketTimeoutException: # No worries if read timed out pass except websocket.WebSocketConnectionClosedException: log.info("%s: connection closed, (re)connecting" % self.__class__.__name__) uri, sslopt = self.getUri() try: # Low timeout - let's us shut this thread down! self.ws = websocket.create_connection( uri, timeout=1, sslopt=sslopt, enable_multithread=True) except IOError: # Server is probably offline log.info("%s: Error connecting" % self.__class__.__name__) self.ws = None counter += 1 if counter > 3: counter = 0 self.IOError_response() sleep(1000) except websocket.WebSocketTimeoutException: log.info("%s: Timeout while connecting, trying again" % self.__class__.__name__) self.ws = None sleep(1000) except websocket.WebSocketException as e: log.info('%s: WebSocketException: %s' % (self.__class__.__name__, e)) if ('Handshake Status 401' in e.args or 'Handshake Status 403' in e.args): handshake_counter += 1 if handshake_counter >= 5: log.info('%s: Error in handshake detected. ' 'Stopping now' % self.__class__.__name__) break self.ws = None sleep(1000) except Exception as e: log.error('%s: Unknown exception encountered when ' 'connecting: %s' % (self.__class__.__name__, e)) import traceback log.error("%s: Traceback:\n%s" % (self.__class__.__name__, traceback.format_exc())) self.ws = None sleep(1000) else: counter = 0 handshake_counter = 0 except Exception as e: log.error("%s: Unknown exception encountered: %s" % (self.__class__.__name__, e)) import traceback log.error("%s: Traceback:\n%s" % (self.__class__.__name__, traceback.format_exc())) try: self.ws.shutdown() except: pass self.ws = None log.info("##===---- %s Stopped ----===##" % self.__class__.__name__) def stopThread(self): """ Overwrite this method from thread_methods to close websockets """ log.info("Stopping %s thread." % self.__class__.__name__) self.__threadStopped = True try: self.ws.shutdown() except: pass @thread_methods(add_suspends=['SUSPEND_LIBRARY_THREAD']) class PMS_Websocket(WebSocket): """ Websocket connection with the PMS for Plex Companion """ def getUri(self): server = window('pms_server') # Get the appropriate prefix for the websocket if server.startswith('https'): server = "wss%s" % server[5:] else: server = "ws%s" % server[4:] uri = "%s/:/websockets/notifications" % server # Need to use plex.tv token, if any. NOT user token if state.PLEX_TOKEN: uri += '?X-Plex-Token=%s' % state.PLEX_TOKEN sslopt = {} if settings('sslverify') == "false": sslopt["cert_reqs"] = CERT_NONE log.debug("%s: Uri: %s, sslopt: %s" % (self.__class__.__name__, uri, sslopt)) return uri, sslopt def process(self, opcode, message): if opcode not in self.opcode_data: return try: message = loads(message) except ValueError: log.error('%s: Error decoding message from websocket' % self.__class__.__name__) log.error(message) return try: message = message['NotificationContainer'] except KeyError: log.error('%s: Could not parse PMS message: %s' % (self.__class__.__name__, message)) return # Triage typus = message.get('type') if typus is None: log.error('%s: No message type, dropping message: %s' % (self.__class__.__name__, message)) return log.debug('%s: Received message from PMS server: %s' % (self.__class__.__name__, message)) # Drop everything we're not interested in if typus not in ('playing', 'timeline', 'activity'): return elif typus == 'activity' and state.DB_SCAN is True: # Only add to processing if PKC is NOT doing a lib scan (and thus # possibly causing these reprocessing messages en mass) log.debug('%s: Dropping message as PKC is currently synching' % self.__class__.__name__) else: # Put PMS message on queue and let libsync take care of it state.WEBSOCKET_QUEUE.put(message) def IOError_response(self): log.warn("Repeatedly could not connect to PMS, " "declaring the connection dead") window('plex_online', value='false') class Alexa_Websocket(WebSocket): """ Websocket connection to talk to Amazon Alexa. Can't use thread_methods! """ __thread_stopped = False __thread_suspended = False def getUri(self): uri = ('wss://pubsub.plex.tv/sub/websockets/%s/%s?X-Plex-Token=%s' % (state.PLEX_USER_ID, v.PKC_MACHINE_IDENTIFIER, state.PLEX_TOKEN)) sslopt = {} log.debug("%s: Uri: %s, sslopt: %s" % (self.__class__.__name__, uri, sslopt)) return uri, sslopt def process(self, opcode, message): if opcode not in self.opcode_data: return log.debug('%s: Received the following message from Alexa:' % self.__class__.__name__) log.debug('%s: %s' % (self.__class__.__name__, message)) try: message = etree.fromstring(message) except Exception as ex: log.error('%s: Error decoding message from Alexa: %s' % (self.__class__.__name__, ex)) return try: if message.attrib['command'] == 'processRemoteControlCommand': message = message[0] else: log.error('%s: Unknown Alexa message received' % self.__class__.__name__) return except: log.error('%s: Could not parse Alexa message' % self.__class__.__name__) return process_command(message.attrib['path'][1:], message.attrib) def IOError_response(self): pass # Path in thread_methods def stop_thread(self): self.__thread_stopped = True def suspend_thread(self): self.__thread_suspended = True def resume_thread(self): self.__thread_suspended = False def thread_stopped(self): if self.__thread_stopped is True: return True if state.STOP_PKC: return True return False # The culprit def thread_suspended(self): """ Overwrite method since we need to check for plex token """ if self.__thread_suspended is True: return True if not state.PLEX_TOKEN: return True if state.RESTRICTED_USER: return True return False