#!/usr/bin/env python3 # -*- coding: utf-8 -*- """ Slixmpp: The Slick XMPP Library Implementation of xeps for Internet of Things http://wiki.xmpp.org/web/Tech_pages/IoT_systems Copyright (C) 2013 Sustainable Innovation, Joachim.lindborg@sust.se This file is part of Slixmpp. See the file LICENSE for copying permission. """ import logging from os.path import basename, join as pjoin from argparse import ArgumentParser from urllib import urlopen from getpass import getpass import slixmpp from slixmpp.plugins.xep_0323.device import Device #from slixmpp.exceptions import IqError, IqTimeout class IoT_TestDevice(slixmpp.ClientXMPP): """ A simple IoT device that can act as server or client """ def __init__(self, jid, password): slixmpp.ClientXMPP.__init__(self, jid, password) self.add_event_handler("session_start", self.session_start) self.add_event_handler("message", self.message) self.device=None self.releaseMe=False self.beServer=True self.clientJID=None def datacallback(self,from_jid,result,nodeId=None,timestamp=None,fields=None,error_msg=None): """ This method will be called when you ask another IoT device for data with the xep_0323 se script below for the registration of the callback """ logging.debug("we got data %s from %s",str(result),from_jid) def beClientOrServer(self,server=True,clientJID=None ): if server: self.beServer=True self.clientJID=None else: self.beServer=False self.clientJID=clientJID def testForRelease(self): # todo thread safe return self.releaseMe def doReleaseMe(self): # todo thread safe self.releaseMe=True def addDevice(self, device): self.device=device def session_start(self, event): self.send_presence() self.get_roster() # tell your preffered friend that you are alive self.send_message(mto='jocke@jabber.sust.se', mbody=self.boundjid.bare +' is now online use xep_323 stanza to talk to me') if not(self.beServer): session=self['xep_0323'].request_data(self.boundjid.full,self.clientJID,self.datacallback) def message(self, msg): if msg['type'] in ('chat', 'normal'): logging.debug("got normal chat message" + str(msg)) ip=urlopen('http://icanhazip.com').read() msg.reply("Hi I am " + self.boundjid.full + " and I am on IP " + ip).send() else: logging.debug("got unknown message type %s", str(msg['type'])) class TheDevice(Device): """ This is the actual device object that you will use to get information from your real hardware You will be called in the refresh method when someone is requesting information from you """ def __init__(self,nodeId): Device.__init__(self,nodeId) self.counter=0 def refresh(self,fields): """ the implementation of the refresh method """ self._set_momentary_timestamp(self._get_timestamp()) self.counter+=self.counter self._add_field_momentary_data(self, "Temperature", self.counter) if __name__ == '__main__': # Setup the command line arguments. # # This script can act both as # "server" an IoT device that can provide sensorinformation # python IoT_TestDevice.py -j "serverjid@yourdomain.com" -p "password" -n "TestIoT" --debug # # "client" an IoT device or other party that would like to get data from another device parser = ArgumentParser() # Output verbosity options. parser.add_argument("-q", "--quiet", help="set logging to ERROR", action="store_const", dest="loglevel", const=logging.ERROR, default=logging.INFO) parser.add_argument("-d", "--debug", help="set logging to DEBUG", action="store_const", dest="loglevel", const=logging.DEBUG, default=logging.INFO) parser.add_argument("-t", "--pingto", help="set jid to ping", action="store", type="string", dest="pingjid", default=None) # JID and password options. parser.add_argument("-j", "--jid", dest="jid", help="JID to use") parser.add_argument("-p", "--password", dest="password", help="password to use") # IoT test parser.add_argument("-c", "--sensorjid", dest="sensorjid", help="Another device to call for data on", default=None) parser.add_argument("-n", "--nodeid", dest="nodeid", help="I am a device get ready to be called", default=None) args = parser.parse_args() # Setup logging. logging.basicConfig(level=args.loglevel, format='%(levelname)-8s %(message)s') if args.jid is None: args.jid = input("Username: ") if args.password is None: args.password = getpass("Password: ") xmpp = IoT_TestDevice(args.jid,args.password) xmpp.register_plugin('xep_0030') #xmpp['xep_0030'].add_feature(feature='urn:xmpp:iot:sensordata', # node=None, # jid=None) xmpp.register_plugin('xep_0323') xmpp.register_plugin('xep_0325') if args.nodeid: # xmpp['xep_0030'].add_feature(feature='urn:xmpp:sn', # node=args.nodeid, # jid=xmpp.boundjid.full) myDevice = TheDevice(args.nodeid); # myDevice._add_field(name="Relay", typename="numeric", unit="Bool"); myDevice._add_field(name="Temperature", typename="numeric", unit="C") myDevice._set_momentary_timestamp("2013-03-07T16:24:30") myDevice._add_field_momentary_data("Temperature", "23.4", flags={"automaticReadout": "true"}) xmpp['xep_0323'].register_node(nodeId=args.nodeid, device=myDevice, commTimeout=10); xmpp.beClientOrServer(server=True) while not(xmpp.testForRelease()): xmpp.connect() xmpp.process(block=True) logging.debug("lost connection") if args.sensorjid: logging.debug("will try to call another device for data") xmpp.beClientOrServer(server=False,clientJID=args.sensorjid) xmpp.connect() xmpp.process(block=True) logging.debug("ready ending") else: print("noopp didn't happen")