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@ -21,11 +21,13 @@
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import getpass
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import logging
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import sys
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from optparse import OptionParser
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import socket
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from urllib import urlopen
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import sleekxmpp
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from sleekxmpp.exceptions import IqError, IqTimeout
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# Python versions before 3.0 do not use UTF-8 encoding
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# by default. To ensure that Unicode is handled properly
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# throughout SleekXMPP, we will set the default encoding
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@ -36,44 +38,56 @@ if sys.version_info < (3, 0):
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else:
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raw_input = input
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from sleekxmpp.plugins.xep_0323.device import Device
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# from sleekxmpp.plugins.xep_0323.device import Device
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PRINT_HEADER_LENGTH = 40
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class IoT_TestDevice(sleekxmpp.ClientXMPP):
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"""
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A simple IoT device that can act as server or client
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A simple IoT device that can act as client
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This script can act as a "client" an IoT device or other party that would like to get data from
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another device.
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Setup the command line arguments.
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python xmpp_client.py -j "bob@yourdomain.com" -p "password" -c "alice@yourdomain.com/device1" {--[debug|quiet]}
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python xmpp_client.py -j "bob@127.0.0.1" -p "password" -c "alice@127.0.0.1/device1" {--[debug|quiet]}
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"""
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def __init__(self, jid, password):
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def __init__(self, jid, password, sensorjid):
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sleekxmpp.ClientXMPP.__init__(self, jid, password)
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self.add_event_handler("session_start", self.session_start)
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self.add_event_handler("message", self.message)
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self.device=None
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self.releaseMe=False
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self.beServer=True
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self.clientJID=None
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self.target_jid = sensorjid
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#self.beServer=True
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#self.clientJID=None
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def datacallback(self,from_jid,result,nodeId=None,timestamp=None,fields=None,error_msg=None):
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def datacallback(self, from_jid, result, nodeId=None, timestamp=None, fields=None,
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error_msg=None):
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"""
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This method will be called when you ask another IoT device for data with the xep_0323
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se script below for the registration of the callback
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"""
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logging.info("we got data %s from %s",str(result),from_jid)
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logging.debug("we got data %s from %s", str(result), from_jid)
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if(result=="fields"):
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logging.info("===========Fields===========")
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logging.info(fields)
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logging.info("============================")
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header = 'XEP 302 Sensor Data'
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logging.info('-' * PRINT_HEADER_LENGTH)
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gap = ' '* ((PRINT_HEADER_LENGTH - len(header)) / 2)
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logging.info(gap + header)
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logging.info('-' * PRINT_HEADER_LENGTH)
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logging.debug("RECV:"+str(fields))
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if len(fields) > 0:
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logging.info("Name\tType\tUnit\tValue")
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logging.info("Name\t\tType\tValue\tUnit")
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for field in fields:
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logging.info(field["name"] + "\t" + field["typename"] + "\t" + field["unit"] + "\t" +field["value"])
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logging.info(" - " + field["name"] + "\t" + field["typename"] + "\t" + field["value"] + "\t" + field["unit"])
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logging.info('-' * PRINT_HEADER_LENGTH)
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self.disconnect()
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print field["value"]
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logging.info("============================")
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sys.exit(0)
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def beClientOrServer(self,server=True,clientJID=None ):
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self.beServer=False
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self.clientJID=clientJID
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def testForRelease(self):
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# todo thread safe
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@ -89,40 +103,72 @@ class IoT_TestDevice(sleekxmpp.ClientXMPP):
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def session_start(self, event):
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self.send_presence()
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self.get_roster()
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# tell your preffered friend that you are alive
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# tell your preffered friend that you are alive using generic xmpp chat protocol
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#self.send_message(mto='jocke@jabber.sust.se', mbody=self.boundjid.bare +' is now online use xep_323 stanza to talk to me')
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logging.debug("----------|Trying to connect|-----------");
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session=self['xep_0323'].request_data(self.boundjid.full,self.clientJID,self.datacallback,flags={"momentary": "true"})
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#-------------------------------------------------------------------------------------------
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# Service Discovery
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#-------------------------------------------------------------------------------------------
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try:
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# By using block=True, the result stanza will be
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# returned. Execution will block until the reply is
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# received. Non-blocking options would be to listen
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# for the disco_info event, or passing a handler
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# function using the callback parameter.
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info = self['xep_0030'].get_info(jid=self.target_jid,
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node=None,
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block=True)
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except IqError as e:
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logging.error("Entity returned an error: %s" % e.iq['error']['condition'])
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except IqTimeout:
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logging.error("No response received.")
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else:
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header = 'XMPP Service Discovery'
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logging.info('-' * PRINT_HEADER_LENGTH)
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gap = ' '* ((PRINT_HEADER_LENGTH - len(header)) / 2)
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logging.info(gap + header)
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logging.info('-' * PRINT_HEADER_LENGTH)
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logging.info("Device: %s" % self.target_jid)
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for feature in info['disco_info']['features']:
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logging.info(' - %s' % feature)
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#-------------------------------------------------------------------------------------------
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# Requesting data through XEP0323
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#-------------------------------------------------------------------------------------------
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session = self['xep_0323'].request_data(self.boundjid.full, self.target_jid,
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self.datacallback, flags={"momentary": "true"})
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def message(self, msg):
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if msg['type'] in ('chat', 'normal'):
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logging.debug("got normal chat message" + str(msg))
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ip=urlopen('http://icanhazip.com').read()
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msg.reply("Hi I am " + self.boundjid.full + " and I am on IP " + ip).send()
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ipPublic = urlopen('http://icanhazip.com').read()
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ipSocket = socket.gethostbyname(socket.gethostname())
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msg.reply("Hi I am " + self.boundjid.full + " and I am on IP " + ipSocket + " use xep_323 stanza to talk to me").send()
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else:
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logging.debug("got unknown message type %s", str(msg['type']))
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class TheDevice(Device):
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"""
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This is the actual device object that you will use to get information from your real hardware
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You will be called in the refresh method when someone is requesting information from you
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"""
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def __init__(self,nodeId):
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Device.__init__(self,nodeId)
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self.counter=0
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def refresh(self,fields):
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"""
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the implementation of the refresh method
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"""
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#self._set_momentary_timestamp(self._get_timestamp())
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self.counter+=1
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#self._add_field_momentary_data(self, "Temperature", self.counter)
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self._add_field(name="Temperature", typename="numeric", unit="C")
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self._set_momentary_timestamp(self._get_timestamp())
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self._add_field_momentary_data("Temperature", str(self.counter), flags={"automaticReadout": "true"})
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# class TheDevice(Device):
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# """
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# This is the actual device object that you will use to get information from your real hardware
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# You will be called in the refresh method when someone is requesting information from you
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# """
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# def __init__(self,nodeId):
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# Device.__init__(self,nodeId)
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# self.counter=0
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#
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# def refresh(self,fields):
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# """
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# the implementation of the refresh method
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# """
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# #self._set_momentary_timestamp(self._get_timestamp())
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# self.counter+=1
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# #self._add_field_momentary_data(self, "Temperature", self.counter)
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#
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# self._add_field(name="Temperature", typename="numeric", unit="C")
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# self._set_momentary_timestamp(self._get_timestamp())
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# self._add_field_momentary_data("Temperature", str(self.counter), flags={"automaticReadout": "true"})
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if __name__ == '__main__':
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@ -168,25 +214,25 @@ if __name__ == '__main__':
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if opts.jid is None:
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#opts.jid = raw_input("Username: ")
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opts.jid = "admin@192.168.57.129/raspi"
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opts.jid = "admin@204.232.188.215/raspi"
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if opts.password is None:
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opts.password = "admin"
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opts.password = "wso2iot123"
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#opts.password = getpass.getpass("Password: ")
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if opts.sensorjid is None:
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opts.sensorjid = "1hrud08yceu01@192.168.57.129/raspi"
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opts.sensorjid = "1hrdqr4r2ymhy@204.232.188.215/raspi"
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#opts.sensorjid = getpass.getpass("Sensor JID: ")
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xmpp = IoT_TestDevice(opts.jid,opts.password)
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#-------------------------------------------------------------------------------------------
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# Starting XMPP with XEP0030, XEP0323, XEP0325
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#-------------------------------------------------------------------------------------------
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xmpp = IoT_TestDevice(opts.jid, opts.password, opts.sensorjid)
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xmpp.register_plugin('xep_0030')
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#xmpp['xep_0030'].add_feature(feature='urn:xmpp:iot:sensordata',
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# node=None,
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# jid=None)
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xmpp.register_plugin('xep_0323')
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xmpp.register_plugin('xep_0325')
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if opts.sensorjid:
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logging.debug("will try to call another device for data")
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xmpp.beClientOrServer(server=False,clientJID=opts.sensorjid)
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# xmpp.beClientOrServer(server=False,clientJID=opts.sensorjid)
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xmpp.connect()
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xmpp.process(block=True)
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logging.debug("ready ending")
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