Пример #1
0
 def setUp(self):
     
     root = resource.CoAPResource()
     text = TextResource()
     root.putChild('text', text)
     server_endpoint = resource.Endpoint(root)
     self.server_protocol = coap.Coap(server_endpoint)
     
     client_endpoint = resource.Endpoint(None)
     self.client_protocol = coap.Coap(client_endpoint)
     
     self.server_transport = FakeTwoWayDatagramTransport(recipient=self.client_protocol, address=SERVER_ADDRESS, port=SERVER_PORT)
     self.client_transport = FakeTwoWayDatagramTransport(recipient=self.server_protocol, address=CLIENT_ADDRESS, port=CLIENT_PORT)
     
     self.client_protocol.transport = self.client_transport
     self.server_protocol.transport = self.server_transport
Пример #2
0
def main():
    serverThread=threading.Thread(target=startServer,args=(host,port,))
    serverThread.start()
    serverThread.join()
    # Resource tree creation
    log.startLogging(sys.stdout)
    root = resource.CoAPResource()
    well_known = resource.CoAPResource()
    root.putChild('.well-known', well_known)
    core = CoreResource(root)
    well_known.putChild('core', core)
    #counter = CounterResource(5000)
    #root.putChild('counter', counter)
    #time = TimeResource()
    #root.putChild('time', time)
    #other = resource.CoAPResource()
    #root.putChild('other', other)
    data = BlockResource()
    root.putChild('Node', data)
    cmd = BlockResource()
    root.putChild('CMD',cmd )
    #separate = SeparateLargeResource()
    #other.putChild('separate', separate)
    print("between")
    endpoint = resource.Endpoint(root)
    reactor.listenUDP(coap.COAP_PORT, coap.Coap(endpoint)) #, interface="::")
    reactor.run()
    print("at the end ")
Пример #3
0
 def CANCEL_OBSERVE(self, to_node, uri, token, callback):
     protocol = coap.Coap(resource.Endpoint(None))
     ver = netaddr.IPAddress(to_node.ip).version
     if ver == 6:
         reactor.listenUDP(0, protocol, interface='::')
     else:
         reactor.listenUDP(0, protocol)
     tmp = uri.split('?')
     for req in self.observers[to_node]:
         tmp_path = ""
         first_item = True
         for x in req.opt.uri_path:
             if not first_item:
                 tmp_path += "/"
             tmp_path += x
             first_item = False
         if len(tmp) > 0 and tmp_path == tmp[0]:
             req.opt.observe = 1
             requester = coap.Requester(protocol,
                                        req,
                                        observeCallback=None,
                                        block1Callback=None,
                                        block2Callback=None,
                                        observeCallbackArgs=None,
                                        block1CallbackArgs=None,
                                        block2CallbackArgs=None,
                                        observeCallbackKeywords=None,
                                        block1CallbackKeywords=None,
                                        block2CallbackKeywords=None)
             if callback is not None:
                 requester.deferred.addCallback(callback)
             self.forget(token)
Пример #4
0
def main():
    """
	Just start all 3 protos
	"""

    # WS listener
    ws_factory = WebSocketServerFactory(u"ws://52.34.209.113:8000")
    ws_factory.protocol = WSProto
    reactor.listenTCP(8000, ws_factory)

    # MQTT listener
    mqtt_factory = MQTTFactory(profile=MQTTFactory.SUBSCRIBER)
    mqtt_endpoint = clientFromString(reactor, BROKER)
    mqtt_serv = MQTTProto(mqtt_endpoint, mqtt_factory)
    mqtt_serv.startService()

    # CoAP listener
    coap_root = resource.CoAPResource()
    coap_ovh = CoAPProto()
    coap_root.putChild('test', coap_ovh)
    coap_endpoint = resource.Endpoint(coap_root)
    reactor.listenUDP(coap.COAP_PORT, coap.Coap(coap_endpoint))

    # run the program
    reactor.run()
Пример #5
0
def main(host='127.0.0.1', port=5684, uri='sensorReading2', payload='OFF'):
    log.startLogging(sys.stdout)
    endpoint = resource.Endpoint(None)
    protocol = coap.Coap(endpoint)
    client = SensorAgent(protocol, host, port, uri, payload)
    reactor.listenUDP(61648, protocol)
    reactor.run()
def main(num=None):
    if num is None:
        num = random.randint(1,3)
    endpoint = resource.Endpoint(None)
    protocol = coap.Coap(endpoint)
    client = SensorAgent(protocol, str(num), os.environ['rmt_host'], 5684)
    reactor.listenUDP(61617, protocol)
    reactor.run()
Пример #7
0
def main(num=None):
    if num is None:
        num = random.randint(1,3)
    endpoint = resource.Endpoint(None)
    protocol = coap.Coap(endpoint)
    client = SensorAgent(protocol, '127.0.0.1', '5683', 'reading1', 'WORKING', str(num))
    reactor.listenUDP(61651, protocol)
    reactor.run()
Пример #8
0
 def __init__(self, host, port, uri):
     self.host = host
     self.port = port
     self.uri = uri
     endpoint = resource.Endpoint(None)
     protocol = coap.Coap(endpoint)
     self.protocol = protocol
     reactor.listenUDP(61661, protocol)
     reactor.callLater(0, self.requestResource)
Пример #9
0
def simulate_to_sensor(host='127.0.0.1',
                       port=5683,
                       uri='reading',
                       payload='OFF'):
    log.startLogging(sys.stdout)
    endpoint = resource.Endpoint(None)
    protocol = coap.Coap(endpoint)
    client = SensorAgent(protocol, host, port, uri, payload)
    reactor.listenUDP(61619, protocol)
    reactor.run()
 def processResponse(self, response):
     print 'Sensor Address Obtained: ' + response.payload
     import json
     json_obj = json.loads(str(response.payload))
     host = json_obj['host']
     port = int(json_obj['port'])
     uri = json_obj['uri']
     endpoint = resource.Endpoint(None)
     protocol = coap.Coap(endpoint)
     client = SensorAgent(protocol, host, port, uri)
     print colored(  'Establishing the connection to the sensor', 'red',)
Пример #11
0
    def build(self):
        self.remote_ip = self.config.get("OSD_RGBW_Led_App", "IP")
        self.send_coap = True
        self.dont_change = False
        self.need_to_set_leds = None

        endpoint = resource.Endpoint(None)
        self.protocol = coap.Coap(endpoint)
        reactor.listenUDP(0, self.protocol, interface="::0")

        self.turned_off = False
        self.root = RGBW_Led_Widget()

        self.COLORS = eval(self.config.get("OSD_RGBW_Led_App", "COLORS"))
        print self.COLORS

        for btn in self.root.buttoncontainer.children:
            idx = btn.idx
            val = self.COLORS.get(idx)
            if val:
                # set button background
                red, green, blue, white, bri = val
                bri = bri / 255.0
                red = int(red * bri)
                green = int(green * bri)
                blue = int(blue * bri)
                #                white = int (white * bri)
                btn.color_set = True
                with btn.canvas.before:
                    Color \
                        ( red / 255.0
                        , green / 255.0
                        , blue / 255.0
                        , 1
                        )
            else:
                with btn.canvas.before:
                    Color \
                        ( 32
                        , 32
                        , 32
                        , 1
                        )

        self.root.switch.bind(active=self.color_changed)

        self.root.status.text = "fetching current color ..."
        self.prepare_request(method=coap.GET)

        return self.root
Пример #12
0
 def run(self):
     if self.flag_alive:
         logg.info('CoapListerner is running')
         print 'CoapListerner is running'
         self.endpoint = resource.Endpoint(self.root)
         reactor.listenUDP(self.port, coap.Coap(self.endpoint))
         Thread(target=reactor.run,
                name="CoapListerner_Thread",
                args=(False, )).start()
         while self.flag_alive:
             time.sleep(100)
         logg.info("Thread exits: %s" % str(self.name))
     else:
         logg.info("Thread exits: %s" % str(self.name))
Пример #13
0
    def start(self):
        # Resource tree creation
        log.startLogging(sys.stdout)
        root = resource.CoAPResource()

        well_known = resource.CoAPResource()
        root.putChild('.well-known', well_known)
        core = Coap2Xively.CoreResource(root)
        well_known.putChild('core', core)

        post = Coap2Xively.xivelyGatewayResource()
        root.putChild('postSensorData', post)

        endpoint = resource.Endpoint(root)
        reactor.listenUDP(coap.COAP_PORT,
                          coap.Coap(endpoint))  #, interface="::")
        reactor.run()
        print "DONE"
Пример #14
0
def main():

    # start log to the console
    log.startLogging(sys.stdout)

    # Resource tree creation
    # coap://<host>:<port>
    root = resource.CoAPResource()

    # coap://<host>:<port>/.well-known
    well_known = resource.CoAPResource()
    root.putChild('.well-known', well_known)

    # coap://<host>:<port>/core
    core = CoreResource(root)
    well_known.putChild('core', core)

    # coap://<host>:<port>/time
    time = TimeResource()
    root.putChild('time', time)

    # ---------------------------------------------------------------------- #
    # sensors root URL
    # coap://<host>:<port>/sensors
    sensors = resource.CoAPResource()
    root.putChild('sensors', sensors)

    # sensors child URL
    # coap://<host>:<port>/sensors/register
    #register = RegistryResource()
    #sensors.putChild('register', register)

    # sensors dynamic URL
    # coap://<host>:<port>/sensors/dht/<temperature/humidity>
    dynamic_url = DynamicURLResource()
    sensors.putChild('dht', dynamic_url)
    # /--------------------------------------------------------------------- #

    endpoint = resource.Endpoint(root)

    reactor.listenUDP(coap.COAP_PORT, coap.Coap(endpoint))  # , interface="::")
    reactor.run()
Пример #15
0
    def __init__(self, ip_port, name=None, simulator=None):
        super(CoapSimulator, self).__init__(name=name)
        str_list = ip_port.split(':')
        self.ip = str(str_list[0])
        if str_list[1] == "" or str_list[1] == None:
            logg.error("No port is specified!")
            self.port = coap.COAP_PORT
        else:
            self.port = int(str_list[1])
        logg.debug("coap_init:{0}:{1}".format(self.ip, self.port))
        self.simulator = simulator

        #log.startLogging(sys.stdout)
        self.endpoint = resource.Endpoint(None)
        self.protocol = coap.Coap(self.endpoint)
        self.client = Agent(self.protocol, self.ip, self.port)

        logg.debug("CoapSimulator is initialized")
        print "CoapSimulator is initialized"
        self.flag_alive = True
        self.start()
Пример #16
0
    def build(self):
        # Resource tree creation
        root = resource.CoAPResource()

        well_known = resource.CoAPResource()
        root.putChild('.well-known', well_known)
        core = CoreResource(root)
        well_known.putChild('core', core)

        counter = MOTDResource(self, 0)
        root.putChild('motd', counter)

        endpoint = resource.Endpoint(root)
        reactor.listenUDP(coap.COAP_PORT, coap.Coap(endpoint))

        # Kivy screen initialization
        self.label = Label(text="")
        self.display_counter(0)
        self.messagebox = TextInput(size_hint_y=.1, multiline=False)
        self.messagebox.text = "Message of the day"
        self.layout = BoxLayout(orientation='vertical', padding=10)
        self.layout.add_widget(self.label)
        self.layout.add_widget(self.messagebox)
        return self.layout
Пример #17
0
    @staticmethod
    def printResponse(response):
        print 'CoAP result: ' + response.payload

    @staticmethod
    def noResponse(failure):
        print 'Failed to fetch resource:%s' % failure


if __name__ == '__main__':
    if len(sys.argv) == 3:
        addr = sys.argv[1]
        url = sys.argv[2]
    else:
        print 'Usage : %s <IP address> <url>' % sys.argv[0]
        print 'The url argument should not start with a "/", but use'
        print '"/" characters to separate later portions'
        sys.exit(1)

    log.startLogging(sys.stdout)

    endpoint = resource.Endpoint(None)
    protocol = coap.Coap(endpoint)
    client = CoapClient(addr, url)

    reactor.listenUDP(61616, protocol)

    # Run the Twisted event loop
    reactor.run()
Пример #18
0
        return defer.succeed(response)


# Resource tree creation
log.startLogging(sys.stdout)
root = resource.CoAPResource()

###IOT addition
pause = PauseResource()
root.putChild('pause', pause)

play = PlayResource()
root.putChild('play', play)

stop = StopResource()
root.putChild('stop', stop)

addToQueue = addToQueueResource()
root.putChild('add', addToQueue)

repResource = RepeatResource()
root.putChild('repeat', repResource)

skip = SkipResource()
root.putChild('skip', skip)
###

endpoint = resource.Endpoint(root)
reactor.listenUDP(coap.COAP_PORT, coap.Coap(endpoint))  #, interface="::")
reactor.run()
Пример #19
0
        response = coap.Message(code=coap.CHANGED, payload=payload)
        return defer.succeed(response)


# Resource tree creation
log.startLogging(sys.stdout)
root = resource.CoAPResource()

well_known = resource.CoAPResource()
root.putChild('.well-known', well_known)

core = CoreResource(root)
well_known.putChild('core', core)

###################

lamp1 = Lamp("1")
root.putChild('lamp1', lamp1)

#lamp2 = Lamp("2")
#root.putChild('lamp2',lamp2)

#lamp3 = Lamp("3")
#root.putChild('lamp3',lamp3)
##################

endpoint = resource.Endpoint(root)
reactor.listenUDP(coap.COAP_PORT, coap.Coap(endpoint), interface="10.1.0.20")
reactor.run()
Пример #20
0
    def request(self, to_node, operation, uri, token, callback, payload=None):
        if not payload:
            payload = ''
        tmp = uri.split('?')
        if operation == coap.OBSERVE and to_node in self.observers:
            for req in self.observers[to_node]:
                tmp_path = ""
                first_item = True
                for x in req.opt.uri_path:
                    if not first_item:
                        tmp_path += "/"
                    tmp_path += x
                    first_item = False
                if len(tmp) > 0 and tmp_path == tmp[0]:
                    return

        request = coap.Message(
            mtype=coap.CON,
            code=operation if operation != coap.OBSERVE else coap.GET,
            token=token,
            payload=payload)
        request.opt.uri_path = tmp[0].split('/')
        if len(tmp) == 2:
            request.opt.uri_query = tmp[1].split('&')
        request.remote = (to_node.ip, to_node.port)
        #request.opt.accept = coap.media_types_rev['application/json']
        #request.opt.content_format = coap.media_types_rev['application/json']
        protocol = coap.Coap(resource.Endpoint(None))
        ver = netaddr.IPAddress(to_node.ip).version
        if ver == 6:
            reactor.listenUDP(0, protocol, interface='::')
        else:
            reactor.listenUDP(0, protocol)
        if operation == coap.OBSERVE:
            request.opt.observe = 0
            requester = coap.Requester(protocol,
                                       request,
                                       observeCallback=callback,
                                       block1Callback=None,
                                       block2Callback=None,
                                       observeCallbackArgs=None,
                                       block1CallbackArgs=None,
                                       block2CallbackArgs=None,
                                       observeCallbackKeywords=None,
                                       block1CallbackKeywords=None,
                                       block2CallbackKeywords=None)
            if to_node not in self.observers:
                self.observers[to_node] = [request]
            else:
                self.observers[to_node] += [request]
        else:
            requester = coap.Requester(protocol,
                                       request,
                                       observeCallback=None,
                                       block1Callback=None,
                                       block2Callback=None,
                                       observeCallbackArgs=None,
                                       block1CallbackArgs=None,
                                       block2CallbackArgs=None,
                                       observeCallbackKeywords=None,
                                       block1CallbackKeywords=None,
                                       block2CallbackKeywords=None)
        if callback is not None:
            requester.deferred.addCallback(callback)
        self.tickets[requester.app_request.token] = token
        self.start()
Пример #21
0
 def create_protocol(self):
     endpoint = resource.Endpoint(None)
     self.protocol = coap.Coap(endpoint)
     reactor.listenUDP(60000, self.protocol)  #, interface="::")
    def render_GET(self, request):
        data = []
        self.root.generateResourceList(data, "")
        payload = ",".join(data)
        print payload
        response = coap.Message(code=coap.CONTENT, payload=payload)
        response.opt.content_format = coap.media_types_rev[
            'application/link-format']
        return defer.succeed(response)


if __name__ == '__main__':
    log.startLogging(sys.stdout)
    root = resource.CoAPResource()

    well_known = resource.CoAPResource()
    root.putChild('.well-known', well_known)
    core = CoreResource(root)
    well_known.putChild('core', core)

    temperature_resouce = TempResource()
    root.putChild('temperature', temperature_resouce)

    endpoint = resource.Endpoint(root)

    # Listen on default CoAP port 5683
    reactor.listenUDP(coap.COAP_PORT, coap.Coap(endpoint))

    # Run Twister'd event loop
    reactor.run()
def main():  # pragma: no cover
    server_ip = None
    server_port = None
    api_key = None
    device_id = None
    event_type = None
    endpoint = resource.Endpoint(None)
    protocol = coap.Coap(endpoint)

    try:
        opts, args = getopt.getopt(sys.argv[1:], "he:", ["help", "event="])
    except getopt.GetoptError as err:
        # print help information and exit:
        print str(err)  # will print something like "option -a not recognized"
        usage()
        sys.exit(2)
    for o, a in opts:
        if o in ("-e", "--event"):
            event_type = a
        elif o in ("-h", "--help"):
            usage()
            sys.exit()
        else:
            usage()
            sys.exit(2)

    if event_type is None:
        print "Event type must be specified"
        usage()
        sys.exit(2)

    if conf.COAP_SERVER_IP is not None:
        server_ip = conf.COAP_SERVER_IP
    else:
        server_ip = "127.0.0.1"
        print 'Can\'t read COAP_SERVER_IP from opengate_config.py using default value ' + server_ip

    if conf.COAP_SERVER_PORT is not None:
        server_port = conf.COAP_SERVER_PORT
    else:
        server_port = 56830
        print 'Can\'t read COAP_SERVER_IP from opengate_config.py using default value ' + str(
            server_port)

    if conf.API_KEY is not None:
        api_key = conf.API_KEY
    else:
        print 'Can\'t read API_KEY from opengate_config.py'
        sys.exit(2)

    if conf.DEFAULT_DEVICE_ID is not None:
        device_id = conf.DEFAULT_DEVICE_ID
    else:
        try:
            DEVICE_ID_FILE = open('.device_id', 'r')
            device_id = DEVICE_ID_FILE.read().strip()
        except IOError:
            print 'Can\'t read device_id file neither from .device_id file nor opengate_config.py'
            sys.exit(2)

    path = "v80/devices/"
    payload = None
    command = coap.POST
    if event_type == "DMM":
        path = path + "collect/dmm"
        payload = json.dumps(getDmmPayload(device_id), indent=2)
    elif event_type == "IOT":
        path = path + "collect/iot"
        payload = json.dumps(getIotPayload(device_id), indent=2)
    elif event_type == "ALARM":
        path = path + "events/alarms"
        payload = json.dumps(getAlarmPayload(device_id), indent=2)
    elif event_type == "TEST":
        path = path + "test"
        command = coap.GET
    else:
        print "Event type " + event_type + " not recognized"
        usage()
        sys.exit(2)

    reactor.callLater(1, requestResource, protocol, command, server_ip,
                      server_port, api_key, path, payload, device_id)

    reactor.listenUDP(61617, protocol)  # , interface="::")
    reactor.run()
Пример #24
0
    get the total resource usage of an agent 
    """

    return agents_dic[ session_id ]["detail_agents"][agent_address_port]["total_resource_usage"]

def get_detail_agents_service_name( session_id, agent_address_port ):
    """
    get the service name related to the agent 
    """

    return agents_dic[ session_id ]["detail_agents"][agent_address_port]["service_name"]
#----------------------------------------------------------------------
# Metering Proxy Coap class
#----------------------------------------------------------------------  
endpoint = resource.Endpoint(None)
protocol_coap = coap.Coap(endpoint)

class MeteringPrxCoap:
    """
    The coap metering proxy class
    """

    def __init__(self, ptr, metering, transport, req_avps,
                 req_type, agentDic, agent_host,
                 agent_port = coap.COAP_PORT ):
        self.ptr = ptr
        self.transport = transport
        self.avps = req_avps
        self.metering = metering
        self.agentDic = agentDic
        self.agent_host = agent_host