def main(): global outputFile, directory try: opts, args = getopt.getopt(sys.argv[1:],"ho:",["output="]) except getopt.GetoptError: print '%s -o <outputfile>' % sys.argv[0] sys.exit(2) for opt, arg in opts: if opt == '-h': print '%s -o <outputfile>' % sys.argv[0] sys.exit() elif opt in ("-o", "--output"): outputFile = arg if outputFile == None: print "No output file specified, output to console." radio.init() OpenThings.init(Devices.CRYPT_PID) try: dumpDirectory() monitor_loop() finally: radio.finished() directory = {"__META": {"time": int(time.time())}} dumpDirectory()
def close(self): '''Closes connection''' radio.finished()
Registry.update(decoded) ##trace(decoded) Logger.logMessage(decoded) # Process any JOIN messages by sending back a JOIN-ACK to turn the LED off if len(decoded["recs"]) == 0: # handle messages with zero recs in them silently print("Empty record:%s" % decoded) else: # assume only 1 rec in a join, for now if decoded["recs"][0]["paramid"] == OpenThings.PARAM_JOIN: mfrid = OpenThings.getFromMessage(decoded, "header_mfrid") productid = OpenThings.getFromMessage(decoded, "header_productid") sensorid = OpenThings.getFromMessage(decoded, "header_sensorid") Messages.send_join_ack(radio, mfrid, productid, sensorid) if __name__ == "__main__": trace("starting monitor tester") radio.init() OpenThings.init(Devices.CRYPT_PID) try: monitor_loop() finally: radio.finished() # END
def sigterm_handler(_signo, _stack_frame): radio.finished() directory = {"__META": {"time": int(time.time())}} dumpDirectory() sys.exit(0)
if __name__ == "__main__": trace("starting switch tester") radio.init() OpenThings.init(Devices.CRYPT_PID) # Seed the registry with a known device, to simplify tx-only testing SENSOR_ID = 0x68B # captured from a real device device_header = OpenThings.alterMessage( Messages.REGISTERED_SENSOR, header_mfrid=Devices.MFRID, header_productid=Devices.PRODUCTID_MIHO005, # adaptor plus header_sensorid=SENSOR_ID) Registry.update(device_header) sendSwitchTimer = Timer(TX_RATE, 1) # every n seconds offset by initial 1 switch_state = 0 # OFF radio.receiver() try: while True: switch_sniff_loop() switch_toggle_loop() finally: radio.finished() # END