# monitor_mihome.py 27/09/2015 D.J.Whale
#
# Monitor Energine MiHome sockets
import energenie
import Logger
import time
MY_SENSOR_ID = 0x68b # manually captured from a previous run
DUMMY_SENSOR_ID = 0x111 # for testing unknown messages
#----- TEST APPLICATION -------------------------------------------------------
if __name__ == "__main__":
print("starting monitor tester")
energenie.init()
#TESTING
# Manually seed the device registry and router with a known device address
purple = energenie.Devices.MIHO005(MY_SENSOR_ID)
energenie.registry.add(purple, "purple")
energenie.fsk_router.add((energenie.Devices.MFRID_ENERGENIE, energenie.Devices.PRODUCTID_MIHO005, MY_SENSOR_ID), purple)
def new_data(self, message):
print("new data for %s" % self)
message.dump()
Logger.logMessage(message)
purple.when_updated(new_data)
# Override the default unknown handler, so we can show data from unregistered devices
def unk(address, message):
print("Unknown device:%s" % str(hex(address[2])))
message.dump()
#TODO: add device to registry and to fsk_router table
#note: requires auto class create from product_id to be working first
Logger.logMessage(message)
energenie.fsk_router.handle_unknown = unk
#TODO: Provide a better callback registration scheme
##energenie.fsk_router.when_unknown(unk)
try:
while True:
#TESTING: build a synthetic message
msg = energenie.OpenThings.Message(energenie.Devices.MIHO005_REPORT)
msg[energenie.OpenThings.PARAM_VOLTAGE]["value"] = 240
#TESTING: Poke synthetic unknown into the router and let it route to unknown handler
msg.set(header_sensorid=DUMMY_SENSOR_ID)
energenie.fsk_router.handle_message(
(energenie.Devices.MFRID_ENERGENIE, energenie.Devices.PRODUCTID_MIHO005, DUMMY_SENSOR_ID), msg)
#TESTING: Poke synthetic known into the router and let it route to our class instance
msg.set(header_sensorid=MY_SENSOR_ID)
energenie.fsk_router.handle_message(
(energenie.Devices.MFRID_ENERGENIE, energenie.Devices.PRODUCTID_MIHO005, MY_SENSOR_ID), msg)
#TODO: Knit with real radio
# Process any received messages from the real radio
##energenie.loop()
print("voltage:%s" % purple.get_voltage())
time.sleep(1)
finally:
energenie.finished()
# END
David Whale