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pyenergenie / src / energenie / Registry_test.py
# Registry_Test.py  21/05/2016  D.J.Whale
#
# Test harness for the Registry

#TODO: need a way to separate device creation from device restoration
#and the app needs to know what mode it is in.
#creation is probably just a test feature, as a user would either
#install the device, configure it, or learn it.


import unittest
from Registry import *
import radio
from lifecycle import *

radio.DEBUG=True

class TestRegistry(unittest.TestCase):

    @test_1
    def test_create(self):
        registry = DeviceRegistry("registry.kvs")

        # add some devices to the registry, it should auto update the file
        registry.add(Devices.MIHO005(device_id=0x68b), "tv")
        #TODO: Need to have a way to get the persistent summary of a device class
        #Perhaps in Device(), LegacyDevice() and MiHomeDevice() it does this for us
        #and returns a map we can just persist and create from later?

        ##registry.add(Devices.ENER002(device_id=(0xC8C8C, 1)), "fan")

        # see what the file looks like
        with open(registry.DEFAULT_FILENAME) as f:
            for l in f.readlines():
                l = l.strip() # remove nl
                print(l)

    @test_0
    def test_load(self):
        pass #TODO
        # load from a persisted registry
        # list the registry in memory
        # see that each item is instantiated and has a route

    @test_0
    def test_load_into(self):
        pass #TODO
        # load from a persisted registry
        # load_into some context
        # make sure all the loaded context variables point to the right thing






#TODO: This is not realy a registry tester, it's a device class/router tester??
class Dis:
##class TestRegistry(unittest.TestCase):
    def setUp(self):
        # seed the registry
        registry.add(Devices.MIHO005(device_id=0x68b), "tv")
        registry.add(Devices.ENER002(device_id=(0xC8C8C, 1)), "fan")

        # test the auto create mechanism
        registry.auto_create(self)

    @test_0
    def test_capabilities(self):
        print("tv switch:%s"  % self.tv.has_switch())
        print("tv send:%s"    % self.tv.can_send())
        print("tv receive:%s" % self.tv.can_receive())

        print("fan switch:%s"  % self.fan.has_switch())
        print("fan send:%s"    % self.fan.can_send())
        print("fan receive:%s" % self.fan.can_receive())

    @test_0
    def test_ook_tx(self):
        """Test the transmit pipeline"""

        self.fan.turn_on()
        self.fan.turn_off()

    @test_0
    def test_fsk_tx(self):
        """Test the transmit pipeline for MiHome FSK devices"""

        self.tv.turn_on()
        self.tv.turn_off()

    @test_0
    def test_fsk_rx(self):
        """Test the receive pipeline for FSK MiHome adaptor"""

        #synthesise receiving a report message
        #push it down the receive pipeline
        #radio.receive()
        # ->OpenThingsAirInterface.incoming
        # ->OpenThings.decrypt
        # ->OpenThings.decode
        # ->OpenThingsAirInterface->route
        # ->MIHO005.incoming_message()
        #
        #it should update voltage, power etc
        ## poor mans incoming synthetic message


        report = OpenThings.Message(Devices.MIHO005_REPORT)
        report.set(recs_VOLTAGE_value=240,
                   recs_CURRENT_value=2,
                   recs_FREQUENCY_value=50,
                   recs_REAL_POWER_value=100,
                   recs_REACTIVE_POWER_value=0,
                   recs_APPARENT_POWER_value=100)
        self.tv.incoming_message(report)

        # get readings from device
        voltage   = self.tv.get_voltage()
        frequency = self.tv.get_frequency()
        power     = self.tv.get_real_power()
        switch    = self.tv.is_on()

        print("voltage %f"    % voltage)
        print("frequency %f"  % frequency)
        print("real power %f" % power)
        print("switch %s"     % switch)



UNKNOWN_SENSOR_ID = 0x111

#TODO: Due to use of the fsk_router and registry instances,
#these tests will not run back to back yet. Have to run them one at a time.

class TestDiscovery(unittest.TestCase):
    def setUp(self):
        # build a synthetic message
        self.msg = OpenThings.Message(Devices.MIHO005_REPORT)
        self.msg[OpenThings.PARAM_VOLTAGE]["value"] = 240

    @test_0
    def test_discovery_none(self):
        discovery_none()

        # Poke synthetic unknown into the router and let it route to unknown handler
        self.msg.set(header_sensorid=UNKNOWN_SENSOR_ID)
        fsk_router.incoming_message(
            (Devices.MFRID_ENERGENIE, Devices.PRODUCTID_MIHO005, UNKNOWN_SENSOR_ID), self.msg)

        # expect unknown handler to fire

    @test_0
    def test_discovery_auto(self):
        discovery_auto()

        # Poke synthetic unknown into the router and let it route to unknown handler
        self.msg.set(header_sensorid=UNKNOWN_SENSOR_ID)
        fsk_router.incoming_message(
            (Devices.MFRID_ENERGENIE, Devices.PRODUCTID_MIHO005, UNKNOWN_SENSOR_ID), self.msg)

        # expect auto accept logic to fire
        registry.list()
        fsk_router.list()

    @test_0
    def test_discovery_ask(self):
        def yes(a,b): return True
        def no(a,b):  return False

        discovery_ask(no)

        # Poke synthetic unknown into the router and let it route to unknown handler
        self.msg.set(header_sensorid=UNKNOWN_SENSOR_ID)
        fsk_router.incoming_message(
            (Devices.MFRID_ENERGENIE, Devices.PRODUCTID_MIHO005, UNKNOWN_SENSOR_ID), self.msg)

        # expect a reject

        discovery_ask(yes)

        # Poke synthetic unknown into the router and let it route to unknown handler
        self.msg.set(header_sensorid=UNKNOWN_SENSOR_ID)
        fsk_router.incoming_message(
            (Devices.MFRID_ENERGENIE, Devices.PRODUCTID_MIHO005, UNKNOWN_SENSOR_ID), self.msg)

        # expect a accept
        registry.list()
        fsk_router.list()

    @test_0
    def test_discovery_autojoin(self):
        discovery_autojoin()

        # Poke synthetic unknown JOIN into the router and let it route to unknown handler
        msg = Devices.MIHO005.get_join_req(UNKNOWN_SENSOR_ID)

        fsk_router.incoming_message(
            (Devices.MFRID_ENERGENIE, Devices.PRODUCTID_MIHO005, UNKNOWN_SENSOR_ID), msg)

        # expect auto accept and join_ack logic to fire
        registry.list()
        fsk_router.list()

    @test_0
    def test_discovery_askjoin(self):
        def no(a,b): return False
        def yes(a,b): return True

        discovery_askjoin(no)

        # Poke synthetic unknown JOIN into the router and let it route to unknown handler
        msg = Devices.MIHO005.get_join_req(UNKNOWN_SENSOR_ID)
        fsk_router.incoming_message(
            (Devices.MFRID_ENERGENIE, Devices.PRODUCTID_MIHO005, UNKNOWN_SENSOR_ID), msg)

        # expect reject
        registry.list()
        fsk_router.list()

        discovery_askjoin(yes)

        fsk_router.incoming_message(
            (Devices.MFRID_ENERGENIE, Devices.PRODUCTID_MIHO005, UNKNOWN_SENSOR_ID), msg)

        # expect auto accept and join_ack logic to fire
        registry.list()
        fsk_router.list()


if __name__ == "__main__":
    import OpenThings
    OpenThings.init(Devices.CRYPT_PID)

    unittest.main()

# END