Beispiel #1
0
 def deviceInfo(self):
     # Unpack the deviceInfo dictionary into keyword arguments so that we
     # can return a DeviceInfo object instead of a plain dictionary
     if "deviceInfo" in self:
         return DeviceInfo(**self["deviceInfo"])
     else:
         return DeviceInfo()
Beispiel #2
0
    def testCreateAndUpdate1Device(self, deviceType):
        deviceUid = DeviceCreateRequest(
            typeId=deviceType.id, 
            deviceId=str(uuid.uuid4()), 
            authToken="NotVerySecretPassw0rd",
            deviceInfo=DeviceInfo(serialNumber="123", descriptiveLocation="Floor 3, Room 2")
        )
        
        assert deviceUid.authToken == "NotVerySecretPassw0rd"
        assert deviceUid.location is None
        assert deviceUid.metadata is None

        deviceCreateResponse = self.appClient.registry.devices.create(deviceUid)

        assert deviceCreateResponse.typeId == deviceUid.typeId
        assert deviceCreateResponse.deviceId == deviceUid.deviceId
        assert deviceCreateResponse.success == True
        assert deviceCreateResponse.authToken == deviceUid.authToken

        assert deviceUid.deviceId in deviceType.devices
        
        deviceAfterCreate = deviceType.devices[deviceUid.deviceId]
        assert deviceAfterCreate.deviceInfo.serialNumber == "123"
        assert deviceAfterCreate.deviceInfo.descriptiveLocation == "Floor 3, Room 2"
        
        self.appClient.registry.devices.update(deviceUid, metadata={"foo": "bar"})
        
        deviceAfterUpdate = deviceType.devices[deviceUid.deviceId]
        assert "foo" in deviceAfterUpdate.metadata
        assert deviceAfterUpdate.metadata["foo"] == "bar"
        
        assert deviceAfterUpdate.deviceInfo.description is None
        assert deviceAfterUpdate.deviceInfo.model is None
        
        # Update description only
        self.appClient.registry.devices.update(deviceUid, deviceInfo={"description": "hello"})
        assert deviceType.devices[deviceUid.deviceId].deviceInfo.description == "hello"
        
        # Update model, verify that description wasn't wiped
        self.appClient.registry.devices.update(deviceUid, deviceInfo=DeviceInfo(model="foobar"))

        deviceAfter3rdUpdate = deviceType.devices[deviceUid.deviceId]
        assert "foo" in deviceAfter3rdUpdate.metadata
        assert deviceAfter3rdUpdate.metadata["foo"] == "bar"
        assert deviceAfter3rdUpdate.deviceInfo.description == "hello"
        assert deviceAfter3rdUpdate.deviceInfo.model == "foobar"
        assert deviceAfter3rdUpdate.deviceInfo.descriptiveLocation == "Floor 3, Room 2"
        assert deviceAfter3rdUpdate.deviceInfo.deviceClass == None
        assert deviceAfter3rdUpdate.deviceInfo.fwVersion == None
        assert deviceAfter3rdUpdate.deviceInfo.hwVersion == None
        assert deviceAfter3rdUpdate.deviceInfo.manufacturer== None

        assert str(deviceAfter3rdUpdate) == "[%s] hello" % (deviceAfter3rdUpdate.clientId)


        # Cleanup
        self.appClient.registry.devices.delete({"typeId": deviceUid.typeId, "deviceId": deviceUid.deviceId})
        assert deviceUid.deviceId not in deviceType.devices
Beispiel #3
0
    def testCreateAndUpdate1Device(self, deviceType):
        deviceUid = DeviceCreateRequest(
            typeId=deviceType.id,
            deviceId=str(uuid.uuid4()),
            authToken="NotVerySecretPassw0rd",
            deviceInfo=DeviceInfo(serialNumber="123",
                                  descriptiveLocation="Floor 3, Room 2"))

        self.appClient.registry.devices.create(deviceUid)

        assert_true(deviceUid.deviceId in deviceType.devices)

        deviceAfterCreate = deviceType.devices[deviceUid.deviceId]
        assert_equals("123", deviceAfterCreate.deviceInfo.serialNumber)
        assert_equals("Floor 3, Room 2",
                      deviceAfterCreate.deviceInfo.descriptiveLocation)

        self.appClient.registry.devices.update(deviceUid,
                                               metadata={"foo": "bar"})

        deviceAfterUpdate = deviceType.devices[deviceUid.deviceId]
        assert_true("foo" in deviceAfterUpdate.metadata)
        assert_equals("bar", deviceAfterUpdate.metadata["foo"])

        assert_equals(None, deviceAfterUpdate.deviceInfo.description)
        assert_equals(None, deviceAfterUpdate.deviceInfo.model)

        # Update description only
        self.appClient.registry.devices.update(
            deviceUid, deviceInfo={"description": "hello"})
        assert_equals(
            "hello",
            deviceType.devices[deviceUid.deviceId].deviceInfo.description)

        # Update model, verify that description wasn't wiped
        self.appClient.registry.devices.update(
            deviceUid, deviceInfo=DeviceInfo(model="foobar"))

        deviceAfter3rdUpdate = deviceType.devices[deviceUid.deviceId]
        assert_true("foo" in deviceAfter3rdUpdate.metadata)
        assert_equals("bar", deviceAfter3rdUpdate.metadata["foo"])
        assert_equals("hello", deviceAfter3rdUpdate.deviceInfo.description)
        assert_equals("foobar", deviceAfter3rdUpdate.deviceInfo.model)
        assert_equals("Floor 3, Room 2",
                      deviceAfter3rdUpdate.deviceInfo.descriptiveLocation)

        # Cleanup
        self.appClient.registry.devices.delete({
            "typeId": deviceUid.typeId,
            "deviceId": deviceUid.deviceId
        })
        assert_false(deviceUid.deviceId in deviceType.devices)
    def testDeleteDevice(self, deviceType):
        deviceUid = DeviceCreateRequest(
            typeId=deviceType.id,
            deviceId=str(uuid.uuid4()),
            authToken="NotVerySecretPassw0rd",
            deviceInfo=DeviceInfo(serialNumber="123", descriptiveLocation="Floor 3, Room 2"),
        )

        assert deviceUid.authToken == "NotVerySecretPassw0rd"
        assert deviceUid.location is None
        assert deviceUid.metadata is None

        deviceCreateResponse = self.appClient.registry.devices.create(deviceUid)

        assert deviceCreateResponse.typeId == deviceUid.typeId
        assert deviceCreateResponse.deviceId == deviceUid.deviceId
        assert deviceCreateResponse.success == True
        assert deviceCreateResponse.authToken == deviceUid.authToken

        assert deviceUid.deviceId in deviceType.devices

        del self.appClient.registry.devicetypes[deviceUid.typeId].devices[deviceUid.deviceId]
        assert deviceUid.deviceId not in deviceType.devices
    def testUpdateDeviceInfo(self, deviceType):
        self.appClient.registry.devicetypes.update(
            deviceType.id, deviceInfo=DeviceInfo(serialNumber="111"))
        updatedDeviceType = self.appClient.registry.devicetypes[deviceType.id]

        assert updatedDeviceType.deviceInfo.serialNumber == "111"
    def testCreatePreReqs(self):
        # LI
        test_schema_name = TestDeviceState.testLiSchemaName
        assert self.doesSchemaNameExist(test_schema_name) == False
        testLIName = TestDeviceState.testLogicalInterfaceName
        assert self.doesLINameExist(testLIName) == False

        # Create a schema
        TestDeviceState.createdLISchema = self.createSchema(
            test_schema_name, "liSchema.json", TestDeviceState.testLISchema,
            "Test schema description")

        # Create a Logical Interface
        TestDeviceState.createdLI = self.createLI(
            testLIName, "Test Logical Interface description",
            TestDeviceState.createdLISchema.id)

        # PI
        test_schema_name = TestDeviceState.testEventSchemaName
        assert self.doesSchemaNameExist(test_schema_name) == False
        test_eventType_name = TestDeviceState.testEventTypeName
        assert self.doesEventTypeNameExist(test_eventType_name) == False
        testPIName = TestDeviceState.testPhysicalInterfaceName
        assert self.doesPINameExist(testPIName) == False

        # Create a schema
        TestDeviceState.createdEventSchema = self.createSchema(
            test_schema_name, "eventSchema.json",
            TestDeviceState.testEventSchema, "Test schema description")

        # Create an eventType
        TestDeviceState.createdEventType = self.createEventType(
            test_eventType_name, "Test event type description",
            TestDeviceState.createdEventSchema.id)

        # Create a Physical Interface
        TestDeviceState.createdPI = self.createPI(
            testPIName, "Test Physical Interface description")

        # Associate event with PI
        TestDeviceState.createdPI.events.create({
            "eventId":
            TestDeviceState.testEventId,
            "eventTypeId":
            TestDeviceState.createdEventType.id
        })

        test_dt_name = TestDeviceState.testDeviceTypeName
        assert self.doesDTNameExist(test_dt_name) == False

        # Create a Device Type
        TestDeviceState.createdDT = self.createAndCheckDT(
            test_dt_name, "Test Device Type description")

        # Associate PI
        TestDeviceState.createdDT.physicalInterface = TestDeviceState.createdPI

        # Associate the LI
        TestDeviceState.createdDT.logicalInterfaces.create(
            TestDeviceState.createdLI)

        # Mappings
        TestDeviceState.createdDT.mappings.create({
            "logicalInterfaceId":
            TestDeviceState.createdLI.id,
            "notificationStrategy":
            "on-state-change",
            "propertyMappings": {
                TestDeviceState.testEventId: {
                    "temperature": "$event.temperature",
                    "humidity": "$event.humidity",
                    "publishTimestamp": "$event.publishTimestamp",
                }
            },
        })

        # Validate and Activate the LI
        TestDeviceState.createdDT.validate()

        TestDeviceState.createdDT.activate()

        # register a device
        TestDeviceState.createdDevice = TestDeviceState.createdDT.devices.create(
            {
                "deviceId":
                str(uuid.uuid4()),
                "authToken":
                "NotVerySecretPassw0rd",
                "deviceInfo":
                DeviceInfo(serialNumber="123",
                           descriptiveLocation="Floor 3, Room 2"),
            })
    def _poll(self):
        self.logger.info("Running poll loop (%s second interval) ... " %
                         self.pollingInterval)
        self.lightify.update_all_light_status()
        lights = self.lightify.lights()
        for key in lights.keys():
            #print(key)
            #print(format(key, 'x'))
            #print('-'.join(format(key, 'x')[i:i+2] for i in range(0,16,2)))

            light = lights[key]
            typeId = "lightify-%s" % light.devicetype().name
            deviceId = light.addr()

            deviceRegistry = self.client.registry
            # Register the device type if we need to
            if typeId not in self.knownDeviceTypes:
                if typeId in deviceRegistry.devicetypes:
                    deviceType = deviceRegistry.devicetypes[typeId]
                    self.knownDeviceTypes[typeId] = deviceType
                else:
                    self.logger.info("Registering new device type: %s" %
                                     (typeId))
                    deviceType = deviceRegistry.devicetypes.create(
                        {"id": typeId})
                    self.knownDeviceTypes[typeId] = deviceType

            # Register the device if we need to
            if deviceId not in self.knownDevices:
                if deviceId in deviceRegistry.devicetypes[typeId].devices:
                    device = deviceRegistry.devicetypes[typeId].devices[
                        deviceId]
                    self.knownDevices[deviceId] = device
                else:
                    self.logger.info("Registering new device: %s:%s" %
                                     (typeId, deviceId))

                    createData = DeviceCreateRequest(
                        typeId=typeId,
                        deviceId=deviceId,
                        deviceInfo=DeviceInfo(model=light.devicesubtype().name,
                                              fwVersion=light.version()),
                        metadata={
                            "lightify-gateway": {
                                "version": self.version
                            }
                        })

                    device = deviceRegistry.devices.create(createData)
                    self.knownDevices[deviceId] = device

            #
            # light.
            #  name()
            #  idx()
            #  addr()
            #  reachable()
            #  last_seen()
            #  on()
            #  lum()
            #  temp()
            #  red()
            #  green()
            #  blue()
            #  rgb()
            #  devicesubtype()
            #  devicetype()
            #  devicename()
            #  version()

            # Alpha is only available from raw_values()
            (onoff, lum, temp, red, green, blue, alpha) = light.raw_values()

            # if online is false then override on to be false, the light can't be on if it's not even powered on
            reallyOn = (light.reachable() and light.on())

            state = {
                "online": light.reachable(),
                "lastSeen": light.last_seen(),
                "on": reallyOn,
                "lum": light.lum() if reallyOn else 0,
                "temp": light.temp(),
                "colour": {
                    "red": light.red(),
                    "green": light.green(),
                    "blue": light.blue()
                },
                "alpha": alpha
            }

            # Publish the current state of the light
            self.client.publishEvent(typeId, deviceId, "state", "json", state)
            self.logger.debug("Published event for %s:%s: %s" %
                              (typeId, deviceId, json.dumps(state)))