"""
Connect to a MySensors gateway via pymysensors API.
For more details about this platform, please refer to the documentation at
https://home-assistant.io/components/sensor.mysensors/
"""
import asyncio
from collections import defaultdict
import logging
import os
import socket
import sys
from timeit import default_timer as timer
import voluptuous as vol
from homeassistant.components.mqtt import (
valid_publish_topic, valid_subscribe_topic)
from homeassistant.const import (
ATTR_BATTERY_LEVEL, CONF_NAME, CONF_OPTIMISTIC, EVENT_HOMEASSISTANT_START,
EVENT_HOMEASSISTANT_STOP, STATE_OFF, STATE_ON)
from homeassistant.helpers import discovery
import homeassistant.helpers.config_validation as cv
from homeassistant.helpers.dispatcher import (
async_dispatcher_connect, dispatcher_send)
from homeassistant.helpers.entity import Entity
from homeassistant.loader import get_component
from homeassistant.setup import setup_component
REQUIREMENTS = ['pymysensors==0.11.1']
_LOGGER = logging.getLogger(__name__)
ATTR_CHILD_ID = 'child_id'
ATTR_DESCRIPTION = 'description'
ATTR_DEVICE = 'device'
ATTR_DEVICES = 'devices'
ATTR_NODE_ID = 'node_id'
CONF_BAUD_RATE = 'baud_rate'
CONF_DEBUG = 'debug'
CONF_DEVICE = 'device'
CONF_GATEWAYS = 'gateways'
CONF_PERSISTENCE = 'persistence'
CONF_PERSISTENCE_FILE = 'persistence_file'
CONF_RETAIN = 'retain'
CONF_TCP_PORT = 'tcp_port'
CONF_TOPIC_IN_PREFIX = 'topic_in_prefix'
CONF_TOPIC_OUT_PREFIX = 'topic_out_prefix'
CONF_VERSION = 'version'
CONF_NODES = 'nodes'
CONF_NODE_NAME = 'name'
DEFAULT_BAUD_RATE = 115200
DEFAULT_TCP_PORT = 5003
DEFAULT_VERSION = '1.4'
DOMAIN = 'mysensors'
MQTT_COMPONENT = 'mqtt'
MYSENSORS_GATEWAYS = 'mysensors_gateways'
MYSENSORS_PLATFORM_DEVICES = 'mysensors_devices_{}'
PLATFORM = 'platform'
SCHEMA = 'schema'
SIGNAL_CALLBACK = 'mysensors_callback_{}_{}_{}_{}'
TYPE = 'type'
def is_socket_address(value):
"""Validate that value is a valid address."""
try:
socket.getaddrinfo(value, None)
return value
except OSError:
raise vol.Invalid('Device is not a valid domain name or ip address')
def has_parent_dir(value):
"""Validate that value is in an existing directory which is writetable."""
parent = os.path.dirname(os.path.realpath(value))
is_dir_writable = os.path.isdir(parent) and os.access(parent, os.W_OK)
if not is_dir_writable:
raise vol.Invalid(
'{} directory does not exist or is not writetable'.format(parent))
return value
def has_all_unique_files(value):
"""Validate that all persistence files are unique and set if any is set."""
persistence_files = [
gateway.get(CONF_PERSISTENCE_FILE) for gateway in value]
if None in persistence_files and any(
name is not None for name in persistence_files):
raise vol.Invalid(
'persistence file name of all devices must be set if any is set')
if not all(name is None for name in persistence_files):
schema = vol.Schema(vol.Unique())
schema(persistence_files)
return value
def is_persistence_file(value):
"""Validate that persistence file path ends in either .pickle or .json."""
if value.endswith(('.json', '.pickle')):
return value
else:
raise vol.Invalid(
'{} does not end in either `.json` or `.pickle`'.format(value))
def is_serial_port(value):
"""Validate that value is a windows serial port or a unix device."""
if sys.platform.startswith('win'):
ports = ('COM{}'.format(idx + 1) for idx in range(256))
if value in ports:
return value
else:
raise vol.Invalid(
'{} is not a serial port'.format(value))
else:
return cv.isdevice(value)
def deprecated(key):
"""Mark key as deprecated in config."""
def validator(config):
"""Check if key is in config, log warning and remove key."""
if key not in config:
return config
_LOGGER.warning(
'%s option for %s is deprecated. Please remove %s from your '
'configuration file.', key, DOMAIN, key)
config.pop(key)
return config
return validator
NODE_SCHEMA = vol.Schema({
cv.positive_int: {
vol.Required(CONF_NODE_NAME): cv.string
}
})
CONFIG_SCHEMA = vol.Schema({
DOMAIN: vol.Schema(vol.All(deprecated(CONF_DEBUG), {
vol.Required(CONF_GATEWAYS): vol.All(
cv.ensure_list, has_all_unique_files,
[{
vol.Required(CONF_DEVICE):
vol.Any(MQTT_COMPONENT, is_socket_address, is_serial_port),
vol.Optional(CONF_PERSISTENCE_FILE):
vol.All(cv.string, is_persistence_file, has_parent_dir),
vol.Optional(
CONF_BAUD_RATE,
default=DEFAULT_BAUD_RATE): cv.positive_int,
vol.Optional(
CONF_TCP_PORT,
default=DEFAULT_TCP_PORT): cv.port,
vol.Optional(
CONF_TOPIC_IN_PREFIX, default=''): valid_subscribe_topic,
vol.Optional(
CONF_TOPIC_OUT_PREFIX, default=''): valid_publish_topic,
vol.Optional(CONF_NODES, default={}): NODE_SCHEMA,
}]
),
vol.Optional(CONF_OPTIMISTIC, default=False): cv.boolean,
vol.Optional(CONF_PERSISTENCE, default=True): cv.boolean,
vol.Optional(CONF_RETAIN, default=True): cv.boolean,
vol.Optional(CONF_VERSION, default=DEFAULT_VERSION): cv.string,
}))
}, extra=vol.ALLOW_EXTRA)
# mysensors const schemas
BINARY_SENSOR_SCHEMA = {PLATFORM: 'binary_sensor', TYPE: 'V_TRIPPED'}
CLIMATE_SCHEMA = {PLATFORM: 'climate', TYPE: 'V_HVAC_FLOW_STATE'}
LIGHT_DIMMER_SCHEMA = {
PLATFORM: 'light', TYPE: 'V_DIMMER',
SCHEMA: {'V_DIMMER': cv.string, 'V_LIGHT': cv.string}}
LIGHT_PERCENTAGE_SCHEMA = {
PLATFORM: 'light', TYPE: 'V_PERCENTAGE',
SCHEMA: {'V_PERCENTAGE': cv.string, 'V_STATUS': cv.string}}
LIGHT_RGB_SCHEMA = {
PLATFORM: 'light', TYPE: 'V_RGB', SCHEMA: {
'V_RGB': cv.string, 'V_STATUS': cv.string}}
LIGHT_RGBW_SCHEMA = {
PLATFORM: 'light', TYPE: 'V_RGBW', SCHEMA: {
'V_RGBW': cv.string, 'V_STATUS': cv.string}}
NOTIFY_SCHEMA = {PLATFORM: 'notify', TYPE: 'V_TEXT'}
DEVICE_TRACKER_SCHEMA = {PLATFORM: 'device_tracker', TYPE: 'V_POSITION'}
DUST_SCHEMA = [
{PLATFORM: 'sensor', TYPE: 'V_DUST_LEVEL'},
{PLATFORM: 'sensor', TYPE: 'V_LEVEL'}]
SWITCH_LIGHT_SCHEMA = {PLATFORM: 'switch', TYPE: 'V_LIGHT'}
SWITCH_STATUS_SCHEMA = {PLATFORM: 'switch', TYPE: 'V_STATUS'}
MYSENSORS_CONST_SCHEMA = {
'S_DOOR': [BINARY_SENSOR_SCHEMA, {PLATFORM: 'switch', TYPE: 'V_ARMED'}],
'S_MOTION': [BINARY_SENSOR_SCHEMA, {PLATFORM: 'switch', TYPE: 'V_ARMED'}],
'S_SMOKE': [BINARY_SENSOR_SCHEMA, {PLATFORM: 'switch', TYPE: 'V_ARMED'}],
'S_SPRINKLER': [
BINARY_SENSOR_SCHEMA, {PLATFORM: 'switch', TYPE: 'V_STATUS'}],
'S_WATER_LEAK': [
BINARY_SENSOR_SCHEMA, {PLATFORM: 'switch', TYPE: 'V_ARMED'}],
'S_SOUND': [
BINARY_SENSOR_SCHEMA, {PLATFORM: 'sensor', TYPE: 'V_LEVEL'},
{PLATFORM: 'switch', TYPE: 'V_ARMED'}],
'S_VIBRATION': [
BINARY_SENSOR_SCHEMA, {PLATFORM: 'sensor', TYPE: 'V_LEVEL'},
{PLATFORM: 'switch', TYPE: 'V_ARMED'}],
'S_MOISTURE': [
BINARY_SENSOR_SCHEMA, {PLATFORM: 'sensor', TYPE: 'V_LEVEL'},
{PLATFORM: 'switch', TYPE: 'V_ARMED'}],
'S_HVAC': [CLIMATE_SCHEMA],
'S_COVER': [
{PLATFORM: 'cover', TYPE: 'V_DIMMER'},
{PLATFORM: 'cover', TYPE: 'V_PERCENTAGE'},
{PLATFORM: 'cover', TYPE: 'V_LIGHT'},
{PLATFORM: 'cover', TYPE: 'V_STATUS'}],
'S_DIMMER': [LIGHT_DIMMER_SCHEMA, LIGHT_PERCENTAGE_SCHEMA],
'S_RGB_LIGHT': [LIGHT_RGB_SCHEMA],
'S_RGBW_LIGHT': [LIGHT_RGBW_SCHEMA],
'S_INFO': [NOTIFY_SCHEMA, {PLATFORM: 'sensor', TYPE: 'V_TEXT'}],
'S_GPS': [
DEVICE_TRACKER_SCHEMA, {PLATFORM: 'sensor', TYPE: 'V_POSITION'}],
'S_TEMP': [{PLATFORM: 'sensor', TYPE: 'V_TEMP'}],
'S_HUM': [{PLATFORM: 'sensor', TYPE: 'V_HUM'}],
'S_BARO': [
{PLATFORM: 'sensor', TYPE: 'V_PRESSURE'},
{PLATFORM: 'sensor', TYPE: 'V_FORECAST'}],
'S_WIND': [
{PLATFORM: 'sensor', TYPE: 'V_WIND'},
{PLATFORM: 'sensor', TYPE: 'V_GUST'},
{PLATFORM: 'sensor', TYPE: 'V_DIRECTION'}],
'S_RAIN': [
{PLATFORM: 'sensor', TYPE: 'V_RAIN'},
{PLATFORM: 'sensor', TYPE: 'V_RAINRATE'}],
'S_UV': [{PLATFORM: 'sensor', TYPE: 'V_UV'}],
'S_WEIGHT': [
{PLATFORM: 'sensor', TYPE: 'V_WEIGHT'},
{PLATFORM: 'sensor', TYPE: 'V_IMPEDANCE'}],
'S_POWER': [
{PLATFORM: 'sensor', TYPE: 'V_WATT'},
{PLATFORM: 'sensor', TYPE: 'V_KWH'},
{PLATFORM: 'sensor', TYPE: 'V_VAR'},
{PLATFORM: 'sensor', TYPE: 'V_VA'},
{PLATFORM: 'sensor', TYPE: 'V_POWER_FACTOR'}],
'S_DISTANCE': [{PLATFORM: 'sensor', TYPE: 'V_DISTANCE'}],
'S_LIGHT_LEVEL': [
{PLATFORM: 'sensor', TYPE: 'V_LIGHT_LEVEL'},
{PLATFORM: 'sensor', TYPE: 'V_LEVEL'}],
'S_IR': [
{PLATFORM: 'sensor', TYPE: 'V_IR_RECEIVE'},
{PLATFORM: 'switch', TYPE: 'V_IR_SEND',
SCHEMA: {'V_IR_SEND': cv.string, 'V_LIGHT': cv.string}}],
'S_WATER': [
{PLATFORM: 'sensor', TYPE: 'V_FLOW'},
{PLATFORM: 'sensor', TYPE: 'V_VOLUME'}],
'S_CUSTOM': [
{PLATFORM: 'sensor', TYPE: 'V_VAR1'},
{PLATFORM: 'sensor', TYPE: 'V_VAR2'},
{PLATFORM: 'sensor', TYPE: 'V_VAR3'},
{PLATFORM: 'sensor', TYPE: 'V_VAR4'},
{PLATFORM: 'sensor', TYPE: 'V_VAR5'},
{PLATFORM: 'sensor', TYPE: 'V_CUSTOM'}],
'S_SCENE_CONTROLLER': [
{PLATFORM: 'sensor', TYPE: 'V_SCENE_ON'},
{PLATFORM: 'sensor', TYPE: 'V_SCENE_OFF'}],
'S_COLOR_SENSOR': [{PLATFORM: 'sensor', TYPE: 'V_RGB'}],
'S_MULTIMETER': [
{PLATFORM: 'sensor', TYPE: 'V_VOLTAGE'},
{PLATFORM: 'sensor', TYPE: 'V_CURRENT'},
{PLATFORM: 'sensor', TYPE: 'V_IMPEDANCE'}],
'S_GAS': [
{PLATFORM: 'sensor', TYPE: 'V_FLOW'},
{PLATFORM: 'sensor', TYPE: 'V_VOLUME'}],
'S_WATER_QUALITY': [
{PLATFORM: 'sensor', TYPE: 'V_TEMP'},
{PLATFORM: 'sensor', TYPE: 'V_PH'},
{PLATFORM: 'sensor', TYPE: 'V_ORP'},
{PLATFORM: 'sensor', TYPE: 'V_EC'},
{PLATFORM: 'switch', TYPE: 'V_STATUS'}],
'S_AIR_QUALITY': DUST_SCHEMA,
'S_DUST': DUST_SCHEMA,
'S_LIGHT': [SWITCH_LIGHT_SCHEMA],
'S_BINARY': [SWITCH_STATUS_SCHEMA],
'S_LOCK': [{PLATFORM: 'switch', TYPE: 'V_LOCK_STATUS'}],
}
def setup(hass, config):
"""Set up the MySensors component."""
import mysensors.mysensors as mysensors
version = config[DOMAIN].get(CONF_VERSION)
persistence = config[DOMAIN].get(CONF_PERSISTENCE)
def setup_gateway(device, persistence_file, baud_rate, tcp_port, in_prefix,
out_prefix):
"""Return gateway after setup of the gateway."""
if device == MQTT_COMPONENT:
if not setup_component(hass, MQTT_COMPONENT, config):
return
mqtt = get_component(MQTT_COMPONENT)
retain = config[DOMAIN].get(CONF_RETAIN)
def pub_callback(topic, payload, qos, retain):
"""Call MQTT publish function."""
mqtt.publish(hass, topic, payload, qos, retain)
def sub_callback(topic, callback, qos):
"""Call MQTT subscribe function."""
mqtt.subscribe(hass, topic, callback, qos)
gateway = mysensors.MQTTGateway(
pub_callback, sub_callback,
event_callback=None, persistence=persistence,
persistence_file=persistence_file,
protocol_version=version, in_prefix=in_prefix,
out_prefix=out_prefix, retain=retain)
else:
try:
is_serial_port(device)
gateway = mysensors.SerialGateway(
device, event_callback=None, persistence=persistence,
persistence_file=persistence_file,
protocol_version=version, baud=baud_rate)
except vol.Invalid:
try:
socket.getaddrinfo(device, None)
# valid ip address
gateway = mysensors.TCPGateway(
device, event_callback=None, persistence=persistence,
persistence_file=persistence_file,
protocol_version=version, port=tcp_port)
except OSError:
# invalid ip address
return
gateway.metric = hass.config.units.is_metric
gateway.optimistic = config[DOMAIN].get(CONF_OPTIMISTIC)
gateway.device = device
gateway.event_callback = gw_callback_factory(hass)
def gw_start(event):
"""Trigger to start of the gateway and any persistence."""
if persistence:
discover_persistent_devices(hass, gateway)
gateway.start()
hass.bus.listen_once(EVENT_HOMEASSISTANT_STOP,
lambda event: gateway.stop())
hass.bus.listen_once(EVENT_HOMEASSISTANT_START, gw_start)
return gateway
# Setup all devices from config
gateways = {}
conf_gateways = config[DOMAIN][CONF_GATEWAYS]
for index, gway in enumerate(conf_gateways):
device = gway[CONF_DEVICE]
persistence_file = gway.get(
CONF_PERSISTENCE_FILE,
hass.config.path('mysensors{}.pickle'.format(index + 1)))
baud_rate = gway.get(CONF_BAUD_RATE)
tcp_port = gway.get(CONF_TCP_PORT)
in_prefix = gway.get(CONF_TOPIC_IN_PREFIX)
out_prefix = gway.get(CONF_TOPIC_OUT_PREFIX)
ready_gateway = setup_gateway(
device, persistence_file, baud_rate, tcp_port, in_prefix,
out_prefix)
if ready_gateway is not None:
ready_gateway.nodes_config = gway.get(CONF_NODES)
gateways[id(ready_gateway)] = ready_gateway
if not gateways:
_LOGGER.error(
"No devices could be setup as gateways, check your configuration")
return False
hass.data[MYSENSORS_GATEWAYS] = gateways
return True
def validate_child(gateway, node_id, child):
"""Validate that a child has the correct values according to schema.
Return a dict of platform with a list of device ids for validated devices.
"""
validated = defaultdict(list)
if not child.values:
_LOGGER.debug(
"No child values for node %s child %s", node_id, child.id)
return validated
if gateway.sensors[node_id].sketch_name is None:
_LOGGER.debug("Node %s is missing sketch name", node_id)
return validated
pres = gateway.const.Presentation
set_req = gateway.const.SetReq
s_name = next(
(member.name for member in pres if member.value == child.type), None)
if s_name not in MYSENSORS_CONST_SCHEMA:
_LOGGER.warning("Child type %s is not supported", s_name)
return validated
child_schemas = MYSENSORS_CONST_SCHEMA[s_name]
def msg(name):
"""Return a message for an invalid schema."""
return "{} requires value_type {}".format(
pres(child.type).name, set_req[name].name)
for schema in child_schemas:
platform = schema[PLATFORM]
v_name = schema[TYPE]
value_type = next(
(member.value for member in set_req if member.name == v_name),
None)
if value_type is None:
continue
_child_schema = child.get_schema(gateway.protocol_version)
vol_schema = _child_schema.extend(
{vol.Required(set_req[key].value, msg=msg(key)):
_child_schema.schema.get(set_req[key].value, val)
for key, val in schema.get(SCHEMA, {v_name: cv.string}).items()},
extra=vol.ALLOW_EXTRA)
try:
vol_schema(child.values)
except vol.Invalid as exc:
level = (logging.WARNING if value_type in child.values
else logging.DEBUG)
_LOGGER.log(
level,
"Invalid values: %s: %s platform: node %s child %s: %s",
child.values, platform, node_id, child.id, exc)
continue
dev_id = id(gateway), node_id, child.id, value_type
validated[platform].append(dev_id)
return validated
def discover_mysensors_platform(hass, platform, new_devices):
"""Discover a mysensors platform."""
discovery.load_platform(
hass, platform, DOMAIN, {ATTR_DEVICES: new_devices, CONF_NAME: DOMAIN})
def discover_persistent_devices(hass, gateway):
"""Discover platforms for devices loaded via persistence file."""
new_devices = defaultdict(list)
for node_id in gateway.sensors:
node = gateway.sensors[node_id]
for child in node.children.values():
validated = validate_child(gateway, node_id, child)
for platform, dev_ids in validated.items():
new_devices[platform].extend(dev_ids)
for platform, dev_ids in new_devices.items():
discover_mysensors_platform(hass, platform, dev_ids)
def get_mysensors_devices(hass, domain):
"""Return mysensors devices for a platform."""
if MYSENSORS_PLATFORM_DEVICES.format(domain) not in hass.data:
hass.data[MYSENSORS_PLATFORM_DEVICES.format(domain)] = {}
return hass.data[MYSENSORS_PLATFORM_DEVICES.format(domain)]
def gw_callback_factory(hass):
"""Return a new callback for the gateway."""
def mysensors_callback(msg):
"""Default callback for a mysensors gateway."""
start = timer()
_LOGGER.debug(
"Node update: node %s child %s", msg.node_id, msg.child_id)
child = msg.gateway.sensors[msg.node_id].children.get(msg.child_id)
if child is None:
_LOGGER.debug(
"Not a child update for node %s", msg.node_id)
return
signals = []
# Update all platforms for the device via dispatcher.
# Add/update entity if schema validates to true.
validated = validate_child(msg.gateway, msg.node_id, child)
for platform, dev_ids in validated.items():
devices = get_mysensors_devices(hass, platform)
new_dev_ids = []
for dev_id in dev_ids:
if dev_id in devices:
signals.append(SIGNAL_CALLBACK.format(*dev_id))
else:
new_dev_ids.append(dev_id)
if new_dev_ids:
discover_mysensors_platform(hass, platform, new_dev_ids)
for signal in set(signals):
# Only one signal per device is needed.
# A device can have multiple platforms, ie multiple schemas.
# FOR LATER: Add timer to not signal if another update comes in.
dispatcher_send(hass, signal)
end = timer()
if end - start > 0.1:
_LOGGER.debug(
"Callback for node %s child %s took %.3f seconds",
msg.node_id, msg.child_id, end - start)
return mysensors_callback
def get_mysensors_name(gateway, node_id, child_id):
"""Return a name for a node child."""
node_name = '{} {}'.format(
gateway.sensors[node_id].sketch_name, node_id)
node_name = next(
(node[CONF_NODE_NAME] for conf_id, node in gateway.nodes_config.items()
if node.get(CONF_NODE_NAME) is not None and conf_id == node_id),
node_name)
return '{} {}'.format(node_name, child_id)
def get_mysensors_gateway(hass, gateway_id):
"""Return gateway."""
if MYSENSORS_GATEWAYS not in hass.data:
hass.data[MYSENSORS_GATEWAYS] = {}
gateways = hass.data.get(MYSENSORS_GATEWAYS)
return gateways.get(gateway_id)
def setup_mysensors_platform(
hass, domain, discovery_info, device_class, device_args=None,
add_devices=None):
"""Set up a mysensors platform."""
# Only act if called via mysensors by discovery event.
# Otherwise gateway is not setup.
if not discovery_info:
return
if device_args is None:
device_args = ()
new_devices = []
new_dev_ids = discovery_info[ATTR_DEVICES]
for dev_id in new_dev_ids:
devices = get_mysensors_devices(hass, domain)
if dev_id in devices:
continue
gateway_id, node_id, child_id, value_type = dev_id
gateway = get_mysensors_gateway(hass, gateway_id)
if not gateway:
continue
device_class_copy = device_class
if isinstance(device_class, dict):
child = gateway.sensors[node_id].children[child_id]
s_type = gateway.const.Presentation(child.type).name
device_class_copy = device_class[s_type]
name = get_mysensors_name(gateway, node_id, child_id)
# python 3.4 cannot unpack inside tuple, but combining tuples works
args_copy = device_args + (
gateway, node_id, child_id, name, value_type)
devices[dev_id] = device_class_copy(*args_copy)
new_devices.append(devices[dev_id])
if new_devices:
_LOGGER.info("Adding new devices: %s", new_devices)
if add_devices is not None:
add_devices(new_devices, True)
return new_devices
class MySensorsDevice(object):
"""Representation of a MySensors device."""
def __init__(self, gateway, node_id, child_id, name, value_type):
"""Set up the MySensors device."""
self.gateway = gateway
self.node_id = node_id
self.child_id = child_id
self._name = name
self.value_type = value_type
child = gateway.sensors[node_id].children[child_id]
self.child_type = child.type
self._values = {}
@property
def name(self):
"""Return the name of this entity."""
return self._name
@property
def device_state_attributes(self):
"""Return device specific state attributes."""
node = self.gateway.sensors[self.node_id]
child = node.children[self.child_id]
attr = {
ATTR_BATTERY_LEVEL: node.battery_level,
ATTR_CHILD_ID: self.child_id,
ATTR_DESCRIPTION: child.description,
ATTR_DEVICE: self.gateway.device,
ATTR_NODE_ID: self.node_id,
}
set_req = self.gateway.const.SetReq
for value_type, value in self._values.items():
attr[set_req(value_type).name] = value
return attr
def update(self):
"""Update the controller with the latest value from a sensor."""
node = self.gateway.sensors[self.node_id]
child = node.children[self.child_id]
set_req = self.gateway.const.SetReq
for value_type, value in child.values.items():
_LOGGER.debug(
"Entity update: %s: value_type %s, value = %s",
self._name, value_type, value)
if value_type in (set_req.V_ARMED, set_req.V_LIGHT,
set_req.V_LOCK_STATUS, set_req.V_TRIPPED):
self._values[value_type] = (
STATE_ON if int(value) == 1 else STATE_OFF)
elif value_type == set_req.V_DIMMER:
self._values[value_type] = int(value)
else:
self._values[value_type] = value
class MySensorsEntity(MySensorsDevice, Entity):
"""Representation of a MySensors entity."""
@property
def should_poll(self):
"""Mysensor gateway pushes its state to HA."""
return False
@property
def available(self):
"""Return true if entity is available."""
return self.value_type in self._values
def _async_update_callback(self):
"""Update the entity."""
self.async_schedule_update_ha_state(True)
@asyncio.coroutine
def async_added_to_hass(self):
"""Register update callback."""
dev_id = id(self.gateway), self.node_id, self.child_id, self.value_type
async_dispatcher_connect(
self.hass, SIGNAL_CALLBACK.format(*dev_id),
self._async_update_callback)