"""
Support for Homematic devices.
For more details about this component, please refer to the documentation at
https://home-assistant.io/components/homematic/
"""
import os
import time
import logging
from functools import partial
import voluptuous as vol
import homeassistant.helpers.config_validation as cv
from homeassistant.const import (EVENT_HOMEASSISTANT_STOP, STATE_UNKNOWN,
CONF_USERNAME, CONF_PASSWORD, CONF_PLATFORM)
from homeassistant.helpers.entity import Entity
from homeassistant.helpers import discovery
from homeassistant.config import load_yaml_config_file
DOMAIN = 'homematic'
REQUIREMENTS = ["pyhomematic==0.1.11"]
HOMEMATIC = None
HOMEMATIC_LINK_DELAY = 0.5
DISCOVER_SWITCHES = 'homematic.switch'
DISCOVER_LIGHTS = 'homematic.light'
DISCOVER_SENSORS = 'homematic.sensor'
DISCOVER_BINARY_SENSORS = 'homematic.binary_sensor'
DISCOVER_ROLLERSHUTTER = 'homematic.rollershutter'
DISCOVER_THERMOSTATS = 'homematic.climate'
ATTR_DISCOVER_DEVICES = 'devices'
ATTR_PARAM = 'param'
ATTR_CHANNEL = 'channel'
ATTR_NAME = 'name'
ATTR_ADDRESS = 'address'
EVENT_KEYPRESS = 'homematic.keypress'
EVENT_IMPULSE = 'homematic.impulse'
SERVICE_VIRTUALKEY = 'virtualkey'
HM_DEVICE_TYPES = {
DISCOVER_SWITCHES: ['Switch', 'SwitchPowermeter'],
DISCOVER_LIGHTS: ['Dimmer'],
DISCOVER_SENSORS: ['SwitchPowermeter', 'Motion', 'MotionV2',
'RemoteMotion', 'ThermostatWall', 'AreaThermostat',
'RotaryHandleSensor', 'WaterSensor', 'PowermeterGas',
'LuxSensor'],
DISCOVER_THERMOSTATS: ['Thermostat', 'ThermostatWall', 'MAXThermostat'],
DISCOVER_BINARY_SENSORS: ['ShutterContact', 'Smoke', 'SmokeV2', 'Motion',
'MotionV2', 'RemoteMotion'],
DISCOVER_ROLLERSHUTTER: ['Blind']
}
HM_IGNORE_DISCOVERY_NODE = [
'ACTUAL_TEMPERATURE',
'ACTUAL_HUMIDITY'
]
HM_ATTRIBUTE_SUPPORT = {
'LOWBAT': ['Battery', {0: 'High', 1: 'Low'}],
'ERROR': ['Sabotage', {0: 'No', 1: 'Yes'}],
'RSSI_DEVICE': ['RSSI', {}],
'VALVE_STATE': ['Valve', {}],
'BATTERY_STATE': ['Battery', {}],
'CONTROL_MODE': ['Mode', {0: 'Auto', 1: 'Manual', 2: 'Away', 3: 'Boost'}],
'POWER': ['Power', {}],
'CURRENT': ['Current', {}],
'VOLTAGE': ['Voltage', {}],
'WORKING': ['Working', {0: 'No', 1: 'Yes'}],
}
HM_PRESS_EVENTS = [
'PRESS_SHORT',
'PRESS_LONG',
'PRESS_CONT',
'PRESS_LONG_RELEASE'
]
HM_IMPULSE_EVENTS = [
'SEQUENCE_OK'
]
_LOGGER = logging.getLogger(__name__)
CONF_RESOLVENAMES_OPTIONS = [
'metadata',
'json',
'xml',
False
]
CONF_LOCAL_IP = 'local_ip'
CONF_LOCAL_PORT = 'local_port'
CONF_REMOTE_IP = 'remote_ip'
CONF_REMOTE_PORT = 'remote_port'
CONF_RESOLVENAMES = 'resolvenames'
CONF_DELAY = 'delay'
DEVICE_SCHEMA = vol.Schema({
vol.Required(CONF_PLATFORM): "homematic",
vol.Required(ATTR_NAME): cv.string,
vol.Required(ATTR_ADDRESS): cv.string,
vol.Optional(ATTR_CHANNEL, default=1): vol.Coerce(int),
vol.Optional(ATTR_PARAM): cv.string,
})
CONFIG_SCHEMA = vol.Schema({
DOMAIN: vol.Schema({
vol.Required(CONF_LOCAL_IP): cv.string,
vol.Optional(CONF_LOCAL_PORT, default=8943): cv.port,
vol.Required(CONF_REMOTE_IP): cv.string,
vol.Optional(CONF_REMOTE_PORT, default=2001): cv.port,
vol.Optional(CONF_RESOLVENAMES, default=False):
vol.In(CONF_RESOLVENAMES_OPTIONS),
vol.Optional(CONF_USERNAME, default="Admin"): cv.string,
vol.Optional(CONF_PASSWORD, default=""): cv.string,
vol.Optional(CONF_DELAY, default=0.5): cv.string,
}),
}, extra=vol.ALLOW_EXTRA)
SCHEMA_SERVICE_VIRTUALKEY = vol.Schema({
vol.Required(ATTR_ADDRESS): cv.string,
vol.Required(ATTR_CHANNEL): vol.Coerce(int),
vol.Required(ATTR_PARAM): cv.string,
})
# pylint: disable=unused-argument
def setup(hass, config):
"""Setup the Homematic component."""
global HOMEMATIC, HOMEMATIC_LINK_DELAY
from pyhomematic import HMConnection
local_ip = config[DOMAIN].get(CONF_LOCAL_IP)
local_port = config[DOMAIN].get(CONF_LOCAL_PORT)
remote_ip = config[DOMAIN].get(CONF_REMOTE_IP)
remote_port = config[DOMAIN].get(CONF_REMOTE_PORT)
resolvenames = config[DOMAIN].get(CONF_RESOLVENAMES)
username = config[DOMAIN].get(CONF_USERNAME)
password = config[DOMAIN].get(CONF_PASSWORD)
HOMEMATIC_LINK_DELAY = config[DOMAIN].get(CONF_DELAY)
if remote_ip is None or local_ip is None:
_LOGGER.error("Missing remote CCU/Homegear or local address")
return False
# Create server thread
bound_system_callback = partial(system_callback_handler, hass, config)
HOMEMATIC = HMConnection(local=local_ip,
localport=local_port,
remote=remote_ip,
remoteport=remote_port,
systemcallback=bound_system_callback,
resolvenames=resolvenames,
rpcusername=username,
rpcpassword=password,
interface_id="homeassistant")
# Start server thread, connect to peer, initialize to receive events
HOMEMATIC.start()
# Stops server when Homeassistant is shutting down
hass.bus.listen_once(EVENT_HOMEASSISTANT_STOP, HOMEMATIC.stop)
hass.config.components.append(DOMAIN)
# regeister homematic services
descriptions = load_yaml_config_file(
os.path.join(os.path.dirname(__file__), 'services.yaml'))
hass.services.register(DOMAIN, SERVICE_VIRTUALKEY,
_hm_service_virtualkey,
descriptions[DOMAIN][SERVICE_VIRTUALKEY],
SCHEMA_SERVICE_VIRTUALKEY)
return True
# pylint: disable=too-many-branches
def system_callback_handler(hass, config, src, *args):
"""Callback handler."""
if src == 'newDevices':
_LOGGER.debug("newDevices with: %s", str(args))
# pylint: disable=unused-variable
(interface_id, dev_descriptions) = args
key_dict = {}
# Get list of all keys of the devices (ignoring channels)
for dev in dev_descriptions:
key_dict[dev['ADDRESS'].split(':')[0]] = True
# Register EVENTS
# Search all device with a EVENTNODE that include data
bound_event_callback = partial(_hm_event_handler, hass)
for dev in key_dict:
if dev not in HOMEMATIC.devices:
continue
hmdevice = HOMEMATIC.devices.get(dev)
# have events?
if len(hmdevice.EVENTNODE) > 0:
_LOGGER.debug("Register Events from %s", dev)
hmdevice.setEventCallback(callback=bound_event_callback,
bequeath=True)
# If configuration allows autodetection of devices,
# all devices not configured are added.
if key_dict:
for component_name, discovery_type in (
('switch', DISCOVER_SWITCHES),
('light', DISCOVER_LIGHTS),
('rollershutter', DISCOVER_ROLLERSHUTTER),
('binary_sensor', DISCOVER_BINARY_SENSORS),
('sensor', DISCOVER_SENSORS),
('climate', DISCOVER_THERMOSTATS)):
# Get all devices of a specific type
found_devices = _get_devices(discovery_type, key_dict)
# When devices of this type are found
# they are setup in HA and an event is fired
if found_devices:
# Fire discovery event
discovery.load_platform(hass, component_name, DOMAIN, {
ATTR_DISCOVER_DEVICES: found_devices
}, config)
def _get_devices(device_type, keys):
"""Get the Homematic devices."""
device_arr = []
# pylint: disable=too-many-nested-blocks
for key in keys:
device = HOMEMATIC.devices[key]
class_name = device.__class__.__name__
metadata = {}
# is class supported by discovery type
if class_name not in HM_DEVICE_TYPES[device_type]:
continue
# Load metadata if needed to generate a param list
if device_type == DISCOVER_SENSORS:
metadata.update(device.SENSORNODE)
elif device_type == DISCOVER_BINARY_SENSORS:
metadata.update(device.BINARYNODE)
params = _create_params_list(device, metadata, device_type)
if params:
# Generate options for 1...n elements with 1...n params
for channel in range(1, device.ELEMENT + 1):
_LOGGER.debug("Handling %s:%i", key, channel)
if channel in params:
for param in params[channel]:
name = _create_ha_name(name=device.NAME,
channel=channel,
param=param)
device_dict = {
CONF_PLATFORM: "homematic",
ATTR_ADDRESS: key,
ATTR_NAME: name,
ATTR_CHANNEL: channel
}
if param is not None:
device_dict.update({ATTR_PARAM: param})
# Add new device
try:
DEVICE_SCHEMA(device_dict)
device_arr.append(device_dict)
except vol.MultipleInvalid as err:
_LOGGER.error("Invalid device config: %s",
str(err))
else:
_LOGGER.debug("Channel %i not in params", channel)
else:
_LOGGER.debug("Got no params for %s", key)
_LOGGER.debug("%s autodiscovery: %s",
device_type, str(device_arr))
return device_arr
def _create_params_list(hmdevice, metadata, device_type):
"""Create a list from HMDevice with all possible parameters in config."""
params = {}
merge = False
# use merge?
if device_type == DISCOVER_SENSORS:
merge = True
elif device_type == DISCOVER_BINARY_SENSORS:
merge = True
# Search in sensor and binary metadata per elements
for channel in range(1, hmdevice.ELEMENT + 1):
param_chan = []
for node, meta_chan in metadata.items():
try:
# Is this attribute ignored?
if node in HM_IGNORE_DISCOVERY_NODE:
continue
if meta_chan == 'c' or meta_chan is None:
# Only channel linked data
param_chan.append(node)
elif channel == 1:
# First channel can have other data channel
param_chan.append(node)
except (TypeError, ValueError):
_LOGGER.error("Exception generating %s (%s)",
hmdevice.ADDRESS, str(metadata))
# default parameter is merge is off
if len(param_chan) == 0 and not merge:
param_chan.append(None)
# Add to channel
if len(param_chan) > 0:
params.update({channel: param_chan})
_LOGGER.debug("Create param list for %s with: %s", hmdevice.ADDRESS,
str(params))
return params
def _create_ha_name(name, channel, param):
"""Generate a unique object name."""
# HMDevice is a simple device
if channel == 1 and param is None:
return name
# Has multiple elements/channels
if channel > 1 and param is None:
return "{} {}".format(name, channel)
# With multiple param first elements
if channel == 1 and param is not None:
return "{} {}".format(name, param)
# Multiple param on object with multiple elements
if channel > 1 and param is not None:
return "{} {} {}".format(name, channel, param)
def setup_hmdevice_discovery_helper(hmdevicetype, discovery_info,
add_callback_devices):
"""Helper to setup Homematic devices with discovery info."""
for config in discovery_info[ATTR_DISCOVER_DEVICES]:
_LOGGER.debug("Add device %s from config: %s",
str(hmdevicetype), str(config))
# create object and add to HA
new_device = hmdevicetype(config)
add_callback_devices([new_device])
# link to HM
new_device.link_homematic()
return True
def _hm_event_handler(hass, device, caller, attribute, value):
"""Handle all pyhomematic device events."""
try:
channel = int(device.split(":")[1])
address = device.split(":")[0]
hmdevice = HOMEMATIC.devices.get(address)
except (TypeError, ValueError):
_LOGGER.error("Event handling channel convert error!")
return
# is not a event?
if attribute not in hmdevice.EVENTNODE:
return
_LOGGER.debug("Event %s for %s channel %i", attribute,
hmdevice.NAME, channel)
# keypress event
if attribute in HM_PRESS_EVENTS:
hass.bus.fire(EVENT_KEYPRESS, {
ATTR_NAME: hmdevice.NAME,
ATTR_PARAM: attribute,
ATTR_CHANNEL: channel
})
return
# impulse event
if attribute in HM_IMPULSE_EVENTS:
hass.bus.fire(EVENT_KEYPRESS, {
ATTR_NAME: hmdevice.NAME,
ATTR_CHANNEL: channel
})
return
_LOGGER.warning("Event is unknown and not forwarded to HA")
def _hm_service_virtualkey(call):
"""Callback for handle virtualkey services."""
address = call.data.get(ATTR_ADDRESS)
channel = call.data.get(ATTR_CHANNEL)
param = call.data.get(ATTR_PARAM)
if address not in HOMEMATIC.devices:
_LOGGER.error("%s not found for service virtualkey!", address)
return
hmdevice = HOMEMATIC.devices.get(address)
# if param exists for this device
if param not in hmdevice.ACTIONNODE:
_LOGGER.error("%s not datapoint in hm device %s", param, address)
return
# channel exists?
if channel > hmdevice.ELEMENT:
_LOGGER.error("%i is not a channel in hm device %s", channel, address)
return
# call key
hmdevice.actionNodeData(param, 1, channel)
class HMDevice(Entity):
"""The Homematic device base object."""
# pylint: disable=too-many-instance-attributes
def __init__(self, config):
"""Initialize a generic Homematic device."""
self._name = config.get(ATTR_NAME, None)
self._address = config.get(ATTR_ADDRESS, None)
self._channel = config.get(ATTR_CHANNEL, 1)
self._state = config.get(ATTR_PARAM, None)
self._data = {}
self._hmdevice = None
self._connected = False
self._available = False
# Set param to uppercase
if self._state:
self._state = self._state.upper()
# Generate name
if not self._name:
self._name = _create_ha_name(name=self._address,
channel=self._channel,
param=self._state)
@property
def should_poll(self):
"""Return false. Homematic states are pushed by the XML RPC Server."""
return False
@property
def name(self):
"""Return the name of the device."""
return self._name
@property
def assumed_state(self):
"""Return true if unable to access real state of the device."""
return not self._available
@property
def available(self):
"""Return true if device is available."""
return self._available
@property
def device_state_attributes(self):
"""Return device specific state attributes."""
attr = {}
# no data available to create
if not self.available:
return attr
# Generate an attributes list
for node, data in HM_ATTRIBUTE_SUPPORT.items():
# Is an attributes and exists for this object
if node in self._data:
value = data[1].get(self._data[node], self._data[node])
attr[data[0]] = value
# static attributes
attr["ID"] = self._hmdevice.ADDRESS
return attr
def link_homematic(self):
"""Connect to Homematic."""
# device is already linked
if self._connected:
return True
# Does a HMDevice from pyhomematic exist?
if self._address in HOMEMATIC.devices:
# Init
self._hmdevice = HOMEMATIC.devices[self._address]
self._connected = True
# Check if Homematic class is okay for HA class
_LOGGER.info("Start linking %s to %s", self._address, self._name)
if self._check_hm_to_ha_object():
try:
# Init datapoints of this object
self._init_data_struct()
if HOMEMATIC_LINK_DELAY:
# We delay / pause loading of data to avoid overloading
# of CCU / Homegear when doing auto detection
time.sleep(HOMEMATIC_LINK_DELAY)
self._load_init_data_from_hm()
_LOGGER.debug("%s datastruct: %s",
self._name, str(self._data))
# Link events from pyhomatic
self._subscribe_homematic_events()
self._available = not self._hmdevice.UNREACH
# pylint: disable=broad-except
except Exception as err:
self._connected = False
_LOGGER.error("Exception while linking %s: %s",
self._address, str(err))
else:
_LOGGER.critical("Delink %s object from HM", self._name)
self._connected = False
# Update HA
_LOGGER.debug("%s linking done, send update_ha_state", self._name)
self.update_ha_state()
else:
_LOGGER.debug("%s not found in HOMEMATIC.devices", self._address)
def _hm_event_callback(self, device, caller, attribute, value):
"""Handle all pyhomematic device events."""
_LOGGER.debug("%s received event '%s' value: %s", self._name,
attribute, value)
have_change = False
# Is data needed for this instance?
if attribute in self._data:
# Did data change?
if self._data[attribute] != value:
self._data[attribute] = value
have_change = True
# If available it has changed
if attribute is "UNREACH":
self._available = bool(value)
have_change = True
# If it has changed data point, update HA
if have_change:
_LOGGER.debug("%s update_ha_state after '%s'", self._name,
attribute)
self.update_ha_state()
def _subscribe_homematic_events(self):
"""Subscribe all required events to handle job."""
channels_to_sub = {}
# Push data to channels_to_sub from hmdevice metadata
for metadata in (self._hmdevice.SENSORNODE, self._hmdevice.BINARYNODE,
self._hmdevice.ATTRIBUTENODE,
self._hmdevice.WRITENODE, self._hmdevice.EVENTNODE,
self._hmdevice.ACTIONNODE):
for node, channel in metadata.items():
# Data is needed for this instance
if node in self._data:
# chan is current channel
if channel == 'c' or channel is None:
channel = self._channel
# Prepare for subscription
try:
if int(channel) >= 0:
channels_to_sub.update({int(channel): True})
except (ValueError, TypeError):
_LOGGER("Invalid channel in metadata from %s",
self._name)
# Set callbacks
for channel in channels_to_sub:
_LOGGER.debug("Subscribe channel %s from %s",
str(channel), self._name)
self._hmdevice.setEventCallback(callback=self._hm_event_callback,
bequeath=False,
channel=channel)
def _load_init_data_from_hm(self):
"""Load first value from pyhomematic."""
if not self._connected:
return False
# Read data from pyhomematic
for metadata, funct in (
(self._hmdevice.ATTRIBUTENODE,
self._hmdevice.getAttributeData),
(self._hmdevice.WRITENODE, self._hmdevice.getWriteData),
(self._hmdevice.SENSORNODE, self._hmdevice.getSensorData),
(self._hmdevice.BINARYNODE, self._hmdevice.getBinaryData)):
for node in metadata:
if node in self._data:
self._data[node] = funct(name=node, channel=self._channel)
return True
def _hm_set_state(self, value):
"""Set data to main datapoint."""
if self._state in self._data:
self._data[self._state] = value
def _hm_get_state(self):
"""Get data from main datapoint."""
if self._state in self._data:
return self._data[self._state]
return None
def _check_hm_to_ha_object(self):
"""Check if it is possible to use the Homematic object as this HA type.
NEEDS overwrite by inherit!
"""
if not self._connected or self._hmdevice is None:
_LOGGER.error("HA object is not linked to homematic.")
return False
# Check if button option is correctly set for this object
if self._channel > self._hmdevice.ELEMENT:
_LOGGER.critical("Button option is not correct for this object!")
return False
return True
def _init_data_struct(self):
"""Generate a data dict (self._data) from the Homematic metadata.
NEEDS overwrite by inherit!
"""
# Add all attributes to data dict
for data_note in self._hmdevice.ATTRIBUTENODE:
self._data.update({data_note: STATE_UNKNOWN})