"""
Support for Z-Wave.
For more details about this component, please refer to the documentation at
https://home-assistant.io/components/zwave/
"""
import logging
import os.path
import time
from pprint import pprint
from homeassistant.helpers import discovery
from homeassistant.const import (
ATTR_BATTERY_LEVEL, ATTR_ENTITY_ID, ATTR_LOCATION,
CONF_CUSTOMIZE, EVENT_HOMEASSISTANT_START,
EVENT_HOMEASSISTANT_STOP)
from homeassistant.helpers.event import track_time_change
from homeassistant.util import convert, slugify
DOMAIN = "zwave"
REQUIREMENTS = ['pydispatcher==2.0.5']
CONF_USB_STICK_PATH = "usb_path"
DEFAULT_CONF_USB_STICK_PATH = "/zwaveusbstick"
CONF_DEBUG = "debug"
CONF_POLLING_INTERVAL = "polling_interval"
CONF_POLLING_INTENSITY = "polling_intensity"
CONF_AUTOHEAL = "autoheal"
DEFAULT_CONF_AUTOHEAL = True
# How long to wait for the zwave network to be ready.
NETWORK_READY_WAIT_SECS = 30
SERVICE_ADD_NODE = "add_node"
SERVICE_REMOVE_NODE = "remove_node"
SERVICE_HEAL_NETWORK = "heal_network"
SERVICE_SOFT_RESET = "soft_reset"
SERVICE_TEST_NETWORK = "test_network"
EVENT_SCENE_ACTIVATED = "zwave.scene_activated"
COMMAND_CLASS_SWITCH_MULTILEVEL = 38
COMMAND_CLASS_DOOR_LOCK = 98
COMMAND_CLASS_SWITCH_BINARY = 37
COMMAND_CLASS_SENSOR_BINARY = 48
COMMAND_CLASS_SENSOR_MULTILEVEL = 49
COMMAND_CLASS_METER = 50
COMMAND_CLASS_BATTERY = 128
COMMAND_CLASS_ALARM = 113 # 0x71
COMMAND_CLASS_THERMOSTAT_SETPOINT = 67 # 0x43
COMMAND_CLASS_THERMOSTAT_FAN_MODE = 68 # 0x44
GENRE_WHATEVER = None
GENRE_USER = "User"
TYPE_WHATEVER = None
TYPE_BYTE = "Byte"
TYPE_BOOL = "Bool"
TYPE_DECIMAL = "Decimal"
# List of tuple (DOMAIN, discovered service, supported command classes,
# value type).
DISCOVERY_COMPONENTS = [
('sensor',
[COMMAND_CLASS_SENSOR_MULTILEVEL,
COMMAND_CLASS_METER,
COMMAND_CLASS_ALARM],
TYPE_WHATEVER,
GENRE_USER),
('light',
[COMMAND_CLASS_SWITCH_MULTILEVEL],
TYPE_BYTE,
GENRE_USER),
('switch',
[COMMAND_CLASS_SWITCH_BINARY],
TYPE_BOOL,
GENRE_USER),
('binary_sensor',
[COMMAND_CLASS_SENSOR_BINARY],
TYPE_BOOL,
GENRE_USER),
('thermostat',
[COMMAND_CLASS_THERMOSTAT_SETPOINT],
TYPE_WHATEVER,
GENRE_WHATEVER),
('hvac',
[COMMAND_CLASS_THERMOSTAT_FAN_MODE],
TYPE_WHATEVER,
GENRE_WHATEVER),
('lock',
[COMMAND_CLASS_DOOR_LOCK],
TYPE_BOOL,
GENRE_USER),
]
ATTR_NODE_ID = "node_id"
ATTR_VALUE_ID = "value_id"
ATTR_SCENE_ID = "scene_id"
NETWORK = None
_LOGGER = logging.getLogger(__name__)
def _obj_to_dict(obj):
"""Convert an object into a hash for debug."""
return {key: getattr(obj, key) for key
in dir(obj)
if key[0] != '_' and not hasattr(getattr(obj, key), '__call__')}
def _node_name(node):
"""Return the name of the node."""
return node.name or "{} {}".format(
node.manufacturer_name, node.product_name)
def _value_name(value):
"""Return the name of the value."""
return "{} {}".format(_node_name(value.node), value.label)
def _object_id(value):
"""Return the object_id of the device value.
The object_id contains node_id and value instance id
to not collide with other entity_ids.
"""
object_id = "{}_{}".format(slugify(_value_name(value)),
value.node.node_id)
# Add the instance id if there is more than one instance for the value
if value.instance > 1:
return "{}_{}".format(object_id, value.instance)
return object_id
def nice_print_node(node):
"""Print a nice formatted node to the output (debug method)."""
node_dict = _obj_to_dict(node)
node_dict['values'] = {value_id: _obj_to_dict(value)
for value_id, value in node.values.items()}
print("\n\n\n")
print("FOUND NODE", node.product_name)
pprint(node_dict)
print("\n\n\n")
def get_config_value(node, value_index):
"""Return the current configuration value for a specific index."""
try:
for value in node.values.values():
# 112 == config command class
if value.command_class == 112 and value.index == value_index:
return value.data
except RuntimeError:
# If we get an runtime error the dict has changed while
# we was looking for a value, just do it again
return get_config_value(node, value_index)
# pylint: disable=R0914
def setup(hass, config):
"""Setup Z-Wave.
Will automatically load components to support devices found on the network.
"""
# pylint: disable=global-statement, import-error
global NETWORK
try:
import libopenzwave
except ImportError:
_LOGGER.error("You are missing required dependency Python Open "
"Z-Wave. Please follow instructions at: "
"https://home-assistant.io/components/zwave/")
return False
from pydispatch import dispatcher
from openzwave.option import ZWaveOption
from openzwave.network import ZWaveNetwork
default_zwave_config_path = os.path.join(os.path.dirname(
libopenzwave.__file__), 'config')
# Load configuration
use_debug = str(config[DOMAIN].get(CONF_DEBUG)) == '1'
customize = config[DOMAIN].get(CONF_CUSTOMIZE, {})
autoheal = config[DOMAIN].get(CONF_AUTOHEAL, DEFAULT_CONF_AUTOHEAL)
# Setup options
options = ZWaveOption(
config[DOMAIN].get(CONF_USB_STICK_PATH, DEFAULT_CONF_USB_STICK_PATH),
user_path=hass.config.config_dir,
config_path=config[DOMAIN].get('config_path',
default_zwave_config_path),)
options.set_console_output(use_debug)
options.lock()
NETWORK = ZWaveNetwork(options, autostart=False)
if use_debug:
def log_all(signal, value=None):
"""Log all the signals."""
print("")
print("SIGNAL *****", signal)
if value and signal in (ZWaveNetwork.SIGNAL_VALUE_CHANGED,
ZWaveNetwork.SIGNAL_VALUE_ADDED):
pprint(_obj_to_dict(value))
print("")
dispatcher.connect(log_all, weak=False)
def value_added(node, value):
"""Called when a value is added to a node on the network."""
for (component,
command_ids,
value_type,
value_genre) in DISCOVERY_COMPONENTS:
if value.command_class not in command_ids:
continue
if value_type is not None and value_type != value.type:
continue
if value_genre is not None and value_genre != value.genre:
continue
# Configure node
name = "{}.{}".format(component, _object_id(value))
node_config = customize.get(name, {})
polling_intensity = convert(
node_config.get(CONF_POLLING_INTENSITY), int)
if polling_intensity:
value.enable_poll(polling_intensity)
else:
value.disable_poll()
discovery.load_platform(hass, component, DOMAIN, {
ATTR_NODE_ID: node.node_id,
ATTR_VALUE_ID: value.value_id,
}, config)
def scene_activated(node, scene_id):
"""Called when a scene is activated on any node in the network."""
name = _node_name(node)
object_id = "{}_{}".format(slugify(name), node.node_id)
hass.bus.fire(EVENT_SCENE_ACTIVATED, {
ATTR_ENTITY_ID: object_id,
ATTR_SCENE_ID: scene_id
})
dispatcher.connect(
value_added, ZWaveNetwork.SIGNAL_VALUE_ADDED, weak=False)
dispatcher.connect(
scene_activated, ZWaveNetwork.SIGNAL_SCENE_EVENT, weak=False)
def add_node(service):
"""Switch into inclusion mode."""
NETWORK.controller.begin_command_add_device()
def remove_node(service):
"""Switch into exclusion mode."""
NETWORK.controller.begin_command_remove_device()
def heal_network(service):
"""Heal the network."""
_LOGGER.info("ZWave heal running.")
NETWORK.heal()
def soft_reset(service):
"""Soft reset the controller."""
NETWORK.controller.soft_reset()
def test_network(service):
"""Test the network by sending commands to all the nodes."""
NETWORK.test()
def stop_zwave(event):
"""Stop Z-Wave."""
NETWORK.stop()
def start_zwave(event):
"""Startup Z-Wave."""
NETWORK.start()
# Need to be in STATE_AWAKED before talking to nodes.
# Wait up to NETWORK_READY_WAIT_SECS seconds for the zwave network
# to be ready.
for i in range(NETWORK_READY_WAIT_SECS):
_LOGGER.debug(
"network state: %d %s", NETWORK.state, NETWORK.state_str)
if NETWORK.state >= NETWORK.STATE_AWAKED:
_LOGGER.info("zwave ready after %d seconds", i)
break
time.sleep(1)
else:
_LOGGER.warning(
"zwave not ready after %d seconds, continuing anyway",
NETWORK_READY_WAIT_SECS)
_LOGGER.info(
"final network state: %d %s", NETWORK.state, NETWORK.state_str)
polling_interval = convert(
config[DOMAIN].get(CONF_POLLING_INTERVAL), int)
if polling_interval is not None:
NETWORK.set_poll_interval(polling_interval, False)
poll_interval = NETWORK.get_poll_interval()
_LOGGER.info("zwave polling interval set to %d ms", poll_interval)
hass.bus.listen_once(EVENT_HOMEASSISTANT_STOP, stop_zwave)
# Register add / remove node services for Z-Wave sticks without
# hardware inclusion button
hass.services.register(DOMAIN, SERVICE_ADD_NODE, add_node)
hass.services.register(DOMAIN, SERVICE_REMOVE_NODE, remove_node)
hass.services.register(DOMAIN, SERVICE_HEAL_NETWORK, heal_network)
hass.services.register(DOMAIN, SERVICE_SOFT_RESET, soft_reset)
hass.services.register(DOMAIN, SERVICE_TEST_NETWORK, test_network)
# Setup autoheal
if autoheal:
_LOGGER.info("ZWave network autoheal is enabled.")
track_time_change(hass, heal_network, hour=0, minute=0, second=0)
hass.bus.listen_once(EVENT_HOMEASSISTANT_START, start_zwave)
return True
class ZWaveDeviceEntity:
"""Representation of a Z-Wave node entity."""
def __init__(self, value, domain):
"""Initialize the z-Wave device."""
self._value = value
self.entity_id = "{}.{}".format(domain, self._object_id())
@property
def should_poll(self):
"""No polling needed."""
return False
@property
def unique_id(self):
"""Return an unique ID."""
return "ZWAVE-{}-{}".format(self._value.node.node_id,
self._value.object_id)
@property
def name(self):
"""Return the name of the device."""
return _value_name(self._value)
def _object_id(self):
"""Return the object_id of the device value.
The object_id contains node_id and value instance id to not collide
with other entity_ids.
"""
return _object_id(self._value)
@property
def device_state_attributes(self):
"""Return the device specific state attributes."""
attrs = {
ATTR_NODE_ID: self._value.node.node_id,
}
battery_level = self._value.node.get_battery_level()
if battery_level is not None:
attrs[ATTR_BATTERY_LEVEL] = battery_level
location = self._value.node.location
if location:
attrs[ATTR_LOCATION] = location
return attrs