core/homeassistant/components/pilight/__init__.py

"""Component to create an interface to a Pilight daemon."""
import logging
import functools
import socket
import threading
from datetime import timedelta

import voluptuous as vol

from homeassistant.helpers.event import track_point_in_utc_time
from homeassistant.util import dt as dt_util
import homeassistant.helpers.config_validation as cv
from homeassistant.const import (
    EVENT_HOMEASSISTANT_START,
    EVENT_HOMEASSISTANT_STOP,
    CONF_HOST,
    CONF_PORT,
    CONF_WHITELIST,
    CONF_PROTOCOL,
)

_LOGGER = logging.getLogger(__name__)

CONF_SEND_DELAY = "send_delay"

DEFAULT_HOST = "127.0.0.1"
DEFAULT_PORT = 5001
DEFAULT_SEND_DELAY = 0.0
DOMAIN = "pilight"

EVENT = "pilight_received"

# The Pilight code schema depends on the protocol. Thus only require to have
# the protocol information. Ensure that protocol is in a list otherwise
# segfault in pilight-daemon, https://github.com/pilight/pilight/issues/296
RF_CODE_SCHEMA = vol.Schema(
    {vol.Required(CONF_PROTOCOL): vol.All(cv.ensure_list, [cv.string])},
    extra=vol.ALLOW_EXTRA,
)

SERVICE_NAME = "send"

CONFIG_SCHEMA = vol.Schema(
    {
        DOMAIN: vol.Schema(
            {
                vol.Optional(CONF_HOST, default=DEFAULT_HOST): cv.string,
                vol.Optional(CONF_PORT, default=DEFAULT_PORT): cv.port,
                vol.Optional(CONF_WHITELIST, default={}): {cv.string: [cv.string]},
                vol.Optional(CONF_SEND_DELAY, default=DEFAULT_SEND_DELAY): vol.Coerce(
                    float
                ),
            }
        )
    },
    extra=vol.ALLOW_EXTRA,
)


def setup(hass, config):
    """Set up the Pilight component."""
    from pilight import pilight

    host = config[DOMAIN][CONF_HOST]
    port = config[DOMAIN][CONF_PORT]
    send_throttler = CallRateDelayThrottle(hass, config[DOMAIN][CONF_SEND_DELAY])

    try:
        pilight_client = pilight.Client(host=host, port=port)
    except (socket.error, socket.timeout) as err:
        _LOGGER.error("Unable to connect to %s on port %s: %s", host, port, err)
        return False

    def start_pilight_client(_):
        """Run when Home Assistant starts."""
        pilight_client.start()

    hass.bus.listen_once(EVENT_HOMEASSISTANT_START, start_pilight_client)

    def stop_pilight_client(_):
        """Run once when Home Assistant stops."""
        pilight_client.stop()

    hass.bus.listen_once(EVENT_HOMEASSISTANT_STOP, stop_pilight_client)

    @send_throttler.limited
    def send_code(call):
        """Send RF code to the pilight-daemon."""
        # Change type to dict from mappingproxy since data has to be JSON
        # serializable
        message_data = dict(call.data)

        try:
            pilight_client.send_code(message_data)
        except IOError:
            _LOGGER.error("Pilight send failed for %s", str(message_data))

    hass.services.register(DOMAIN, SERVICE_NAME, send_code, schema=RF_CODE_SCHEMA)

    # Publish received codes on the HA event bus
    # A whitelist of codes to be published in the event bus
    whitelist = config[DOMAIN].get(CONF_WHITELIST)

    def handle_received_code(data):
        """Run when RF codes are received."""
        # Unravel dict of dicts to make event_data cut in automation rule
        # possible
        data = dict(
            {"protocol": data["protocol"], "uuid": data["uuid"]}, **data["message"]
        )

        # No whitelist defined, put data on event bus
        if not whitelist:
            hass.bus.fire(EVENT, data)
        # Check if data matches the defined whitelist
        elif all(str(data[key]) in whitelist[key] for key in whitelist):
            hass.bus.fire(EVENT, data)

    pilight_client.set_callback(handle_received_code)

    return True


class CallRateDelayThrottle:
    """Helper class to provide service call rate throttling.

    This class provides a decorator to decorate service methods that need
    to be throttled to not exceed a certain call rate per second.
    One instance can be used on multiple service methods to archive
    an overall throttling.

    As this uses track_point_in_utc_time to schedule delayed executions
    it should not block the mainloop.
    """

    def __init__(self, hass, delay_seconds: float) -> None:
        """Initialize the delay handler."""
        self._delay = timedelta(seconds=max(0.0, delay_seconds))
        self._queue = []
        self._active = False
        self._lock = threading.Lock()
        self._next_ts = dt_util.utcnow()
        self._schedule = functools.partial(track_point_in_utc_time, hass)

    def limited(self, method):
        """Decorate to delay calls on a certain method."""

        @functools.wraps(method)
        def decorated(*args, **kwargs):
            """Delay a call."""
            if self._delay.total_seconds() == 0.0:
                method(*args, **kwargs)
                return

            def action(event):
                """Wrap an action that gets scheduled."""
                method(*args, **kwargs)

                with self._lock:
                    self._next_ts = dt_util.utcnow() + self._delay

                    if not self._queue:
                        self._active = False
                    else:
                        next_action = self._queue.pop(0)
                        self._schedule(next_action, self._next_ts)

            with self._lock:
                if self._active:
                    self._queue.append(action)
                else:
                    self._active = True
                    schedule_ts = max(dt_util.utcnow(), self._next_ts)
                    self._schedule(action, schedule_ts)

        return decorated