655 lines
21 KiB
Python
655 lines
21 KiB
Python
"""Event parser and human readable log generator."""
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from datetime import timedelta
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from itertools import groupby
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import json
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import logging
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import sqlalchemy
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from sqlalchemy.orm import aliased
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import voluptuous as vol
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from homeassistant.components import sun
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from homeassistant.components.history import sqlalchemy_filter_from_include_exclude_conf
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from homeassistant.components.http import HomeAssistantView
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from homeassistant.components.recorder.models import (
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Events,
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States,
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process_timestamp,
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process_timestamp_to_utc_isoformat,
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)
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from homeassistant.components.recorder.util import session_scope
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from homeassistant.const import (
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ATTR_DEVICE_CLASS,
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ATTR_DOMAIN,
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ATTR_ENTITY_ID,
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ATTR_FRIENDLY_NAME,
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ATTR_NAME,
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EVENT_HOMEASSISTANT_START,
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EVENT_HOMEASSISTANT_STOP,
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EVENT_LOGBOOK_ENTRY,
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EVENT_STATE_CHANGED,
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HTTP_BAD_REQUEST,
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STATE_NOT_HOME,
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STATE_OFF,
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STATE_ON,
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)
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from homeassistant.core import DOMAIN as HA_DOMAIN, callback, split_entity_id
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import homeassistant.helpers.config_validation as cv
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from homeassistant.helpers.entityfilter import (
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INCLUDE_EXCLUDE_BASE_FILTER_SCHEMA,
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convert_include_exclude_filter,
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generate_filter,
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)
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from homeassistant.helpers.integration_platform import (
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async_process_integration_platforms,
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)
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from homeassistant.loader import bind_hass
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import homeassistant.util.dt as dt_util
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_LOGGER = logging.getLogger(__name__)
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ATTR_MESSAGE = "message"
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CONF_DOMAINS = "domains"
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CONF_ENTITIES = "entities"
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CONTINUOUS_DOMAINS = ["proximity", "sensor"]
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DOMAIN = "logbook"
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GROUP_BY_MINUTES = 15
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EMPTY_JSON_OBJECT = "{}"
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UNIT_OF_MEASUREMENT_JSON = '"unit_of_measurement":'
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CONFIG_SCHEMA = vol.Schema(
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{DOMAIN: INCLUDE_EXCLUDE_BASE_FILTER_SCHEMA}, extra=vol.ALLOW_EXTRA
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)
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HOMEASSISTANT_EVENTS = [
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EVENT_HOMEASSISTANT_START,
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EVENT_HOMEASSISTANT_STOP,
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]
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ALL_EVENT_TYPES = [EVENT_STATE_CHANGED, EVENT_LOGBOOK_ENTRY, *HOMEASSISTANT_EVENTS]
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LOG_MESSAGE_SCHEMA = vol.Schema(
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{
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vol.Required(ATTR_NAME): cv.string,
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vol.Required(ATTR_MESSAGE): cv.template,
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vol.Optional(ATTR_DOMAIN): cv.slug,
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vol.Optional(ATTR_ENTITY_ID): cv.entity_id,
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}
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)
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@bind_hass
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def log_entry(hass, name, message, domain=None, entity_id=None):
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"""Add an entry to the logbook."""
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hass.add_job(async_log_entry, hass, name, message, domain, entity_id)
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@bind_hass
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def async_log_entry(hass, name, message, domain=None, entity_id=None):
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"""Add an entry to the logbook."""
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data = {ATTR_NAME: name, ATTR_MESSAGE: message}
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if domain is not None:
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data[ATTR_DOMAIN] = domain
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if entity_id is not None:
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data[ATTR_ENTITY_ID] = entity_id
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hass.bus.async_fire(EVENT_LOGBOOK_ENTRY, data)
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async def async_setup(hass, config):
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"""Logbook setup."""
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hass.data[DOMAIN] = {}
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@callback
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def log_message(service):
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"""Handle sending notification message service calls."""
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message = service.data[ATTR_MESSAGE]
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name = service.data[ATTR_NAME]
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domain = service.data.get(ATTR_DOMAIN)
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entity_id = service.data.get(ATTR_ENTITY_ID)
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if entity_id is None and domain is None:
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# If there is no entity_id or
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# domain, the event will get filtered
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# away so we use the "logbook" domain
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domain = DOMAIN
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message.hass = hass
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message = message.async_render()
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async_log_entry(hass, name, message, domain, entity_id)
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hass.components.frontend.async_register_built_in_panel(
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"logbook", "logbook", "hass:format-list-bulleted-type"
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)
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conf = config.get(DOMAIN, {})
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if conf:
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filters = sqlalchemy_filter_from_include_exclude_conf(conf)
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entities_filter = convert_include_exclude_filter(conf)
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else:
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filters = None
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entities_filter = None
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hass.http.register_view(LogbookView(conf, filters, entities_filter))
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hass.services.async_register(DOMAIN, "log", log_message, schema=LOG_MESSAGE_SCHEMA)
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await async_process_integration_platforms(hass, DOMAIN, _process_logbook_platform)
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return True
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async def _process_logbook_platform(hass, domain, platform):
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"""Process a logbook platform."""
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@callback
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def _async_describe_event(domain, event_name, describe_callback):
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"""Teach logbook how to describe a new event."""
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hass.data[DOMAIN][event_name] = (domain, describe_callback)
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platform.async_describe_events(hass, _async_describe_event)
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class LogbookView(HomeAssistantView):
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"""Handle logbook view requests."""
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url = "/api/logbook"
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name = "api:logbook"
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extra_urls = ["/api/logbook/{datetime}"]
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def __init__(self, config, filters, entities_filter):
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"""Initialize the logbook view."""
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self.config = config
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self.filters = filters
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self.entities_filter = entities_filter
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async def get(self, request, datetime=None):
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"""Retrieve logbook entries."""
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if datetime:
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datetime = dt_util.parse_datetime(datetime)
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if datetime is None:
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return self.json_message("Invalid datetime", HTTP_BAD_REQUEST)
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else:
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datetime = dt_util.start_of_local_day()
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period = request.query.get("period")
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if period is None:
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period = 1
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else:
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period = int(period)
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entity_id = request.query.get("entity")
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end_time = request.query.get("end_time")
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if end_time is None:
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start_day = dt_util.as_utc(datetime) - timedelta(days=period - 1)
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end_day = start_day + timedelta(days=period)
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else:
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start_day = datetime
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end_day = dt_util.parse_datetime(end_time)
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if end_day is None:
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return self.json_message("Invalid end_time", HTTP_BAD_REQUEST)
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hass = request.app["hass"]
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def json_events():
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"""Fetch events and generate JSON."""
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return self.json(
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_get_events(
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hass,
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self.config,
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start_day,
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end_day,
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entity_id,
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self.filters,
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self.entities_filter,
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)
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)
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return await hass.async_add_executor_job(json_events)
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def humanify(hass, events, entity_attr_cache):
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"""Generate a converted list of events into Entry objects.
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Will try to group events if possible:
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- if 2+ sensor updates in GROUP_BY_MINUTES, show last
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- if Home Assistant stop and start happen in same minute call it restarted
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"""
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# Group events in batches of GROUP_BY_MINUTES
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for _, g_events in groupby(
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events, lambda event: event.time_fired_minute // GROUP_BY_MINUTES
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):
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events_batch = list(g_events)
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# Keep track of last sensor states
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last_sensor_event = {}
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# Group HA start/stop events
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# Maps minute of event to 1: stop, 2: stop + start
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start_stop_events = {}
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# Process events
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for event in events_batch:
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if event.event_type == EVENT_STATE_CHANGED:
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if event.domain in CONTINUOUS_DOMAINS:
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last_sensor_event[event.entity_id] = event
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elif event.event_type == EVENT_HOMEASSISTANT_STOP:
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if event.time_fired_minute in start_stop_events:
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continue
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start_stop_events[event.time_fired_minute] = 1
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elif event.event_type == EVENT_HOMEASSISTANT_START:
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if event.time_fired_minute not in start_stop_events:
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continue
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start_stop_events[event.time_fired_minute] = 2
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# Yield entries
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external_events = hass.data.get(DOMAIN, {})
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for event in events_batch:
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if event.event_type in external_events:
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domain, describe_event = external_events[event.event_type]
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data = describe_event(event)
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data["when"] = event.time_fired_isoformat
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data["domain"] = domain
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data["context_user_id"] = event.context_user_id
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yield data
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if event.event_type == EVENT_STATE_CHANGED:
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entity_id = event.entity_id
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domain = event.domain
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if (
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domain in CONTINUOUS_DOMAINS
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and event != last_sensor_event[entity_id]
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):
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# Skip all but the last sensor state
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continue
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name = entity_attr_cache.get(
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entity_id, ATTR_FRIENDLY_NAME, event
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) or split_entity_id(entity_id)[1].replace("_", " ")
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yield {
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"when": event.time_fired_isoformat,
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"name": name,
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"message": _entry_message_from_event(
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hass, entity_id, domain, event, entity_attr_cache
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),
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"domain": domain,
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"entity_id": entity_id,
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"context_user_id": event.context_user_id,
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}
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elif event.event_type == EVENT_HOMEASSISTANT_START:
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if start_stop_events.get(event.time_fired_minute) == 2:
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continue
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yield {
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"when": event.time_fired_isoformat,
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"name": "Home Assistant",
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"message": "started",
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"domain": HA_DOMAIN,
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"context_user_id": event.context_user_id,
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}
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elif event.event_type == EVENT_HOMEASSISTANT_STOP:
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if start_stop_events.get(event.time_fired_minute) == 2:
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action = "restarted"
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else:
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action = "stopped"
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yield {
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"when": event.time_fired_isoformat,
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"name": "Home Assistant",
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"message": action,
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"domain": HA_DOMAIN,
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"context_user_id": event.context_user_id,
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}
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elif event.event_type == EVENT_LOGBOOK_ENTRY:
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event_data = event.data
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domain = event_data.get(ATTR_DOMAIN)
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entity_id = event_data.get(ATTR_ENTITY_ID)
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if domain is None and entity_id is not None:
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try:
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domain = split_entity_id(str(entity_id))[0]
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except IndexError:
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pass
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yield {
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"when": event.time_fired_isoformat,
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"name": event_data.get(ATTR_NAME),
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"message": event_data.get(ATTR_MESSAGE),
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"domain": domain,
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"entity_id": entity_id,
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}
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def _get_events(
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hass, config, start_day, end_day, entity_id=None, filters=None, entities_filter=None
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):
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"""Get events for a period of time."""
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entity_attr_cache = EntityAttributeCache(hass)
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def yield_events(query):
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"""Yield Events that are not filtered away."""
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for row in query.yield_per(1000):
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event = LazyEventPartialState(row)
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if _keep_event(hass, event, entities_filter):
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yield event
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with session_scope(hass=hass) as session:
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if entity_id is not None:
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entity_ids = [entity_id.lower()]
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entities_filter = generate_filter([], entity_ids, [], [])
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apply_sql_entities_filter = False
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else:
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entity_ids = None
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apply_sql_entities_filter = True
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old_state = aliased(States, name="old_state")
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query = (
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session.query(
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Events.event_type,
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Events.event_data,
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Events.time_fired,
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Events.context_user_id,
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States.state,
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States.entity_id,
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States.domain,
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States.attributes,
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)
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.order_by(Events.time_fired)
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.outerjoin(States, (Events.event_id == States.event_id))
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.outerjoin(old_state, (States.old_state_id == old_state.state_id))
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# The below filter, removes state change events that do not have
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# and old_state, new_state, or the old and
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# new state.
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#
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.filter(
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(Events.event_type != EVENT_STATE_CHANGED)
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| (
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(States.state_id.isnot(None))
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& (old_state.state_id.isnot(None))
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& (States.state.isnot(None))
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& (States.state != old_state.state)
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)
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)
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#
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# Prefilter out continuous domains that have
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# ATTR_UNIT_OF_MEASUREMENT as its much faster in sql.
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#
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.filter(
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(Events.event_type != EVENT_STATE_CHANGED)
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| sqlalchemy.not_(States.domain.in_(CONTINUOUS_DOMAINS))
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| sqlalchemy.not_(States.attributes.contains(UNIT_OF_MEASUREMENT_JSON))
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)
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.filter(
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Events.event_type.in_(ALL_EVENT_TYPES + list(hass.data.get(DOMAIN, {})))
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)
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.filter((Events.time_fired > start_day) & (Events.time_fired < end_day))
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)
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if entity_ids:
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query = query.filter(
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(
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(States.last_updated == States.last_changed)
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& States.entity_id.in_(entity_ids)
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)
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| (States.state_id.is_(None))
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)
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else:
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query = query.filter(
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(States.last_updated == States.last_changed)
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| (States.state_id.is_(None))
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)
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if apply_sql_entities_filter and filters:
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entity_filter = filters.entity_filter()
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if entity_filter is not None:
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query = query.filter(
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entity_filter | (Events.event_type != EVENT_STATE_CHANGED)
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)
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return list(humanify(hass, yield_events(query), entity_attr_cache))
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def _keep_event(hass, event, entities_filter):
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if event.event_type == EVENT_STATE_CHANGED:
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entity_id = event.entity_id
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elif event.event_type in HOMEASSISTANT_EVENTS:
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entity_id = f"{HA_DOMAIN}."
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elif event.event_type in hass.data[DOMAIN] and ATTR_ENTITY_ID not in event.data:
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# If the entity_id isn't described, use the domain that describes
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# the event for filtering.
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domain = hass.data[DOMAIN][event.event_type][0]
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if domain is None:
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return False
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entity_id = f"{domain}."
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else:
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event_data = event.data
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entity_id = event_data.get(ATTR_ENTITY_ID)
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if entity_id is None:
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domain = event_data.get(ATTR_DOMAIN)
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if domain is None:
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return False
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entity_id = f"{domain}."
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return entities_filter is None or entities_filter(entity_id)
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def _entry_message_from_event(hass, entity_id, domain, event, entity_attr_cache):
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"""Convert a state to a message for the logbook."""
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# We pass domain in so we don't have to split entity_id again
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state_state = event.state
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if domain in ["device_tracker", "person"]:
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if state_state == STATE_NOT_HOME:
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return "is away"
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return f"is at {state_state}"
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if domain == "sun":
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if state_state == sun.STATE_ABOVE_HORIZON:
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return "has risen"
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return "has set"
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if domain == "binary_sensor":
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device_class = entity_attr_cache.get(entity_id, ATTR_DEVICE_CLASS, event)
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if device_class == "battery":
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if state_state == STATE_ON:
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return "is low"
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if state_state == STATE_OFF:
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return "is normal"
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if device_class == "connectivity":
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if state_state == STATE_ON:
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return "is connected"
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if state_state == STATE_OFF:
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return "is disconnected"
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if device_class in ["door", "garage_door", "opening", "window"]:
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if state_state == STATE_ON:
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return "is opened"
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if state_state == STATE_OFF:
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return "is closed"
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if device_class == "lock":
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if state_state == STATE_ON:
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return "is unlocked"
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if state_state == STATE_OFF:
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return "is locked"
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if device_class == "plug":
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if state_state == STATE_ON:
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return "is plugged in"
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if state_state == STATE_OFF:
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return "is unplugged"
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if device_class == "presence":
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if state_state == STATE_ON:
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return "is at home"
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if state_state == STATE_OFF:
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return "is away"
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if device_class == "safety":
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if state_state == STATE_ON:
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return "is unsafe"
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if state_state == STATE_OFF:
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return "is safe"
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if device_class in [
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"cold",
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"gas",
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"heat",
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"light",
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"moisture",
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"motion",
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"occupancy",
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"power",
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"problem",
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"smoke",
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"sound",
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"vibration",
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]:
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if state_state == STATE_ON:
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return f"detected {device_class}"
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if state_state == STATE_OFF:
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return f"cleared (no {device_class} detected)"
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if state_state == STATE_ON:
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# Future: combine groups and its entity entries ?
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return "turned on"
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|
|
if state_state == STATE_OFF:
|
|
return "turned off"
|
|
|
|
return f"changed to {state_state}"
|
|
|
|
|
|
class LazyEventPartialState:
|
|
"""A lazy version of core Event with limited State joined in."""
|
|
|
|
__slots__ = [
|
|
"_row",
|
|
"_event_data",
|
|
"_time_fired",
|
|
"_time_fired_isoformat",
|
|
"_attributes",
|
|
"event_type",
|
|
"entity_id",
|
|
"state",
|
|
"domain",
|
|
]
|
|
|
|
def __init__(self, row):
|
|
"""Init the lazy event."""
|
|
self._row = row
|
|
self._event_data = None
|
|
self._time_fired = None
|
|
self._time_fired_isoformat = None
|
|
self._attributes = None
|
|
self.event_type = self._row.event_type
|
|
self.entity_id = self._row.entity_id
|
|
self.state = self._row.state
|
|
self.domain = self._row.domain
|
|
|
|
@property
|
|
def context_user_id(self):
|
|
"""Context user id of event."""
|
|
return self._row.context_user_id
|
|
|
|
@property
|
|
def attributes(self):
|
|
"""State attributes."""
|
|
if not self._attributes:
|
|
if (
|
|
self._row.attributes is None
|
|
or self._row.attributes == EMPTY_JSON_OBJECT
|
|
):
|
|
self._attributes = {}
|
|
else:
|
|
self._attributes = json.loads(self._row.attributes)
|
|
return self._attributes
|
|
|
|
@property
|
|
def data(self):
|
|
"""Event data."""
|
|
if not self._event_data:
|
|
if self._row.event_data == EMPTY_JSON_OBJECT:
|
|
self._event_data = {}
|
|
else:
|
|
self._event_data = json.loads(self._row.event_data)
|
|
return self._event_data
|
|
|
|
@property
|
|
def time_fired_minute(self):
|
|
"""Minute the event was fired not converted."""
|
|
return self._row.time_fired.minute
|
|
|
|
@property
|
|
def time_fired(self):
|
|
"""Time event was fired in utc."""
|
|
if not self._time_fired:
|
|
self._time_fired = (
|
|
process_timestamp(self._row.time_fired) or dt_util.utcnow()
|
|
)
|
|
return self._time_fired
|
|
|
|
@property
|
|
def time_fired_isoformat(self):
|
|
"""Time event was fired in utc isoformat."""
|
|
if not self._time_fired_isoformat:
|
|
if self._time_fired:
|
|
self._time_fired_isoformat = self._time_fired.isoformat()
|
|
else:
|
|
self._time_fired_isoformat = process_timestamp_to_utc_isoformat(
|
|
self._row.time_fired or dt_util.utcnow()
|
|
)
|
|
return self._time_fired_isoformat
|
|
|
|
|
|
class EntityAttributeCache:
|
|
"""A cache to lookup static entity_id attribute.
|
|
|
|
This class should not be used to lookup attributes
|
|
that are expected to change state.
|
|
"""
|
|
|
|
def __init__(self, hass):
|
|
"""Init the cache."""
|
|
self._hass = hass
|
|
self._cache = {}
|
|
|
|
def get(self, entity_id, attribute, event):
|
|
"""Lookup an attribute for an entity or get it from the cache."""
|
|
if entity_id in self._cache:
|
|
if attribute in self._cache[entity_id]:
|
|
return self._cache[entity_id][attribute]
|
|
else:
|
|
self._cache[entity_id] = {}
|
|
|
|
current_state = self._hass.states.get(entity_id)
|
|
if current_state:
|
|
# Try the current state as its faster than decoding the
|
|
# attributes
|
|
self._cache[entity_id][attribute] = current_state.attributes.get(attribute)
|
|
else:
|
|
# If the entity has been removed, decode the attributes
|
|
# instead
|
|
self._cache[entity_id][attribute] = event.attributes.get(attribute)
|
|
|
|
return self._cache[entity_id][attribute]
|