"""The tests for the logbook component.""" # pylint: disable=protected-access,invalid-name import collections from datetime import datetime, timedelta from functools import partial import json import logging import unittest import pytest import voluptuous as vol from homeassistant.components import logbook, recorder, sun from homeassistant.components.alexa.smart_home import EVENT_ALEXA_SMART_HOME from homeassistant.components.automation import EVENT_AUTOMATION_TRIGGERED from homeassistant.components.script import EVENT_SCRIPT_STARTED from homeassistant.const import ( ATTR_ENTITY_ID, ATTR_HIDDEN, ATTR_NAME, EVENT_HOMEASSISTANT_START, EVENT_HOMEASSISTANT_STOP, EVENT_STATE_CHANGED, STATE_NOT_HOME, STATE_OFF, STATE_ON, ) import homeassistant.core as ha from homeassistant.helpers.json import JSONEncoder from homeassistant.setup import async_setup_component, setup_component import homeassistant.util.dt as dt_util from tests.async_mock import patch from tests.common import get_test_home_assistant, init_recorder_component from tests.components.recorder.common import trigger_db_commit _LOGGER = logging.getLogger(__name__) class TestComponentLogbook(unittest.TestCase): """Test the History component.""" EMPTY_CONFIG = logbook.CONFIG_SCHEMA({logbook.DOMAIN: {}}) def setUp(self): """Set up things to be run when tests are started.""" self.hass = get_test_home_assistant() init_recorder_component(self.hass) # Force an in memory DB with patch("homeassistant.components.http.start_http_server_and_save_config"): assert setup_component(self.hass, logbook.DOMAIN, self.EMPTY_CONFIG) self.addCleanup(self.hass.stop) def test_service_call_create_logbook_entry(self): """Test if service call create log book entry.""" calls = [] @ha.callback def event_listener(event): """Append on event.""" calls.append(event) self.hass.bus.listen(logbook.EVENT_LOGBOOK_ENTRY, event_listener) self.hass.services.call( logbook.DOMAIN, "log", { logbook.ATTR_NAME: "Alarm", logbook.ATTR_MESSAGE: "is triggered", logbook.ATTR_DOMAIN: "switch", logbook.ATTR_ENTITY_ID: "switch.test_switch", }, True, ) # Logbook entry service call results in firing an event. # Our service call will unblock when the event listeners have been # scheduled. This means that they may not have been processed yet. self.hass.block_till_done() self.hass.data[recorder.DATA_INSTANCE].block_till_done() events = list( logbook._get_events( self.hass, {}, dt_util.utcnow() - timedelta(hours=1), dt_util.utcnow() + timedelta(hours=1), ) ) assert len(events) == 1 assert len(calls) == 1 last_call = calls[-1] assert last_call.data.get(logbook.ATTR_NAME) == "Alarm" assert last_call.data.get(logbook.ATTR_MESSAGE) == "is triggered" assert last_call.data.get(logbook.ATTR_DOMAIN) == "switch" assert last_call.data.get(logbook.ATTR_ENTITY_ID) == "switch.test_switch" def test_service_call_create_log_book_entry_no_message(self): """Test if service call create log book entry without message.""" calls = [] @ha.callback def event_listener(event): """Append on event.""" calls.append(event) self.hass.bus.listen(logbook.EVENT_LOGBOOK_ENTRY, event_listener) with pytest.raises(vol.Invalid): self.hass.services.call(logbook.DOMAIN, "log", {}, True) # Logbook entry service call results in firing an event. # Our service call will unblock when the event listeners have been # scheduled. This means that they may not have been processed yet. self.hass.block_till_done() assert len(calls) == 0 def test_humanify_filter_sensor(self): """Test humanify filter too frequent sensor values.""" entity_id = "sensor.bla" pointA = dt_util.utcnow().replace(minute=2) pointB = pointA.replace(minute=5) pointC = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) eventA = self.create_state_changed_event(pointA, entity_id, 10) eventB = self.create_state_changed_event(pointB, entity_id, 20) eventC = self.create_state_changed_event(pointC, entity_id, 30) entries = list( logbook.humanify(self.hass, (eventA, eventB, eventC), entity_attr_cache) ) assert len(entries) == 2 self.assert_entry( entries[0], pointB, "bla", domain="sensor", entity_id=entity_id ) self.assert_entry( entries[1], pointC, "bla", domain="sensor", entity_id=entity_id ) def test_filter_continuous_sensor_values(self): """Test remove continuous sensor events from logbook.""" entity_id = "sensor.bla" pointA = dt_util.utcnow() entity_attr_cache = logbook.EntityAttributeCache(self.hass) attributes = {"unit_of_measurement": "foo"} eventA = self.create_state_changed_event(pointA, entity_id, 10, attributes) entities_filter = logbook._generate_filter_from_config({}) assert ( logbook._keep_event(self.hass, eventA, entities_filter, entity_attr_cache) is False ) def test_exclude_new_entities(self): """Test if events are excluded on first update.""" entity_id = "sensor.bla" entity_id2 = "sensor.blu" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) state_on = ha.State( entity_id, "on", {"brightness": 200}, pointA, pointA ).as_dict() eventA = self.create_state_changed_event_from_old_new( entity_id, pointA, None, state_on ) eventB = self.create_state_changed_event(pointB, entity_id2, 20) entities_filter = logbook._generate_filter_from_config({}) events = [ e for e in ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_STOP), eventA, eventB, ) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 2 self.assert_entry( entries[0], name="Home Assistant", message="stopped", domain=ha.DOMAIN ) self.assert_entry( entries[1], pointB, "blu", domain="sensor", entity_id=entity_id2 ) def test_exclude_removed_entities(self): """Test if events are excluded on last update.""" entity_id = "sensor.bla" entity_id2 = "sensor.blu" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) state_on = ha.State( entity_id, "on", {"brightness": 200}, pointA, pointA ).as_dict() eventA = self.create_state_changed_event_from_old_new( None, pointA, state_on, None, ) eventB = self.create_state_changed_event(pointB, entity_id2, 20) entities_filter = logbook._generate_filter_from_config({}) events = [ e for e in ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_STOP), eventA, eventB, ) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 2 self.assert_entry( entries[0], name="Home Assistant", message="stopped", domain=ha.DOMAIN ) self.assert_entry( entries[1], pointB, "blu", domain="sensor", entity_id=entity_id2 ) def test_exclude_events_hidden(self): """Test if events are excluded if entity is hidden.""" entity_id = "sensor.bla" entity_id2 = "sensor.blu" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) eventA = self.create_state_changed_event( pointA, entity_id, 10, {ATTR_HIDDEN: "true"} ) eventB = self.create_state_changed_event(pointB, entity_id2, 20) entities_filter = logbook._generate_filter_from_config({}) events = [ e for e in ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_STOP), eventA, eventB, ) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 2 self.assert_entry( entries[0], name="Home Assistant", message="stopped", domain=ha.DOMAIN ) self.assert_entry( entries[1], pointB, "blu", domain="sensor", entity_id=entity_id2 ) def test_exclude_events_entity(self): """Test if events are filtered if entity is excluded in config.""" entity_id = "sensor.bla" entity_id2 = "sensor.blu" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) eventA = self.create_state_changed_event(pointA, entity_id, 10) eventB = self.create_state_changed_event(pointB, entity_id2, 20) config = logbook.CONFIG_SCHEMA( { ha.DOMAIN: {}, logbook.DOMAIN: { logbook.CONF_EXCLUDE: {logbook.CONF_ENTITIES: [entity_id]} }, } ) entities_filter = logbook._generate_filter_from_config(config[logbook.DOMAIN]) events = [ e for e in ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_STOP), eventA, eventB, ) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 2 self.assert_entry( entries[0], name="Home Assistant", message="stopped", domain=ha.DOMAIN ) self.assert_entry( entries[1], pointB, "blu", domain="sensor", entity_id=entity_id2 ) def test_exclude_events_domain(self): """Test if events are filtered if domain is excluded in config.""" entity_id = "switch.bla" entity_id2 = "sensor.blu" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) eventA = self.create_state_changed_event(pointA, entity_id, 10) eventB = self.create_state_changed_event(pointB, entity_id2, 20) config = logbook.CONFIG_SCHEMA( { ha.DOMAIN: {}, logbook.DOMAIN: { logbook.CONF_EXCLUDE: {logbook.CONF_DOMAINS: ["switch", "alexa"]} }, } ) entities_filter = logbook._generate_filter_from_config(config[logbook.DOMAIN]) events = [ e for e in ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_START), MockLazyEventPartialState(EVENT_ALEXA_SMART_HOME), eventA, eventB, ) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 2 self.assert_entry( entries[0], name="Home Assistant", message="started", domain=ha.DOMAIN ) self.assert_entry( entries[1], pointB, "blu", domain="sensor", entity_id=entity_id2 ) def test_include_events_entity(self): """Test if events are filtered if entity is included in config.""" entity_id = "sensor.bla" entity_id2 = "sensor.blu" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) eventA = self.create_state_changed_event(pointA, entity_id, 10) eventB = self.create_state_changed_event(pointB, entity_id2, 20) config = logbook.CONFIG_SCHEMA( { ha.DOMAIN: {}, logbook.DOMAIN: { logbook.CONF_INCLUDE: { logbook.CONF_DOMAINS: ["homeassistant"], logbook.CONF_ENTITIES: [entity_id2], } }, } ) entities_filter = logbook._generate_filter_from_config(config[logbook.DOMAIN]) events = [ e for e in ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_STOP), eventA, eventB, ) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 2 self.assert_entry( entries[0], name="Home Assistant", message="stopped", domain=ha.DOMAIN ) self.assert_entry( entries[1], pointB, "blu", domain="sensor", entity_id=entity_id2 ) def test_include_events_domain(self): """Test if events are filtered if domain is included in config.""" assert setup_component(self.hass, "alexa", {}) entity_id = "switch.bla" entity_id2 = "sensor.blu" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) event_alexa = MockLazyEventPartialState( EVENT_ALEXA_SMART_HOME, {"request": {"namespace": "Alexa.Discovery", "name": "Discover"}}, ) eventA = self.create_state_changed_event(pointA, entity_id, 10) eventB = self.create_state_changed_event(pointB, entity_id2, 20) config = logbook.CONFIG_SCHEMA( { ha.DOMAIN: {}, logbook.DOMAIN: { logbook.CONF_INCLUDE: { logbook.CONF_DOMAINS: ["homeassistant", "sensor", "alexa"] } }, } ) entities_filter = logbook._generate_filter_from_config(config[logbook.DOMAIN]) events = [ e for e in ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_START), event_alexa, eventA, eventB, ) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 3 self.assert_entry( entries[0], name="Home Assistant", message="started", domain=ha.DOMAIN ) self.assert_entry(entries[1], name="Amazon Alexa", domain="alexa") self.assert_entry( entries[2], pointB, "blu", domain="sensor", entity_id=entity_id2 ) def test_include_exclude_events(self): """Test if events are filtered if include and exclude is configured.""" entity_id = "switch.bla" entity_id2 = "sensor.blu" entity_id3 = "sensor.bli" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=logbook.GROUP_BY_MINUTES) entity_attr_cache = logbook.EntityAttributeCache(self.hass) eventA1 = self.create_state_changed_event(pointA, entity_id, 10) eventA2 = self.create_state_changed_event(pointA, entity_id2, 10) eventA3 = self.create_state_changed_event(pointA, entity_id3, 10) eventB1 = self.create_state_changed_event(pointB, entity_id, 20) eventB2 = self.create_state_changed_event(pointB, entity_id2, 20) config = logbook.CONFIG_SCHEMA( { ha.DOMAIN: {}, logbook.DOMAIN: { logbook.CONF_INCLUDE: { logbook.CONF_DOMAINS: ["sensor", "homeassistant"], logbook.CONF_ENTITIES: ["switch.bla"], }, logbook.CONF_EXCLUDE: { logbook.CONF_DOMAINS: ["switch"], logbook.CONF_ENTITIES: ["sensor.bli"], }, }, } ) entities_filter = logbook._generate_filter_from_config(config[logbook.DOMAIN]) events = [ e for e in ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_START), eventA1, eventA2, eventA3, eventB1, eventB2, ) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 5 self.assert_entry( entries[0], name="Home Assistant", message="started", domain=ha.DOMAIN ) self.assert_entry( entries[1], pointA, "bla", domain="switch", entity_id=entity_id ) self.assert_entry( entries[2], pointA, "blu", domain="sensor", entity_id=entity_id2 ) self.assert_entry( entries[3], pointB, "bla", domain="switch", entity_id=entity_id ) self.assert_entry( entries[4], pointB, "blu", domain="sensor", entity_id=entity_id2 ) def test_exclude_attribute_changes(self): """Test if events of attribute changes are filtered.""" pointA = dt_util.utcnow() pointB = pointA + timedelta(minutes=1) pointC = pointB + timedelta(minutes=1) entity_attr_cache = logbook.EntityAttributeCache(self.hass) state_off = ha.State("light.kitchen", "off", {}, pointA, pointA).as_dict() state_100 = ha.State( "light.kitchen", "on", {"brightness": 100}, pointB, pointB ).as_dict() state_200 = ha.State( "light.kitchen", "on", {"brightness": 200}, pointB, pointC ).as_dict() eventA = self.create_state_changed_event_from_old_new( "light.kitchen", pointB, state_off, state_100 ) eventB = self.create_state_changed_event_from_old_new( "light.kitchen", pointC, state_100, state_200 ) entities_filter = logbook._generate_filter_from_config({}) events = [ e for e in (eventA, eventB) if logbook._keep_event(self.hass, e, entities_filter, entity_attr_cache) ] entries = list(logbook.humanify(self.hass, events, entity_attr_cache)) assert len(entries) == 1 self.assert_entry( entries[0], pointB, "kitchen", domain="light", entity_id="light.kitchen" ) def test_home_assistant_start_stop_grouped(self): """Test if HA start and stop events are grouped. Events that are occurring in the same minute. """ entity_attr_cache = logbook.EntityAttributeCache(self.hass) entries = list( logbook.humanify( self.hass, ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_STOP), MockLazyEventPartialState(EVENT_HOMEASSISTANT_START), ), entity_attr_cache, ), ) assert len(entries) == 1 self.assert_entry( entries[0], name="Home Assistant", message="restarted", domain=ha.DOMAIN ) def test_home_assistant_start(self): """Test if HA start is not filtered or converted into a restart.""" entity_id = "switch.bla" pointA = dt_util.utcnow() entity_attr_cache = logbook.EntityAttributeCache(self.hass) entries = list( logbook.humanify( self.hass, ( MockLazyEventPartialState(EVENT_HOMEASSISTANT_START), self.create_state_changed_event(pointA, entity_id, 10), ), entity_attr_cache, ) ) assert len(entries) == 2 self.assert_entry( entries[0], name="Home Assistant", message="started", domain=ha.DOMAIN ) self.assert_entry( entries[1], pointA, "bla", domain="switch", entity_id=entity_id ) def test_entry_message_from_event_device(self): """Test if logbook message is correctly created for switches. Especially test if the special handling for turn on/off events is done. """ pointA = dt_util.utcnow() entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a device state change eventA = self.create_state_changed_event(pointA, "switch.bla", 10) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "changed to 10" # message for a switch turned on eventA = self.create_state_changed_event(pointA, "switch.bla", STATE_ON) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "turned on" # message for a switch turned off eventA = self.create_state_changed_event(pointA, "switch.bla", STATE_OFF) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "turned off" def test_entry_message_from_event_device_tracker(self): """Test if logbook message is correctly created for device tracker.""" pointA = dt_util.utcnow() entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a device tracker "not home" state eventA = self.create_state_changed_event( pointA, "device_tracker.john", STATE_NOT_HOME ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is away" # message for a device tracker "home" state eventA = self.create_state_changed_event(pointA, "device_tracker.john", "work") message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is at work" def test_entry_message_from_event_person(self): """Test if logbook message is correctly created for a person.""" pointA = dt_util.utcnow() entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a device tracker "not home" state eventA = self.create_state_changed_event(pointA, "person.john", STATE_NOT_HOME) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is away" # message for a device tracker "home" state eventA = self.create_state_changed_event(pointA, "person.john", "work") message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is at work" def test_entry_message_from_event_sun(self): """Test if logbook message is correctly created for sun.""" pointA = dt_util.utcnow() entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a sun rise eventA = self.create_state_changed_event( pointA, "sun.sun", sun.STATE_ABOVE_HORIZON ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "has risen" # message for a sun set eventA = self.create_state_changed_event( pointA, "sun.sun", sun.STATE_BELOW_HORIZON ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "has set" def test_entry_message_from_event_binary_sensor_battery(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "battery"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor battery "low" state eventA = self.create_state_changed_event( pointA, "binary_sensor.battery", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is low" # message for a binary_sensor battery "normal" state eventA = self.create_state_changed_event( pointA, "binary_sensor.battery", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is normal" def test_entry_message_from_event_binary_sensor_connectivity(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "connectivity"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor connectivity "connected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.connectivity", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is connected" # message for a binary_sensor connectivity "disconnected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.connectivity", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is disconnected" def test_entry_message_from_event_binary_sensor_door(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "door"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor door "open" state eventA = self.create_state_changed_event( pointA, "binary_sensor.door", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is opened" # message for a binary_sensor door "closed" state eventA = self.create_state_changed_event( pointA, "binary_sensor.door", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is closed" def test_entry_message_from_event_binary_sensor_garage_door(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "garage_door"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor garage_door "open" state eventA = self.create_state_changed_event( pointA, "binary_sensor.garage_door", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is opened" # message for a binary_sensor garage_door "closed" state eventA = self.create_state_changed_event( pointA, "binary_sensor.garage_door", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is closed" def test_entry_message_from_event_binary_sensor_opening(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "opening"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor opening "open" state eventA = self.create_state_changed_event( pointA, "binary_sensor.opening", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is opened" # message for a binary_sensor opening "closed" state eventA = self.create_state_changed_event( pointA, "binary_sensor.opening", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is closed" def test_entry_message_from_event_binary_sensor_window(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "window"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor window "open" state eventA = self.create_state_changed_event( pointA, "binary_sensor.window", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is opened" # message for a binary_sensor window "closed" state eventA = self.create_state_changed_event( pointA, "binary_sensor.window", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is closed" def test_entry_message_from_event_binary_sensor_lock(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "lock"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor lock "unlocked" state eventA = self.create_state_changed_event( pointA, "binary_sensor.lock", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is unlocked" # message for a binary_sensor lock "locked" state eventA = self.create_state_changed_event( pointA, "binary_sensor.lock", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is locked" def test_entry_message_from_event_binary_sensor_plug(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "plug"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor plug "unpluged" state eventA = self.create_state_changed_event( pointA, "binary_sensor.plug", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is plugged in" # message for a binary_sensor plug "pluged" state eventA = self.create_state_changed_event( pointA, "binary_sensor.plug", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is unplugged" def test_entry_message_from_event_binary_sensor_presence(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "presence"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor presence "home" state eventA = self.create_state_changed_event( pointA, "binary_sensor.presence", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is at home" # message for a binary_sensor presence "away" state eventA = self.create_state_changed_event( pointA, "binary_sensor.presence", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is away" def test_entry_message_from_event_binary_sensor_safety(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "safety"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor safety "unsafe" state eventA = self.create_state_changed_event( pointA, "binary_sensor.safety", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is unsafe" # message for a binary_sensor safety "safe" state eventA = self.create_state_changed_event( pointA, "binary_sensor.safety", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "is safe" def test_entry_message_from_event_binary_sensor_cold(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "cold"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor cold "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.cold", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected cold" # message for a binary_sensori cold "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.cold", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no cold detected)" def test_entry_message_from_event_binary_sensor_gas(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "gas"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor gas "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.gas", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected gas" # message for a binary_sensori gas "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.gas", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no gas detected)" def test_entry_message_from_event_binary_sensor_heat(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "heat"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor heat "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.heat", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected heat" # message for a binary_sensori heat "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.heat", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no heat detected)" def test_entry_message_from_event_binary_sensor_light(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "light"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor light "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.light", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected light" # message for a binary_sensori light "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.light", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no light detected)" def test_entry_message_from_event_binary_sensor_moisture(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "moisture"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor moisture "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.moisture", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected moisture" # message for a binary_sensori moisture "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.moisture", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no moisture detected)" def test_entry_message_from_event_binary_sensor_motion(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "motion"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor motion "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.motion", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected motion" # message for a binary_sensori motion "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.motion", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no motion detected)" def test_entry_message_from_event_binary_sensor_occupancy(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "occupancy"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor occupancy "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.occupancy", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected occupancy" # message for a binary_sensori occupancy "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.occupancy", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no occupancy detected)" def test_entry_message_from_event_binary_sensor_power(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "power"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor power "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.power", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected power" # message for a binary_sensori power "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.power", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no power detected)" def test_entry_message_from_event_binary_sensor_problem(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "problem"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor problem "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.problem", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected problem" # message for a binary_sensori problem "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.problem", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no problem detected)" def test_entry_message_from_event_binary_sensor_smoke(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "smoke"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor smoke "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.smoke", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected smoke" # message for a binary_sensori smoke "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.smoke", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no smoke detected)" def test_entry_message_from_event_binary_sensor_sound(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "sound"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor sound "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.sound", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected sound" # message for a binary_sensori sound "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.sound", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no sound detected)" def test_entry_message_from_event_binary_sensor_vibration(self): """Test if logbook message is correctly created for a binary_sensor.""" pointA = dt_util.utcnow() attributes = {"device_class": "vibration"} entity_attr_cache = logbook.EntityAttributeCache(self.hass) # message for a binary_sensor vibration "detected" state eventA = self.create_state_changed_event( pointA, "binary_sensor.vibration", STATE_ON, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "detected vibration" # message for a binary_sensori vibration "cleared" state eventA = self.create_state_changed_event( pointA, "binary_sensor.vibration", STATE_OFF, attributes ) message = logbook._entry_message_from_event( self.hass, eventA.entity_id, eventA.domain, eventA, entity_attr_cache ) assert message == "cleared (no vibration detected)" def test_process_custom_logbook_entries(self): """Test if custom log book entries get added as an entry.""" name = "Nice name" message = "has a custom entry" entity_id = "sun.sun" entity_attr_cache = logbook.EntityAttributeCache(self.hass) entries = list( logbook.humanify( self.hass, ( MockLazyEventPartialState( logbook.EVENT_LOGBOOK_ENTRY, { logbook.ATTR_NAME: name, logbook.ATTR_MESSAGE: message, logbook.ATTR_ENTITY_ID: entity_id, }, ), ), entity_attr_cache, ) ) assert len(entries) == 1 self.assert_entry( entries[0], name=name, message=message, domain="sun", entity_id=entity_id ) def assert_entry( self, entry, when=None, name=None, message=None, domain=None, entity_id=None ): """Assert an entry is what is expected.""" if when: assert when == entry["when"] if name: assert name == entry["name"] if message: assert message == entry["message"] if domain: assert domain == entry["domain"] if entity_id: assert entity_id == entry["entity_id"] def create_state_changed_event( self, event_time_fired, entity_id, state, attributes=None, last_changed=None, last_updated=None, ): """Create state changed event.""" old_state = ha.State( entity_id, "old", attributes, last_changed, last_updated ).as_dict() new_state = ha.State( entity_id, state, attributes, last_changed, last_updated ).as_dict() return self.create_state_changed_event_from_old_new( entity_id, event_time_fired, old_state, new_state ) def create_state_changed_event_from_old_new( self, entity_id, event_time_fired, old_state, new_state ): """Create a state changed event from a old and new state.""" attributes = {} if new_state is not None: attributes = new_state.get("attributes") attributes_json = json.dumps(attributes, cls=JSONEncoder) row = collections.namedtuple( "Row", [ "event_type" "event_data" "time_fired" "context_id" "context_user_id" "state" "entity_id" "domain" "attributes" "state_id", "old_state_id", ], ) row.event_type = EVENT_STATE_CHANGED row.event_data = "{}" row.attributes = attributes_json row.time_fired = event_time_fired row.state = new_state and new_state.get("state") row.entity_id = entity_id row.domain = entity_id and ha.split_entity_id(entity_id)[0] row.context_id = None row.context_user_id = None row.old_state_id = old_state and 1 row.state_id = new_state and 1 return logbook.LazyEventPartialState(row) async def test_logbook_view(hass, hass_client): """Test the logbook view.""" await hass.async_add_executor_job(init_recorder_component, hass) await async_setup_component(hass, "logbook", {}) await hass.async_add_job(hass.data[recorder.DATA_INSTANCE].block_till_done) client = await hass_client() response = await client.get(f"/api/logbook/{dt_util.utcnow().isoformat()}") assert response.status == 200 async def test_logbook_view_period_entity(hass, hass_client): """Test the logbook view with period and entity.""" await hass.async_add_executor_job(init_recorder_component, hass) await async_setup_component(hass, "logbook", {}) await hass.async_add_job(hass.data[recorder.DATA_INSTANCE].block_till_done) entity_id_test = "switch.test" hass.states.async_set(entity_id_test, STATE_OFF) hass.states.async_set(entity_id_test, STATE_ON) entity_id_second = "switch.second" hass.states.async_set(entity_id_second, STATE_OFF) hass.states.async_set(entity_id_second, STATE_ON) await hass.async_add_job(partial(trigger_db_commit, hass)) await hass.async_block_till_done() await hass.async_add_job(hass.data[recorder.DATA_INSTANCE].block_till_done) client = await hass_client() # Today time 00:00:00 start = dt_util.utcnow().date() start_date = datetime(start.year, start.month, start.day) # Test today entries without filters response = await client.get(f"/api/logbook/{start_date.isoformat()}") assert response.status == 200 json = await response.json() assert len(json) == 2 assert json[0]["entity_id"] == entity_id_test assert json[1]["entity_id"] == entity_id_second # Test today entries with filter by period response = await client.get(f"/api/logbook/{start_date.isoformat()}?period=1") assert response.status == 200 json = await response.json() assert len(json) == 2 assert json[0]["entity_id"] == entity_id_test assert json[1]["entity_id"] == entity_id_second # Test today entries with filter by entity_id response = await client.get( f"/api/logbook/{start_date.isoformat()}?entity=switch.test" ) assert response.status == 200 json = await response.json() assert len(json) == 1 assert json[0]["entity_id"] == entity_id_test # Test entries for 3 days with filter by entity_id response = await client.get( f"/api/logbook/{start_date.isoformat()}?period=3&entity=switch.test" ) assert response.status == 200 json = await response.json() assert len(json) == 1 assert json[0]["entity_id"] == entity_id_test # Tomorrow time 00:00:00 start = (dt_util.utcnow() + timedelta(days=1)).date() start_date = datetime(start.year, start.month, start.day) # Test tomorrow entries without filters response = await client.get(f"/api/logbook/{start_date.isoformat()}") assert response.status == 200 json = await response.json() assert len(json) == 0 # Test tomorrow entries with filter by entity_id response = await client.get( f"/api/logbook/{start_date.isoformat()}?entity=switch.test" ) assert response.status == 200 json = await response.json() assert len(json) == 0 # Test entries from tomorrow to 3 days ago with filter by entity_id response = await client.get( f"/api/logbook/{start_date.isoformat()}?period=3&entity=switch.test" ) assert response.status == 200 json = await response.json() assert len(json) == 1 assert json[0]["entity_id"] == entity_id_test async def test_logbook_describe_event(hass, hass_client): """Test teaching logbook about a new event.""" await hass.async_add_executor_job(init_recorder_component, hass) assert await async_setup_component(hass, "logbook", {}) with patch( "homeassistant.util.dt.utcnow", return_value=dt_util.utcnow() - timedelta(seconds=5), ): hass.bus.async_fire("some_event") await hass.async_block_till_done() await hass.async_add_executor_job( hass.data[recorder.DATA_INSTANCE].block_till_done ) def _describe(event): """Describe an event.""" return {"name": "Test Name", "message": "tested a message"} hass.components.logbook.async_describe_event("test_domain", "some_event", _describe) client = await hass_client() response = await client.get("/api/logbook") results = await response.json() assert len(results) == 1 event = results[0] assert event["name"] == "Test Name" assert event["message"] == "tested a message" assert event["domain"] == "test_domain" async def test_exclude_described_event(hass, hass_client): """Test exclusions of events that are described by another integration.""" name = "My Automation Rule" entity_id = "automation.excluded_rule" entity_id2 = "automation.included_rule" entity_id3 = "sensor.excluded_domain" await hass.async_add_executor_job(init_recorder_component, hass) assert await async_setup_component( hass, logbook.DOMAIN, { logbook.DOMAIN: { logbook.CONF_EXCLUDE: { logbook.CONF_DOMAINS: ["sensor"], logbook.CONF_ENTITIES: [entity_id], } } }, ) with patch( "homeassistant.util.dt.utcnow", return_value=dt_util.utcnow() - timedelta(seconds=5), ): hass.bus.async_fire( "some_automation_event", {logbook.ATTR_NAME: name, logbook.ATTR_ENTITY_ID: entity_id}, ) hass.bus.async_fire( "some_automation_event", {logbook.ATTR_NAME: name, logbook.ATTR_ENTITY_ID: entity_id2}, ) hass.bus.async_fire( "some_event", {logbook.ATTR_NAME: name, logbook.ATTR_ENTITY_ID: entity_id3} ) await hass.async_block_till_done() await hass.async_add_executor_job( hass.data[recorder.DATA_INSTANCE].block_till_done ) def _describe(event): """Describe an event.""" return { "name": "Test Name", "message": "tested a message", "entity_id": event.data.get(ATTR_ENTITY_ID), } hass.components.logbook.async_describe_event( "automation", "some_automation_event", _describe ) hass.components.logbook.async_describe_event("sensor", "some_event", _describe) client = await hass_client() response = await client.get("/api/logbook") results = await response.json() assert len(results) == 1 event = results[0] assert event["name"] == "Test Name" assert event["message"] == "tested a message" assert event["domain"] == "automation" assert event["entity_id"] == "automation.included_rule" async def test_logbook_view_end_time_entity(hass, hass_client): """Test the logbook view with end_time and entity.""" await hass.async_add_executor_job(init_recorder_component, hass) await async_setup_component(hass, "logbook", {}) await hass.async_add_job(hass.data[recorder.DATA_INSTANCE].block_till_done) entity_id_test = "switch.test" hass.states.async_set(entity_id_test, STATE_OFF) hass.states.async_set(entity_id_test, STATE_ON) entity_id_second = "switch.second" hass.states.async_set(entity_id_second, STATE_OFF) hass.states.async_set(entity_id_second, STATE_ON) await hass.async_add_job(partial(trigger_db_commit, hass)) await hass.async_block_till_done() await hass.async_add_job(hass.data[recorder.DATA_INSTANCE].block_till_done) client = await hass_client() # Today time 00:00:00 start = dt_util.utcnow().date() start_date = datetime(start.year, start.month, start.day) # Test today entries with filter by end_time end_time = start + timedelta(hours=24) response = await client.get( f"/api/logbook/{start_date.isoformat()}?end_time={end_time}" ) assert response.status == 200 json = await response.json() assert len(json) == 2 assert json[0]["entity_id"] == entity_id_test assert json[1]["entity_id"] == entity_id_second # Test entries for 3 days with filter by entity_id end_time = start + timedelta(hours=72) response = await client.get( f"/api/logbook/{start_date.isoformat()}?end_time={end_time}&entity=switch.test" ) assert response.status == 200 json = await response.json() assert len(json) == 1 assert json[0]["entity_id"] == entity_id_test # Tomorrow time 00:00:00 start = dt_util.utcnow() start_date = datetime(start.year, start.month, start.day) # Test entries from today to 3 days with filter by entity_id end_time = start_date + timedelta(hours=72) response = await client.get( f"/api/logbook/{start_date.isoformat()}?end_time={end_time}&entity=switch.test" ) assert response.status == 200 json = await response.json() assert len(json) == 1 assert json[0]["entity_id"] == entity_id_test async def test_logbook_entity_filter_with_automations(hass, hass_client): """Test the logbook view with end_time and entity with automations and scripts.""" await hass.async_add_executor_job(init_recorder_component, hass) await async_setup_component(hass, "logbook", {}) await async_setup_component(hass, "automation", {}) await async_setup_component(hass, "script", {}) await hass.async_add_job(hass.data[recorder.DATA_INSTANCE].block_till_done) entity_id_test = "alarm_control_panel.area_001" hass.states.async_set(entity_id_test, STATE_OFF) hass.states.async_set(entity_id_test, STATE_ON) entity_id_second = "alarm_control_panel.area_002" hass.states.async_set(entity_id_second, STATE_OFF) hass.states.async_set(entity_id_second, STATE_ON) hass.bus.async_fire( EVENT_AUTOMATION_TRIGGERED, {ATTR_NAME: "Mock automation", ATTR_ENTITY_ID: "automation.mock_automation"}, ) hass.bus.async_fire( EVENT_SCRIPT_STARTED, {ATTR_NAME: "Mock script", ATTR_ENTITY_ID: "script.mock_script"}, ) hass.bus.async_fire(EVENT_HOMEASSISTANT_START) await hass.async_add_job(partial(trigger_db_commit, hass)) await hass.async_block_till_done() await hass.async_add_job(hass.data[recorder.DATA_INSTANCE].block_till_done) client = await hass_client() # Today time 00:00:00 start = dt_util.utcnow().date() start_date = datetime(start.year, start.month, start.day) # Test today entries with filter by end_time end_time = start + timedelta(hours=24) response = await client.get( f"/api/logbook/{start_date.isoformat()}?end_time={end_time}" ) assert response.status == 200 json_dict = await response.json() assert len(json_dict) == 5 assert json_dict[0]["entity_id"] == entity_id_test assert json_dict[1]["entity_id"] == entity_id_second assert json_dict[2]["entity_id"] == "automation.mock_automation" assert json_dict[3]["entity_id"] == "script.mock_script" assert json_dict[4]["domain"] == "homeassistant" # Test entries for 3 days with filter by entity_id end_time = start + timedelta(hours=72) response = await client.get( f"/api/logbook/{start_date.isoformat()}?end_time={end_time}&entity=alarm_control_panel.area_001" ) assert response.status == 200 json_dict = await response.json() assert len(json_dict) == 1 assert json_dict[0]["entity_id"] == entity_id_test # Tomorrow time 00:00:00 start = dt_util.utcnow() start_date = datetime(start.year, start.month, start.day) # Test entries from today to 3 days with filter by entity_id end_time = start_date + timedelta(hours=72) response = await client.get( f"/api/logbook/{start_date.isoformat()}?end_time={end_time}&entity=alarm_control_panel.area_002" ) assert response.status == 200 json_dict = await response.json() assert len(json_dict) == 1 assert json_dict[0]["entity_id"] == entity_id_second class MockLazyEventPartialState(ha.Event): """Minimal mock of a Lazy event.""" @property def time_fired_minute(self): """Minute the event was fired.""" return self.time_fired.minute @property def context_user_id(self): """Context user id of event.""" return self.context.user_id