"""The tests for the logbook component."""
# pylint: disable=protected-access,invalid-name
from datetime import datetime, timedelta
from functools import partial
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.const import (
ATTR_ENTITY_ID,
ATTR_HIDDEN,
ATTR_NAME,
EVENT_HOMEASSISTANT_START,
EVENT_HOMEASSISTANT_STOP,
EVENT_SCRIPT_STARTED,
EVENT_STATE_CHANGED,
STATE_NOT_HOME,
STATE_OFF,
STATE_ON,
)
import homeassistant.core as ha
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
assert setup_component(self.hass, logbook.DOMAIN, self.EMPTY_CONFIG)
def tearDown(self):
"""Stop everything that was started."""
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)
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)))
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()
attributes = {"unit_of_measurement": "foo"}
eventA = self.create_state_changed_event(pointA, entity_id, 10, attributes)
entries = list(logbook.humanify(self.hass, (eventA,)))
assert len(entries) == 0
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)
eventA = self.create_state_changed_event(pointA, entity_id, 10)
eventB = self.create_state_changed_event(pointB, entity_id2, 20)
eventA.data["old_state"] = None
entities_filter = logbook._generate_filter_from_config({})
events = [
e
for e in (ha.Event(EVENT_HOMEASSISTANT_STOP), eventA, eventB)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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)
eventA = self.create_state_changed_event(pointA, entity_id, 10)
eventB = self.create_state_changed_event(pointB, entity_id2, 20)
eventA.data["new_state"] = None
entities_filter = logbook._generate_filter_from_config({})
events = [
e
for e in (ha.Event(EVENT_HOMEASSISTANT_STOP), eventA, eventB)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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)
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 (ha.Event(EVENT_HOMEASSISTANT_STOP), eventA, eventB)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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)
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 (ha.Event(EVENT_HOMEASSISTANT_STOP), eventA, eventB)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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)
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 (
ha.Event(EVENT_HOMEASSISTANT_START),
ha.Event(EVENT_ALEXA_SMART_HOME),
eventA,
eventB,
)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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_exclude_script_events(self):
"""Test if script start can be excluded by entity_id."""
name = "My Script Rule"
domain = "script"
entity_id = "script.my_script"
entity_id2 = "script.my_script_2"
entity_id2 = "sensor.blu"
eventA = ha.Event(
logbook.EVENT_SCRIPT_STARTED,
{logbook.ATTR_NAME: name, logbook.ATTR_ENTITY_ID: entity_id},
)
eventB = ha.Event(
logbook.EVENT_SCRIPT_STARTED,
{logbook.ATTR_NAME: name, logbook.ATTR_ENTITY_ID: entity_id2},
)
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 (ha.Event(EVENT_HOMEASSISTANT_STOP), eventA, eventB)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
assert len(entries) == 2
self.assert_entry(
entries[0], name="Home Assistant", message="stopped", domain=ha.DOMAIN
)
self.assert_entry(entries[1], name=name, domain=domain, 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)
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_ENTITIES: [entity_id2]}
},
}
)
entities_filter = logbook._generate_filter_from_config(config[logbook.DOMAIN])
events = [
e
for e in (ha.Event(EVENT_HOMEASSISTANT_STOP), eventA, eventB)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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)
event_alexa = ha.Event(
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: ["sensor", "alexa"]}
},
}
)
entities_filter = logbook._generate_filter_from_config(config[logbook.DOMAIN])
events = [
e
for e in (ha.Event(EVENT_HOMEASSISTANT_START), event_alexa, eventA, eventB,)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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)
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"],
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 (
ha.Event(EVENT_HOMEASSISTANT_START),
eventA1,
eventA2,
eventA3,
eventB1,
eventB2,
)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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_auto_groups(self):
"""Test if events of automatically generated groups are filtered."""
entity_id = "switch.bla"
entity_id2 = "group.switches"
pointA = dt_util.utcnow()
eventA = self.create_state_changed_event(pointA, entity_id, 10)
eventB = self.create_state_changed_event(pointA, entity_id2, 20, {"auto": True})
entities_filter = logbook._generate_filter_from_config({})
events = [
e
for e in (eventA, eventB)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
assert len(entries) == 1
self.assert_entry(
entries[0], pointA, "bla", domain="switch", entity_id=entity_id
)
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)
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 = ha.Event(
EVENT_STATE_CHANGED,
{
"entity_id": "light.kitchen",
"old_state": state_off,
"new_state": state_100,
},
time_fired=pointB,
)
eventB = ha.Event(
EVENT_STATE_CHANGED,
{
"entity_id": "light.kitchen",
"old_state": state_100,
"new_state": state_200,
},
time_fired=pointC,
)
entities_filter = logbook._generate_filter_from_config({})
events = [
e
for e in (eventA, eventB)
if logbook._keep_event(self.hass, e, entities_filter)
]
entries = list(logbook.humanify(self.hass, events))
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.
"""
entries = list(
logbook.humanify(
self.hass,
(
ha.Event(EVENT_HOMEASSISTANT_STOP),
ha.Event(EVENT_HOMEASSISTANT_START),
),
)
)
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()
entries = list(
logbook.humanify(
self.hass,
(
ha.Event(EVENT_HOMEASSISTANT_START),
self.create_state_changed_event(pointA, entity_id, 10),
),
)
)
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_state_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()
# message for a device state change
eventA = self.create_state_changed_event(pointA, "switch.bla", 10)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "changed to 10"
# message for a switch turned on
eventA = self.create_state_changed_event(pointA, "switch.bla", STATE_ON)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "turned on"
# message for a switch turned off
eventA = self.create_state_changed_event(pointA, "switch.bla", STATE_OFF)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "turned off"
def test_entry_message_from_state_device_tracker(self):
"""Test if logbook message is correctly created for device tracker."""
pointA = dt_util.utcnow()
# message for a device tracker "not home" state
eventA = self.create_state_changed_event(
pointA, "device_tracker.john", STATE_NOT_HOME
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is away"
# message for a device tracker "home" state
eventA = self.create_state_changed_event(pointA, "device_tracker.john", "work")
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is at work"
def test_entry_message_from_state_person(self):
"""Test if logbook message is correctly created for a person."""
pointA = dt_util.utcnow()
# message for a device tracker "not home" state
eventA = self.create_state_changed_event(pointA, "person.john", STATE_NOT_HOME)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is away"
# message for a device tracker "home" state
eventA = self.create_state_changed_event(pointA, "person.john", "work")
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is at work"
def test_entry_message_from_state_sun(self):
"""Test if logbook message is correctly created for sun."""
pointA = dt_util.utcnow()
# message for a sun rise
eventA = self.create_state_changed_event(
pointA, "sun.sun", sun.STATE_ABOVE_HORIZON
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "has risen"
# message for a sun set
eventA = self.create_state_changed_event(
pointA, "sun.sun", sun.STATE_BELOW_HORIZON
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "has set"
def test_entry_message_from_state_binary_sensor_battery(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "battery"}
# message for a binary_sensor battery "low" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.battery", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is normal"
def test_entry_message_from_state_binary_sensor_connectivity(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "connectivity"}
# message for a binary_sensor connectivity "connected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.connectivity", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is disconnected"
def test_entry_message_from_state_binary_sensor_door(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "door"}
# message for a binary_sensor door "open" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.door", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is closed"
def test_entry_message_from_state_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"}
# message for a binary_sensor garage_door "open" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.garage_door", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is closed"
def test_entry_message_from_state_binary_sensor_opening(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "opening"}
# message for a binary_sensor opening "open" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.opening", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is closed"
def test_entry_message_from_state_binary_sensor_window(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "window"}
# message for a binary_sensor window "open" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.window", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is closed"
def test_entry_message_from_state_binary_sensor_lock(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "lock"}
# message for a binary_sensor lock "unlocked" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.lock", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is locked"
def test_entry_message_from_state_binary_sensor_plug(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "plug"}
# message for a binary_sensor plug "unpluged" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.plug", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is unplugged"
def test_entry_message_from_state_binary_sensor_presence(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "presence"}
# message for a binary_sensor presence "home" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.presence", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is away"
def test_entry_message_from_state_binary_sensor_safety(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "safety"}
# message for a binary_sensor safety "unsafe" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.safety", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "is safe"
def test_entry_message_from_state_binary_sensor_cold(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "cold"}
# message for a binary_sensor cold "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.cold", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no cold detected)"
def test_entry_message_from_state_binary_sensor_gas(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "gas"}
# message for a binary_sensor gas "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.gas", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no gas detected)"
def test_entry_message_from_state_binary_sensor_heat(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "heat"}
# message for a binary_sensor heat "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.heat", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no heat detected)"
def test_entry_message_from_state_binary_sensor_light(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "light"}
# message for a binary_sensor light "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.light", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no light detected)"
def test_entry_message_from_state_binary_sensor_moisture(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "moisture"}
# message for a binary_sensor moisture "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.moisture", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no moisture detected)"
def test_entry_message_from_state_binary_sensor_motion(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "motion"}
# message for a binary_sensor motion "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.motion", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no motion detected)"
def test_entry_message_from_state_binary_sensor_occupancy(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "occupancy"}
# message for a binary_sensor occupancy "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.occupancy", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no occupancy detected)"
def test_entry_message_from_state_binary_sensor_power(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "power"}
# message for a binary_sensor power "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.power", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no power detected)"
def test_entry_message_from_state_binary_sensor_problem(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "problem"}
# message for a binary_sensor problem "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.problem", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no problem detected)"
def test_entry_message_from_state_binary_sensor_smoke(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "smoke"}
# message for a binary_sensor smoke "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.smoke", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no smoke detected)"
def test_entry_message_from_state_binary_sensor_sound(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "sound"}
# message for a binary_sensor sound "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.sound", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
assert message == "cleared (no sound detected)"
def test_entry_message_from_state_binary_sensor_vibration(self):
"""Test if logbook message is correctly created for a binary_sensor."""
pointA = dt_util.utcnow()
attributes = {"device_class": "vibration"}
# message for a binary_sensor vibration "detected" state
eventA = self.create_state_changed_event(
pointA, "binary_sensor.vibration", STATE_ON, attributes
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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
)
to_state = ha.State.from_dict(eventA.data.get("new_state"))
message = logbook._entry_message_from_state(to_state.domain, to_state)
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"
entries = list(
logbook.humanify(
self.hass,
(
ha.Event(
logbook.EVENT_LOGBOOK_ENTRY,
{
logbook.ATTR_NAME: name,
logbook.ATTR_MESSAGE: message,
logbook.ATTR_ENTITY_ID: entity_id,
},
),
),
)
)
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 ha.Event(
EVENT_STATE_CHANGED,
{"entity_id": entity_id, "old_state": old_state, "new_state": new_state},
time_fired=event_time_fired,
)
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_humanify_script_started_event(hass):
"""Test humanifying Script Run event."""
event1, event2 = list(
logbook.humanify(
hass,
[
ha.Event(
EVENT_SCRIPT_STARTED,
{ATTR_ENTITY_ID: "script.hello", ATTR_NAME: "Hello Script"},
),
ha.Event(
EVENT_SCRIPT_STARTED,
{ATTR_ENTITY_ID: "script.bye", ATTR_NAME: "Bye Script"},
),
],
)
)
assert event1["name"] == "Hello Script"
assert event1["domain"] == "script"
assert event1["message"] == "started"
assert event1["entity_id"] == "script.hello"
assert event2["name"] == "Bye Script"
assert event2["domain"] == "script"
assert event2["message"] == "started"
assert event2["entity_id"] == "script.bye"
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"