"""The tests for the Prometheus exporter."""
from dataclasses import dataclass
import datetime
from http import HTTPStatus
from unittest import mock
import prometheus_client
import pytest
from homeassistant.components import (
binary_sensor,
climate,
counter,
cover,
device_tracker,
humidifier,
input_boolean,
input_number,
light,
lock,
person,
prometheus,
sensor,
switch,
)
from homeassistant.components.climate import (
ATTR_CURRENT_TEMPERATURE,
ATTR_HUMIDITY,
ATTR_HVAC_ACTION,
ATTR_TARGET_TEMP_HIGH,
ATTR_TARGET_TEMP_LOW,
)
from homeassistant.components.humidifier import ATTR_AVAILABLE_MODES
from homeassistant.components.sensor import SensorDeviceClass
from homeassistant.const import (
ATTR_BATTERY_LEVEL,
ATTR_DEVICE_CLASS,
ATTR_FRIENDLY_NAME,
ATTR_MODE,
ATTR_TEMPERATURE,
ATTR_UNIT_OF_MEASUREMENT,
CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
CONTENT_TYPE_TEXT_PLAIN,
DEGREE,
ENERGY_KILO_WATT_HOUR,
EVENT_STATE_CHANGED,
PERCENTAGE,
STATE_CLOSED,
STATE_CLOSING,
STATE_HOME,
STATE_LOCKED,
STATE_NOT_HOME,
STATE_OFF,
STATE_ON,
STATE_OPEN,
STATE_OPENING,
STATE_UNLOCKED,
TEMP_CELSIUS,
TEMP_FAHRENHEIT,
)
from homeassistant.core import split_entity_id
from homeassistant.helpers import entity_registry
from homeassistant.setup import async_setup_component
from homeassistant.util import dt as dt_util
PROMETHEUS_PATH = "homeassistant.components.prometheus"
@dataclass
class FilterTest:
"""Class for capturing a filter test."""
id: str
should_pass: bool
@pytest.fixture(name="client")
async def setup_prometheus_client(hass, hass_client, namespace):
"""Initialize an hass_client with Prometheus component."""
# Reset registry
prometheus_client.REGISTRY = prometheus_client.CollectorRegistry(auto_describe=True)
prometheus_client.ProcessCollector(registry=prometheus_client.REGISTRY)
prometheus_client.PlatformCollector(registry=prometheus_client.REGISTRY)
prometheus_client.GCCollector(registry=prometheus_client.REGISTRY)
config = {}
if namespace is not None:
config[prometheus.CONF_PROM_NAMESPACE] = namespace
assert await async_setup_component(
hass, prometheus.DOMAIN, {prometheus.DOMAIN: config}
)
await hass.async_block_till_done()
return await hass_client()
async def generate_latest_metrics(client):
"""Generate the latest metrics and transform the body."""
resp = await client.get(prometheus.API_ENDPOINT)
assert resp.status == HTTPStatus.OK
assert resp.headers["content-type"] == CONTENT_TYPE_TEXT_PLAIN
body = await resp.text()
body = body.split("\n")
assert len(body) > 3
return body
@pytest.mark.parametrize("namespace", [""])
async def test_view_empty_namespace(client, sensor_entities):
"""Test prometheus metrics view."""
body = await generate_latest_metrics(client)
assert "# HELP python_info Python platform information" in body
assert (
"# HELP python_gc_objects_collected_total "
"Objects collected during gc" in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.radio_energy",'
'friendly_name="Radio Energy"} 1.0' in body
)
assert (
'last_updated_time_seconds{domain="sensor",'
'entity="sensor.radio_energy",'
'friendly_name="Radio Energy"} 86400.0' in body
)
@pytest.mark.parametrize("namespace", [None])
async def test_view_default_namespace(client, sensor_entities):
"""Test prometheus metrics view."""
body = await generate_latest_metrics(client)
assert "# HELP python_info Python platform information" in body
assert (
"# HELP python_gc_objects_collected_total "
"Objects collected during gc" in body
)
assert (
'homeassistant_sensor_temperature_celsius{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 15.6' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_sensor_unit(client, sensor_entities):
"""Test prometheus metrics for sensors with a unit."""
body = await generate_latest_metrics(client)
assert (
'sensor_unit_kwh{domain="sensor",'
'entity="sensor.television_energy",'
'friendly_name="Television Energy"} 74.0' in body
)
assert (
'sensor_unit_sek_per_kwh{domain="sensor",'
'entity="sensor.electricity_price",'
'friendly_name="Electricity price"} 0.123' in body
)
assert (
'sensor_unit_u0xb0{domain="sensor",'
'entity="sensor.wind_direction",'
'friendly_name="Wind Direction"} 25.0' in body
)
assert (
'sensor_unit_u0xb5g_per_mu0xb3{domain="sensor",'
'entity="sensor.sps30_pm_1um_weight_concentration",'
'friendly_name="SPS30 PM <1µm Weight concentration"} 3.7069' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_sensor_without_unit(client, sensor_entities):
"""Test prometheus metrics for sensors without a unit."""
body = await generate_latest_metrics(client)
assert (
'sensor_state{domain="sensor",'
'entity="sensor.trend_gradient",'
'friendly_name="Trend Gradient"} 0.002' in body
)
assert (
'sensor_state{domain="sensor",'
'entity="sensor.text",'
'friendly_name="Text"} 0' not in body
)
assert (
'sensor_unit_text{domain="sensor",'
'entity="sensor.text_unit",'
'friendly_name="Text Unit"} 0' not in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_sensor_device_class(client, sensor_entities):
"""Test prometheus metrics for sensor with a device_class."""
body = await generate_latest_metrics(client)
assert (
'sensor_temperature_celsius{domain="sensor",'
'entity="sensor.fahrenheit",'
'friendly_name="Fahrenheit"} 10.0' in body
)
assert (
'sensor_temperature_celsius{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 15.6' in body
)
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'sensor_power_kwh{domain="sensor",'
'entity="sensor.radio_energy",'
'friendly_name="Radio Energy"} 14.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_input_number(client, input_number_entities):
"""Test prometheus metrics for input_number."""
body = await generate_latest_metrics(client)
assert (
'input_number_state{domain="input_number",'
'entity="input_number.threshold",'
'friendly_name="Threshold"} 5.2' in body
)
assert (
'input_number_state{domain="input_number",'
'entity="input_number.brightness",'
'friendly_name="None"} 60.0' in body
)
assert (
'input_number_state_celsius{domain="input_number",'
'entity="input_number.target_temperature",'
'friendly_name="Target temperature"} 22.7' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_battery(client, sensor_entities):
"""Test prometheus metrics for battery."""
body = await generate_latest_metrics(client)
assert (
'battery_level_percent{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 12.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_climate(client, climate_entities):
"""Test prometheus metrics for climate entities."""
body = await generate_latest_metrics(client)
assert (
'climate_current_temperature_celsius{domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump"} 25.0' in body
)
assert (
'climate_target_temperature_celsius{domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump"} 20.0' in body
)
assert (
'climate_target_temperature_low_celsius{domain="climate",'
'entity="climate.ecobee",'
'friendly_name="Ecobee"} 21.0' in body
)
assert (
'climate_target_temperature_high_celsius{domain="climate",'
'entity="climate.ecobee",'
'friendly_name="Ecobee"} 24.0' in body
)
assert (
'climate_target_temperature_celsius{domain="climate",'
'entity="climate.fritzdect",'
'friendly_name="Fritz!DECT"} 0.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_humidifier(client, humidifier_entities):
"""Test prometheus metrics for humidifier entities."""
body = await generate_latest_metrics(client)
assert (
'humidifier_target_humidity_percent{domain="humidifier",'
'entity="humidifier.humidifier",'
'friendly_name="Humidifier"} 68.0' in body
)
assert (
'humidifier_state{domain="humidifier",'
'entity="humidifier.dehumidifier",'
'friendly_name="Dehumidifier"} 1.0' in body
)
assert (
'humidifier_mode{domain="humidifier",'
'entity="humidifier.hygrostat",'
'friendly_name="Hygrostat",'
'mode="home"} 1.0' in body
)
assert (
'humidifier_mode{domain="humidifier",'
'entity="humidifier.hygrostat",'
'friendly_name="Hygrostat",'
'mode="eco"} 0.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_attributes(client, switch_entities):
"""Test prometheus metrics for entity attributes."""
body = await generate_latest_metrics(client)
assert (
'switch_state{domain="switch",'
'entity="switch.boolean",'
'friendly_name="Boolean"} 1.0' in body
)
assert (
'switch_attr_boolean{domain="switch",'
'entity="switch.boolean",'
'friendly_name="Boolean"} 1.0' in body
)
assert (
'switch_state{domain="switch",'
'entity="switch.number",'
'friendly_name="Number"} 0.0' in body
)
assert (
'switch_attr_number{domain="switch",'
'entity="switch.number",'
'friendly_name="Number"} 10.2' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_binary_sensor(client, binary_sensor_entities):
"""Test prometheus metrics for binary_sensor."""
body = await generate_latest_metrics(client)
assert (
'binary_sensor_state{domain="binary_sensor",'
'entity="binary_sensor.door",'
'friendly_name="Door"} 1.0' in body
)
assert (
'binary_sensor_state{domain="binary_sensor",'
'entity="binary_sensor.window",'
'friendly_name="Window"} 0.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_input_boolean(client, input_boolean_entities):
"""Test prometheus metrics for input_boolean."""
body = await generate_latest_metrics(client)
assert (
'input_boolean_state{domain="input_boolean",'
'entity="input_boolean.test",'
'friendly_name="Test"} 1.0' in body
)
assert (
'input_boolean_state{domain="input_boolean",'
'entity="input_boolean.helper",'
'friendly_name="Helper"} 0.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_light(client, light_entities):
"""Test prometheus metrics for lights."""
body = await generate_latest_metrics(client)
assert (
'light_brightness_percent{domain="light",'
'entity="light.desk",'
'friendly_name="Desk"} 100.0' in body
)
assert (
'light_brightness_percent{domain="light",'
'entity="light.wall",'
'friendly_name="Wall"} 0.0' in body
)
assert (
'light_brightness_percent{domain="light",'
'entity="light.tv",'
'friendly_name="TV"} 100.0' in body
)
assert (
'light_brightness_percent{domain="light",'
'entity="light.pc",'
'friendly_name="PC"} 70.58823529411765' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_lock(client, lock_entities):
"""Test prometheus metrics for lock."""
body = await generate_latest_metrics(client)
assert (
'lock_state{domain="lock",'
'entity="lock.front_door",'
'friendly_name="Front Door"} 1.0' in body
)
assert (
'lock_state{domain="lock",'
'entity="lock.kitchen_door",'
'friendly_name="Kitchen Door"} 0.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_cover(client, cover_entities):
"""Test prometheus metrics for cover."""
data = {**cover_entities}
body = await generate_latest_metrics(client)
open_covers = ["cover_open", "cover_position", "cover_tilt_position"]
for testcover in data:
open_metric = (
f'cover_state{{domain="cover",'
f'entity="{cover_entities[testcover].entity_id}",'
f'friendly_name="{cover_entities[testcover].original_name}",'
f'state="open"}} {1.0 if cover_entities[testcover].unique_id in open_covers else 0.0}'
)
assert open_metric in body
closed_metric = (
f'cover_state{{domain="cover",'
f'entity="{cover_entities[testcover].entity_id}",'
f'friendly_name="{cover_entities[testcover].original_name}",'
f'state="closed"}} {1.0 if cover_entities[testcover].unique_id == "cover_closed" else 0.0}'
)
assert closed_metric in body
opening_metric = (
f'cover_state{{domain="cover",'
f'entity="{cover_entities[testcover].entity_id}",'
f'friendly_name="{cover_entities[testcover].original_name}",'
f'state="opening"}} {1.0 if cover_entities[testcover].unique_id == "cover_opening" else 0.0}'
)
assert opening_metric in body
closing_metric = (
f'cover_state{{domain="cover",'
f'entity="{cover_entities[testcover].entity_id}",'
f'friendly_name="{cover_entities[testcover].original_name}",'
f'state="closing"}} {1.0 if cover_entities[testcover].unique_id == "cover_closing" else 0.0}'
)
assert closing_metric in body
if testcover == "cover_position":
position_metric = (
f'cover_position{{domain="cover",'
f'entity="{cover_entities[testcover].entity_id}",'
f'friendly_name="{cover_entities[testcover].original_name}"'
f"}} 50.0"
)
assert position_metric in body
if testcover == "cover_tilt_position":
tilt_position_metric = (
f'cover_tilt_position{{domain="cover",'
f'entity="{cover_entities[testcover].entity_id}",'
f'friendly_name="{cover_entities[testcover].original_name}"'
f"}} 50.0"
)
assert tilt_position_metric in body
@pytest.mark.parametrize("namespace", [""])
async def test_counter(client, counter_entities):
"""Test prometheus metrics for counter."""
body = await generate_latest_metrics(client)
assert (
'counter_value{domain="counter",'
'entity="counter.counter",'
'friendly_name="None"} 2.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_renaming_entity_name(
hass, registry, client, sensor_entities, climate_entities
):
"""Test renaming entity name."""
data = {**sensor_entities, **climate_entities}
body = await generate_latest_metrics(client)
assert (
'sensor_temperature_celsius{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 15.6' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 1.0' in body
)
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 1.0' in body
)
assert (
'climate_action{action="heating",'
'domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump"} 1.0' in body
)
assert (
'climate_action{action="cooling",'
'domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump"} 0.0' in body
)
assert "sensor.outside_temperature" in registry.entities
assert "climate.heatpump" in registry.entities
registry.async_update_entity(
entity_id=data["sensor_1"].entity_id,
name="Outside Temperature Renamed",
)
set_state_with_entry(
hass,
data["sensor_1"],
15.6,
{ATTR_FRIENDLY_NAME: "Outside Temperature Renamed"},
)
registry.async_update_entity(
entity_id=data["climate_1"].entity_id,
name="HeatPump Renamed",
)
data["climate_1_attributes"] = {
**data["climate_1_attributes"],
ATTR_FRIENDLY_NAME: "HeatPump Renamed",
}
set_state_with_entry(
hass,
data["climate_1"],
climate.HVACAction.HEATING,
data["climate_1_attributes"],
)
await hass.async_block_till_done()
body = await generate_latest_metrics(client)
# Check if old metrics deleted
body_line = "\n".join(body)
assert 'friendly_name="Outside Temperature"' not in body_line
assert 'friendly_name="HeatPump"' not in body_line
# Check if new metrics created
assert (
'sensor_temperature_celsius{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature Renamed"} 15.6' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature Renamed"} 1.0' in body
)
assert (
'climate_action{action="heating",'
'domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump Renamed"} 1.0' in body
)
assert (
'climate_action{action="cooling",'
'domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump Renamed"} 0.0' in body
)
# Keep other sensors
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 1.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_renaming_entity_id(
hass, registry, client, sensor_entities, climate_entities
):
"""Test renaming entity id."""
data = {**sensor_entities, **climate_entities}
body = await generate_latest_metrics(client)
assert (
'sensor_temperature_celsius{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 15.6' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 1.0' in body
)
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 1.0' in body
)
assert "sensor.outside_temperature" in registry.entities
assert "climate.heatpump" in registry.entities
registry.async_update_entity(
entity_id="sensor.outside_temperature",
new_entity_id="sensor.outside_temperature_renamed",
)
set_state_with_entry(
hass, data["sensor_1"], 15.6, None, "sensor.outside_temperature_renamed"
)
await hass.async_block_till_done()
body = await generate_latest_metrics(client)
# Check if old metrics deleted
body_line = "\n".join(body)
assert 'entity="sensor.outside_temperature"' not in body_line
# Check if new metrics created
assert (
'sensor_temperature_celsius{domain="sensor",'
'entity="sensor.outside_temperature_renamed",'
'friendly_name="Outside Temperature"} 15.6' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_temperature_renamed",'
'friendly_name="Outside Temperature"} 1.0' in body
)
# Keep other sensors
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 1.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_deleting_entity(
hass, registry, client, sensor_entities, climate_entities
):
"""Test deleting a entity."""
data = {**sensor_entities, **climate_entities}
body = await generate_latest_metrics(client)
assert (
'sensor_temperature_celsius{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 15.6' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 1.0' in body
)
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 1.0' in body
)
assert (
'climate_action{action="heating",'
'domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump"} 1.0' in body
)
assert (
'climate_action{action="cooling",'
'domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump"} 0.0' in body
)
assert "sensor.outside_temperature" in registry.entities
assert "climate.heatpump" in registry.entities
registry.async_remove(data["sensor_1"].entity_id)
registry.async_remove(data["climate_1"].entity_id)
await hass.async_block_till_done()
body = await generate_latest_metrics(client)
# Check if old metrics deleted
body_line = "\n".join(body)
assert 'entity="sensor.outside_temperature"' not in body_line
assert 'friendly_name="Outside Temperature"' not in body_line
assert 'entity="climate.heatpump"' not in body_line
assert 'friendly_name="HeatPump"' not in body_line
# Keep other sensors
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 1.0' in body
)
@pytest.mark.parametrize("namespace", [""])
async def test_disabling_entity(
hass, registry, client, sensor_entities, climate_entities
):
"""Test disabling a entity."""
data = {**sensor_entities, **climate_entities}
await hass.async_block_till_done()
body = await generate_latest_metrics(client)
assert (
'sensor_temperature_celsius{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 15.6' in body
)
assert (
'state_change_total{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"} 1.0' in body
)
assert any(
'state_change_created{domain="sensor",'
'entity="sensor.outside_temperature",'
'friendly_name="Outside Temperature"}' in metric
for metric in body
)
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 1.0' in body
)
assert (
'climate_action{action="heating",'
'domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump"} 1.0' in body
)
assert (
'climate_action{action="cooling",'
'domain="climate",'
'entity="climate.heatpump",'
'friendly_name="HeatPump"} 0.0' in body
)
assert "sensor.outside_temperature" in registry.entities
assert "climate.heatpump" in registry.entities
registry.async_update_entity(
entity_id=data["sensor_1"].entity_id,
disabled_by=entity_registry.RegistryEntryDisabler.USER,
)
registry.async_update_entity(
entity_id="climate.heatpump",
disabled_by=entity_registry.RegistryEntryDisabler.USER,
)
await hass.async_block_till_done()
body = await generate_latest_metrics(client)
# Check if old metrics deleted
body_line = "\n".join(body)
assert 'entity="sensor.outside_temperature"' not in body_line
assert 'friendly_name="Outside Temperature"' not in body_line
assert 'entity="climate.heatpump"' not in body_line
assert 'friendly_name="HeatPump"' not in body_line
# Keep other sensors
assert (
'sensor_humidity_percent{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 54.0' in body
)
assert (
'entity_available{domain="sensor",'
'entity="sensor.outside_humidity",'
'friendly_name="Outside Humidity"} 1.0' in body
)
@pytest.fixture(name="registry")
def entity_registry_fixture(hass):
"""Provide entity registry."""
return entity_registry.async_get(hass)
@pytest.fixture(name="sensor_entities")
async def sensor_fixture(hass, registry):
"""Simulate sensor entities."""
data = {}
sensor_1 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_1",
unit_of_measurement=TEMP_CELSIUS,
original_device_class=SensorDeviceClass.TEMPERATURE,
suggested_object_id="outside_temperature",
original_name="Outside Temperature",
)
sensor_1_attributes = {ATTR_BATTERY_LEVEL: 12}
set_state_with_entry(hass, sensor_1, 15.6, sensor_1_attributes)
data["sensor_1"] = sensor_1
data["sensor_1_attributes"] = sensor_1_attributes
sensor_2 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_2",
unit_of_measurement=PERCENTAGE,
original_device_class=SensorDeviceClass.HUMIDITY,
suggested_object_id="outside_humidity",
original_name="Outside Humidity",
)
set_state_with_entry(hass, sensor_2, 54.0)
data["sensor_2"] = sensor_2
sensor_3 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_3",
unit_of_measurement=ENERGY_KILO_WATT_HOUR,
original_device_class=SensorDeviceClass.POWER,
suggested_object_id="radio_energy",
original_name="Radio Energy",
)
with mock.patch(
"homeassistant.util.dt.utcnow",
return_value=datetime.datetime(1970, 1, 2, tzinfo=dt_util.UTC),
):
set_state_with_entry(hass, sensor_3, 14)
data["sensor_3"] = sensor_3
sensor_4 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_4",
unit_of_measurement=ENERGY_KILO_WATT_HOUR,
suggested_object_id="television_energy",
original_name="Television Energy",
)
set_state_with_entry(hass, sensor_4, 74)
data["sensor_4"] = sensor_4
sensor_5 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_5",
unit_of_measurement=f"SEK/{ENERGY_KILO_WATT_HOUR}",
suggested_object_id="electricity_price",
original_name="Electricity price",
)
set_state_with_entry(hass, sensor_5, 0.123)
data["sensor_5"] = sensor_5
sensor_6 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_6",
unit_of_measurement=DEGREE,
suggested_object_id="wind_direction",
original_name="Wind Direction",
)
set_state_with_entry(hass, sensor_6, 25)
data["sensor_6"] = sensor_6
sensor_7 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_7",
unit_of_measurement=CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
suggested_object_id="sps30_pm_1um_weight_concentration",
original_name="SPS30 PM <1µm Weight concentration",
)
set_state_with_entry(hass, sensor_7, 3.7069)
data["sensor_7"] = sensor_7
sensor_8 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_8",
suggested_object_id="trend_gradient",
original_name="Trend Gradient",
)
set_state_with_entry(hass, sensor_8, 0.002)
data["sensor_8"] = sensor_8
sensor_9 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_9",
suggested_object_id="text",
original_name="Text",
)
set_state_with_entry(hass, sensor_9, "should_not_work")
data["sensor_9"] = sensor_9
sensor_10 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_10",
unit_of_measurement="Text",
suggested_object_id="text_unit",
original_name="Text Unit",
)
set_state_with_entry(hass, sensor_10, "should_not_work")
data["sensor_10"] = sensor_10
sensor_11 = registry.async_get_or_create(
domain=sensor.DOMAIN,
platform="test",
unique_id="sensor_11",
unit_of_measurement=TEMP_FAHRENHEIT,
original_device_class=SensorDeviceClass.TEMPERATURE,
suggested_object_id="fahrenheit",
original_name="Fahrenheit",
)
set_state_with_entry(hass, sensor_11, 50)
data["sensor_11"] = sensor_11
await hass.async_block_till_done()
return data
@pytest.fixture(name="climate_entities")
async def climate_fixture(hass, registry):
"""Simulate climate entities."""
data = {}
climate_1 = registry.async_get_or_create(
domain=climate.DOMAIN,
platform="test",
unique_id="climate_1",
unit_of_measurement=TEMP_CELSIUS,
suggested_object_id="heatpump",
original_name="HeatPump",
)
climate_1_attributes = {
ATTR_TEMPERATURE: 20,
ATTR_CURRENT_TEMPERATURE: 25,
ATTR_HVAC_ACTION: climate.HVACAction.HEATING,
}
set_state_with_entry(
hass, climate_1, climate.HVACAction.HEATING, climate_1_attributes
)
data["climate_1"] = climate_1
data["climate_1_attributes"] = climate_1_attributes
climate_2 = registry.async_get_or_create(
domain=climate.DOMAIN,
platform="test",
unique_id="climate_2",
unit_of_measurement=TEMP_CELSIUS,
suggested_object_id="ecobee",
original_name="Ecobee",
)
climate_2_attributes = {
ATTR_TEMPERATURE: 21,
ATTR_CURRENT_TEMPERATURE: 22,
ATTR_TARGET_TEMP_LOW: 21,
ATTR_TARGET_TEMP_HIGH: 24,
ATTR_HVAC_ACTION: climate.HVACAction.COOLING,
}
set_state_with_entry(
hass, climate_2, climate.HVACAction.HEATING, climate_2_attributes
)
data["climate_2"] = climate_2
data["climate_2_attributes"] = climate_2_attributes
climate_3 = registry.async_get_or_create(
domain=climate.DOMAIN,
platform="test",
unique_id="climate_3",
unit_of_measurement=TEMP_CELSIUS,
suggested_object_id="fritzdect",
original_name="Fritz!DECT",
)
climate_3_attributes = {
ATTR_TEMPERATURE: 0,
ATTR_CURRENT_TEMPERATURE: 22,
ATTR_HVAC_ACTION: climate.HVACAction.OFF,
}
set_state_with_entry(hass, climate_3, climate.HVACAction.OFF, climate_3_attributes)
data["climate_3"] = climate_3
data["climate_3_attributes"] = climate_3_attributes
await hass.async_block_till_done()
return data
@pytest.fixture(name="humidifier_entities")
async def humidifier_fixture(hass, registry):
"""Simulate humidifier entities."""
data = {}
humidifier_1 = registry.async_get_or_create(
domain=humidifier.DOMAIN,
platform="test",
unique_id="humidifier_1",
original_device_class=humidifier.HumidifierDeviceClass.HUMIDIFIER,
suggested_object_id="humidifier",
original_name="Humidifier",
)
humidifier_1_attributes = {
ATTR_HUMIDITY: 68,
}
set_state_with_entry(hass, humidifier_1, STATE_ON, humidifier_1_attributes)
data["humidifier_1"] = humidifier_1
data["humidifier_1_attributes"] = humidifier_1_attributes
humidifier_2 = registry.async_get_or_create(
domain=humidifier.DOMAIN,
platform="test",
unique_id="humidifier_2",
original_device_class=humidifier.HumidifierDeviceClass.DEHUMIDIFIER,
suggested_object_id="dehumidifier",
original_name="Dehumidifier",
)
humidifier_2_attributes = {
ATTR_HUMIDITY: 54,
}
set_state_with_entry(hass, humidifier_2, STATE_ON, humidifier_2_attributes)
data["humidifier_2"] = humidifier_2
data["humidifier_2_attributes"] = humidifier_2_attributes
humidifier_3 = registry.async_get_or_create(
domain=humidifier.DOMAIN,
platform="test",
unique_id="humidifier_3",
suggested_object_id="hygrostat",
original_name="Hygrostat",
)
humidifier_3_attributes = {
ATTR_HUMIDITY: 50,
ATTR_MODE: "home",
ATTR_AVAILABLE_MODES: ["home", "eco"],
}
set_state_with_entry(hass, humidifier_3, STATE_ON, humidifier_3_attributes)
data["humidifier_3"] = humidifier_3
data["humidifier_3_attributes"] = humidifier_3_attributes
await hass.async_block_till_done()
return data
@pytest.fixture(name="lock_entities")
async def lock_fixture(hass, registry):
"""Simulate lock entities."""
data = {}
lock_1 = registry.async_get_or_create(
domain=lock.DOMAIN,
platform="test",
unique_id="lock_1",
suggested_object_id="front_door",
original_name="Front Door",
)
set_state_with_entry(hass, lock_1, STATE_LOCKED)
data["lock_1"] = lock_1
lock_2 = registry.async_get_or_create(
domain=lock.DOMAIN,
platform="test",
unique_id="lock_2",
suggested_object_id="kitchen_door",
original_name="Kitchen Door",
)
set_state_with_entry(hass, lock_2, STATE_UNLOCKED)
data["lock_2"] = lock_2
await hass.async_block_till_done()
return data
@pytest.fixture(name="cover_entities")
async def cover_fixture(hass, registry):
"""Simulate cover entities."""
data = {}
cover_open = registry.async_get_or_create(
domain=cover.DOMAIN,
platform="test",
unique_id="cover_open",
suggested_object_id="open_shade",
original_name="Open Shade",
)
set_state_with_entry(hass, cover_open, STATE_OPEN)
data["cover_open"] = cover_open
cover_closed = registry.async_get_or_create(
domain=cover.DOMAIN,
platform="test",
unique_id="cover_closed",
suggested_object_id="closed_shade",
original_name="Closed Shade",
)
set_state_with_entry(hass, cover_closed, STATE_CLOSED)
data["cover_closed"] = cover_closed
cover_closing = registry.async_get_or_create(
domain=cover.DOMAIN,
platform="test",
unique_id="cover_closing",
suggested_object_id="closing_shade",
original_name="Closing Shade",
)
set_state_with_entry(hass, cover_closing, STATE_CLOSING)
data["cover_closing"] = cover_closing
cover_opening = registry.async_get_or_create(
domain=cover.DOMAIN,
platform="test",
unique_id="cover_opening",
suggested_object_id="opening_shade",
original_name="Opening Shade",
)
set_state_with_entry(hass, cover_opening, STATE_OPENING)
data["cover_opening"] = cover_opening
cover_position = registry.async_get_or_create(
domain=cover.DOMAIN,
platform="test",
unique_id="cover_position",
suggested_object_id="position_shade",
original_name="Position Shade",
)
cover_position_attributes = {cover.ATTR_POSITION: 50}
set_state_with_entry(hass, cover_position, STATE_OPEN, cover_position_attributes)
data["cover_position"] = cover_position
cover_tilt_position = registry.async_get_or_create(
domain=cover.DOMAIN,
platform="test",
unique_id="cover_tilt_position",
suggested_object_id="tilt_position_shade",
original_name="Tilt Position Shade",
)
cover_tilt_position_attributes = {cover.ATTR_TILT_POSITION: 50}
set_state_with_entry(
hass, cover_tilt_position, STATE_OPEN, cover_tilt_position_attributes
)
data["cover_tilt_position"] = cover_tilt_position
await hass.async_block_till_done()
return data
@pytest.fixture(name="input_number_entities")
async def input_number_fixture(hass, registry):
"""Simulate input_number entities."""
data = {}
input_number_1 = registry.async_get_or_create(
domain=input_number.DOMAIN,
platform="test",
unique_id="input_number_1",
suggested_object_id="threshold",
original_name="Threshold",
)
set_state_with_entry(hass, input_number_1, 5.2)
data["input_number_1"] = input_number_1
input_number_2 = registry.async_get_or_create(
domain=input_number.DOMAIN,
platform="test",
unique_id="input_number_2",
suggested_object_id="brightness",
)
set_state_with_entry(hass, input_number_2, 60)
data["input_number_2"] = input_number_2
input_number_3 = registry.async_get_or_create(
domain=input_number.DOMAIN,
platform="test",
unique_id="input_number_3",
suggested_object_id="target_temperature",
original_name="Target temperature",
unit_of_measurement=TEMP_CELSIUS,
)
set_state_with_entry(hass, input_number_3, 22.7)
data["input_number_3"] = input_number_3
await hass.async_block_till_done()
return data
@pytest.fixture(name="input_boolean_entities")
async def input_boolean_fixture(hass, registry):
"""Simulate input_boolean entities."""
data = {}
input_boolean_1 = registry.async_get_or_create(
domain=input_boolean.DOMAIN,
platform="test",
unique_id="input_boolean_1",
suggested_object_id="test",
original_name="Test",
)
set_state_with_entry(hass, input_boolean_1, STATE_ON)
data["input_boolean_1"] = input_boolean_1
input_boolean_2 = registry.async_get_or_create(
domain=input_boolean.DOMAIN,
platform="test",
unique_id="input_boolean_2",
suggested_object_id="helper",
original_name="Helper",
)
set_state_with_entry(hass, input_boolean_2, STATE_OFF)
data["input_boolean_2"] = input_boolean_2
await hass.async_block_till_done()
return data
@pytest.fixture(name="binary_sensor_entities")
async def binary_sensor_fixture(hass, registry):
"""Simulate binary_sensor entities."""
data = {}
binary_sensor_1 = registry.async_get_or_create(
domain=binary_sensor.DOMAIN,
platform="test",
unique_id="binary_sensor_1",
suggested_object_id="door",
original_name="Door",
)
set_state_with_entry(hass, binary_sensor_1, STATE_ON)
data["binary_sensor_1"] = binary_sensor_1
binary_sensor_2 = registry.async_get_or_create(
domain=binary_sensor.DOMAIN,
platform="test",
unique_id="binary_sensor_2",
suggested_object_id="window",
original_name="Window",
)
set_state_with_entry(hass, binary_sensor_2, STATE_OFF)
data["binary_sensor_2"] = binary_sensor_2
await hass.async_block_till_done()
return data
@pytest.fixture(name="light_entities")
async def light_fixture(hass, registry):
"""Simulate light entities."""
data = {}
light_1 = registry.async_get_or_create(
domain=light.DOMAIN,
platform="test",
unique_id="light_1",
suggested_object_id="desk",
original_name="Desk",
)
set_state_with_entry(hass, light_1, STATE_ON)
data["light_1"] = light_1
light_2 = registry.async_get_or_create(
domain=light.DOMAIN,
platform="test",
unique_id="light_2",
suggested_object_id="wall",
original_name="Wall",
)
set_state_with_entry(hass, light_2, STATE_OFF)
data["light_2"] = light_2
light_3 = registry.async_get_or_create(
domain=light.DOMAIN,
platform="test",
unique_id="light_3",
suggested_object_id="tv",
original_name="TV",
)
light_3_attributes = {light.ATTR_BRIGHTNESS: 255}
set_state_with_entry(hass, light_3, STATE_ON, light_3_attributes)
data["light_3"] = light_3
data["light_3_attributes"] = light_3_attributes
light_4 = registry.async_get_or_create(
domain=light.DOMAIN,
platform="test",
unique_id="light_4",
suggested_object_id="pc",
original_name="PC",
)
light_4_attributes = {light.ATTR_BRIGHTNESS: 180}
set_state_with_entry(hass, light_4, STATE_ON, light_4_attributes)
data["light_4"] = light_4
data["light_4_attributes"] = light_4_attributes
await hass.async_block_till_done()
return data
@pytest.fixture(name="switch_entities")
async def switch_fixture(hass, registry):
"""Simulate switch entities."""
data = {}
switch_1 = registry.async_get_or_create(
domain=switch.DOMAIN,
platform="test",
unique_id="switch_1",
suggested_object_id="boolean",
original_name="Boolean",
)
switch_1_attributes = {"boolean": True}
set_state_with_entry(hass, switch_1, STATE_ON, switch_1_attributes)
data["switch_1"] = switch_1
data["switch_1_attributes"] = switch_1_attributes
switch_2 = registry.async_get_or_create(
domain=switch.DOMAIN,
platform="test",
unique_id="switch_2",
suggested_object_id="number",
original_name="Number",
)
switch_2_attributes = {"Number": 10.2}
set_state_with_entry(hass, switch_2, STATE_OFF, switch_2_attributes)
data["switch_2"] = switch_2
data["switch_2_attributes"] = switch_2_attributes
await hass.async_block_till_done()
return data
@pytest.fixture(name="person_entities")
async def person_fixture(hass, registry):
"""Simulate person entities."""
data = {}
person_1 = registry.async_get_or_create(
domain=person.DOMAIN,
platform="test",
unique_id="person_1",
suggested_object_id="bob",
original_name="Bob",
)
set_state_with_entry(hass, person_1, STATE_HOME)
data["person_1"] = person_1
person_2 = registry.async_get_or_create(
domain=person.DOMAIN,
platform="test",
unique_id="person_2",
suggested_object_id="alice",
original_name="Alice",
)
set_state_with_entry(hass, person_2, STATE_NOT_HOME)
data["person_2"] = person_2
await hass.async_block_till_done()
return data
@pytest.fixture(name="device_tracker_entities")
async def device_tracker_fixture(hass, registry):
"""Simulate device_tracker entities."""
data = {}
device_tracker_1 = registry.async_get_or_create(
domain=device_tracker.DOMAIN,
platform="test",
unique_id="device_tracker_1",
suggested_object_id="phone",
original_name="Phone",
)
set_state_with_entry(hass, device_tracker_1, STATE_HOME)
data["device_tracker_1"] = device_tracker_1
device_tracker_2 = registry.async_get_or_create(
domain=device_tracker.DOMAIN,
platform="test",
unique_id="device_tracker_2",
suggested_object_id="watch",
original_name="Watch",
)
set_state_with_entry(hass, device_tracker_2, STATE_NOT_HOME)
data["device_tracker_2"] = device_tracker_2
await hass.async_block_till_done()
return data
@pytest.fixture(name="counter_entities")
async def counter_fixture(hass, registry):
"""Simulate counter entities."""
data = {}
counter_1 = registry.async_get_or_create(
domain=counter.DOMAIN,
platform="test",
unique_id="counter_1",
suggested_object_id="counter",
)
set_state_with_entry(hass, counter_1, 2)
data["counter_1"] = counter_1
await hass.async_block_till_done()
return data
def set_state_with_entry(
hass,
entry: entity_registry.RegistryEntry,
state,
additional_attributes=None,
new_entity_id=None,
):
"""Set the state of an entity with an Entity Registry entry."""
attributes = {}
if entry.original_name:
attributes[ATTR_FRIENDLY_NAME] = entry.original_name
if entry.unit_of_measurement:
attributes[ATTR_UNIT_OF_MEASUREMENT] = entry.unit_of_measurement
if entry.original_device_class:
attributes[ATTR_DEVICE_CLASS] = entry.original_device_class
if additional_attributes:
attributes = {**attributes, **additional_attributes}
hass.states.async_set(
entity_id=new_entity_id if new_entity_id else entry.entity_id,
new_state=state,
attributes=attributes,
)
@pytest.fixture(name="mock_client")
def mock_client_fixture():
"""Mock the prometheus client."""
with mock.patch(f"{PROMETHEUS_PATH}.prometheus_client") as client:
counter_client = mock.MagicMock()
client.Counter = mock.MagicMock(return_value=counter_client)
setattr(counter_client, "labels", mock.MagicMock(return_value=mock.MagicMock()))
yield counter_client
@pytest.fixture
def mock_bus(hass):
"""Mock the event bus listener."""
hass.bus.listen = mock.MagicMock()
@pytest.mark.usefixtures("mock_bus")
async def test_minimal_config(hass, mock_client):
"""Test the minimal config and defaults of component."""
config = {prometheus.DOMAIN: {}}
assert await async_setup_component(hass, prometheus.DOMAIN, config)
await hass.async_block_till_done()
assert hass.bus.listen.called
assert hass.bus.listen.call_args_list[0][0][0] == EVENT_STATE_CHANGED
@pytest.mark.usefixtures("mock_bus")
async def test_full_config(hass, mock_client):
"""Test the full config of component."""
config = {
prometheus.DOMAIN: {
"namespace": "ns",
"default_metric": "m",
"override_metric": "m",
"component_config": {"fake.test": {"override_metric": "km"}},
"component_config_glob": {"fake.time_*": {"override_metric": "h"}},
"component_config_domain": {"climate": {"override_metric": "°C"}},
"filter": {
"include_domains": ["climate"],
"include_entity_globs": ["fake.time_*"],
"include_entities": ["fake.test"],
"exclude_domains": ["script"],
"exclude_entity_globs": ["climate.excluded_*"],
"exclude_entities": ["fake.time_excluded"],
},
}
}
assert await async_setup_component(hass, prometheus.DOMAIN, config)
await hass.async_block_till_done()
assert hass.bus.listen.called
assert hass.bus.listen.call_args_list[0][0][0] == EVENT_STATE_CHANGED
def make_event(entity_id):
"""Make a mock event for test."""
domain = split_entity_id(entity_id)[0]
state = mock.MagicMock(
state="not blank",
domain=domain,
entity_id=entity_id,
object_id="entity",
attributes={},
)
return mock.MagicMock(data={"new_state": state}, time_fired=12345)
async def _setup(hass, filter_config):
"""Shared set up for filtering tests."""
config = {prometheus.DOMAIN: {"filter": filter_config}}
assert await async_setup_component(hass, prometheus.DOMAIN, config)
await hass.async_block_till_done()
return hass.bus.listen.call_args_list[0][0][1]
@pytest.mark.usefixtures("mock_bus")
async def test_allowlist(hass, mock_client):
"""Test an allowlist only config."""
handler_method = await _setup(
hass,
{
"include_domains": ["fake"],
"include_entity_globs": ["test.included_*"],
"include_entities": ["not_real.included"],
},
)
tests = [
FilterTest("climate.excluded", False),
FilterTest("fake.included", True),
FilterTest("test.excluded_test", False),
FilterTest("test.included_test", True),
FilterTest("not_real.included", True),
FilterTest("not_real.excluded", False),
]
for test in tests:
event = make_event(test.id)
handler_method(event)
was_called = mock_client.labels.call_count == 1
assert test.should_pass == was_called
mock_client.labels.reset_mock()
@pytest.mark.usefixtures("mock_bus")
async def test_denylist(hass, mock_client):
"""Test a denylist only config."""
handler_method = await _setup(
hass,
{
"exclude_domains": ["fake"],
"exclude_entity_globs": ["test.excluded_*"],
"exclude_entities": ["not_real.excluded"],
},
)
tests = [
FilterTest("fake.excluded", False),
FilterTest("light.included", True),
FilterTest("test.excluded_test", False),
FilterTest("test.included_test", True),
FilterTest("not_real.included", True),
FilterTest("not_real.excluded", False),
]
for test in tests:
event = make_event(test.id)
handler_method(event)
was_called = mock_client.labels.call_count == 1
assert test.should_pass == was_called
mock_client.labels.reset_mock()
@pytest.mark.usefixtures("mock_bus")
async def test_filtered_denylist(hass, mock_client):
"""Test a denylist config with a filtering allowlist."""
handler_method = await _setup(
hass,
{
"include_entities": ["fake.included", "test.excluded_test"],
"exclude_domains": ["fake"],
"exclude_entity_globs": ["*.excluded_*"],
"exclude_entities": ["not_real.excluded"],
},
)
tests = [
FilterTest("fake.excluded", False),
FilterTest("fake.included", True),
FilterTest("alt_fake.excluded_test", False),
FilterTest("test.excluded_test", True),
FilterTest("not_real.excluded", False),
FilterTest("not_real.included", True),
]
for test in tests:
event = make_event(test.id)
handler_method(event)
was_called = mock_client.labels.call_count == 1
assert test.should_pass == was_called
mock_client.labels.reset_mock()