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Add support for BTHome V2 to bthome (#81811) 

* Add BTHome v2 support

* Add new sensor types

* Add new sensor types
This commit is contained in:
Ernst Klamer 2022-11-09 15:31:58 +01:00 committed by GitHub
parent 4b4bf54994
commit b72876d369
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
8 changed files with 790 additions and 44 deletions
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6
homeassistant/components/bthome/manifest.json
View File

@ -11,9 +11,13 @@
{
"connectable": false,
"service_data_uuid": "0000181e-0000-1000-8000-00805f9b34fb"
},
{
"connectable": false,
"service_data_uuid": "0000fcd2-0000-1000-8000-00805f9b34fb"
}
],
"requirements": ["bthome-ble==1.2.2"],
"requirements": ["bthome-ble==2.2.1"],
"dependencies": ["bluetooth"],
"codeowners": ["@Ernst79"],
"iot_class": "local_push"

88
homeassistant/components/bthome/sensor.py
View File

@ -21,16 +21,20 @@ from homeassistant.components.sensor import (
from homeassistant.const import (
CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
CONCENTRATION_PARTS_PER_MILLION,
DEGREE,
ELECTRIC_CURRENT_AMPERE,
ELECTRIC_POTENTIAL_VOLT,
ENERGY_KILO_WATT_HOUR,
LIGHT_LUX,
MASS_KILOGRAMS,
MASS_POUNDS,
PERCENTAGE,
POWER_WATT,
PRESSURE_MBAR,
SIGNAL_STRENGTH_DECIBELS_MILLIWATT,
TEMP_CELSIUS,
TIME_SECONDS,
UnitOfEnergy,
UnitOfLength,
UnitOfMass,
UnitOfPower,
UnitOfPressure,
UnitOfSpeed,
UnitOfTemperature,
)
from homeassistant.core import HomeAssistant
from homeassistant.helpers.entity import EntityCategory
@ -43,7 +47,7 @@ SENSOR_DESCRIPTIONS = {
(BTHomeSensorDeviceClass.TEMPERATURE, Units.TEMP_CELSIUS): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.TEMPERATURE}_{Units.TEMP_CELSIUS}",
device_class=SensorDeviceClass.TEMPERATURE,
native_unit_of_measurement=TEMP_CELSIUS,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
state_class=SensorStateClass.MEASUREMENT,
),
(BTHomeSensorDeviceClass.HUMIDITY, Units.PERCENTAGE): SensorEntityDescription(
@ -61,7 +65,7 @@ SENSOR_DESCRIPTIONS = {
(BTHomeSensorDeviceClass.PRESSURE, Units.PRESSURE_MBAR): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.PRESSURE}_{Units.PRESSURE_MBAR}",
device_class=SensorDeviceClass.PRESSURE,
native_unit_of_measurement=PRESSURE_MBAR,
native_unit_of_measurement=UnitOfPressure.MBAR,
state_class=SensorStateClass.MEASUREMENT,
),
(BTHomeSensorDeviceClass.BATTERY, Units.PERCENTAGE): SensorEntityDescription(
@ -86,13 +90,13 @@ SENSOR_DESCRIPTIONS = {
): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.ENERGY}_{Units.ENERGY_KILO_WATT_HOUR}",
device_class=SensorDeviceClass.ENERGY,
native_unit_of_measurement=ENERGY_KILO_WATT_HOUR,
native_unit_of_measurement=UnitOfEnergy.KILO_WATT_HOUR,
state_class=SensorStateClass.TOTAL_INCREASING,
),
(BTHomeSensorDeviceClass.POWER, Units.POWER_WATT): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.POWER}_{Units.POWER_WATT}",
device_class=SensorDeviceClass.POWER,
native_unit_of_measurement=POWER_WATT,
native_unit_of_measurement=UnitOfPower.WATT,
state_class=SensorStateClass.MEASUREMENT,
),
(
@ -146,14 +150,14 @@ SENSOR_DESCRIPTIONS = {
(BTHomeSensorDeviceClass.MASS, Units.MASS_KILOGRAMS): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.MASS}_{Units.MASS_KILOGRAMS}",
device_class=SensorDeviceClass.WEIGHT,
native_unit_of_measurement=MASS_KILOGRAMS,
native_unit_of_measurement=UnitOfMass.KILOGRAMS,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for mass sensor with lb unit
(BTHomeSensorDeviceClass.MASS, Units.MASS_POUNDS): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.MASS}_{Units.MASS_POUNDS}",
device_class=SensorDeviceClass.WEIGHT,
native_unit_of_measurement=MASS_POUNDS,
native_unit_of_measurement=UnitOfMass.POUNDS,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for moisture sensor
@ -167,7 +171,7 @@ SENSOR_DESCRIPTIONS = {
(BTHomeSensorDeviceClass.DEW_POINT, Units.TEMP_CELSIUS): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.DEW_POINT}_{Units.TEMP_CELSIUS}",
device_class=SensorDeviceClass.TEMPERATURE,
native_unit_of_measurement=TEMP_CELSIUS,
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for count sensor
@ -176,6 +180,64 @@ SENSOR_DESCRIPTIONS = {
device_class=None,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for rotation sensor
(BTHomeSensorDeviceClass.ROTATION, Units.DEGREE): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.ROTATION}_{Units.DEGREE}",
device_class=None,
native_unit_of_measurement=DEGREE,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for distance sensor in mm
(
BTHomeSensorDeviceClass.DISTANCE,
Units.LENGTH_MILLIMETERS,
): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.DISTANCE}_{Units.LENGTH_MILLIMETERS}",
device_class=SensorDeviceClass.DISTANCE,
native_unit_of_measurement=UnitOfLength.MILLIMETERS,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for distance sensor in m
(BTHomeSensorDeviceClass.DISTANCE, Units.LENGTH_METERS): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.DISTANCE}_{Units.LENGTH_METERS}",
device_class=SensorDeviceClass.DISTANCE,
native_unit_of_measurement=UnitOfLength.METERS,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for duration sensor
(BTHomeSensorDeviceClass.DURATION, Units.TIME_SECONDS): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.DURATION}_{Units.TIME_SECONDS}",
device_class=SensorDeviceClass.DURATION,
native_unit_of_measurement=TIME_SECONDS,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for current sensor
(
BTHomeSensorDeviceClass.CURRENT,
Units.ELECTRIC_CURRENT_AMPERE,
): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.CURRENT}_{Units.ELECTRIC_CURRENT_AMPERE}",
device_class=SensorDeviceClass.CURRENT,
native_unit_of_measurement=ELECTRIC_CURRENT_AMPERE,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for speed sensor
(
BTHomeSensorDeviceClass.SPEED,
Units.SPEED_METERS_PER_SECOND,
): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.SPEED}_{Units.SPEED_METERS_PER_SECOND}",
device_class=SensorDeviceClass.SPEED,
native_unit_of_measurement=UnitOfSpeed.METERS_PER_SECOND,
state_class=SensorStateClass.MEASUREMENT,
),
# Used for UV index sensor
(BTHomeSensorDeviceClass.UV_INDEX, None,): SensorEntityDescription(
key=f"{BTHomeSensorDeviceClass.UV_INDEX}",
device_class=None,
native_unit_of_measurement=None,
state_class=SensorStateClass.MEASUREMENT,
),
}

5
homeassistant/generated/bluetooth.py
View File

@ -36,6 +36,11 @@ BLUETOOTH: list[dict[str, bool | str | int | list[int]]] = [
"connectable": False,
"service_data_uuid": "0000181e-0000-1000-8000-00805f9b34fb",
},
{
"domain": "bthome",
"connectable": False,
"service_data_uuid": "0000fcd2-0000-1000-8000-00805f9b34fb",
},
{
"domain": "fjaraskupan",
"connectable": False,

2
requirements_all.txt
View File

@ -482,7 +482,7 @@ brunt==1.2.0
bt_proximity==0.2.1
# homeassistant.components.bthome
bthome-ble==1.2.2
bthome-ble==2.2.1
# homeassistant.components.bt_home_hub_5
bthomehub5-devicelist==0.1.1

2
requirements_test_all.txt
View File

@ -386,7 +386,7 @@ brother==2.0.0
brunt==1.2.0
# homeassistant.components.bthome
bthome-ble==1.2.2
bthome-ble==2.2.1
# homeassistant.components.buienradar
buienradar==1.0.5

23
tests/components/bthome/__init__.py
View File

@ -85,7 +85,7 @@ NOT_BTHOME_SERVICE_INFO = BluetoothServiceInfoBleak(
)
def make_advertisement(address: str, payload: bytes) -> BluetoothServiceInfoBleak:
def make_bthome_v1_adv(address: str, payload: bytes) -> BluetoothServiceInfoBleak:
"""Make a dummy advertisement."""
return BluetoothServiceInfoBleak(
name="Test Device",
@ -104,7 +104,7 @@ def make_advertisement(address: str, payload: bytes) -> BluetoothServiceInfoBlea
)
def make_encrypted_advertisement(
def make_encrypted_bthome_v1_adv(
address: str, payload: bytes
) -> BluetoothServiceInfoBleak:
"""Make a dummy encrypted advertisement."""
@ -123,3 +123,22 @@ def make_encrypted_advertisement(
time=0,
connectable=False,
)
def make_bthome_v2_adv(address: str, payload: bytes) -> BluetoothServiceInfoBleak:
"""Make a dummy advertisement."""
return BluetoothServiceInfoBleak(
name="Test Device",
address=address,
device=BLEDevice(address, None),
rssi=-56,
manufacturer_data={},
service_data={
"0000fcd2-0000-1000-8000-00805f9b34fb": payload,
},
service_uuids=["0000fcd2-0000-1000-8000-00805f9b34fb"],
source="local",
advertisement=generate_advertisement_data(local_name="Test Device"),
time=0,
connectable=False,
)

98
tests/components/bthome/test_binary_sensor.py
View File

@ -7,7 +7,7 @@ import pytest
from homeassistant.components.bthome.const import DOMAIN
from homeassistant.const import ATTR_FRIENDLY_NAME, STATE_OFF, STATE_ON
from . import make_advertisement
from . import make_bthome_v1_adv, make_bthome_v2_adv
from tests.common import MockConfigEntry
from tests.components.bluetooth import inject_bluetooth_service_info
@ -20,7 +20,7 @@ _LOGGER = logging.getLogger(__name__)
[
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x02\x10\x01",
),
@ -35,7 +35,7 @@ _LOGGER = logging.getLogger(__name__)
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x02\x11\x00",
),
@ -50,7 +50,7 @@ _LOGGER = logging.getLogger(__name__)
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x02\x0F\x01",
),
@ -65,14 +65,100 @@ _LOGGER = logging.getLogger(__name__)
),
],
)
async def test_binary_sensors(
async def test_v1_binary_sensors(
hass,
mac_address,
advertisement,
bind_key,
result,
):
"""Test the different binary sensors."""
"""Test the different BTHome v1 binary sensors."""
entry = MockConfigEntry(
domain=DOMAIN,
unique_id=mac_address,
data={"bindkey": bind_key},
)
entry.add_to_hass(hass)
assert await hass.config_entries.async_setup(entry.entry_id)
await hass.async_block_till_done()
assert len(hass.states.async_all()) == 0
inject_bluetooth_service_info(
hass,
advertisement,
)
await hass.async_block_till_done()
assert len(hass.states.async_all()) == len(result)
for meas in result:
binary_sensor = hass.states.get(meas["binary_sensor_entity"])
binary_sensor_attr = binary_sensor.attributes
assert binary_sensor.state == meas["expected_state"]
assert binary_sensor_attr[ATTR_FRIENDLY_NAME] == meas["friendly_name"]
assert await hass.config_entries.async_unload(entry.entry_id)
await hass.async_block_till_done()
@pytest.mark.parametrize(
"mac_address, advertisement, bind_key, result",
[
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x10\x01",
),
None,
[
{
"binary_sensor_entity": "binary_sensor.test_device_18b2_power",
"friendly_name": "Test Device 18B2 Power",
"expected_state": STATE_ON,
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x11\x00",
),
None,
[
{
"binary_sensor_entity": "binary_sensor.test_device_18b2_opening",
"friendly_name": "Test Device 18B2 Opening",
"expected_state": STATE_OFF,
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x0F\x01",
),
None,
[
{
"binary_sensor_entity": "binary_sensor.test_device_18b2_generic",
"friendly_name": "Test Device 18B2 Generic",
"expected_state": STATE_ON,
},
],
),
],
)
async def test_v2_binary_sensors(
hass,
mac_address,
advertisement,
bind_key,
result,
):
"""Test the different BTHome v2 binary sensors."""
entry = MockConfigEntry(
domain=DOMAIN,
unique_id=mac_address,

610
tests/components/bthome/test_sensor.py
View File

@ -1,24 +1,29 @@
"""Test the BTHome sensors."""
import logging
import pytest
from homeassistant.components.bthome.const import DOMAIN
from homeassistant.components.sensor import ATTR_STATE_CLASS
from homeassistant.const import ATTR_FRIENDLY_NAME, ATTR_UNIT_OF_MEASUREMENT
from . import make_advertisement, make_encrypted_advertisement
from . import make_bthome_v1_adv, make_bthome_v2_adv, make_encrypted_bthome_v1_adv
from tests.common import MockConfigEntry
from tests.components.bluetooth import inject_bluetooth_service_info
_LOGGER = logging.getLogger(__name__)
# Tests for BTHome v1
@pytest.mark.parametrize(
"mac_address, advertisement, bind_key, result",
[
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"#\x02\xca\t\x03\x03\xbf\x13",
),
@ -42,7 +47,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x02\x00\xa8#\x02]\t\x03\x03\xb7\x18\x02\x01]",
),
@ -73,7 +78,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x02\x00\x0c\x04\x04\x13\x8a\x01",
),
@ -90,7 +95,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"AA:BB:CC:DD:EE:FF",
make_advertisement(
make_bthome_v1_adv(
"AA:BB:CC:DD:EE:FF",
b"\x04\x05\x13\x8a\x14",
),
@ -107,7 +112,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x03\x06\x5e\x1f",
),
@ -124,7 +129,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x03\x07\x3e\x1d",
),
@ -141,7 +146,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x23\x08\xCA\x06",
),
@ -158,7 +163,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x02\x09\x60",
),
@ -174,7 +179,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x04\n\x13\x8a\x14",
),
@ -191,7 +196,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x04\x0b\x02\x1b\x00",
),
@ -208,7 +213,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x03\x0c\x02\x0c",
),
@ -225,7 +230,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x03\r\x12\x0c\x03\x0e\x02\x1c",
),
@ -249,7 +254,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x03\x12\xe2\x04",
),
@ -266,7 +271,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x03\x133\x01",
),
@ -283,7 +288,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"A4:C1:38:8D:18:B2",
make_advertisement(
make_bthome_v1_adv(
"A4:C1:38:8D:18:B2",
b"\x03\x14\x02\x0c",
),
@ -300,7 +305,7 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
(
"54:48:E6:8F:80:A5",
make_encrypted_advertisement(
make_encrypted_bthome_v1_adv(
"54:48:E6:8F:80:A5",
b'\xfb\xa45\xe4\xd3\xc3\x12\xfb\x00\x11"3W\xd9\n\x99',
),
@ -324,14 +329,14 @@ from tests.components.bluetooth import inject_bluetooth_service_info
),
],
)
async def test_sensors(
async def test_v1_sensors(
hass,
mac_address,
advertisement,
bind_key,
result,
):
"""Test the different measurement sensors."""
"""Test the different BTHome V1 sensors."""
entry = MockConfigEntry(
domain=DOMAIN,
unique_id=mac_address,
@ -357,7 +362,572 @@ async def test_sensors(
assert sensor.state == meas["expected_state"]
assert sensor_attr[ATTR_FRIENDLY_NAME] == meas["friendly_name"]
if ATTR_UNIT_OF_MEASUREMENT in sensor_attr:
# Count sensor does not have a unit of measurement
# Some sensors don't have a unit of measurement
assert sensor_attr[ATTR_UNIT_OF_MEASUREMENT] == meas["unit_of_measurement"]
assert sensor_attr[ATTR_STATE_CLASS] == meas["state_class"]
assert await hass.config_entries.async_unload(entry.entry_id)
await hass.async_block_till_done()
# Tests for BTHome V2
@pytest.mark.parametrize(
"mac_address, advertisement, bind_key, result",
[
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x02\xca\x09\x03\xbf\x13",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_temperature",
"friendly_name": "Test Device 18B2 Temperature",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "25.06",
},
{
"sensor_entity": "sensor.test_device_18b2_humidity",
"friendly_name": "Test Device 18B2 Humidity",
"unit_of_measurement": "%",
"state_class": "measurement",
"expected_state": "50.55",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x01\x5d\x02\x5d\x09\x03\xb7\x18",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_temperature",
"friendly_name": "Test Device 18B2 Temperature",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "23.97",
},
{
"sensor_entity": "sensor.test_device_18b2_humidity",
"friendly_name": "Test Device 18B2 Humidity",
"unit_of_measurement": "%",
"state_class": "measurement",
"expected_state": "63.27",
},
{
"sensor_entity": "sensor.test_device_18b2_battery",
"friendly_name": "Test Device 18B2 Battery",
"unit_of_measurement": "%",
"state_class": "measurement",
"expected_state": "93",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x04\x13\x8a\x01",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_pressure",
"friendly_name": "Test Device 18B2 Pressure",
"unit_of_measurement": "mbar",
"state_class": "measurement",
"expected_state": "1008.83",
},
],
),
(
"AA:BB:CC:DD:EE:FF",
make_bthome_v2_adv(
"AA:BB:CC:DD:EE:FF",
b"\x40\x05\x13\x8a\x14",
),
None,
[
{
"sensor_entity": "sensor.test_device_eeff_illuminance",
"friendly_name": "Test Device EEFF Illuminance",
"unit_of_measurement": "lx",
"state_class": "measurement",
"expected_state": "13460.67",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x06\x5E\x1F",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_mass",
"friendly_name": "Test Device 18B2 Mass",
"unit_of_measurement": "kg",
"state_class": "measurement",
"expected_state": "80.3",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x07\x3E\x1d",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_mass",
"friendly_name": "Test Device 18B2 Mass",
"unit_of_measurement": "lb",
"state_class": "measurement",
"expected_state": "74.86",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x08\xCA\x06",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_dew_point",
"friendly_name": "Test Device 18B2 Dew Point",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "17.38",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x09\x60",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_count",
"friendly_name": "Test Device 18B2 Count",
"state_class": "measurement",
"expected_state": "96",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x0a\x13\x8a\x14",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_energy",
"friendly_name": "Test Device 18B2 Energy",
"unit_of_measurement": "kWh",
"state_class": "total_increasing",
"expected_state": "1346.067",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x0b\x02\x1b\x00",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_power",
"friendly_name": "Test Device 18B2 Power",
"unit_of_measurement": "W",
"state_class": "measurement",
"expected_state": "69.14",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x0c\x02\x0c",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_voltage",
"friendly_name": "Test Device 18B2 Voltage",
"unit_of_measurement": "V",
"state_class": "measurement",
"expected_state": "3.074",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x0d\x12\x0c\x0e\x02\x1c",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_pm10",
"friendly_name": "Test Device 18B2 Pm10",
"unit_of_measurement": "µg/m³",
"state_class": "measurement",
"expected_state": "7170",
},
{
"sensor_entity": "sensor.test_device_18b2_pm25",
"friendly_name": "Test Device 18B2 Pm25",
"unit_of_measurement": "µg/m³",
"state_class": "measurement",
"expected_state": "3090",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x12\xe2\x04",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_carbon_dioxide",
"friendly_name": "Test Device 18B2 Carbon Dioxide",
"unit_of_measurement": "ppm",
"state_class": "measurement",
"expected_state": "1250",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x133\x01",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_volatile_organic_compounds",
"friendly_name": "Test Device 18B2 Volatile Organic Compounds",
"unit_of_measurement": "µg/m³",
"state_class": "measurement",
"expected_state": "307",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x14\x02\x0c",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_moisture",
"friendly_name": "Test Device 18B2 Moisture",
"unit_of_measurement": "%",
"state_class": "measurement",
"expected_state": "30.74",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x3F\x02\x0c",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_rotation",
"friendly_name": "Test Device 18B2 Rotation",
"unit_of_measurement": "°",
"state_class": "measurement",
"expected_state": "307.4",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x40\x0C\x00",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_distance",
"friendly_name": "Test Device 18B2 Distance",
"unit_of_measurement": "mm",
"state_class": "measurement",
"expected_state": "12",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x41\x4E\x00",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_distance",
"friendly_name": "Test Device 18B2 Distance",
"unit_of_measurement": "m",
"state_class": "measurement",
"expected_state": "7.8",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x42\x4E\x34\x00",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_duration",
"friendly_name": "Test Device 18B2 Duration",
"unit_of_measurement": "s",
"state_class": "measurement",
"expected_state": "13.39",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x43\x4E\x34",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_current",
"friendly_name": "Test Device 18B2 Current",
"unit_of_measurement": "A",
"state_class": "measurement",
"expected_state": "13.39",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x44\x4E\x34",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_speed",
"friendly_name": "Test Device 18B2 Speed",
"unit_of_measurement": "m/s",
"state_class": "measurement",
"expected_state": "133.9",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x45\x11\x01",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_temperature",
"friendly_name": "Test Device 18B2 Temperature",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "27.3",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x46\x32",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_uv_index",
"friendly_name": "Test Device 18B2 Uv Index",
"state_class": "measurement",
"expected_state": "5.0",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x02\xca\x09\x02\xcf\x09",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_temperature_1",
"friendly_name": "Test Device 18B2 Temperature 1",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "25.06",
},
{
"sensor_entity": "sensor.test_device_18b2_temperature_2",
"friendly_name": "Test Device 18B2 Temperature 2",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "25.11",
},
],
),
(
"A4:C1:38:8D:18:B2",
make_bthome_v2_adv(
"A4:C1:38:8D:18:B2",
b"\x40\x02\xca\x09\x02\xcf\x09\x02\xcf\x08\x03\xb7\x18\x03\xb7\x17\x01\x5d",
),
None,
[
{
"sensor_entity": "sensor.test_device_18b2_temperature_1",
"friendly_name": "Test Device 18B2 Temperature 1",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "25.06",
},
{
"sensor_entity": "sensor.test_device_18b2_temperature_2",
"friendly_name": "Test Device 18B2 Temperature 2",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "25.11",
},
{
"sensor_entity": "sensor.test_device_18b2_temperature_3",
"friendly_name": "Test Device 18B2 Temperature 3",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "22.55",
},
{
"sensor_entity": "sensor.test_device_18b2_humidity_1",
"friendly_name": "Test Device 18B2 Humidity 1",
"unit_of_measurement": "%",
"state_class": "measurement",
"expected_state": "63.27",
},
{
"sensor_entity": "sensor.test_device_18b2_humidity_2",
"friendly_name": "Test Device 18B2 Humidity 2",
"unit_of_measurement": "%",
"state_class": "measurement",
"expected_state": "60.71",
},
{
"sensor_entity": "sensor.test_device_18b2_battery",
"friendly_name": "Test Device 18B2 Battery",
"unit_of_measurement": "%",
"state_class": "measurement",
"expected_state": "93",
},
],
),
(
"54:48:E6:8F:80:A5",
make_bthome_v2_adv(
"54:48:E6:8F:80:A5",
b"\x41\xa4\x72\x66\xc9\x5f\x73\x00\x11\x22\x33\xb7\xce\xd8\xe5",
),
"231d39c1d7cc1ab1aee224cd096db932",
[
{
"sensor_entity": "sensor.test_device_80a5_temperature",
"friendly_name": "Test Device 80A5 Temperature",
"unit_of_measurement": "°C",
"state_class": "measurement",
"expected_state": "25.06",
},
{
"sensor_entity": "sensor.test_device_80a5_humidity",
"friendly_name": "Test Device 80A5 Humidity",
"unit_of_measurement": "%",
"state_class": "measurement",
"expected_state": "50.55",
},
],
),
],
)
async def test_v2_sensors(
hass,
mac_address,
advertisement,
bind_key,
result,
):
"""Test the different BTHome V2 sensors."""
entry = MockConfigEntry(
domain=DOMAIN,
unique_id=mac_address,
data={"bindkey": bind_key},
)
entry.add_to_hass(hass)
assert await hass.config_entries.async_setup(entry.entry_id)
await hass.async_block_till_done()
assert len(hass.states.async_all()) == 0
inject_bluetooth_service_info(
hass,
advertisement,
)
await hass.async_block_till_done()
assert len(hass.states.async_all()) == len(result)
for meas in result:
_LOGGER.error(meas)
sensor = hass.states.get(meas["sensor_entity"])
_LOGGER.error(hass.states)
sensor_attr = sensor.attributes
assert sensor.state == meas["expected_state"]
assert sensor_attr[ATTR_FRIENDLY_NAME] == meas["friendly_name"]
if ATTR_UNIT_OF_MEASUREMENT in sensor_attr:
# Some sensors don't have a unit of measurement
assert sensor_attr[ATTR_UNIT_OF_MEASUREMENT] == meas["unit_of_measurement"]
assert sensor_attr[ATTR_STATE_CLASS] == meas["state_class"]
assert await hass.config_entries.async_unload(entry.entry_id)