async def test_bulb_off_while_adding_in_ha(opp: OpenPeerPower):
"""Test Yeelight off while adding to ha, for example on OPP start."""
config_entry = MockConfigEntry(
domain=DOMAIN,
data={
**CONFIG_ENTRY_DATA,
CONF_HOST: IP_ADDRESS,
},
unique_id=ID,
)
config_entry.add_to_opp(opp)
mocked_bulb = _mocked_bulb(True)
mocked_bulb.bulb_type = BulbType.WhiteTempMood
with patch(f"{MODULE}.Bulb", return_value=mocked_bulb), patch(
f"{MODULE}.config_flow.yeelight.Bulb", return_value=mocked_bulb):
assert await opp.config_entries.async_setup(config_entry.entry_id)
await opp.async_block_till_done()
binary_sensor_entity_id = ENTITY_BINARY_SENSOR_TEMPLATE.format(
IP_ADDRESS.replace(".", "_"))
entity_registry = er.async_get(opp)
assert entity_registry.async_get(binary_sensor_entity_id) is None
type(mocked_bulb).get_capabilities = MagicMock(CAPABILITIES)
type(mocked_bulb).get_properties = MagicMock(None)
opp.data[DOMAIN][DATA_CONFIG_ENTRIES][
config_entry.entry_id][DATA_DEVICE].update()
await opp.async_block_till_done()
await opp.async_block_till_done()
entity_registry = er.async_get(opp)
assert entity_registry.async_get(binary_sensor_entity_id) is not None
async def test_unique_ids_entry(opp: OpenPeerPower):
"""Test Yeelight unique IDs from entry IDs."""
config_entry = MockConfigEntry(
domain=DOMAIN,
data={
**CONFIG_ENTRY_DATA,
CONF_NIGHTLIGHT_SWITCH: True,
},
)
config_entry.add_to_opp(opp)
mocked_bulb = _mocked_bulb()
mocked_bulb.bulb_type = BulbType.WhiteTempMood
with _patch_discovery(MODULE), patch(f"{MODULE}.Bulb",
return_value=mocked_bulb):
assert await opp.config_entries.async_setup(config_entry.entry_id)
await opp.async_block_till_done()
entity_registry = er.async_get(opp)
assert (entity_registry.async_get(ENTITY_BINARY_SENSOR).unique_id ==
f"{config_entry.entry_id}-nightlight_sensor")
assert entity_registry.async_get(
ENTITY_LIGHT).unique_id == config_entry.entry_id
assert (entity_registry.async_get(ENTITY_NIGHTLIGHT).unique_id ==
f"{config_entry.entry_id}-nightlight")
assert (entity_registry.async_get(ENTITY_AMBILIGHT).unique_id ==
f"{config_entry.entry_id}-ambilight")
async def test_ws_create(opp, opp_ws_client, storage_setup):
"""Test create WS."""
assert await storage_setup(items=[])
input_id = "new_input"
input_entity_id = f"{DOMAIN}.{input_id}"
ent_reg = er.async_get(opp)
state = opp.states.get(input_entity_id)
assert state is None
assert ent_reg.async_get_entity_id(DOMAIN, DOMAIN, input_id) is None
client = await opp_ws_client(opp)
await client.send_json({
"id": 6,
"type": f"{DOMAIN}/create",
"name": "New Input",
"latitude": 3,
"longitude": 4,
"passive": True,
})
resp = await client.receive_json()
assert resp["success"]
state = opp.states.get(input_entity_id)
assert state.state == "zoning"
assert state.attributes["latitude"] == 3
assert state.attributes["longitude"] == 4
assert state.attributes["passive"] is True
async def test_cleanup_entity_registry_change(opp):
"""Test we run a cleanup when entity registry changes.
Don't pre-load the registries as the debouncer will then not be waiting for
EVENT_ENTITY_REGISTRY_UPDATED events.
"""
await device_registry.async_load(opp)
await entity_registry.async_load(opp)
ent_reg = entity_registry.async_get(opp)
with patch("openpeerpower.helpers.device_registry.Debouncer.async_call"
) as mock_call:
entity = ent_reg.async_get_or_create("light", "hue", "e1")
await opp.async_block_till_done()
assert len(mock_call.mock_calls) == 0
# Normal update does not trigger
ent_reg.async_update_entity(entity.entity_id, name="updated")
await opp.async_block_till_done()
assert len(mock_call.mock_calls) == 0
# Device ID update triggers
ent_reg.async_get_or_create("light", "hue", "e1", device_id="bla")
await opp.async_block_till_done()
assert len(mock_call.mock_calls) == 1
# Removal also triggers
ent_reg.async_remove(entity.entity_id)
await opp.async_block_till_done()
assert len(mock_call.mock_calls) == 2
async def test_cleanup_device_registry(opp, registry):
"""Test cleanup works."""
config_entry = MockConfigEntry(domain="hue")
config_entry.add_to_opp(opp)
d1 = registry.async_get_or_create(identifiers={("hue", "d1")},
config_entry_id=config_entry.entry_id)
registry.async_get_or_create(identifiers={("hue", "d2")},
config_entry_id=config_entry.entry_id)
d3 = registry.async_get_or_create(identifiers={("hue", "d3")},
config_entry_id=config_entry.entry_id)
registry.async_get_or_create(identifiers={("something", "d4")},
config_entry_id="non_existing")
ent_reg = entity_registry.async_get(opp)
ent_reg.async_get_or_create("light", "hue", "e1", device_id=d1.id)
ent_reg.async_get_or_create("light", "hue", "e2", device_id=d1.id)
ent_reg.async_get_or_create("light", "hue", "e3", device_id=d3.id)
device_registry.async_cleanup(opp, registry, ent_reg)
assert registry.async_get_device({("hue", "d1")}) is not None
assert registry.async_get_device({("hue", "d2")}) is not None
assert registry.async_get_device({("hue", "d3")}) is not None
assert registry.async_get_device({("something", "d4")}) is None
async def _create_entries(
opp: OpenPeerPower,
client=None) -> tuple[RegistryEntry, DeviceEntry, ClientMock]:
client = ClientMock() if client is None else client
def get_client_mock(client, _):
return client
with patch("twinkly_client.TwinklyClient", side_effect=get_client_mock):
config_entry = MockConfigEntry(
domain=TWINKLY_DOMAIN,
data={
CONF_ENTRY_HOST: client,
CONF_ENTRY_ID: client.id,
CONF_ENTRY_NAME: TEST_NAME_ORIGINAL,
CONF_ENTRY_MODEL: TEST_MODEL,
},
entry_id=client.id,
)
config_entry.add_to_opp(opp)
assert await opp.config_entries.async_setup(client.id)
await opp.async_block_till_done()
device_registry = dr.async_get(opp)
entity_registry = er.async_get(opp)
entity_id = entity_registry.async_get_entity_id("light", TWINKLY_DOMAIN,
client.id)
entity = entity_registry.async_get(entity_id)
device = device_registry.async_get_device({(TWINKLY_DOMAIN, client.id)})
assert entity is not None
assert device is not None
return entity, device, client
async def test_simpleconnect_fan_setup(opp):
"""Test that a SIMPLEconnect fan can be correctly setup in HA."""
accessories = await setup_accessories_from_file(opp,
"simpleconnect_fan.json")
config_entry, pairing = await setup_test_accessories(opp, accessories)
entity_registry = er.async_get(opp)
# Check that the fan is correctly found and set up
fan_id = "fan.simpleconnect_fan_06f674"
fan = entity_registry.async_get(fan_id)
assert fan.unique_id == "homekit-1234567890abcd-8"
fan_helper = Helper(
opp,
"fan.simpleconnect_fan_06f674",
pairing,
accessories[0],
config_entry,
)
fan_state = await fan_helper.poll_and_get_state()
assert fan_state.attributes["friendly_name"] == "SIMPLEconnect Fan-06F674"
assert fan_state.state == "off"
assert fan_state.attributes["supported_features"] == (SUPPORT_DIRECTION
| SUPPORT_SET_SPEED)
device_registry = dr.async_get(opp)
device = device_registry.async_get(fan.device_id)
assert device.manufacturer == "Hunter Fan"
assert device.name == "SIMPLEconnect Fan-06F674"
assert device.model == "SIMPLEconnect"
assert device.sw_version == ""
assert device.via_device_id is None
async def test_restoring_devices(opp):
"""Test restoring existing device_tracker entities if not detected on startup."""
config_entry = MockConfigEntry(domain=mikrotik.DOMAIN,
data=MOCK_DATA,
options=MOCK_OPTIONS)
config_entry.add_to_opp(opp)
registry = er.async_get(opp)
registry.async_get_or_create(
device_tracker.DOMAIN,
mikrotik.DOMAIN,
"00:00:00:00:00:01",
suggested_object_id="device_1",
config_entry=config_entry,
)
registry.async_get_or_create(
device_tracker.DOMAIN,
mikrotik.DOMAIN,
"00:00:00:00:00:02",
suggested_object_id="device_2",
config_entry=config_entry,
)
await setup_mikrotik_entry(opp)
# test device_2 which is not in wireless list is restored
device_1 = opp.states.get("device_tracker.device_1")
assert device_1 is not None
assert device_1.state == "home"
device_2 = opp.states.get("device_tracker.device_2")
assert device_2 is not None
assert device_2.state == "not_home"
async def test_entity_registry(opp):
"""Tests that the devices are registered in the entity registry."""
await setup_platform(opp, COVER_DOMAIN)
entity_registry = er.async_get(opp)
entry = entity_registry.async_get(DEVICE_ID)
assert entry.unique_id == "61cbz3b542d2o33ed2fz02721bda3324"
async def test_hmip_remove_device(opp, default_mock_hap_factory):
"""Test Remove of hmip device."""
entity_id = "light.treppe_ch"
entity_name = "Treppe CH"
device_model = "HmIP-BSL"
mock_hap = await default_mock_hap_factory.async_get_mock_hap(
test_devices=["Treppe"]
)
ha_state, hmip_device = get_and_check_entity_basics(
opp, mock_hap, entity_id, entity_name, device_model
)
assert ha_state.state == STATE_ON
assert hmip_device
device_registry = dr.async_get(opp)
entity_registry = er.async_get(opp)
pre_device_count = len(device_registry.devices)
pre_entity_count = len(entity_registry.entities)
pre_mapping_count = len(mock_hap.hmip_device_by_entity_id)
hmip_device.fire_remove_event()
await opp.async_block_till_done()
assert len(device_registry.devices) == pre_device_count - 1
assert len(entity_registry.entities) == pre_entity_count - 3
assert len(mock_hap.hmip_device_by_entity_id) == pre_mapping_count - 3
async def test_hmip_multi_area_device(opp, default_mock_hap_factory):
"""Test multi area device. Check if devices are created and referenced."""
entity_id = "binary_sensor.wired_eingangsmodul_32_fach_channel5"
entity_name = "Wired Eingangsmodul – 32-fach Channel5"
device_model = "HmIPW-DRI32"
mock_hap = await default_mock_hap_factory.async_get_mock_hap(
test_devices=["Wired Eingangsmodul – 32-fach"]
)
ha_state, hmip_device = get_and_check_entity_basics(
opp, mock_hap, entity_id, entity_name, device_model
)
assert ha_state
# get the entity
entity_registry = er.async_get(opp)
entity = entity_registry.async_get(ha_state.entity_id)
assert entity
# get the device
device_registry = dr.async_get(opp)
device = device_registry.async_get(entity.device_id)
assert device.name == "Wired Eingangsmodul – 32-fach"
# get the hap
hap_device = device_registry.async_get(device.via_device_id)
assert hap_device.name == "Home"
async def test_hmip_remove_group(opp, default_mock_hap_factory):
"""Test Remove of hmip group."""
entity_id = "switch.strom_group"
entity_name = "Strom Group"
device_model = None
mock_hap = await default_mock_hap_factory.async_get_mock_hap(test_groups=["Strom"])
ha_state, hmip_device = get_and_check_entity_basics(
opp, mock_hap, entity_id, entity_name, device_model
)
assert ha_state.state == STATE_ON
assert hmip_device
device_registry = dr.async_get(opp)
entity_registry = er.async_get(opp)
pre_device_count = len(device_registry.devices)
pre_entity_count = len(entity_registry.entities)
pre_mapping_count = len(mock_hap.hmip_device_by_entity_id)
hmip_device.fire_remove_event()
await opp.async_block_till_done()
assert len(device_registry.devices) == pre_device_count
assert len(entity_registry.entities) == pre_entity_count - 1
assert len(mock_hap.hmip_device_by_entity_id) == pre_mapping_count - 1
async def test_backupsses600m1(opp):
"""Test creation of BACKUPSES600M1 sensors."""
await async_init_integration(opp, "BACKUPSES600M1", ["battery.charge"])
registry = er.async_get(opp)
entry = registry.async_get("sensor.ups1_battery_charge")
assert entry
assert (
entry.unique_id ==
"American Power Conversion_Back-UPS ES 600M1_4B1713P32195 _battery.charge"
)
state = opp.states.get("sensor.ups1_battery_charge")
assert state.state == "100"
expected_attributes = {
"device_class": "battery",
"friendly_name": "Ups1 Battery Charge",
"state": "Online",
"unit_of_measurement": PERCENTAGE,
}
# Only test for a subset of attributes in case
# OPP changes the implementation and a new one appears
assert all(state.attributes[key] == expected_attributes[key]
for key in expected_attributes)
async def test_entity_registry(opp):
"""Tests that the devices are registered in the entity registry."""
await setup_platform(opp, SENSOR_DOMAIN)
entity_registry = er.async_get(opp)
entry = entity_registry.async_get("sensor.environment_sensor_humidity")
assert entry.unique_id == "13545b21f4bdcd33d9abd461f8443e65-humidity"
async def test_aqara_switch_setup(opp):
"""Test that a Aqara Switch can be correctly setup in HA."""
accessories = await setup_accessories_from_file(opp, "aqara_switch.json")
config_entry, pairing = await setup_test_accessories(opp, accessories)
entity_registry = er.async_get(opp)
battery_id = "sensor.programmable_switch_battery"
battery = entity_registry.async_get(battery_id)
assert battery.unique_id == "homekit-111a1111a1a111-5"
# The fixture file has 1 button and a battery
expected = [{
"device_id": battery.device_id,
"domain": "sensor",
"entity_id": "sensor.programmable_switch_battery",
"platform": "device",
"type": "battery_level",
}]
for subtype in ("single_press", "double_press", "long_press"):
expected.append({
"device_id": battery.device_id,
"domain": "homekit_controller",
"platform": "device",
"type": "button1",
"subtype": subtype,
})
triggers = await async_get_device_automations(opp, "trigger",
battery.device_id)
assert_lists_same(triggers, expected)
async def test_sensor_restore(opp, hk_driver, events):
"""Test setting up an entity from state in the event registry."""
opp.state = CoreState.not_running
registry = er.async_get(opp)
registry.async_get_or_create(
"sensor",
"generic",
"1234",
suggested_object_id="temperature",
device_class="temperature",
)
registry.async_get_or_create(
"sensor",
"generic",
"12345",
suggested_object_id="humidity",
device_class="humidity",
unit_of_measurement=PERCENTAGE,
)
opp.bus.async_fire(EVENT_OPENPEERPOWER_START, {})
await opp.async_block_till_done()
acc = get_accessory(opp, hk_driver, opp.states.get("sensor.temperature"),
2, {})
assert acc.category == 10
acc = get_accessory(opp, hk_driver, opp.states.get("sensor.humidity"), 2,
{})
assert acc.category == 10
async def test_lights_can_be_enabled(opp: OpenPeerPower) -> None:
"""Verify lights can be enabled."""
client = create_mock_client()
await setup_test_config_entry(opp, hyperion_client=client)
entity_registry = er.async_get(opp)
entry = entity_registry.async_get(TEST_PRIORITY_LIGHT_ENTITY_ID_1)
assert entry
assert entry.disabled
assert entry.disabled_by == er.DISABLED_INTEGRATION
entity_state = opp.states.get(TEST_PRIORITY_LIGHT_ENTITY_ID_1)
assert not entity_state
with patch(
"openpeerpower.components.hyperion.client.HyperionClient",
return_value=client,
):
updated_entry = entity_registry.async_update_entity(
TEST_PRIORITY_LIGHT_ENTITY_ID_1, disabled_by=None)
assert not updated_entry.disabled
await opp.async_block_till_done()
async_fire_time_changed( # type: ignore[no-untyped-call]
opp,
dt.utcnow() + timedelta(seconds=RELOAD_AFTER_UPDATE_DELAY + 1),
)
await opp.async_block_till_done()
entity_state = opp.states.get(TEST_PRIORITY_LIGHT_ENTITY_ID_1)
assert entity_state
async def test_entity_registry(opp):
"""Tests that the devices are registered in the entity registry."""
await setup_platform(opp, LOCK_DOMAIN)
entity_registry = er.async_get(opp)
entry = entity_registry.async_get(DEVICE_ID)
assert entry.unique_id == "51cab3b545d2o34ed7fz02731bda5324"
async def test_simpleconnect_cover_setup(opp):
"""Test that a velux gateway can be correctly setup in HA."""
accessories = await setup_accessories_from_file(opp, "velux_gateway.json")
config_entry, pairing = await setup_test_accessories(opp, accessories)
entity_registry = er.async_get(opp)
# Check that the cover is correctly found and set up
cover_id = "cover.velux_window"
cover = entity_registry.async_get(cover_id)
assert cover.unique_id == "homekit-1111111a114a111a-8"
cover_helper = Helper(
opp,
cover_id,
pairing,
accessories[0],
config_entry,
)
cover_state = await cover_helper.poll_and_get_state()
assert cover_state.attributes["friendly_name"] == "VELUX Window"
assert cover_state.state == "closed"
assert cover_state.attributes["supported_features"] == (
SUPPORT_CLOSE | SUPPORT_SET_POSITION | SUPPORT_OPEN
)
# Check that one of the sensors is correctly found and set up
sensor_id = "sensor.velux_sensor_temperature"
sensor = entity_registry.async_get(sensor_id)
assert sensor.unique_id == "homekit-a11b111-8"
sensor_helper = Helper(
opp,
sensor_id,
pairing,
accessories[0],
config_entry,
)
sensor_state = await sensor_helper.poll_and_get_state()
assert sensor_state.attributes["friendly_name"] == "VELUX Sensor Temperature"
assert sensor_state.state == "18.9"
# The cover and sensor are different devices (accessories) attached to the same bridge
assert cover.device_id != sensor.device_id
device_registry = dr.async_get(opp)
device = device_registry.async_get(cover.device_id)
assert device.manufacturer == "VELUX"
assert device.name == "VELUX Window"
assert device.model == "VELUX Window"
assert device.sw_version == "48"
bridge = device_registry.async_get(device.via_device_id)
assert bridge.manufacturer == "VELUX"
assert bridge.name == "VELUX Gateway"
assert bridge.model == "VELUX Gateway"
assert bridge.sw_version == "70"
async def test_migration(opp):
"""Test migration from old data to new."""
mock_config = MockConfigEntry(domain="test-platform",
entry_id="test-config-id")
old_conf = {
"light.kitchen": {
"config_entry_id": "test-config-id",
"unique_id": "test-unique",
"platform": "test-platform",
"name": "Test Name",
"disabled_by": er.DISABLED_OPP,
}
}
with patch("os.path.isfile", return_value=True), patch("os.remove"), patch(
"openpeerpower.helpers.entity_registry.load_yaml",
return_value=old_conf):
await er.async_load(opp)
registry = er.async_get(opp)
assert registry.async_is_registered("light.kitchen")
entry = registry.async_get_or_create(
domain="light",
platform="test-platform",
unique_id="test-unique",
config_entry=mock_config,
)
assert entry.name == "Test Name"
assert entry.disabled_by == er.DISABLED_OPP
assert entry.config_entry_id == "test-config-id"
async def async_configure_accessories(self):
"""Configure accessories for the included states."""
dev_reg = device_registry.async_get(self.opp)
ent_reg = entity_registry.async_get(self.opp)
device_lookup = ent_reg.async_get_device_class_lookup({
(BINARY_SENSOR_DOMAIN, DEVICE_CLASS_BATTERY_CHARGING),
(BINARY_SENSOR_DOMAIN, DEVICE_CLASS_MOTION),
(BINARY_SENSOR_DOMAIN, DEVICE_CLASS_OCCUPANCY),
(SENSOR_DOMAIN, DEVICE_CLASS_BATTERY),
(SENSOR_DOMAIN, DEVICE_CLASS_HUMIDITY),
})
entity_states = []
for state in self.opp.states.async_all():
entity_id = state.entity_id
if not self._filter(entity_id):
continue
ent_reg_ent = ent_reg.async_get(entity_id)
if ent_reg_ent:
await self._async_set_device_info_attributes(
ent_reg_ent, dev_reg, entity_id)
self._async_configure_linked_sensors(ent_reg_ent,
device_lookup, state)
entity_states.append(state)
return entity_states
async def test_state(opp):
"""Test state of the entity."""
mocked_device = _create_mocked_device()
entry = MockConfigEntry(domain=songpal.DOMAIN, data=CONF_DATA)
entry.add_to_opp(opp)
with _patch_media_player_device(mocked_device):
await opp.config_entries.async_setup(entry.entry_id)
await opp.async_block_till_done()
state = opp.states.get(ENTITY_ID)
assert state.name == FRIENDLY_NAME
assert state.state == STATE_ON
attributes = state.as_dict()["attributes"]
assert attributes["volume_level"] == 0.5
assert attributes["is_volume_muted"] is False
assert attributes["source_list"] == ["title1", "title2"]
assert attributes["source"] == "title2"
assert attributes["supported_features"] == SUPPORT_SONGPAL
device_registry = dr.async_get(opp)
device = device_registry.async_get_device(identifiers={(songpal.DOMAIN,
MAC)})
assert device.connections == {(dr.CONNECTION_NETWORK_MAC, MAC)}
assert device.manufacturer == "Sony Corporation"
assert device.name == FRIENDLY_NAME
assert device.sw_version == SW_VERSION
assert device.model == MODEL
entity_registry = er.async_get(opp)
entity = entity_registry.async_get(ENTITY_ID)
assert entity.unique_id == MAC
async def test_ws_create(opp, opp_ws_client, storage_setup):
"""Test create WS."""
assert await storage_setup(items=[])
input_id = "new_input"
input_entity_id = f"{DOMAIN}.{input_id}"
ent_reg = er.async_get(opp)
state = opp.states.get(input_entity_id)
assert state is None
assert ent_reg.async_get_entity_id(DOMAIN, DOMAIN, input_id) is None
client = await opp_ws_client(opp)
await client.send_json({
"id": 6,
"type": f"{DOMAIN}/create",
"name": "New Input",
"max": 20,
"min": 0,
"initial": 10,
"step": 1,
"mode": "slider",
})
resp = await client.receive_json()
assert resp["success"]
state = opp.states.get(input_entity_id)
assert float(state.state) == 10
async def test_ws_create(opp, opp_ws_client, storage_setup):
"""Test create WS."""
assert await storage_setup(items=[])
input_id = "new_input"
input_entity_id = f"{DOMAIN}.{input_id}"
ent_reg = er.async_get(opp)
state = opp.states.get(input_entity_id)
assert state is None
assert ent_reg.async_get_entity_id(DOMAIN, DOMAIN, input_id) is None
client = await opp_ws_client(opp)
await client.send_json(
{
"id": 6,
"type": f"{DOMAIN}/create",
"name": "New Input",
"initial": "even newer option",
ATTR_MAX: 44,
}
)
resp = await client.receive_json()
assert resp["success"]
state = opp.states.get(input_entity_id)
assert state.state == "even newer option"
assert state.attributes[ATTR_FRIENDLY_NAME] == "New Input"
assert state.attributes[ATTR_EDITABLE]
assert state.attributes[ATTR_MAX] == 44
assert state.attributes[ATTR_MIN] == 0
async def test_cleanup_device_registry_removes_expired_orphaned_devices(
opp, registry):
"""Test cleanup removes expired orphaned devices."""
config_entry = MockConfigEntry(domain="hue")
config_entry.add_to_opp(opp)
registry.async_get_or_create(identifiers={("hue", "d1")},
config_entry_id=config_entry.entry_id)
registry.async_get_or_create(identifiers={("hue", "d2")},
config_entry_id=config_entry.entry_id)
registry.async_get_or_create(identifiers={("hue", "d3")},
config_entry_id=config_entry.entry_id)
registry.async_clear_config_entry(config_entry.entry_id)
assert len(registry.devices) == 0
assert len(registry.deleted_devices) == 3
ent_reg = entity_registry.async_get(opp)
device_registry.async_cleanup(opp, registry, ent_reg)
assert len(registry.devices) == 0
assert len(registry.deleted_devices) == 3
future_time = time.time(
) + device_registry.ORPHANED_DEVICE_KEEP_SECONDS + 1
with patch("time.time", return_value=future_time):
device_registry.async_cleanup(opp, registry, ent_reg)
assert len(registry.devices) == 0
assert len(registry.deleted_devices) == 0
async def test_sensors(opp: OpenPeerPower, device: DysonPureCoolLink,
sensors: list[str]) -> None:
"""Test the sensors."""
# Temperature is given by the device in kelvin
# Make sure no other sensors are set up
assert len(opp.states.async_all()) == len(sensors)
entity_registry = er.async_get(opp)
for sensor in sensors:
entity_id = _async_get_entity_id(sensor)
# Test unique id
assert entity_registry.async_get(
entity_id).unique_id == f"{SERIAL}-{sensor}"
# Test state
state = opp.states.get(entity_id)
assert state.state == str(MOCKED_VALUES[sensor])
assert state.name == f"{NAME} {SENSOR_NAMES[sensor]}"
# Test attributes
attributes = state.attributes
for attr, value in SENSOR_ATTRIBUTES[sensor].items():
assert attributes[attr] == value
# Test data update
_async_assign_values(device, MOCKED_UPDATED_VALUES)
await async_update_device(opp, device)
for sensor in sensors:
state = opp.states.get(_async_get_entity_id(sensor))
assert state.state == str(MOCKED_UPDATED_VALUES[sensor])
async def test_ws_delete(opp, opp_ws_client, storage_setup):
"""Test WS delete cleans up entity registry."""
assert await storage_setup()
input_id = "from_storage"
input_entity_id = f"{DOMAIN}.{input_id}"
ent_reg = er.async_get(opp)
state = opp.states.get(input_entity_id)
assert state is not None
assert ent_reg.async_get_entity_id(DOMAIN, DOMAIN, input_id) is not None
client = await opp_ws_client(opp)
await client.send_json({
"id": 6,
"type": f"{DOMAIN}/delete",
f"{DOMAIN}_id": f"{input_id}"
})
resp = await client.receive_json()
assert resp["success"]
state = opp.states.get(input_entity_id)
assert state is None
assert ent_reg.async_get_entity_id(DOMAIN, DOMAIN, input_id) is None
async def test_config_parameter_sensor(opp, lock_id_lock_as_id150,
integration):
"""Test config parameter sensor is created."""
ent_reg = er.async_get(opp)
entity_entry = ent_reg.async_get(ID_LOCK_CONFIG_PARAMETER_SENSOR)
assert entity_entry
assert entity_entry.disabled
async def test_enter_and_exit(opp, gpslogger_client, webhook_id):
"""Test when there is a known zone."""
url = f"/api/webhook/{webhook_id}"
data = {"latitude": HOME_LATITUDE, "longitude": HOME_LONGITUDE, "device": "123"}
# Enter the Home
req = await gpslogger_client.post(url, data=data)
await opp.async_block_till_done()
assert req.status == HTTP_OK
state_name = opp.states.get(f"{DEVICE_TRACKER_DOMAIN}.{data['device']}").state
assert state_name == STATE_HOME
# Enter Home again
req = await gpslogger_client.post(url, data=data)
await opp.async_block_till_done()
assert req.status == HTTP_OK
state_name = opp.states.get(f"{DEVICE_TRACKER_DOMAIN}.{data['device']}").state
assert state_name == STATE_HOME
data["longitude"] = 0
data["latitude"] = 0
# Enter Somewhere else
req = await gpslogger_client.post(url, data=data)
await opp.async_block_till_done()
assert req.status == HTTP_OK
state_name = opp.states.get(f"{DEVICE_TRACKER_DOMAIN}.{data['device']}").state
assert state_name == STATE_NOT_HOME
dev_reg = dr.async_get(opp)
assert len(dev_reg.devices) == 1
ent_reg = er.async_get(opp)
assert len(ent_reg.entities) == 1
async def test_koogeek_ls1_setup(opp):
"""Test that a Koogeek LS1 can be correctly setup in HA."""
accessories = await setup_accessories_from_file(opp, "koogeek_ls1.json")
config_entry, pairing = await setup_test_accessories(opp, accessories)
entity_registry = er.async_get(opp)
# Assert that the entity is correctly added to the entity registry
entry = entity_registry.async_get("light.koogeek_ls1_20833f")
assert entry.unique_id == "homekit-AAAA011111111111-7"
helper = Helper(opp, "light.koogeek_ls1_20833f", pairing, accessories[0],
config_entry)
state = await helper.poll_and_get_state()
# Assert that the friendly name is detected correctly
assert state.attributes["friendly_name"] == "Koogeek-LS1-20833F"
# Assert that all optional features the LS1 supports are detected
assert state.attributes["supported_features"] == (SUPPORT_BRIGHTNESS
| SUPPORT_COLOR)
device_registry = dr.async_get(opp)
device = device_registry.async_get(entry.device_id)
assert device.manufacturer == "Koogeek"
assert device.name == "Koogeek-LS1-20833F"
assert device.model == "LS1"
assert device.sw_version == "2.2.15"
assert device.via_device_id is None