async def test_entity_and_device_attributes(opp, device_factory):
"""Test the attributes of the entity are correct."""
# Arrange
device = device_factory(
"Fan 1",
capabilities=[Capability.switch, Capability.fan_speed],
status={
Attribute.switch: "on",
Attribute.fan_speed: 2
},
)
# Act
await setup_platform(opp, FAN_DOMAIN, devices=[device])
entity_registry = er.async_get(opp)
device_registry = dr.async_get(opp)
# Assert
entry = entity_registry.async_get("fan.fan_1")
assert entry
assert entry.unique_id == device.device_id
entry = device_registry.async_get_device({(DOMAIN, device.device_id)})
assert entry
assert entry.name == device.label
assert entry.model == device.device_type_name
assert entry.manufacturer == "Unavailable"
async def test_exception_no_triggers(opp, mock_devices, calls, caplog):
"""Test for exception on event triggers firing."""
_, zha_device = mock_devices
ieee_address = str(zha_device.ieee)
ha_device_registry = dr.async_get(opp)
reg_device = ha_device_registry.async_get_device({("zha", ieee_address)})
await async_setup_component(
opp,
automation.DOMAIN,
{
automation.DOMAIN: [{
"trigger": {
"device_id": reg_device.id,
"domain": "zha",
"platform": "device",
"type": "junk",
"subtype": "junk",
},
"action": {
"service": "test.automation",
"data": {
"message": "service called"
},
},
}]
},
)
await opp.async_block_till_done()
assert "Invalid config for [automation]" in caplog.text
async def test_services(opp):
"""Test service calls."""
client_mock = await init_integration(opp)
device_registry = dr.async_get(opp)
reg_device = device_registry.async_get_device(identifiers={
(DOMAIN, "JM000000000000000")
}, )
device_id = reg_device.id
for service in SERVICES:
service_data = {"device_id": device_id}
if service == "send_poi":
service_data["latitude"] = 1.2345
service_data["longitude"] = 2.3456
service_data["poi_name"] = "Work"
await opp.services.async_call(DOMAIN,
service,
service_data,
blocking=True)
await opp.async_block_till_done()
api_method = getattr(client_mock, service)
if service == "send_poi":
api_method.assert_called_once_with(12345, 1.2345, 2.3456, "Work")
else:
api_method.assert_called_once_with(12345)
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 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_init_gatebox(gatebox, opp, config):
"""Test cover default state."""
_, entity_id = gatebox
entry = await async_setup_entity(opp, config, entity_id)
assert entry.unique_id == "BleBox-gateBox-1afe34db9437-position"
state = opp.states.get(entity_id)
assert state.name == "gateBox-position"
assert state.attributes[ATTR_DEVICE_CLASS] == DEVICE_CLASS_DOOR
supported_features = state.attributes[ATTR_SUPPORTED_FEATURES]
assert supported_features & SUPPORT_OPEN
assert supported_features & SUPPORT_CLOSE
# Not available during init since requires fetching state to detect
assert not supported_features & SUPPORT_STOP
assert not supported_features & SUPPORT_SET_POSITION
assert ATTR_CURRENT_POSITION not in state.attributes
assert state.state == STATE_UNKNOWN
device_registry = dr.async_get(opp)
device = device_registry.async_get(entry.device_id)
assert device.name == "My gatebox"
assert device.identifiers == {("blebox", "abcd0123ef5678")}
assert device.manufacturer == "BleBox"
assert device.model == "gateBox"
assert device.sw_version == "1.23"
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 help_test_entity_device_info_update(opp, mqtt_mock, domain, config):
"""Test device registry update.
This is a test helper for the MqttDiscoveryUpdate mixin.
"""
# Add device settings to config
config = copy.deepcopy(config[domain])
config["device"] = copy.deepcopy(DEFAULT_CONFIG_DEVICE_INFO_ID)
config["unique_id"] = "veryunique"
registry = dr.async_get(opp)
data = json.dumps(config)
async_fire_mqtt_message(opp, f"openpeerpower/{domain}/bla/config", data)
await opp.async_block_till_done()
device = registry.async_get_device({("mqtt", "helloworld")})
assert device is not None
assert device.name == "Beer"
config["device"]["name"] = "Milk"
data = json.dumps(config)
async_fire_mqtt_message(opp, f"openpeerpower/{domain}/bla/config", data)
await opp.async_block_till_done()
device = registry.async_get_device({("mqtt", "helloworld")})
assert device is not None
assert device.name == "Milk"
async def help_test_entity_debug_info(opp, mqtt_mock, domain, config):
"""Test debug_info.
This is a test helper for MQTT debug_info.
"""
# Add device settings to config
config = copy.deepcopy(config[domain])
config["device"] = copy.deepcopy(DEFAULT_CONFIG_DEVICE_INFO_ID)
config["unique_id"] = "veryunique"
registry = dr.async_get(opp)
data = json.dumps(config)
async_fire_mqtt_message(opp, f"openpeerpower/{domain}/bla/config", data)
await opp.async_block_till_done()
device = registry.async_get_device({("mqtt", "helloworld")})
assert device is not None
debug_info_data = await debug_info.info_for_device(opp, device.id)
assert len(debug_info_data["entities"]) == 1
assert (debug_info_data["entities"][0]["discovery_data"]["topic"] ==
f"openpeerpower/{domain}/bla/config")
assert debug_info_data["entities"][0]["discovery_data"][
"payload"] == config
assert len(debug_info_data["entities"][0]["subscriptions"]) == 1
assert {
"topic": "test-topic",
"messages": []
} in debug_info_data["entities"][0]["subscriptions"]
assert len(debug_info_data["triggers"]) == 0
async def help_test_entity_device_info_with_connection(opp, mqtt_mock, domain,
config):
"""Test device registry integration.
This is a test helper for the MqttDiscoveryUpdate mixin.
"""
# Add device settings to config
config = copy.deepcopy(config[domain])
config["device"] = copy.deepcopy(DEFAULT_CONFIG_DEVICE_INFO_MAC)
config["unique_id"] = "veryunique"
registry = dr.async_get(opp)
data = json.dumps(config)
async_fire_mqtt_message(opp, f"openpeerpower/{domain}/bla/config", data)
await opp.async_block_till_done()
device = registry.async_get_device(
set(), {(dr.CONNECTION_NETWORK_MAC, "02:5b:26:a8:dc:12")})
assert device is not None
assert device.connections == {(dr.CONNECTION_NETWORK_MAC,
"02:5b:26:a8:dc:12")}
assert device.manufacturer == "Whatever"
assert device.name == "Beer"
assert device.model == "Glass"
assert device.sw_version == "0.1-beta"
assert device.suggested_area == "default_area"
async def help_test_entity_device_info_remove(opp, mqtt_mock, domain, config):
"""Test device registry remove."""
# Add device settings to config
config = copy.deepcopy(config[domain])
config["device"] = copy.deepcopy(DEFAULT_CONFIG_DEVICE_INFO_ID)
config["unique_id"] = "veryunique"
dev_registry = dr.async_get(opp)
ent_registry = er.async_get(opp)
data = json.dumps(config)
async_fire_mqtt_message(opp, f"openpeerpower/{domain}/bla/config", data)
await opp.async_block_till_done()
device = dev_registry.async_get_device({("mqtt", "helloworld")})
assert device is not None
assert ent_registry.async_get_entity_id(domain, mqtt.DOMAIN, "veryunique")
async_fire_mqtt_message(opp, f"openpeerpower/{domain}/bla/config", "")
await opp.async_block_till_done()
device = dev_registry.async_get_device({("mqtt", "helloworld")})
assert device is None
assert not ent_registry.async_get_entity_id(domain, mqtt.DOMAIN,
"veryunique")
async def test_removed_device(opp, client, multiple_devices, integration):
"""Test that the device registry gets updated when a device gets removed."""
nodes = multiple_devices
# Verify how many nodes are available
assert len(client.driver.controller.nodes) == 2
# Make sure there are the same number of devices
dev_reg = dr.async_get(opp)
device_entries = dr.async_entries_for_config_entry(dev_reg,
integration.entry_id)
assert len(device_entries) == 2
# Check how many entities there are
ent_reg = er.async_get(opp)
entity_entries = er.async_entries_for_config_entry(ent_reg,
integration.entry_id)
assert len(entity_entries) == 24
# Remove a node and reload the entry
old_node = nodes.pop(13)
await opp.config_entries.async_reload(integration.entry_id)
await opp.async_block_till_done()
# Assert that the node and all of it's entities were removed from the device and
# entity registry
device_entries = dr.async_entries_for_config_entry(dev_reg,
integration.entry_id)
assert len(device_entries) == 1
entity_entries = er.async_entries_for_config_entry(ent_reg,
integration.entry_id)
assert len(entity_entries) == 15
assert dev_reg.async_get_device({get_device_id(client, old_node)}) is None
async def test_existing_node_not_ready(opp, client, multisensor_6):
"""Test we handle a non ready node that exists during integration setup."""
dev_reg = dr.async_get(opp)
node = multisensor_6
node.data = deepcopy(node.data) # Copy to allow modification in tests.
node.data["ready"] = False
event = {"node": node}
air_temperature_device_id = f"{client.driver.controller.home_id}-{node.node_id}"
entry = MockConfigEntry(domain="zwave_js", data={"url": "ws://test.org"})
entry.add_to_opp(opp)
await opp.config_entries.async_setup(entry.entry_id)
await opp.async_block_till_done()
state = opp.states.get(AIR_TEMPERATURE_SENSOR)
assert not state # entity not yet added
assert dev_reg.async_get_device( # device should be added
identifiers={(DOMAIN, air_temperature_device_id)})
node.data["ready"] = True
node.emit("ready", event)
await opp.async_block_till_done()
state = opp.states.get(AIR_TEMPERATURE_SENSOR)
assert state # entity and device added
assert state.state != STATE_UNAVAILABLE
assert dev_reg.async_get_device(identifiers={(DOMAIN,
air_temperature_device_id)})
async def test_on_node_added_not_ready(opp, multisensor_6_state, client,
integration):
"""Test we handle a non ready node added event."""
dev_reg = dr.async_get(opp)
node_data = deepcopy(
multisensor_6_state) # Copy to allow modification in tests.
node = Node(client, node_data)
node.data["ready"] = False
event = {"node": node}
air_temperature_device_id = f"{client.driver.controller.home_id}-{node.node_id}"
state = opp.states.get(AIR_TEMPERATURE_SENSOR)
assert not state # entity and device not yet added
assert not dev_reg.async_get_device(
identifiers={(DOMAIN, air_temperature_device_id)})
client.driver.controller.emit("node added", event)
await opp.async_block_till_done()
state = opp.states.get(AIR_TEMPERATURE_SENSOR)
assert not state # entity not yet added but device added in registry
assert dev_reg.async_get_device(identifiers={(DOMAIN,
air_temperature_device_id)})
node.data["ready"] = True
node.emit("ready", event)
await opp.async_block_till_done()
state = opp.states.get(AIR_TEMPERATURE_SENSOR)
assert state # entity added
assert state.state != STATE_UNAVAILABLE
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_init(saunabox, opp, config):
"""Test default state."""
_, entity_id = saunabox
entry = await async_setup_entity(opp, config, entity_id)
assert entry.unique_id == "BleBox-saunaBox-1afe34db9437-thermostat"
state = opp.states.get(entity_id)
assert state.name == "saunaBox-thermostat"
supported_features = state.attributes[ATTR_SUPPORTED_FEATURES]
assert supported_features & SUPPORT_TARGET_TEMPERATURE
assert state.attributes[ATTR_HVAC_MODES] == [HVAC_MODE_OFF, HVAC_MODE_HEAT]
assert ATTR_DEVICE_CLASS not in state.attributes
assert ATTR_HVAC_MODE not in state.attributes
assert ATTR_HVAC_ACTION not in state.attributes
assert state.attributes[ATTR_MIN_TEMP] == -54.3
assert state.attributes[ATTR_MAX_TEMP] == 124.3
assert state.attributes[ATTR_TEMPERATURE] is None
assert state.attributes[ATTR_CURRENT_TEMPERATURE] is None
assert state.state == STATE_UNKNOWN
device_registry = dr.async_get(opp)
device = device_registry.async_get(entry.device_id)
assert device.name == "My sauna"
assert device.identifiers == {("blebox", "abcd0123ef5678")}
assert device.manufacturer == "BleBox"
assert device.model == "saunaBox"
assert device.sw_version == "1.23"
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_init(airsensor, opp, config):
"""Test airSensor default state."""
_, entity_id = airsensor
entry = await async_setup_entity(opp, config, entity_id)
assert entry.unique_id == "BleBox-airSensor-1afe34db9437-0.air"
state = opp.states.get(entity_id)
assert state.name == "airSensor-0.air"
assert ATTR_PM_0_1 not in state.attributes
assert ATTR_PM_2_5 not in state.attributes
assert ATTR_PM_10 not in state.attributes
assert state.attributes[ATTR_ICON] == "mdi:blur"
assert state.state == STATE_UNKNOWN
device_registry = dr.async_get(opp)
device = device_registry.async_get(entry.device_id)
assert device.name == "My air sensor"
assert device.identifiers == {("blebox", "abcd0123ef5678")}
assert device.manufacturer == "BleBox"
assert device.model == "airSensor"
assert device.sw_version == "1.23"
async def test_init_gatecontroller(gatecontroller, opp, config):
"""Test gateController default state."""
_, entity_id = gatecontroller
entry = await async_setup_entity(opp, config, entity_id)
assert entry.unique_id == "BleBox-gateController-2bee34e750b8-position"
state = opp.states.get(entity_id)
assert state.name == "gateController-position"
assert state.attributes[ATTR_DEVICE_CLASS] == DEVICE_CLASS_GATE
supported_features = state.attributes[ATTR_SUPPORTED_FEATURES]
assert supported_features & SUPPORT_OPEN
assert supported_features & SUPPORT_CLOSE
assert supported_features & SUPPORT_STOP
assert supported_features & SUPPORT_SET_POSITION
assert ATTR_CURRENT_POSITION not in state.attributes
assert state.state == STATE_UNKNOWN
device_registry = dr.async_get(opp)
device = device_registry.async_get(entry.device_id)
assert device.name == "My gate controller"
assert device.identifiers == {("blebox", "abcd0123ef5678")}
assert device.manufacturer == "BleBox"
assert device.model == "gateController"
assert device.sw_version == "1.23"
async def test_entity_device_info_with_hub(opp, mqtt_mock):
"""Test MQTT sensor device registry integration."""
registry = dr.async_get(opp)
hub = registry.async_get_or_create(
config_entry_id="123",
connections=set(),
identifiers={("mqtt", "hub-id")},
manufacturer="manufacturer",
model="hub",
)
data = json.dumps({
"platform": "mqtt",
"name": "Test 1",
"state_topic": "test-topic",
"device": {
"identifiers": ["helloworld"],
"via_device": "hub-id"
},
"unique_id": "veryunique",
})
async_fire_mqtt_message(opp, "openpeerpower/sensor/bla/config", data)
await opp.async_block_till_done()
device = registry.async_get_device({("mqtt", "helloworld")})
assert device is not None
assert device.via_device_id == hub.id
async def test_device_info(opp: OpenPeerPower) -> None:
"""Verify device information includes expected details."""
client = create_mock_client()
register_test_entity(
opp,
LIGHT_DOMAIN,
TYPE_HYPERION_PRIORITY_LIGHT,
TEST_PRIORITY_LIGHT_ENTITY_ID_1,
)
await setup_test_config_entry(opp, hyperion_client=client)
device_id = get_hyperion_device_id(TEST_SYSINFO_ID, TEST_INSTANCE)
device_registry = dr.async_get(opp)
device = device_registry.async_get_device({(DOMAIN, device_id)})
assert device
assert device.config_entries == {TEST_CONFIG_ENTRY_ID}
assert device.identifiers == {(DOMAIN, device_id)}
assert device.manufacturer == HYPERION_MANUFACTURER_NAME
assert device.model == HYPERION_MODEL_NAME
assert device.name == TEST_INSTANCE_1["friendly_name"]
entity_registry = await er.async_get_registry(opp)
entities_from_device = [
entry.entity_id
for entry in er.async_entries_for_device(entity_registry, device.id)
]
assert TEST_PRIORITY_LIGHT_ENTITY_ID_1 in entities_from_device
assert TEST_ENTITY_ID_1 in entities_from_device
async def test_lennox_e30_setup(opp):
"""Test that a Lennox E30 can be correctly setup in HA."""
accessories = await setup_accessories_from_file(opp, "lennox_e30.json")
config_entry, pairing = await setup_test_accessories(opp, accessories)
entity_registry = er.async_get(opp)
climate = entity_registry.async_get("climate.lennox")
assert climate.unique_id == "homekit-XXXXXXXX-100"
climate_helper = Helper(opp, "climate.lennox", pairing, accessories[0],
config_entry)
climate_state = await climate_helper.poll_and_get_state()
assert climate_state.attributes["friendly_name"] == "Lennox"
assert climate_state.attributes["supported_features"] == (
SUPPORT_TARGET_TEMPERATURE | SUPPORT_TARGET_TEMPERATURE_RANGE)
device_registry = dr.async_get(opp)
device = device_registry.async_get(climate.device_id)
assert device.manufacturer == "Lennox"
assert device.name == "Lennox"
assert device.model == "E30 2B"
assert device.sw_version == "3.40.XX"
# The fixture contains a single accessory - so its a single device
# and no bridge
assert device.via_device_id is None
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_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
def _async_register_bridge(self):
"""Register the bridge as a device so homekit_controller and exclude it from discovery."""
dev_reg = device_registry.async_get(self.opp)
formatted_mac = device_registry.format_mac(self.driver.state.mac)
# Connections and identifiers are both used here.
#
# connections exists so homekit_controller can know the
# virtual mac address of the bridge and know to not offer
# it via discovery.
#
# identifiers is used as well since the virtual mac may change
# because it will not survive manual pairing resets (deleting state file)
# which we have trained users to do over the past few years
# because this was the way you had to fix homekit when pairing
# failed.
#
connection = (device_registry.CONNECTION_NETWORK_MAC, formatted_mac)
identifier = (DOMAIN, self._entry_id, BRIDGE_SERIAL_NUMBER)
self._async_purge_old_bridges(dev_reg, identifier, connection)
is_accessory_mode = self._homekit_mode == HOMEKIT_MODE_ACCESSORY
hk_mode_name = "Accessory" if is_accessory_mode else "Bridge"
dev_reg.async_get_or_create(
config_entry_id=self._entry_id,
identifiers={identifier},
connections={connection},
manufacturer=MANUFACTURER,
name=accessory_friendly_name(self._entry_title,
self.driver.accessory),
model=f"HomeKit {hk_mode_name}",
entry_type="service",
)
async def test_ws_api(opp, opp_ws_client):
"""Test WS API."""
assert await async_setup_component(opp, "search", {})
area_reg = ar.async_get(opp)
device_reg = dr.async_get(opp)
kitchen_area = area_reg.async_create("Kitchen")
hue_config_entry = MockConfigEntry(domain="hue")
hue_config_entry.add_to_opp(opp)
hue_device = device_reg.async_get_or_create(
config_entry_id=hue_config_entry.entry_id,
name="Light Strip",
identifiers=({"hue", "hue-1"}),
)
device_reg.async_update_device(hue_device.id, area_id=kitchen_area.id)
client = await opp_ws_client(opp)
await client.send_json({
"id": 1,
"type": "search/related",
"item_type": "device",
"item_id": hue_device.id,
})
response = await client.receive_json()
assert response["success"]
assert response["result"] == {
"config_entry": [hue_config_entry.entry_id],
"area": [kitchen_area.id],
}
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_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_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_enumerate_remote(opp, utcnow):
"""Test that remote is correctly enumerated."""
await setup_test_component(opp, create_remote)
entity_registry = er.async_get(opp)
entry = entity_registry.async_get("sensor.testdevice_battery")
device_registry = dr.async_get(opp)
device = device_registry.async_get(entry.device_id)
expected = [
{
"device_id": device.id,
"domain": "sensor",
"entity_id": "sensor.testdevice_battery",
"platform": "device",
"type": "battery_level",
}
]
for button in ("button1", "button2", "button3", "button4"):
for subtype in ("single_press", "double_press", "long_press"):
expected.append(
{
"device_id": device.id,
"domain": "homekit_controller",
"platform": "device",
"type": button,
"subtype": subtype,
}
)
triggers = await async_get_device_automations(opp, "trigger", device.id)
assert_lists_same(triggers, expected)