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core/tests/components/unifi/test_sensor.py

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"""UniFi Network sensor platform tests."""
from collections.abc import Callable
from copy import deepcopy
from datetime import datetime, timedelta
from types import MappingProxyType
from typing import Any
from unittest.mock import patch
from aiounifi.models.device import DeviceState
from aiounifi.models.message import MessageKey
from freezegun.api import FrozenDateTimeFactory, freeze_time
import pytest
from syrupy.assertion import SnapshotAssertion
from homeassistant.components.sensor import (
ATTR_STATE_CLASS,
DOMAIN as SENSOR_DOMAIN,
SCAN_INTERVAL,
SensorDeviceClass,
SensorStateClass,
)
from homeassistant.components.unifi.const import (
CONF_ALLOW_BANDWIDTH_SENSORS,
CONF_ALLOW_UPTIME_SENSORS,
CONF_DETECTION_TIME,
CONF_TRACK_CLIENTS,
CONF_TRACK_DEVICES,
DEFAULT_DETECTION_TIME,
DEVICE_STATES,
)
from homeassistant.config_entries import RELOAD_AFTER_UPDATE_DELAY, ConfigEntry
from homeassistant.const import (
ATTR_DEVICE_CLASS,
ATTR_FRIENDLY_NAME,
ATTR_UNIT_OF_MEASUREMENT,
STATE_UNAVAILABLE,
EntityCategory,
)
from homeassistant.core import HomeAssistant
from homeassistant.helpers import entity_registry as er
from homeassistant.helpers.entity_registry import RegistryEntryDisabler
import homeassistant.util.dt as dt_util
from tests.common import async_fire_time_changed
DEVICE_1 = {
"board_rev": 2,
"device_id": "mock-id",
"ip": "10.0.1.1",
"mac": "10:00:00:00:01:01",
"last_seen": 1562600145,
"model": "US16P150",
"name": "mock-name",
"port_overrides": [],
"port_table": [
{
"media": "GE",
"name": "Port 1",
"port_idx": 1,
"poe_class": "Class 4",
"poe_enable": True,
"poe_mode": "auto",
"poe_power": "2.56",
"poe_voltage": "53.40",
"portconf_id": "1a1",
"port_poe": True,
"up": True,
},
{
"media": "GE",
"name": "Port 2",
"port_idx": 2,
"poe_class": "Class 4",
"poe_enable": True,
"poe_mode": "auto",
"poe_power": "2.56",
"poe_voltage": "53.40",
"portconf_id": "1a2",
"port_poe": True,
"up": True,
},
{
"media": "GE",
"name": "Port 3",
"port_idx": 3,
"poe_class": "Unknown",
"poe_enable": False,
"poe_mode": "off",
"poe_power": "0.00",
"poe_voltage": "0.00",
"portconf_id": "1a3",
"port_poe": False,
"up": True,
},
{
"media": "GE",
"name": "Port 4",
"port_idx": 4,
"poe_class": "Unknown",
"poe_enable": False,
"poe_mode": "auto",
"poe_power": "0.00",
"poe_voltage": "0.00",
"portconf_id": "1a4",
"port_poe": True,
"up": True,
},
],
"state": 1,
"type": "usw",
"version": "4.0.42.10433",
}
WLAN = {
"_id": "012345678910111213141516",
"bc_filter_enabled": False,
"bc_filter_list": [],
"dtim_mode": "default",
"dtim_na": 1,
"dtim_ng": 1,
"enabled": True,
"group_rekey": 3600,
"mac_filter_enabled": False,
"mac_filter_list": [],
"mac_filter_policy": "allow",
"minrate_na_advertising_rates": False,
"minrate_na_beacon_rate_kbps": 6000,
"minrate_na_data_rate_kbps": 6000,
"minrate_na_enabled": False,
"minrate_na_mgmt_rate_kbps": 6000,
"minrate_ng_advertising_rates": False,
"minrate_ng_beacon_rate_kbps": 1000,
"minrate_ng_data_rate_kbps": 1000,
"minrate_ng_enabled": False,
"minrate_ng_mgmt_rate_kbps": 1000,
"name": "SSID 1",
"no2ghz_oui": False,
"schedule": [],
"security": "wpapsk",
"site_id": "5a32aa4ee4b0412345678910",
"usergroup_id": "012345678910111213141518",
"wep_idx": 1,
"wlangroup_id": "012345678910111213141519",
"wpa_enc": "ccmp",
"wpa_mode": "wpa2",
"x_iapp_key": "01234567891011121314151617181920",
"x_passphrase": "password",
}
PDU_DEVICE_1 = {
"_id": "123456654321abcdef012345",
"required_version": "5.28.0",
"port_table": [],
"license_state": "registered",
"lcm_brightness_override": False,
"type": "usw",
"board_rev": 4,
"hw_caps": 136,
"reboot_duration": 70,
"snmp_contact": "",
"config_network": {"type": "dhcp", "bonding_enabled": False},
"outlet_table": [
{
"index": 1,
"relay_state": True,
"cycle_enabled": False,
"name": "USB Outlet 1",
"outlet_caps": 1,
},
{
"index": 2,
"relay_state": True,
"cycle_enabled": False,
"name": "Outlet 2",
"outlet_caps": 3,
"outlet_voltage": "119.644",
"outlet_current": "0.935",
"outlet_power": "73.827",
"outlet_power_factor": "0.659",
},
],
"model": "USPPDUP",
"manufacturer_id": 4,
"ip": "192.168.1.76",
"fw2_caps": 0,
"jumboframe_enabled": False,
"version": "6.5.59.14777",
"unsupported_reason": 0,
"adoption_completed": True,
"outlet_enabled": True,
"stp_version": "rstp",
"name": "Dummy USP-PDU-Pro",
"fw_caps": 1732968229,
"lcm_brightness": 80,
"internet": True,
"mgmt_network_id": "123456654321abcdef012347",
"gateway_mac": "01:02:03:04:05:06",
"stp_priority": "32768",
"lcm_night_mode_begins": "22:00",
"two_phase_adopt": False,
"connected_at": 1690626493,
"inform_ip": "192.168.1.1",
"cfgversion": "ba8f30a5a17aad64",
"mac": "01:02:03:04:05:ff",
"provisioned_at": 1690989511,
"inform_url": "http://192.168.1.1:8080/inform",
"upgrade_duration": 100,
"ethernet_table": [{"num_port": 1, "name": "eth0", "mac": "01:02:03:04:05:a1"}],
"flowctrl_enabled": False,
"unsupported": False,
"ble_caps": 0,
"sys_error_caps": 0,
"dot1x_portctrl_enabled": False,
"last_uplink": {},
"disconnected_at": 1690626452,
"architecture": "mips",
"x_aes_gcm": True,
"has_fan": False,
"outlet_overrides": [
{
"cycle_enabled": False,
"name": "USB Outlet 1",
"relay_state": True,
"index": 1,
},
{"cycle_enabled": False, "name": "Outlet 2", "relay_state": True, "index": 2},
],
"model_incompatible": False,
"satisfaction": 100,
"model_in_eol": False,
"anomalies": -1,
"has_temperature": False,
"switch_caps": {},
"adopted_by_client": "web",
"snmp_location": "",
"model_in_lts": False,
"kernel_version": "4.14.115",
"serial": "abc123",
"power_source_ctrl_enabled": False,
"lcm_night_mode_ends": "08:00",
"adopted": True,
"hash_id": "abcdef123456",
"device_id": "mock-pdu",
"uplink": {},
"state": 1,
"start_disconnected_millis": 1690626383386,
"credential_caps": 0,
"default": False,
"discovered_via": "l2",
"adopt_ip": "10.0.10.4",
"adopt_url": "http://192.168.1.1:8080/inform",
"last_seen": 1691518814,
"min_inform_interval_seconds": 10,
"upgradable": False,
"adoptable_when_upgraded": False,
"rollupgrade": False,
"known_cfgversion": "abcfde03929",
"uptime": 1193042,
"_uptime": 1193042,
"locating": False,
"start_connected_millis": 1690626493324,
"prev_non_busy_state": 5,
"next_interval": 47,
"sys_stats": {},
"system-stats": {"cpu": "1.4", "mem": "28.9", "uptime": "1193042"},
"ssh_session_table": [],
"lldp_table": [],
"displayable_version": "6.5.59",
"connection_network_id": "123456654321abcdef012349",
"connection_network_name": "Default",
"startup_timestamp": 1690325774,
"is_access_point": False,
"safe_for_autoupgrade": True,
"overheating": False,
"power_source": "0",
"total_max_power": 0,
"outlet_ac_power_budget": "1875.000",
"outlet_ac_power_consumption": "201.683",
"downlink_table": [],
"uplink_depth": 1,
"downlink_lldp_macs": [],
"dhcp_server_table": [],
"connect_request_ip": "10.0.10.4",
"connect_request_port": "57951",
"ipv4_lease_expiration_timestamp_seconds": 1691576686,
"stat": {},
"tx_bytes": 1426780,
"rx_bytes": 1435064,
"bytes": 2861844,
"num_sta": 0,
"user-num_sta": 0,
"guest-num_sta": 0,
"x_has_ssh_hostkey": True,
}
PDU_OUTLETS_UPDATE_DATA = [
{
"index": 1,
"relay_state": True,
"cycle_enabled": False,
"name": "USB Outlet 1",
"outlet_caps": 1,
},
{
"index": 2,
"relay_state": True,
"cycle_enabled": False,
"name": "Outlet 2",
"outlet_caps": 3,
"outlet_voltage": "119.644",
"outlet_current": "0.935",
"outlet_power": "123.45",
"outlet_power_factor": "0.659",
},
]
@pytest.mark.parametrize(
"config_entry_options",
[{CONF_ALLOW_BANDWIDTH_SENSORS: True, CONF_ALLOW_UPTIME_SENSORS: True}],
)
@pytest.mark.usefixtures("config_entry_setup")
async def test_no_clients(hass: HomeAssistant) -> None:
"""Test the update_clients function when no clients are found."""
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 0
@pytest.mark.parametrize(
"config_entry_options",
[
{
CONF_ALLOW_BANDWIDTH_SENSORS: True,
CONF_ALLOW_UPTIME_SENSORS: False,
CONF_TRACK_CLIENTS: False,
CONF_TRACK_DEVICES: False,
}
],
)
@pytest.mark.parametrize(
"client_payload",
[
[
{
"hostname": "Wired client",
"is_wired": True,
"mac": "00:00:00:00:00:01",
"oui": "Producer",
"wired-rx_bytes-r": 1234000000,
"wired-tx_bytes-r": 5678000000,
},
{
"is_wired": False,
"mac": "00:00:00:00:00:02",
"name": "Wireless client",
"oui": "Producer",
"rx_bytes-r": 2345000000.0,
"tx_bytes-r": 6789000000.0,
},
]
],
)
async def test_bandwidth_sensors(
hass: HomeAssistant,
mock_websocket_message,
config_entry_options: MappingProxyType[str, Any],
config_entry_setup: ConfigEntry,
client_payload: list[dict[str, Any]],
) -> None:
"""Verify that bandwidth sensors are working as expected."""
assert len(hass.states.async_all()) == 5
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 4
# Verify sensor attributes and state
wrx_sensor = hass.states.get("sensor.wired_client_rx")
assert wrx_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.DATA_RATE
assert wrx_sensor.attributes.get(ATTR_STATE_CLASS) == SensorStateClass.MEASUREMENT
assert wrx_sensor.state == "1234.0"
wtx_sensor = hass.states.get("sensor.wired_client_tx")
assert wtx_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.DATA_RATE
assert wtx_sensor.attributes.get(ATTR_STATE_CLASS) == SensorStateClass.MEASUREMENT
assert wtx_sensor.state == "5678.0"
wlrx_sensor = hass.states.get("sensor.wireless_client_rx")
assert wlrx_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.DATA_RATE
assert wlrx_sensor.attributes.get(ATTR_STATE_CLASS) == SensorStateClass.MEASUREMENT
assert wlrx_sensor.state == "2345.0"
wltx_sensor = hass.states.get("sensor.wireless_client_tx")
assert wltx_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.DATA_RATE
assert wltx_sensor.attributes.get(ATTR_STATE_CLASS) == SensorStateClass.MEASUREMENT
assert wltx_sensor.state == "6789.0"
# Verify state update
wireless_client = client_payload[1]
wireless_client["rx_bytes-r"] = 3456000000
wireless_client["tx_bytes-r"] = 7891000000
mock_websocket_message(message=MessageKey.CLIENT, data=wireless_client)
await hass.async_block_till_done()
assert hass.states.get("sensor.wireless_client_rx").state == "3456.0"
assert hass.states.get("sensor.wireless_client_tx").state == "7891.0"
# Verify reset sensor after heartbeat expires
new_time = dt_util.utcnow()
wireless_client["last_seen"] = dt_util.as_timestamp(new_time)
mock_websocket_message(message=MessageKey.CLIENT, data=wireless_client)
await hass.async_block_till_done()
with freeze_time(new_time):
async_fire_time_changed(hass, new_time)
await hass.async_block_till_done()
assert hass.states.get("sensor.wireless_client_rx").state == "3456.0"
assert hass.states.get("sensor.wireless_client_tx").state == "7891.0"
new_time += timedelta(
seconds=(
config_entry_setup.options.get(CONF_DETECTION_TIME, DEFAULT_DETECTION_TIME)
+ 1
)
)
with freeze_time(new_time):
async_fire_time_changed(hass, new_time)
await hass.async_block_till_done()
assert hass.states.get("sensor.wireless_client_rx").state == STATE_UNAVAILABLE
assert hass.states.get("sensor.wireless_client_tx").state == STATE_UNAVAILABLE
# Disable option
options = deepcopy(config_entry_options)
options[CONF_ALLOW_BANDWIDTH_SENSORS] = False
hass.config_entries.async_update_entry(config_entry_setup, options=options)
await hass.async_block_till_done()
assert len(hass.states.async_all()) == 1
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 0
assert hass.states.get("sensor.wireless_client_rx") is None
assert hass.states.get("sensor.wireless_client_tx") is None
assert hass.states.get("sensor.wired_client_rx") is None
assert hass.states.get("sensor.wired_client_tx") is None
# Enable option
options = deepcopy(config_entry_options)
options[CONF_ALLOW_BANDWIDTH_SENSORS] = True
hass.config_entries.async_update_entry(config_entry_setup, options=options)
await hass.async_block_till_done()
assert len(hass.states.async_all()) == 5
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 4
assert hass.states.get("sensor.wireless_client_rx")
assert hass.states.get("sensor.wireless_client_tx")
assert hass.states.get("sensor.wired_client_rx")
assert hass.states.get("sensor.wired_client_tx")
@pytest.mark.parametrize(
"config_entry_options",
[{CONF_ALLOW_BANDWIDTH_SENSORS: True, CONF_ALLOW_UPTIME_SENSORS: True}],
)
@pytest.mark.parametrize(
"client_payload",
[
[
{
"hostname": "Wired client",
"is_wired": True,
"mac": "00:00:00:00:00:01",
"oui": "Producer",
"wired-rx_bytes": 1234000000,
"wired-tx_bytes": 5678000000,
"uptime": 1600094505,
},
{
"is_wired": False,
"mac": "00:00:00:00:00:02",
"name": "Wireless client",
"oui": "Producer",
"rx_bytes": 2345000000,
"tx_bytes": 6789000000,
"uptime": 60,
},
]
],
)
@pytest.mark.usefixtures("config_entry_setup")
@pytest.mark.usefixtures("entity_registry_enabled_by_default")
async def test_remove_sensors(
hass: HomeAssistant, mock_websocket_message, client_payload: list[dict[str, Any]]
) -> None:
"""Verify removing of clients work as expected."""
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 6
assert hass.states.get("sensor.wired_client_rx")
assert hass.states.get("sensor.wired_client_tx")
assert hass.states.get("sensor.wired_client_uptime")
assert hass.states.get("sensor.wireless_client_rx")
assert hass.states.get("sensor.wireless_client_tx")
assert hass.states.get("sensor.wireless_client_uptime")
# Remove wired client
mock_websocket_message(message=MessageKey.CLIENT_REMOVED, data=client_payload[0])
await hass.async_block_till_done()
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 3
assert hass.states.get("sensor.wired_client_rx") is None
assert hass.states.get("sensor.wired_client_tx") is None
assert hass.states.get("sensor.wired_client_uptime") is None
assert hass.states.get("sensor.wireless_client_rx")
assert hass.states.get("sensor.wireless_client_tx")
assert hass.states.get("sensor.wireless_client_uptime")
@pytest.mark.parametrize("device_payload", [[DEVICE_1]])
@pytest.mark.usefixtures("config_entry_setup")
async def test_poe_port_switches(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
mock_websocket_message,
mock_websocket_state,
) -> None:
"""Test the update_items function with some clients."""
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 2
ent_reg_entry = entity_registry.async_get("sensor.mock_name_port_1_poe_power")
assert ent_reg_entry.disabled_by == RegistryEntryDisabler.INTEGRATION
assert ent_reg_entry.entity_category is EntityCategory.DIAGNOSTIC
# Enable entity
entity_registry.async_update_entity(
entity_id="sensor.mock_name_port_1_poe_power", disabled_by=None
)
await hass.async_block_till_done()
async_fire_time_changed(
hass,
dt_util.utcnow() + timedelta(seconds=RELOAD_AFTER_UPDATE_DELAY + 1),
)
await hass.async_block_till_done()
# Validate state object
poe_sensor = hass.states.get("sensor.mock_name_port_1_poe_power")
assert poe_sensor.state == "2.56"
assert poe_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.POWER
# Update state object
device_1 = deepcopy(DEVICE_1)
device_1["port_table"][0]["poe_power"] = "5.12"
mock_websocket_message(message=MessageKey.DEVICE, data=device_1)
await hass.async_block_till_done()
assert hass.states.get("sensor.mock_name_port_1_poe_power").state == "5.12"
# PoE is disabled
device_1 = deepcopy(DEVICE_1)
device_1["port_table"][0]["poe_mode"] = "off"
mock_websocket_message(message=MessageKey.DEVICE, data=device_1)
await hass.async_block_till_done()
assert hass.states.get("sensor.mock_name_port_1_poe_power").state == "0"
# Availability signalling
# Controller disconnects
await mock_websocket_state.disconnect()
assert (
hass.states.get("sensor.mock_name_port_1_poe_power").state == STATE_UNAVAILABLE
)
# Controller reconnects
await mock_websocket_state.reconnect()
assert (
hass.states.get("sensor.mock_name_port_1_poe_power").state != STATE_UNAVAILABLE
)
# Device gets disabled
device_1["disabled"] = True
mock_websocket_message(message=MessageKey.DEVICE, data=device_1)
await hass.async_block_till_done()
assert (
hass.states.get("sensor.mock_name_port_1_poe_power").state == STATE_UNAVAILABLE
)
# Device gets re-enabled
device_1["disabled"] = False
mock_websocket_message(message=MessageKey.DEVICE, data=device_1)
await hass.async_block_till_done()
assert hass.states.get("sensor.mock_name_port_1_poe_power")
@pytest.mark.parametrize("wlan_payload", [[WLAN]])
async def test_wlan_client_sensors(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
mock_websocket_message,
mock_websocket_state,
config_entry_factory: Callable[[], ConfigEntry],
client_payload: list[dict[str, Any]],
) -> None:
"""Verify that WLAN client sensors are working as expected."""
client_payload += [
{
"essid": "SSID 1",
"is_wired": False,
"last_seen": dt_util.as_timestamp(dt_util.utcnow()),
"mac": "00:00:00:00:00:01",
"name": "Wireless client",
"oui": "Producer",
"rx_bytes-r": 2345000000,
"tx_bytes-r": 6789000000,
},
{
"essid": "SSID 2",
"is_wired": False,
"last_seen": dt_util.as_timestamp(dt_util.utcnow()),
"mac": "00:00:00:00:00:02",
"name": "Wireless client2",
"oui": "Producer2",
"rx_bytes-r": 2345000000,
"tx_bytes-r": 6789000000,
},
]
await config_entry_factory()
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 1
ent_reg_entry = entity_registry.async_get("sensor.ssid_1")
assert ent_reg_entry.unique_id == "wlan_clients-012345678910111213141516"
assert ent_reg_entry.entity_category is EntityCategory.DIAGNOSTIC
# Validate state object
ssid_1 = hass.states.get("sensor.ssid_1")
assert ssid_1 is not None
assert ssid_1.state == "1"
# Verify state update - increasing number
wireless_client_1 = client_payload[0]
wireless_client_1["essid"] = "SSID 1"
mock_websocket_message(message=MessageKey.CLIENT, data=wireless_client_1)
wireless_client_2 = client_payload[1]
wireless_client_2["essid"] = "SSID 1"
mock_websocket_message(message=MessageKey.CLIENT, data=wireless_client_2)
await hass.async_block_till_done()
ssid_1 = hass.states.get("sensor.ssid_1")
assert ssid_1.state == "1"
async_fire_time_changed(hass, dt_util.utcnow() + SCAN_INTERVAL)
await hass.async_block_till_done()
ssid_1 = hass.states.get("sensor.ssid_1")
assert ssid_1.state == "2"
# Verify state update - decreasing number
wireless_client_1["essid"] = "SSID"
mock_websocket_message(message=MessageKey.CLIENT, data=wireless_client_1)
async_fire_time_changed(hass, dt_util.utcnow() + SCAN_INTERVAL)
await hass.async_block_till_done()
ssid_1 = hass.states.get("sensor.ssid_1")
assert ssid_1.state == "1"
# Verify state update - decreasing number
wireless_client_2["last_seen"] = 0
mock_websocket_message(message=MessageKey.CLIENT, data=wireless_client_2)
async_fire_time_changed(hass, dt_util.utcnow() + SCAN_INTERVAL)
await hass.async_block_till_done()
ssid_1 = hass.states.get("sensor.ssid_1")
assert ssid_1.state == "0"
# Availability signalling
# Controller disconnects
await mock_websocket_state.disconnect()
assert hass.states.get("sensor.ssid_1").state == STATE_UNAVAILABLE
# Controller reconnects
await mock_websocket_state.reconnect()
assert hass.states.get("sensor.ssid_1").state == "0"
# WLAN gets disabled
wlan_1 = deepcopy(WLAN)
wlan_1["enabled"] = False
mock_websocket_message(message=MessageKey.WLAN_CONF_UPDATED, data=wlan_1)
await hass.async_block_till_done()
assert hass.states.get("sensor.ssid_1").state == STATE_UNAVAILABLE
# WLAN gets re-enabled
wlan_1["enabled"] = True
mock_websocket_message(message=MessageKey.WLAN_CONF_UPDATED, data=wlan_1)
await hass.async_block_till_done()
assert hass.states.get("sensor.ssid_1").state == "0"
@pytest.mark.parametrize(
(
"entity_id",
"expected_unique_id",
"expected_value",
"changed_data",
"expected_update_value",
),
[
(
"dummy_usp_pdu_pro_outlet_2_outlet_power",
"outlet_power-01:02:03:04:05:ff_2",
"73.827",
{"outlet_table": PDU_OUTLETS_UPDATE_DATA},
"123.45",
),
(
"dummy_usp_pdu_pro_ac_power_budget",
"ac_power_budget-01:02:03:04:05:ff",
"1875.000",
None,
None,
),
(
"dummy_usp_pdu_pro_ac_power_consumption",
"ac_power_conumption-01:02:03:04:05:ff",
"201.683",
{"outlet_ac_power_consumption": "456.78"},
"456.78",
),
],
)
@pytest.mark.parametrize("device_payload", [[PDU_DEVICE_1]])
@pytest.mark.usefixtures("config_entry_setup")
async def test_outlet_power_readings(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
mock_websocket_message,
device_payload: list[dict[str, Any]],
entity_id: str,
expected_unique_id: str,
expected_value: Any,
changed_data: dict | None,
expected_update_value: Any,
) -> None:
"""Test the outlet power reporting on PDU devices."""
assert len(hass.states.async_all()) == 13
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 7
ent_reg_entry = entity_registry.async_get(f"sensor.{entity_id}")
assert ent_reg_entry.unique_id == expected_unique_id
assert ent_reg_entry.entity_category is EntityCategory.DIAGNOSTIC
sensor_data = hass.states.get(f"sensor.{entity_id}")
assert sensor_data.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.POWER
assert sensor_data.state == expected_value
if changed_data is not None:
updated_device_data = deepcopy(device_payload[0])
updated_device_data.update(changed_data)
mock_websocket_message(message=MessageKey.DEVICE, data=updated_device_data)
await hass.async_block_till_done()
sensor_data = hass.states.get(f"sensor.{entity_id}")
assert sensor_data.state == expected_update_value
@pytest.mark.parametrize(
"device_payload",
[
[
{
"board_rev": 3,
"device_id": "mock-id",
"general_temperature": 30,
"has_fan": True,
"has_temperature": True,
"fan_level": 0,
"ip": "10.0.1.1",
"last_seen": 1562600145,
"mac": "00:00:00:00:01:01",
"model": "US16P150",
"name": "Device",
"next_interval": 20,
"overheating": True,
"state": 1,
"type": "usw",
"upgradable": True,
"uptime": 60,
"version": "4.0.42.10433",
}
]
],
)
@pytest.mark.usefixtures("config_entry_setup")
async def test_device_temperature(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
mock_websocket_message,
device_payload: list[dict[str, Any]],
) -> None:
"""Verify that temperature sensors are working as expected."""
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 3
assert hass.states.get("sensor.device_temperature").state == "30"
assert (
entity_registry.async_get("sensor.device_temperature").entity_category
is EntityCategory.DIAGNOSTIC
)
# Verify new event change temperature
device = device_payload[0]
device["general_temperature"] = 60
mock_websocket_message(message=MessageKey.DEVICE, data=device)
assert hass.states.get("sensor.device_temperature").state == "60"
@pytest.mark.parametrize(
"device_payload",
[
[
{
"board_rev": 3,
"device_id": "mock-id",
"general_temperature": 30,
"has_fan": True,
"has_temperature": True,
"fan_level": 0,
"ip": "10.0.1.1",
"last_seen": 1562600145,
"mac": "00:00:00:00:01:01",
"model": "US16P150",
"name": "Device",
"next_interval": 20,
"overheating": True,
"state": 1,
"type": "usw",
"upgradable": True,
"uptime": 60,
"version": "4.0.42.10433",
}
]
],
)
@pytest.mark.usefixtures("config_entry_setup")
async def test_device_state(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
mock_websocket_message,
device_payload: list[dict[str, Any]],
) -> None:
"""Verify that state sensors are working as expected."""
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 3
assert (
entity_registry.async_get("sensor.device_state").entity_category
is EntityCategory.DIAGNOSTIC
)
device = device_payload[0]
for i in list(map(int, DeviceState)):
device["state"] = i
mock_websocket_message(message=MessageKey.DEVICE, data=device)
assert hass.states.get("sensor.device_state").state == DEVICE_STATES[i]
@pytest.mark.parametrize(
"device_payload",
[
[
{
"device_id": "mock-id",
"mac": "00:00:00:00:01:01",
"model": "US16P150",
"name": "Device",
"state": 1,
"version": "4.0.42.10433",
"system-stats": {"cpu": 5.8, "mem": 31.1, "uptime": 7316},
}
]
],
)
@pytest.mark.usefixtures("config_entry_setup")
async def test_device_system_stats(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
mock_websocket_message,
device_payload: list[dict[str, Any]],
) -> None:
"""Verify that device stats sensors are working as expected."""
assert len(hass.states.async_all()) == 8
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 4
assert hass.states.get("sensor.device_cpu_utilization").state == "5.8"
assert hass.states.get("sensor.device_memory_utilization").state == "31.1"
assert (
entity_registry.async_get("sensor.device_cpu_utilization").entity_category
is EntityCategory.DIAGNOSTIC
)
assert (
entity_registry.async_get("sensor.device_memory_utilization").entity_category
is EntityCategory.DIAGNOSTIC
)
# Verify new event change system-stats
device = device_payload[0]
device["system-stats"] = {"cpu": 7.7, "mem": 33.3, "uptime": 7316}
mock_websocket_message(message=MessageKey.DEVICE, data=device)
assert hass.states.get("sensor.device_cpu_utilization").state == "7.7"
assert hass.states.get("sensor.device_memory_utilization").state == "33.3"
@pytest.mark.parametrize(
"config_entry_options",
[
{
CONF_ALLOW_BANDWIDTH_SENSORS: True,
CONF_ALLOW_UPTIME_SENSORS: False,
CONF_TRACK_CLIENTS: False,
CONF_TRACK_DEVICES: False,
}
],
)
@pytest.mark.parametrize(
"device_payload",
[
[
{
"board_rev": 2,
"device_id": "mock-id",
"ip": "10.0.1.1",
"mac": "10:00:00:00:01:01",
"last_seen": 1562600145,
"model": "US16P150",
"name": "mock-name",
"port_overrides": [],
"port_table": [
{
"media": "GE",
"name": "Port 1",
"port_idx": 1,
"poe_class": "Class 4",
"poe_enable": False,
"poe_mode": "auto",
"poe_power": "2.56",
"poe_voltage": "53.40",
"portconf_id": "1a1",
"port_poe": False,
"up": True,
"rx_bytes-r": 1151,
"tx_bytes-r": 5111,
},
{
"media": "GE",
"name": "Port 2",
"port_idx": 2,
"poe_class": "Class 4",
"poe_enable": False,
"poe_mode": "auto",
"poe_power": "2.56",
"poe_voltage": "53.40",
"portconf_id": "1a2",
"port_poe": False,
"up": True,
"rx_bytes-r": 1536,
"tx_bytes-r": 3615,
},
],
"state": 1,
"type": "usw",
"version": "4.0.42.10433",
}
]
],
)
async def test_bandwidth_port_sensors(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
mock_websocket_message,
config_entry_setup: ConfigEntry,
config_entry_options: MappingProxyType[str, Any],
device_payload: list[dict[str, Any]],
) -> None:
"""Verify that port bandwidth sensors are working as expected."""
assert len(hass.states.async_all()) == 5
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 2
p1rx_reg_entry = entity_registry.async_get("sensor.mock_name_port_1_rx")
assert p1rx_reg_entry.disabled_by == RegistryEntryDisabler.INTEGRATION
assert p1rx_reg_entry.entity_category is EntityCategory.DIAGNOSTIC
p1tx_reg_entry = entity_registry.async_get("sensor.mock_name_port_1_tx")
assert p1tx_reg_entry.disabled_by == RegistryEntryDisabler.INTEGRATION
assert p1tx_reg_entry.entity_category is EntityCategory.DIAGNOSTIC
# Enable entity
entity_registry.async_update_entity(
entity_id="sensor.mock_name_port_1_rx", disabled_by=None
)
entity_registry.async_update_entity(
entity_id="sensor.mock_name_port_1_tx", disabled_by=None
)
entity_registry.async_update_entity(
entity_id="sensor.mock_name_port_2_rx", disabled_by=None
)
entity_registry.async_update_entity(
entity_id="sensor.mock_name_port_2_tx", disabled_by=None
)
await hass.async_block_till_done()
async_fire_time_changed(
hass,
dt_util.utcnow() + timedelta(seconds=RELOAD_AFTER_UPDATE_DELAY + 1),
)
await hass.async_block_till_done()
# Validate state object
assert len(hass.states.async_all()) == 9
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 6
# Verify sensor attributes and state
p1rx_sensor = hass.states.get("sensor.mock_name_port_1_rx")
assert p1rx_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.DATA_RATE
assert p1rx_sensor.attributes.get(ATTR_STATE_CLASS) == SensorStateClass.MEASUREMENT
assert p1rx_sensor.state == "0.00921"
p1tx_sensor = hass.states.get("sensor.mock_name_port_1_tx")
assert p1tx_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.DATA_RATE
assert p1tx_sensor.attributes.get(ATTR_STATE_CLASS) == SensorStateClass.MEASUREMENT
assert p1tx_sensor.state == "0.04089"
p2rx_sensor = hass.states.get("sensor.mock_name_port_2_rx")
assert p2rx_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.DATA_RATE
assert p2rx_sensor.attributes.get(ATTR_STATE_CLASS) == SensorStateClass.MEASUREMENT
assert p2rx_sensor.state == "0.01229"
p2tx_sensor = hass.states.get("sensor.mock_name_port_2_tx")
assert p2tx_sensor.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.DATA_RATE
assert p2tx_sensor.attributes.get(ATTR_STATE_CLASS) == SensorStateClass.MEASUREMENT
assert p2tx_sensor.state == "0.02892"
# Verify state update
device_1 = device_payload[0]
device_1["port_table"][0]["rx_bytes-r"] = 3456000000
device_1["port_table"][0]["tx_bytes-r"] = 7891000000
mock_websocket_message(message=MessageKey.DEVICE, data=device_1)
await hass.async_block_till_done()
assert hass.states.get("sensor.mock_name_port_1_rx").state == "27648.00000"
assert hass.states.get("sensor.mock_name_port_1_tx").state == "63128.00000"
# Disable option
options = config_entry_options.copy()
options[CONF_ALLOW_BANDWIDTH_SENSORS] = False
hass.config_entries.async_update_entry(config_entry_setup, options=options)
await hass.async_block_till_done()
assert len(hass.states.async_all()) == 5
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 2
assert hass.states.get("sensor.mock_name_uptime")
assert hass.states.get("sensor.mock_name_state")
assert hass.states.get("sensor.mock_name_port_1_rx") is None
assert hass.states.get("sensor.mock_name_port_1_tx") is None
assert hass.states.get("sensor.mock_name_port_2_rx") is None
assert hass.states.get("sensor.mock_name_port_2_tx") is None
@pytest.mark.parametrize(
"device_payload",
[
[
{
"device_id": "mock-id1",
"mac": "01:00:00:00:00:00",
"model": "US16P150",
"name": "Wired Device",
"state": 1,
"version": "4.0.42.10433",
},
{
"device_id": "mock-id2",
"mac": "02:00:00:00:00:00",
"model": "US16P150",
"name": "Wireless Device",
"state": 1,
"version": "4.0.42.10433",
},
]
],
)
async def test_device_client_sensors(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
config_entry_factory,
mock_websocket_message,
client_payload,
) -> None:
"""Verify that WLAN client sensors are working as expected."""
client_payload += [
{
"hostname": "Wired client 1",
"is_wired": True,
"mac": "00:00:00:00:00:01",
"oui": "Producer",
"sw_mac": "01:00:00:00:00:00",
"last_seen": dt_util.as_timestamp(dt_util.utcnow()),
},
{
"hostname": "Wired client 2",
"is_wired": True,
"mac": "00:00:00:00:00:02",
"oui": "Producer",
"sw_mac": "01:00:00:00:00:00",
"last_seen": dt_util.as_timestamp(dt_util.utcnow()),
},
{
"is_wired": False,
"mac": "00:00:00:00:00:03",
"name": "Wireless client 1",
"oui": "Producer",
"ap_mac": "02:00:00:00:00:00",
"sw_mac": "01:00:00:00:00:00",
"last_seen": dt_util.as_timestamp(dt_util.utcnow()),
},
]
await config_entry_factory()
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 4
ent_reg_entry = entity_registry.async_get("sensor.wired_device_clients")
assert ent_reg_entry.disabled_by == RegistryEntryDisabler.INTEGRATION
assert ent_reg_entry.entity_category is EntityCategory.DIAGNOSTIC
assert ent_reg_entry.unique_id == "device_clients-01:00:00:00:00:00"
ent_reg_entry = entity_registry.async_get("sensor.wireless_device_clients")
assert ent_reg_entry.disabled_by == RegistryEntryDisabler.INTEGRATION
assert ent_reg_entry.entity_category is EntityCategory.DIAGNOSTIC
assert ent_reg_entry.unique_id == "device_clients-02:00:00:00:00:00"
# Enable entity
entity_registry.async_update_entity(
entity_id="sensor.wired_device_clients", disabled_by=None
)
entity_registry.async_update_entity(
entity_id="sensor.wireless_device_clients", disabled_by=None
)
await hass.async_block_till_done()
async_fire_time_changed(
hass,
dt_util.utcnow() + timedelta(seconds=RELOAD_AFTER_UPDATE_DELAY + 1),
)
await hass.async_block_till_done()
# Validate state object
assert len(hass.states.async_all()) == 13
assert len(hass.states.async_entity_ids(SENSOR_DOMAIN)) == 6
assert hass.states.get("sensor.wired_device_clients").state == "2"
assert hass.states.get("sensor.wireless_device_clients").state == "1"
# Verify state update - decreasing number
wireless_client_1 = client_payload[2]
wireless_client_1["last_seen"] = 0
mock_websocket_message(message=MessageKey.CLIENT, data=wireless_client_1)
async_fire_time_changed(hass, dt_util.utcnow() + SCAN_INTERVAL)
await hass.async_block_till_done()
assert hass.states.get("sensor.wired_device_clients").state == "2"
assert hass.states.get("sensor.wireless_device_clients").state == "0"
WIRED_CLIENT = {
"hostname": "Wired client",
"is_wired": True,
"mac": "00:00:00:00:00:01",
"oui": "Producer",
"wired-rx_bytes-r": 1234000000,
"wired-tx_bytes-r": 5678000000,
"uptime": 1600094505,
}
WIRELESS_CLIENT = {
"is_wired": False,
"mac": "00:00:00:00:00:01",
"name": "Wireless client",
"oui": "Producer",
"rx_bytes-r": 2345000000.0,
"tx_bytes-r": 6789000000.0,
"uptime": 60,
}
@pytest.mark.parametrize(
"config_entry_options",
[
{
CONF_ALLOW_BANDWIDTH_SENSORS: True,
CONF_ALLOW_UPTIME_SENSORS: True,
CONF_TRACK_CLIENTS: False,
CONF_TRACK_DEVICES: False,
}
],
)
@pytest.mark.parametrize(
("client_payload", "entity_id", "unique_id_prefix"),
[
([WIRED_CLIENT], "sensor.wired_client_rx", "rx-"),
([WIRED_CLIENT], "sensor.wired_client_tx", "tx-"),
([WIRED_CLIENT], "sensor.wired_client_uptime", "uptime-"),
([WIRELESS_CLIENT], "sensor.wireless_client_rx", "rx-"),
([WIRELESS_CLIENT], "sensor.wireless_client_tx", "tx-"),
([WIRELESS_CLIENT], "sensor.wireless_client_uptime", "uptime-"),
],
)
@pytest.mark.usefixtures("config_entry_setup")
@pytest.mark.usefixtures("entity_registry_enabled_by_default")
@pytest.mark.freeze_time("2021-01-01 01:01:00")
async def test_sensor_sources(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
snapshot: SnapshotAssertion,
entity_id: str,
unique_id_prefix: str,
) -> None:
"""Test sensor sources and the entity description."""
ent_reg_entry = entity_registry.async_get(entity_id)
assert ent_reg_entry.unique_id.startswith(unique_id_prefix)
assert ent_reg_entry.unique_id == snapshot
assert ent_reg_entry.entity_category == snapshot
state = hass.states.get(entity_id)
assert state.attributes.get(ATTR_DEVICE_CLASS) == snapshot
assert state.attributes.get(ATTR_FRIENDLY_NAME) == snapshot
assert state.attributes.get(ATTR_STATE_CLASS) == snapshot
assert state.attributes.get(ATTR_UNIT_OF_MEASUREMENT) == snapshot
assert state.state == snapshot
async def _test_uptime_entity(
hass: HomeAssistant,
freezer: FrozenDateTimeFactory,
mock_websocket_message,
config_entry_factory: Callable[[], ConfigEntry],
payload: dict[str, Any],
entity_id: str,
message_key: MessageKey,
initial_uptime: int,
event_uptime: int,
small_variation_uptime: int,
new_uptime: int,
) -> None:
"""Verify that uptime entities are working as expected."""
payload["uptime"] = initial_uptime
freezer.move_to(datetime(2021, 1, 1, 1, 1, 0, tzinfo=dt_util.UTC))
config_entry = await config_entry_factory()
assert hass.states.get(entity_id).state == "2021-01-01T01:00:00+00:00"
# Verify normal new event doesn't change uptime
# 4 minutes have passed
payload["uptime"] = event_uptime
now = datetime(2021, 1, 1, 1, 4, 0, tzinfo=dt_util.UTC)
with patch("homeassistant.util.dt.now", return_value=now):
mock_websocket_message(message=message_key, data=payload)
await hass.async_block_till_done()
assert hass.states.get(entity_id).state == "2021-01-01T01:00:00+00:00"
# Verify small variation of uptime (<120 seconds) is ignored
# 15 seconds variation after 8 minutes
payload["uptime"] = small_variation_uptime
now = datetime(2021, 1, 1, 1, 8, 15, tzinfo=dt_util.UTC)
with patch("homeassistant.util.dt.now", return_value=now):
mock_websocket_message(message=message_key, data=payload)
assert hass.states.get(entity_id).state == "2021-01-01T01:00:00+00:00"
# Verify new event change uptime
# 1 month has passed
payload["uptime"] = new_uptime
now = datetime(2021, 2, 1, 1, 1, 0, tzinfo=dt_util.UTC)
with patch("homeassistant.util.dt.now", return_value=now):
mock_websocket_message(message=message_key, data=payload)
await hass.async_block_till_done()
assert hass.states.get(entity_id).state == "2021-02-01T01:00:00+00:00"
return config_entry
@pytest.mark.parametrize("config_entry_options", [{CONF_ALLOW_UPTIME_SENSORS: True}])
@pytest.mark.parametrize(
"client_payload",
[
[
{
"mac": "00:00:00:00:00:01",
"name": "client1",
"oui": "Producer",
"uptime": 0,
}
]
],
)
@pytest.mark.parametrize(
("initial_uptime", "event_uptime", "small_variation_uptime", "new_uptime"),
[
# Uptime listed in epoch time should never change
(1609462800, 1609462800, 1609462800, 1612141200),
# Uptime counted in seconds increases with every event
(60, 240, 480, 60),
],
)
@pytest.mark.usefixtures("entity_registry_enabled_by_default")
async def test_client_uptime(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
freezer: FrozenDateTimeFactory,
mock_websocket_message,
config_entry_options: MappingProxyType[str, Any],
config_entry_factory: Callable[[], ConfigEntry],
client_payload: list[dict[str, Any]],
initial_uptime,
event_uptime,
small_variation_uptime,
new_uptime,
) -> None:
"""Verify that client uptime sensors are working as expected."""
config_entry = await _test_uptime_entity(
hass,
freezer,
mock_websocket_message,
config_entry_factory,
payload=client_payload[0],
entity_id="sensor.client1_uptime",
message_key=MessageKey.CLIENT,
initial_uptime=initial_uptime,
event_uptime=event_uptime,
small_variation_uptime=small_variation_uptime,
new_uptime=new_uptime,
)
assert (
entity_registry.async_get("sensor.client1_uptime").entity_category
is EntityCategory.DIAGNOSTIC
)
# Disable option
options = deepcopy(config_entry_options)
options[CONF_ALLOW_UPTIME_SENSORS] = False
hass.config_entries.async_update_entry(config_entry, options=options)
await hass.async_block_till_done()
assert hass.states.get("sensor.client1_uptime") is None
# Enable option
options = deepcopy(config_entry_options)
options[CONF_ALLOW_UPTIME_SENSORS] = True
hass.config_entries.async_update_entry(config_entry, options=options)
await hass.async_block_till_done()
assert hass.states.get("sensor.client1_uptime")
@pytest.mark.parametrize(
"device_payload",
[
[
{
"board_rev": 3,
"device_id": "mock-id",
"has_fan": True,
"fan_level": 0,
"ip": "10.0.1.1",
"last_seen": 1562600145,
"mac": "00:00:00:00:01:01",
"model": "US16P150",
"name": "Device",
"next_interval": 20,
"overheating": True,
"state": 1,
"type": "usw",
"upgradable": True,
"uptime": 60,
"version": "4.0.42.10433",
}
]
],
)
async def test_device_uptime(
hass: HomeAssistant,
entity_registry: er.EntityRegistry,
freezer: FrozenDateTimeFactory,
mock_websocket_message,
config_entry_factory: Callable[[], ConfigEntry],
device_payload: list[dict[str, Any]],
) -> None:
"""Verify that device uptime sensors are working as expected."""
await _test_uptime_entity(
hass,
freezer,
mock_websocket_message,
config_entry_factory,
payload=device_payload[0],
entity_id="sensor.device_uptime",
message_key=MessageKey.DEVICE,
initial_uptime=60,
event_uptime=240,
small_variation_uptime=480,
new_uptime=60,
)
assert (
entity_registry.async_get("sensor.device_uptime").entity_category
is EntityCategory.DIAGNOSTIC
)
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