"""Support for monitoring the local system.""" from __future__ import annotations import asyncio from dataclasses import dataclass from datetime import datetime, timedelta from functools import cache import logging import os import socket import sys from typing import Any, cast import psutil import voluptuous as vol from homeassistant.components.sensor import ( PLATFORM_SCHEMA, SensorDeviceClass, SensorEntity, SensorEntityDescription, SensorStateClass, ) from homeassistant.const import ( CONF_RESOURCES, CONF_SCAN_INTERVAL, CONF_TYPE, DATA_GIBIBYTES, DATA_MEBIBYTES, DATA_RATE_MEGABYTES_PER_SECOND, EVENT_HOMEASSISTANT_STOP, PERCENTAGE, STATE_OFF, STATE_ON, TEMP_CELSIUS, ) from homeassistant.core import HomeAssistant, callback import homeassistant.helpers.config_validation as cv from homeassistant.helpers.dispatcher import ( async_dispatcher_connect, async_dispatcher_send, ) from homeassistant.helpers.entity_component import DEFAULT_SCAN_INTERVAL from homeassistant.helpers.entity_platform import AddEntitiesCallback from homeassistant.helpers.event import async_track_time_interval from homeassistant.helpers.typing import ConfigType, DiscoveryInfoType from homeassistant.util import slugify import homeassistant.util.dt as dt_util _LOGGER = logging.getLogger(__name__) CONF_ARG = "arg" if sys.maxsize > 2**32: CPU_ICON = "mdi:cpu-64-bit" else: CPU_ICON = "mdi:cpu-32-bit" SENSOR_TYPE_NAME = 0 SENSOR_TYPE_UOM = 1 SENSOR_TYPE_ICON = 2 SENSOR_TYPE_DEVICE_CLASS = 3 SENSOR_TYPE_MANDATORY_ARG = 4 SIGNAL_SYSTEMMONITOR_UPDATE = "systemmonitor_update" @dataclass class SysMonitorSensorEntityDescription(SensorEntityDescription): """Description for System Monitor sensor entities.""" mandatory_arg: bool = False SENSOR_TYPES: dict[str, SysMonitorSensorEntityDescription] = { "disk_free": SysMonitorSensorEntityDescription( key="disk_free", name="Disk free", native_unit_of_measurement=DATA_GIBIBYTES, icon="mdi:harddisk", state_class=SensorStateClass.MEASUREMENT, ), "disk_use": SysMonitorSensorEntityDescription( key="disk_use", name="Disk use", native_unit_of_measurement=DATA_GIBIBYTES, icon="mdi:harddisk", state_class=SensorStateClass.MEASUREMENT, ), "disk_use_percent": SysMonitorSensorEntityDescription( key="disk_use_percent", name="Disk use (percent)", native_unit_of_measurement=PERCENTAGE, icon="mdi:harddisk", state_class=SensorStateClass.MEASUREMENT, ), "ipv4_address": SysMonitorSensorEntityDescription( key="ipv4_address", name="IPv4 address", icon="mdi:server-network", mandatory_arg=True, ), "ipv6_address": SysMonitorSensorEntityDescription( key="ipv6_address", name="IPv6 address", icon="mdi:server-network", mandatory_arg=True, ), "last_boot": SysMonitorSensorEntityDescription( key="last_boot", name="Last boot", device_class=SensorDeviceClass.TIMESTAMP, ), "load_15m": SysMonitorSensorEntityDescription( key="load_15m", name="Load (15m)", icon=CPU_ICON, state_class=SensorStateClass.MEASUREMENT, ), "load_1m": SysMonitorSensorEntityDescription( key="load_1m", name="Load (1m)", icon=CPU_ICON, state_class=SensorStateClass.MEASUREMENT, ), "load_5m": SysMonitorSensorEntityDescription( key="load_5m", name="Load (5m)", icon=CPU_ICON, state_class=SensorStateClass.MEASUREMENT, ), "memory_free": SysMonitorSensorEntityDescription( key="memory_free", name="Memory free", native_unit_of_measurement=DATA_MEBIBYTES, icon="mdi:memory", state_class=SensorStateClass.MEASUREMENT, ), "memory_use": SysMonitorSensorEntityDescription( key="memory_use", name="Memory use", native_unit_of_measurement=DATA_MEBIBYTES, icon="mdi:memory", state_class=SensorStateClass.MEASUREMENT, ), "memory_use_percent": SysMonitorSensorEntityDescription( key="memory_use_percent", name="Memory use (percent)", native_unit_of_measurement=PERCENTAGE, icon="mdi:memory", state_class=SensorStateClass.MEASUREMENT, ), "network_in": SysMonitorSensorEntityDescription( key="network_in", name="Network in", native_unit_of_measurement=DATA_MEBIBYTES, icon="mdi:server-network", state_class=SensorStateClass.TOTAL_INCREASING, mandatory_arg=True, ), "network_out": SysMonitorSensorEntityDescription( key="network_out", name="Network out", native_unit_of_measurement=DATA_MEBIBYTES, icon="mdi:server-network", state_class=SensorStateClass.TOTAL_INCREASING, mandatory_arg=True, ), "packets_in": SysMonitorSensorEntityDescription( key="packets_in", name="Packets in", icon="mdi:server-network", state_class=SensorStateClass.TOTAL_INCREASING, mandatory_arg=True, ), "packets_out": SysMonitorSensorEntityDescription( key="packets_out", name="Packets out", icon="mdi:server-network", state_class=SensorStateClass.TOTAL_INCREASING, mandatory_arg=True, ), "throughput_network_in": SysMonitorSensorEntityDescription( key="throughput_network_in", name="Network throughput in", native_unit_of_measurement=DATA_RATE_MEGABYTES_PER_SECOND, icon="mdi:server-network", state_class=SensorStateClass.MEASUREMENT, mandatory_arg=True, ), "throughput_network_out": SysMonitorSensorEntityDescription( key="throughput_network_out", name="Network throughput out", native_unit_of_measurement=DATA_RATE_MEGABYTES_PER_SECOND, icon="mdi:server-network", state_class=SensorStateClass.MEASUREMENT, mandatory_arg=True, ), "process": SysMonitorSensorEntityDescription( key="process", name="Process", icon=CPU_ICON, state_class=SensorStateClass.MEASUREMENT, mandatory_arg=True, ), "processor_use": SysMonitorSensorEntityDescription( key="processor_use", name="Processor use", native_unit_of_measurement=PERCENTAGE, icon=CPU_ICON, state_class=SensorStateClass.MEASUREMENT, ), "processor_temperature": SysMonitorSensorEntityDescription( key="processor_temperature", name="Processor temperature", native_unit_of_measurement=TEMP_CELSIUS, device_class=SensorDeviceClass.TEMPERATURE, state_class=SensorStateClass.MEASUREMENT, ), "swap_free": SysMonitorSensorEntityDescription( key="swap_free", name="Swap free", native_unit_of_measurement=DATA_MEBIBYTES, icon="mdi:harddisk", state_class=SensorStateClass.MEASUREMENT, ), "swap_use": SysMonitorSensorEntityDescription( key="swap_use", name="Swap use", native_unit_of_measurement=DATA_MEBIBYTES, icon="mdi:harddisk", state_class=SensorStateClass.MEASUREMENT, ), "swap_use_percent": SysMonitorSensorEntityDescription( key="swap_use_percent", name="Swap use (percent)", native_unit_of_measurement=PERCENTAGE, icon="mdi:harddisk", state_class=SensorStateClass.MEASUREMENT, ), } def check_required_arg(value: Any) -> Any: """Validate that the required "arg" for the sensor types that need it are set.""" for sensor in value: sensor_type = sensor[CONF_TYPE] sensor_arg = sensor.get(CONF_ARG) if sensor_arg is None and SENSOR_TYPES[sensor_type].mandatory_arg: raise vol.RequiredFieldInvalid( f"Mandatory 'arg' is missing for sensor type '{sensor_type}'." ) return value PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend( { vol.Optional(CONF_RESOURCES, default={CONF_TYPE: "disk_use"}): vol.All( cv.ensure_list, [ vol.Schema( { vol.Required(CONF_TYPE): vol.In(SENSOR_TYPES), vol.Optional(CONF_ARG): cv.string, } ) ], check_required_arg, ) } ) IO_COUNTER = { "network_out": 0, "network_in": 1, "packets_out": 2, "packets_in": 3, "throughput_network_out": 0, "throughput_network_in": 1, } IF_ADDRS_FAMILY = {"ipv4_address": socket.AF_INET, "ipv6_address": socket.AF_INET6} # There might be additional keys to be added for different # platforms / hardware combinations. # Taken from last version of "glances" integration before they moved to # a generic temperature sensor logic. # https://github.com/home-assistant/core/blob/5e15675593ba94a2c11f9f929cdad317e27ce190/homeassistant/components/glances/sensor.py#L199 CPU_SENSOR_PREFIXES = [ "amdgpu 1", "aml_thermal", "Core 0", "Core 1", "CPU Temperature", "CPU", "cpu-thermal 1", "cpu_thermal 1", "exynos-therm 1", "Package id 0", "Physical id 0", "radeon 1", "soc-thermal 1", "soc_thermal 1", "Tctl", "cpu0-thermal", "cpu0_thermal", ] @dataclass class SensorData: """Data for a sensor.""" argument: Any state: str | datetime | None value: Any | None update_time: datetime | None last_exception: BaseException | None async def async_setup_platform( hass: HomeAssistant, config: ConfigType, async_add_entities: AddEntitiesCallback, discovery_info: DiscoveryInfoType | None = None, ) -> None: """Set up the system monitor sensors.""" entities = [] sensor_registry: dict[tuple[str, str], SensorData] = {} for resource in config[CONF_RESOURCES]: type_ = resource[CONF_TYPE] # Initialize the sensor argument if none was provided. # For disk monitoring default to "/" (root) to prevent runtime errors, if argument was not specified. if CONF_ARG not in resource: argument = "" if resource[CONF_TYPE].startswith("disk_"): argument = "/" else: argument = resource[CONF_ARG] # Verify if we can retrieve CPU / processor temperatures. # If not, do not create the entity and add a warning to the log if ( type_ == "processor_temperature" and await hass.async_add_executor_job(_read_cpu_temperature) is None ): _LOGGER.warning("Cannot read CPU / processor temperature information") continue sensor_registry[(type_, argument)] = SensorData( argument, None, None, None, None ) entities.append( SystemMonitorSensor(sensor_registry, SENSOR_TYPES[type_], argument) ) scan_interval = config.get(CONF_SCAN_INTERVAL, DEFAULT_SCAN_INTERVAL) await async_setup_sensor_registry_updates(hass, sensor_registry, scan_interval) async_add_entities(entities) async def async_setup_sensor_registry_updates( hass: HomeAssistant, sensor_registry: dict[tuple[str, str], SensorData], scan_interval: timedelta, ) -> None: """Update the registry and create polling.""" _update_lock = asyncio.Lock() def _update_sensors() -> None: """Update sensors and store the result in the registry.""" for (type_, argument), data in sensor_registry.items(): try: state, value, update_time = _update(type_, data) except Exception as ex: # pylint: disable=broad-except _LOGGER.exception("Error updating sensor: %s (%s)", type_, argument) data.last_exception = ex else: data.state = state data.value = value data.update_time = update_time data.last_exception = None # Only fetch these once per iteration as we use the same # data source multiple times in _update _disk_usage.cache_clear() _swap_memory.cache_clear() _virtual_memory.cache_clear() _net_io_counters.cache_clear() _net_if_addrs.cache_clear() _getloadavg.cache_clear() async def _async_update_data(*_: Any) -> None: """Update all sensors in one executor jump.""" if _update_lock.locked(): _LOGGER.warning( "Updating systemmonitor took longer than the scheduled update interval %s", scan_interval, ) return async with _update_lock: await hass.async_add_executor_job(_update_sensors) async_dispatcher_send(hass, SIGNAL_SYSTEMMONITOR_UPDATE) polling_remover = async_track_time_interval(hass, _async_update_data, scan_interval) @callback def _async_stop_polling(*_: Any) -> None: polling_remover() hass.bus.async_listen_once(EVENT_HOMEASSISTANT_STOP, _async_stop_polling) await _async_update_data() class SystemMonitorSensor(SensorEntity): """Implementation of a system monitor sensor.""" should_poll = False def __init__( self, sensor_registry: dict[tuple[str, str], SensorData], sensor_description: SysMonitorSensorEntityDescription, argument: str = "", ) -> None: """Initialize the sensor.""" self.entity_description = sensor_description self._attr_name: str = f"{sensor_description.name} {argument}".rstrip() self._attr_unique_id: str = slugify(f"{sensor_description.key}_{argument}") self._sensor_registry = sensor_registry self._argument: str = argument @property def native_value(self) -> str | datetime | None: """Return the state of the device.""" return self.data.state @property def available(self) -> bool: """Return True if entity is available.""" return self.data.last_exception is None @property def data(self) -> SensorData: """Return registry entry for the data.""" return self._sensor_registry[(self.entity_description.key, self._argument)] async def async_added_to_hass(self) -> None: """When entity is added to hass.""" await super().async_added_to_hass() self.async_on_remove( async_dispatcher_connect( self.hass, SIGNAL_SYSTEMMONITOR_UPDATE, self.async_write_ha_state ) ) def _update( # noqa: C901 type_: str, data: SensorData ) -> tuple[str | datetime | None, str | None, datetime | None]: """Get the latest system information.""" state = None value = None update_time = None if type_ == "disk_use_percent": state = _disk_usage(data.argument).percent elif type_ == "disk_use": state = round(_disk_usage(data.argument).used / 1024**3, 1) elif type_ == "disk_free": state = round(_disk_usage(data.argument).free / 1024**3, 1) elif type_ == "memory_use_percent": state = _virtual_memory().percent elif type_ == "memory_use": virtual_memory = _virtual_memory() state = round((virtual_memory.total - virtual_memory.available) / 1024**2, 1) elif type_ == "memory_free": state = round(_virtual_memory().available / 1024**2, 1) elif type_ == "swap_use_percent": state = _swap_memory().percent elif type_ == "swap_use": state = round(_swap_memory().used / 1024**2, 1) elif type_ == "swap_free": state = round(_swap_memory().free / 1024**2, 1) elif type_ == "processor_use": state = round(psutil.cpu_percent(interval=None)) elif type_ == "processor_temperature": state = _read_cpu_temperature() elif type_ == "process": state = STATE_OFF for proc in psutil.process_iter(): try: if data.argument == proc.name(): state = STATE_ON break except psutil.NoSuchProcess as err: _LOGGER.warning( "Failed to load process with ID: %s, old name: %s", err.pid, err.name, ) elif type_ in ("network_out", "network_in"): counters = _net_io_counters() if data.argument in counters: counter = counters[data.argument][IO_COUNTER[type_]] state = round(counter / 1024**2, 1) else: state = None elif type_ in ("packets_out", "packets_in"): counters = _net_io_counters() if data.argument in counters: state = counters[data.argument][IO_COUNTER[type_]] else: state = None elif type_ in ("throughput_network_out", "throughput_network_in"): counters = _net_io_counters() if data.argument in counters: counter = counters[data.argument][IO_COUNTER[type_]] now = dt_util.utcnow() if data.value and data.value < counter: state = round( (counter - data.value) / 1000**2 / (now - (data.update_time or now)).total_seconds(), 3, ) else: state = None update_time = now value = counter else: state = None elif type_ in ("ipv4_address", "ipv6_address"): addresses = _net_if_addrs() if data.argument in addresses: for addr in addresses[data.argument]: if addr.family == IF_ADDRS_FAMILY[type_]: state = addr.address else: state = None elif type_ == "last_boot": # Only update on initial setup if data.state is None: state = dt_util.utc_from_timestamp(psutil.boot_time()) else: state = data.state elif type_ == "load_1m": state = round(_getloadavg()[0], 2) elif type_ == "load_5m": state = round(_getloadavg()[1], 2) elif type_ == "load_15m": state = round(_getloadavg()[2], 2) return state, value, update_time @cache def _disk_usage(path: str) -> Any: return psutil.disk_usage(path) @cache def _swap_memory() -> Any: return psutil.swap_memory() @cache def _virtual_memory() -> Any: return psutil.virtual_memory() @cache def _net_io_counters() -> Any: return psutil.net_io_counters(pernic=True) @cache def _net_if_addrs() -> Any: return psutil.net_if_addrs() @cache def _getloadavg() -> tuple[float, float, float]: return os.getloadavg() def _read_cpu_temperature() -> float | None: """Attempt to read CPU / processor temperature.""" temps = psutil.sensors_temperatures() for name, entries in temps.items(): for i, entry in enumerate(entries, start=1): # In case the label is empty (e.g. on Raspberry PI 4), # construct it ourself here based on the sensor key name. _label = f"{name} {i}" if not entry.label else entry.label # check both name and label because some systems embed cpu# in the # name, which makes label not match because label adds cpu# at end. if _label in CPU_SENSOR_PREFIXES or name in CPU_SENSOR_PREFIXES: return cast(float, round(entry.current, 1)) return None