"""Support for SolarEdge-local Monitoring API."""
from __future__ import annotations
from contextlib import suppress
from copy import copy
from dataclasses import dataclass
from datetime import timedelta
import logging
import statistics
from requests.exceptions import ConnectTimeout, HTTPError
from solaredge_local import SolarEdge
import voluptuous as vol
from homeassistant.components.sensor import (
PLATFORM_SCHEMA,
SensorDeviceClass,
SensorEntity,
SensorEntityDescription,
)
from homeassistant.const import (
CONF_IP_ADDRESS,
CONF_NAME,
ELECTRIC_CURRENT_AMPERE,
ELECTRIC_POTENTIAL_VOLT,
ENERGY_WATT_HOUR,
FREQUENCY_HERTZ,
POWER_WATT,
TEMP_CELSIUS,
TEMP_FAHRENHEIT,
)
from homeassistant.core import HomeAssistant
import homeassistant.helpers.config_validation as cv
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from homeassistant.helpers.typing import ConfigType, DiscoveryInfoType
from homeassistant.util import Throttle
DOMAIN = "solaredge_local"
UPDATE_DELAY = timedelta(seconds=10)
INVERTER_MODES = (
"SHUTTING_DOWN",
"ERROR",
"STANDBY",
"PAIRING",
"POWER_PRODUCTION",
"AC_CHARGING",
"NOT_PAIRED",
"NIGHT_MODE",
"GRID_MONITORING",
"IDLE",
)
@dataclass
class SolarEdgeLocalSensorEntityDescription(SensorEntityDescription):
"""Describes SolarEdge-local sensor entity."""
extra_attribute: str | None = None
SENSOR_TYPES: tuple[SolarEdgeLocalSensorEntityDescription, ...] = (
SolarEdgeLocalSensorEntityDescription(
key="gridvoltage",
name="Grid Voltage",
native_unit_of_measurement=ELECTRIC_POTENTIAL_VOLT,
icon="mdi:current-ac",
),
SolarEdgeLocalSensorEntityDescription(
key="dcvoltage",
name="DC Voltage",
native_unit_of_measurement=ELECTRIC_POTENTIAL_VOLT,
icon="mdi:current-dc",
),
SolarEdgeLocalSensorEntityDescription(
key="gridfrequency",
name="Grid Frequency",
native_unit_of_measurement=FREQUENCY_HERTZ,
icon="mdi:current-ac",
),
SolarEdgeLocalSensorEntityDescription(
key="currentPower",
name="Current Power",
native_unit_of_measurement=POWER_WATT,
icon="mdi:solar-power",
),
SolarEdgeLocalSensorEntityDescription(
key="energyThisMonth",
name="Energy This Month",
native_unit_of_measurement=ENERGY_WATT_HOUR,
icon="mdi:solar-power",
),
SolarEdgeLocalSensorEntityDescription(
key="energyThisYear",
name="Energy This Year",
native_unit_of_measurement=ENERGY_WATT_HOUR,
icon="mdi:solar-power",
),
SolarEdgeLocalSensorEntityDescription(
key="energyToday",
name="Energy Today",
native_unit_of_measurement=ENERGY_WATT_HOUR,
icon="mdi:solar-power",
),
SolarEdgeLocalSensorEntityDescription(
key="energyTotal",
name="Lifetime Energy",
native_unit_of_measurement=ENERGY_WATT_HOUR,
icon="mdi:solar-power",
),
SolarEdgeLocalSensorEntityDescription(
key="optimizers",
name="Optimizers Online",
native_unit_of_measurement="optimizers",
icon="mdi:solar-panel",
extra_attribute="optimizers_connected",
),
SolarEdgeLocalSensorEntityDescription(
key="optimizercurrent",
name="Average Optimizer Current",
native_unit_of_measurement=ELECTRIC_CURRENT_AMPERE,
icon="mdi:solar-panel",
),
SolarEdgeLocalSensorEntityDescription(
key="optimizerpower",
name="Average Optimizer Power",
native_unit_of_measurement=POWER_WATT,
icon="mdi:solar-panel",
),
SolarEdgeLocalSensorEntityDescription(
key="optimizertemperature",
name="Average Optimizer Temperature",
native_unit_of_measurement=TEMP_CELSIUS,
icon="mdi:solar-panel",
device_class=SensorDeviceClass.TEMPERATURE,
),
SolarEdgeLocalSensorEntityDescription(
key="optimizervoltage",
name="Average Optimizer Voltage",
native_unit_of_measurement=ELECTRIC_POTENTIAL_VOLT,
icon="mdi:solar-panel",
),
)
SENSOR_TYPE_INVERTER_TEMPERATURE = SolarEdgeLocalSensorEntityDescription(
key="invertertemperature",
name="Inverter Temperature",
native_unit_of_measurement=TEMP_CELSIUS,
extra_attribute="operating_mode",
device_class=SensorDeviceClass.TEMPERATURE,
)
SENSOR_TYPES_ENERGY_IMPORT: tuple[SolarEdgeLocalSensorEntityDescription, ...] = (
SolarEdgeLocalSensorEntityDescription(
key="currentPowerimport",
name="current import Power",
native_unit_of_measurement=POWER_WATT,
icon="mdi:arrow-collapse-down",
),
SolarEdgeLocalSensorEntityDescription(
key="totalEnergyimport",
name="total import Energy",
native_unit_of_measurement=ENERGY_WATT_HOUR,
icon="mdi:counter",
),
)
SENSOR_TYPES_ENERGY_EXPORT: tuple[SolarEdgeLocalSensorEntityDescription, ...] = (
SolarEdgeLocalSensorEntityDescription(
key="currentPowerexport",
name="current export Power",
native_unit_of_measurement=POWER_WATT,
icon="mdi:arrow-expand-up",
),
SolarEdgeLocalSensorEntityDescription(
key="totalEnergyexport",
name="total export Energy",
native_unit_of_measurement=ENERGY_WATT_HOUR,
icon="mdi:counter",
),
)
PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend(
{
vol.Required(CONF_IP_ADDRESS): cv.string,
vol.Optional(CONF_NAME, default="SolarEdge"): cv.string,
}
)
_LOGGER = logging.getLogger(__name__)
def setup_platform(
hass: HomeAssistant,
config: ConfigType,
add_entities: AddEntitiesCallback,
discovery_info: DiscoveryInfoType | None = None,
) -> None:
"""Create the SolarEdge Monitoring API sensor."""
ip_address = config[CONF_IP_ADDRESS]
platform_name = config[CONF_NAME]
# Create new SolarEdge object to retrieve data.
api = SolarEdge(f"http://{ip_address}/")
# Check if api can be reached and site is active.
try:
status = api.get_status()
_LOGGER.debug("Credentials correct and site is active")
except AttributeError:
_LOGGER.error("Missing details data in solaredge status")
_LOGGER.debug("Status is: %s", status)
return
except (ConnectTimeout, HTTPError):
_LOGGER.error("Could not retrieve details from SolarEdge API")
return
# Create solaredge data service which will retrieve and update the data.
data = SolarEdgeData(hass, api)
# Changing inverter temperature unit.
inverter_temp_description = copy(SENSOR_TYPE_INVERTER_TEMPERATURE)
if status.inverters.primary.temperature.units.farenheit:
inverter_temp_description.native_unit_of_measurement = TEMP_FAHRENHEIT
# Create entities
entities = [
SolarEdgeSensor(platform_name, data, description)
for description in (*SENSOR_TYPES, inverter_temp_description)
]
try:
if status.metersList[0]:
entities.extend(
[
SolarEdgeSensor(platform_name, data, description)
for description in SENSOR_TYPES_ENERGY_IMPORT
]
)
except IndexError:
_LOGGER.debug("Import meter sensors are not created")
try:
if status.metersList[1]:
entities.extend(
[
SolarEdgeSensor(platform_name, data, description)
for description in SENSOR_TYPES_ENERGY_EXPORT
]
)
except IndexError:
_LOGGER.debug("Export meter sensors are not created")
add_entities(entities, True)
class SolarEdgeSensor(SensorEntity):
"""Representation of an SolarEdge Monitoring API sensor."""
entity_description: SolarEdgeLocalSensorEntityDescription
def __init__(
self,
platform_name,
data,
description: SolarEdgeLocalSensorEntityDescription,
):
"""Initialize the sensor."""
self.entity_description = description
self._platform_name = platform_name
self._data = data
self._attr_name = f"{platform_name} ({description.name})"
@property
def extra_state_attributes(self):
"""Return the state attributes."""
if extra_attr := self.entity_description.extra_attribute:
try:
return {extra_attr: self._data.info[self.entity_description.key]}
except KeyError:
pass
return None
def update(self):
"""Get the latest data from the sensor and update the state."""
self._data.update()
self._attr_native_value = self._data.data[self.entity_description.key]
class SolarEdgeData:
"""Get and update the latest data."""
def __init__(self, hass, api):
"""Initialize the data object."""
self.hass = hass
self.api = api
self.data = {}
self.info = {}
@Throttle(UPDATE_DELAY)
def update(self):
"""Update the data from the SolarEdge Monitoring API."""
try:
status = self.api.get_status()
_LOGGER.debug("Status from SolarEdge: %s", status)
except ConnectTimeout:
_LOGGER.error("Connection timeout, skipping update")
return
except HTTPError:
_LOGGER.error("Could not retrieve status, skipping update")
return
try:
maintenance = self.api.get_maintenance()
_LOGGER.debug("Maintenance from SolarEdge: %s", maintenance)
except ConnectTimeout:
_LOGGER.error("Connection timeout, skipping update")
return
except HTTPError:
_LOGGER.error("Could not retrieve maintenance, skipping update")
return
temperature = []
voltage = []
current = []
power = 0
for optimizer in maintenance.diagnostics.inverters.primary.optimizer:
if not optimizer.online:
continue
temperature.append(optimizer.temperature.value)
voltage.append(optimizer.inputV)
current.append(optimizer.inputC)
if not voltage:
temperature.append(0)
voltage.append(0)
current.append(0)
else:
power = statistics.mean(voltage) * statistics.mean(current)
if status.sn:
self.data["energyTotal"] = round(status.energy.total, 2)
self.data["energyThisYear"] = round(status.energy.thisYear, 2)
self.data["energyThisMonth"] = round(status.energy.thisMonth, 2)
self.data["energyToday"] = round(status.energy.today, 2)
self.data["currentPower"] = round(status.powerWatt, 2)
self.data["invertertemperature"] = round(
status.inverters.primary.temperature.value, 2
)
self.data["dcvoltage"] = round(status.inverters.primary.voltage, 2)
self.data["gridfrequency"] = round(status.frequencyHz, 2)
self.data["gridvoltage"] = round(status.voltage, 2)
self.data["optimizers"] = status.optimizersStatus.online
self.info["optimizers"] = status.optimizersStatus.total
self.info["invertertemperature"] = INVERTER_MODES[status.status]
with suppress(IndexError):
if status.metersList[1]:
self.data["currentPowerimport"] = status.metersList[1].currentPower
self.data["totalEnergyimport"] = status.metersList[1].totalEnergy
with suppress(IndexError):
if status.metersList[0]:
self.data["currentPowerexport"] = status.metersList[0].currentPower
self.data["totalEnergyexport"] = status.metersList[0].totalEnergy
if maintenance.system.name:
self.data["optimizertemperature"] = round(statistics.mean(temperature), 2)
self.data["optimizervoltage"] = round(statistics.mean(voltage), 2)
self.data["optimizercurrent"] = round(statistics.mean(current), 2)
self.data["optimizerpower"] = round(power, 2)