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core/homeassistant/components/sensor/recorder.py

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"""Statistics helper for sensor."""
from __future__ import annotations
from collections import defaultdict
from collections.abc import Callable, Iterable, MutableMapping
import datetime
import itertools
import logging
import math
from typing import Any
from sqlalchemy.orm.session import Session
from homeassistant.components.recorder import (
history,
is_entity_recorded,
statistics,
util as recorder_util,
)
from homeassistant.components.recorder.const import DOMAIN as RECORDER_DOMAIN
from homeassistant.components.recorder.models import (
StatisticData,
StatisticMetaData,
StatisticResult,
)
from homeassistant.const import (
ATTR_DEVICE_CLASS,
ATTR_UNIT_OF_MEASUREMENT,
ENERGY_KILO_WATT_HOUR,
ENERGY_MEGA_WATT_HOUR,
ENERGY_WATT_HOUR,
POWER_KILO_WATT,
POWER_WATT,
PRESSURE_BAR,
PRESSURE_HPA,
PRESSURE_INHG,
PRESSURE_KPA,
PRESSURE_MBAR,
PRESSURE_PA,
PRESSURE_PSI,
TEMP_CELSIUS,
TEMP_FAHRENHEIT,
TEMP_KELVIN,
VOLUME_CUBIC_FEET,
VOLUME_CUBIC_METERS,
)
from homeassistant.core import HomeAssistant, State
from homeassistant.exceptions import HomeAssistantError
from homeassistant.helpers.entity import entity_sources
import homeassistant.util.dt as dt_util
import homeassistant.util.pressure as pressure_util
import homeassistant.util.temperature as temperature_util
import homeassistant.util.volume as volume_util
from . import (
ATTR_LAST_RESET,
ATTR_STATE_CLASS,
DOMAIN,
STATE_CLASS_MEASUREMENT,
STATE_CLASS_TOTAL,
STATE_CLASS_TOTAL_INCREASING,
STATE_CLASSES,
SensorDeviceClass,
)
_LOGGER = logging.getLogger(__name__)
DEFAULT_STATISTICS = {
STATE_CLASS_MEASUREMENT: {"mean", "min", "max"},
STATE_CLASS_TOTAL: {"sum"},
STATE_CLASS_TOTAL_INCREASING: {"sum"},
}
# Normalized units which will be stored in the statistics table
DEVICE_CLASS_UNITS: dict[str, str] = {
SensorDeviceClass.ENERGY: ENERGY_KILO_WATT_HOUR,
SensorDeviceClass.POWER: POWER_WATT,
SensorDeviceClass.PRESSURE: PRESSURE_PA,
SensorDeviceClass.TEMPERATURE: TEMP_CELSIUS,
SensorDeviceClass.GAS: VOLUME_CUBIC_METERS,
}
UNIT_CONVERSIONS: dict[str, dict[str, Callable]] = {
# Convert energy to kWh
SensorDeviceClass.ENERGY: {
ENERGY_KILO_WATT_HOUR: lambda x: x,
ENERGY_MEGA_WATT_HOUR: lambda x: x * 1000,
ENERGY_WATT_HOUR: lambda x: x / 1000,
},
# Convert power W
SensorDeviceClass.POWER: {
POWER_WATT: lambda x: x,
POWER_KILO_WATT: lambda x: x * 1000,
},
# Convert pressure to Pa
# Note: pressure_util.convert is bypassed to avoid redundant error checking
SensorDeviceClass.PRESSURE: {
PRESSURE_BAR: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_BAR],
PRESSURE_HPA: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_HPA],
PRESSURE_INHG: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_INHG],
PRESSURE_KPA: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_KPA],
PRESSURE_MBAR: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_MBAR],
PRESSURE_PA: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_PA],
PRESSURE_PSI: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_PSI],
},
# Convert temperature to °C
# Note: temperature_util.convert is bypassed to avoid redundant error checking
SensorDeviceClass.TEMPERATURE: {
TEMP_CELSIUS: lambda x: x,
TEMP_FAHRENHEIT: temperature_util.fahrenheit_to_celsius,
TEMP_KELVIN: temperature_util.kelvin_to_celsius,
},
# Convert volume to cubic meter
SensorDeviceClass.GAS: {
VOLUME_CUBIC_METERS: lambda x: x,
VOLUME_CUBIC_FEET: volume_util.cubic_feet_to_cubic_meter,
},
}
# Keep track of entities for which a warning about decreasing value has been logged
SEEN_DIP = "sensor_seen_total_increasing_dip"
WARN_DIP = "sensor_warn_total_increasing_dip"
# Keep track of entities for which a warning about negative value has been logged
WARN_NEGATIVE = "sensor_warn_total_increasing_negative"
# Keep track of entities for which a warning about unsupported unit has been logged
WARN_UNSUPPORTED_UNIT = "sensor_warn_unsupported_unit"
WARN_UNSTABLE_UNIT = "sensor_warn_unstable_unit"
# Link to dev statistics where issues around LTS can be fixed
LINK_DEV_STATISTICS = "https://my.home-assistant.io/redirect/developer_statistics"
def _get_sensor_states(hass: HomeAssistant) -> list[State]:
"""Get the current state of all sensors for which to compile statistics."""
all_sensors = hass.states.all(DOMAIN)
statistics_sensors = []
for state in all_sensors:
if not is_entity_recorded(hass, state.entity_id):
continue
if (state.attributes.get(ATTR_STATE_CLASS)) not in STATE_CLASSES:
continue
statistics_sensors.append(state)
return statistics_sensors
def _time_weighted_average(
fstates: list[tuple[float, State]], start: datetime.datetime, end: datetime.datetime
) -> float:
"""Calculate a time weighted average.
The average is calculated by weighting the states by duration in seconds between
state changes.
Note: there's no interpolation of values between state changes.
"""
old_fstate: float | None = None
old_start_time: datetime.datetime | None = None
accumulated = 0.0
for fstate, state in fstates:
# The recorder will give us the last known state, which may be well
# before the requested start time for the statistics
start_time = start if state.last_updated < start else state.last_updated
if old_start_time is None:
# Adjust start time, if there was no last known state
start = start_time
else:
duration = start_time - old_start_time
# Accumulate the value, weighted by duration until next state change
assert old_fstate is not None
accumulated += old_fstate * duration.total_seconds()
old_fstate = fstate
old_start_time = start_time
if old_fstate is not None:
# Accumulate the value, weighted by duration until end of the period
assert old_start_time is not None
duration = end - old_start_time
accumulated += old_fstate * duration.total_seconds()
return accumulated / (end - start).total_seconds()
def _get_units(fstates: list[tuple[float, State]]) -> set[str | None]:
"""Return True if all states have the same unit."""
return {item[1].attributes.get(ATTR_UNIT_OF_MEASUREMENT) for item in fstates}
def _parse_float(state: str) -> float:
"""Parse a float string, throw on inf or nan."""
fstate = float(state)
if math.isnan(fstate) or math.isinf(fstate):
raise ValueError
return fstate
def _normalize_states(
hass: HomeAssistant,
session: Session,
old_metadatas: dict[str, tuple[int, StatisticMetaData]],
entity_history: Iterable[State],
device_class: str | None,
entity_id: str,
) -> tuple[str | None, list[tuple[float, State]]]:
"""Normalize units."""
unit = None
if device_class not in UNIT_CONVERSIONS:
# We're not normalizing this device class, return the state as they are
fstates = []
for state in entity_history:
try:
fstate = _parse_float(state.state)
except (ValueError, TypeError): # TypeError to guard for NULL state in DB
continue
fstates.append((fstate, state))
if fstates:
all_units = _get_units(fstates)
if len(all_units) > 1:
if WARN_UNSTABLE_UNIT not in hass.data:
hass.data[WARN_UNSTABLE_UNIT] = set()
if entity_id not in hass.data[WARN_UNSTABLE_UNIT]:
hass.data[WARN_UNSTABLE_UNIT].add(entity_id)
extra = ""
if old_metadata := old_metadatas.get(entity_id):
extra = (
" and matches the unit of already compiled statistics "
f"({old_metadata[1]['unit_of_measurement']})"
)
_LOGGER.warning(
"The unit of %s is changing, got multiple %s, generation of long term "
"statistics will be suppressed unless the unit is stable%s. "
"Go to %s to fix this",
entity_id,
all_units,
extra,
LINK_DEV_STATISTICS,
)
return None, []
unit = fstates[0][1].attributes.get(ATTR_UNIT_OF_MEASUREMENT)
return unit, fstates
fstates = []
for state in entity_history:
try:
fstate = _parse_float(state.state)
except ValueError:
continue
unit = state.attributes.get(ATTR_UNIT_OF_MEASUREMENT)
# Exclude unsupported units from statistics
if unit not in UNIT_CONVERSIONS[device_class]:
if WARN_UNSUPPORTED_UNIT not in hass.data:
hass.data[WARN_UNSUPPORTED_UNIT] = set()
if entity_id not in hass.data[WARN_UNSUPPORTED_UNIT]:
hass.data[WARN_UNSUPPORTED_UNIT].add(entity_id)
_LOGGER.warning(
"%s has unit %s which is unsupported for device_class %s",
entity_id,
unit,
device_class,
)
continue
fstates.append((UNIT_CONVERSIONS[device_class][unit](fstate), state))
return DEVICE_CLASS_UNITS[device_class], fstates
def _suggest_report_issue(hass: HomeAssistant, entity_id: str) -> str:
"""Suggest to report an issue."""
domain = entity_sources(hass).get(entity_id, {}).get("domain")
custom_component = entity_sources(hass).get(entity_id, {}).get("custom_component")
report_issue = ""
if custom_component:
report_issue = "report it to the custom component author."
else:
report_issue = (
"create a bug report at "
"https://github.com/home-assistant/core/issues?q=is%3Aopen+is%3Aissue"
)
if domain:
report_issue += f"+label%3A%22integration%3A+{domain}%22"
return report_issue
def warn_dip(
hass: HomeAssistant, entity_id: str, state: State, previous_fstate: float
) -> None:
"""Log a warning once if a sensor with state_class_total has a decreasing value.
The log will be suppressed until two dips have been seen to prevent warning due to
rounding issues with databases storing the state as a single precision float, which
was fixed in recorder DB version 20.
"""
if SEEN_DIP not in hass.data:
hass.data[SEEN_DIP] = set()
if entity_id not in hass.data[SEEN_DIP]:
hass.data[SEEN_DIP].add(entity_id)
return
if WARN_DIP not in hass.data:
hass.data[WARN_DIP] = set()
if entity_id not in hass.data[WARN_DIP]:
hass.data[WARN_DIP].add(entity_id)
domain = entity_sources(hass).get(entity_id, {}).get("domain")
if domain in ["energy", "growatt_server", "solaredge"]:
return
_LOGGER.warning(
"Entity %s %shas state class total_increasing, but its state is "
"not strictly increasing. Triggered by state %s (%s) with last_updated set to %s. "
"Please %s",
entity_id,
f"from integration {domain} " if domain else "",
state.state,
previous_fstate,
state.last_updated.isoformat(),
_suggest_report_issue(hass, entity_id),
)
def warn_negative(hass: HomeAssistant, entity_id: str, state: State) -> None:
"""Log a warning once if a sensor with state_class_total has a negative value."""
if WARN_NEGATIVE not in hass.data:
hass.data[WARN_NEGATIVE] = set()
if entity_id not in hass.data[WARN_NEGATIVE]:
hass.data[WARN_NEGATIVE].add(entity_id)
domain = entity_sources(hass).get(entity_id, {}).get("domain")
_LOGGER.warning(
"Entity %s %shas state class total_increasing, but its state is "
"negative. Triggered by state %s with last_updated set to %s. Please %s",
entity_id,
f"from integration {domain} " if domain else "",
state.state,
state.last_updated.isoformat(),
_suggest_report_issue(hass, entity_id),
)
def reset_detected(
hass: HomeAssistant,
entity_id: str,
fstate: float,
previous_fstate: float | None,
state: State,
) -> bool:
"""Test if a total_increasing sensor has been reset."""
if previous_fstate is None:
return False
if 0.9 * previous_fstate <= fstate < previous_fstate:
warn_dip(hass, entity_id, state, previous_fstate)
if fstate < 0:
warn_negative(hass, entity_id, state)
raise HomeAssistantError
return fstate < 0.9 * previous_fstate
def _wanted_statistics(sensor_states: list[State]) -> dict[str, set[str]]:
"""Prepare a dict with wanted statistics for entities."""
wanted_statistics = {}
for state in sensor_states:
state_class = state.attributes[ATTR_STATE_CLASS]
wanted_statistics[state.entity_id] = DEFAULT_STATISTICS[state_class]
return wanted_statistics
def _last_reset_as_utc_isoformat(last_reset_s: Any, entity_id: str) -> str | None:
"""Parse last_reset and convert it to UTC."""
if last_reset_s is None:
return None
if isinstance(last_reset_s, str):
last_reset = dt_util.parse_datetime(last_reset_s)
else:
last_reset = None
if last_reset is None:
_LOGGER.warning(
"Ignoring invalid last reset '%s' for %s", last_reset_s, entity_id
)
return None
return dt_util.as_utc(last_reset).isoformat()
def compile_statistics(
hass: HomeAssistant, start: datetime.datetime, end: datetime.datetime
) -> statistics.PlatformCompiledStatistics:
"""Compile statistics for all entities during start-end.
Note: This will query the database and must not be run in the event loop
"""
with recorder_util.session_scope(hass=hass) as session:
compiled = _compile_statistics(hass, session, start, end)
return compiled
def _compile_statistics( # noqa: C901
hass: HomeAssistant,
session: Session,
start: datetime.datetime,
end: datetime.datetime,
) -> statistics.PlatformCompiledStatistics:
"""Compile statistics for all entities during start-end."""
result: list[StatisticResult] = []
sensor_states = _get_sensor_states(hass)
wanted_statistics = _wanted_statistics(sensor_states)
old_metadatas = statistics.get_metadata_with_session(
hass, session, statistic_ids=[i.entity_id for i in sensor_states]
)
# Get history between start and end
entities_full_history = [
i.entity_id for i in sensor_states if "sum" in wanted_statistics[i.entity_id]
]
history_list: MutableMapping[str, list[State]] = {}
if entities_full_history:
history_list = history.get_full_significant_states_with_session(
hass,
session,
start - datetime.timedelta.resolution,
end,
entity_ids=entities_full_history,
significant_changes_only=False,
)
entities_significant_history = [
i.entity_id
for i in sensor_states
if "sum" not in wanted_statistics[i.entity_id]
]
if entities_significant_history:
_history_list = history.get_full_significant_states_with_session(
hass,
session,
start - datetime.timedelta.resolution,
end,
entity_ids=entities_significant_history,
)
history_list = {**history_list, **_history_list}
# If there are no recent state changes, the sensor's state may already be pruned
# from the recorder. Get the state from the state machine instead.
for _state in sensor_states:
if _state.entity_id not in history_list:
history_list[_state.entity_id] = [_state]
to_process = []
to_query = []
for _state in sensor_states:
entity_id = _state.entity_id
if entity_id not in history_list:
continue
device_class = _state.attributes.get(ATTR_DEVICE_CLASS)
entity_history = history_list[entity_id]
unit, fstates = _normalize_states(
hass,
session,
old_metadatas,
entity_history,
device_class,
entity_id,
)
if not fstates:
continue
state_class = _state.attributes[ATTR_STATE_CLASS]
to_process.append((entity_id, unit, state_class, fstates))
if "sum" in wanted_statistics[entity_id]:
to_query.append(entity_id)
last_stats = statistics.get_latest_short_term_statistics(
hass, to_query, metadata=old_metadatas
)
for ( # pylint: disable=too-many-nested-blocks
entity_id,
unit,
state_class,
fstates,
) in to_process:
# Check metadata
if old_metadata := old_metadatas.get(entity_id):
if old_metadata[1]["unit_of_measurement"] != unit:
if WARN_UNSTABLE_UNIT not in hass.data:
hass.data[WARN_UNSTABLE_UNIT] = set()
if entity_id not in hass.data[WARN_UNSTABLE_UNIT]:
hass.data[WARN_UNSTABLE_UNIT].add(entity_id)
_LOGGER.warning(
"The %sunit of %s (%s) does not match the unit of already "
"compiled statistics (%s). Generation of long term statistics "
"will be suppressed unless the unit changes back to %s. "
"Go to %s to fix this",
"normalized " if device_class in DEVICE_CLASS_UNITS else "",
entity_id,
unit,
old_metadata[1]["unit_of_measurement"],
old_metadata[1]["unit_of_measurement"],
LINK_DEV_STATISTICS,
)
continue
# Set meta data
meta: StatisticMetaData = {
"has_mean": "mean" in wanted_statistics[entity_id],
"has_sum": "sum" in wanted_statistics[entity_id],
"name": None,
"source": RECORDER_DOMAIN,
"statistic_id": entity_id,
"unit_of_measurement": unit,
}
# Make calculations
stat: StatisticData = {"start": start}
if "max" in wanted_statistics[entity_id]:
stat["max"] = max(*itertools.islice(zip(*fstates), 1)) # type: ignore[typeddict-item]
if "min" in wanted_statistics[entity_id]:
stat["min"] = min(*itertools.islice(zip(*fstates), 1)) # type: ignore[typeddict-item]
if "mean" in wanted_statistics[entity_id]:
stat["mean"] = _time_weighted_average(fstates, start, end)
if "sum" in wanted_statistics[entity_id]:
last_reset = old_last_reset = None
new_state = old_state = None
_sum = 0.0
if entity_id in last_stats:
# We have compiled history for this sensor before, use that as a starting point
last_reset = old_last_reset = last_stats[entity_id][0]["last_reset"]
new_state = old_state = last_stats[entity_id][0]["state"]
_sum = last_stats[entity_id][0]["sum"] or 0.0
for fstate, state in fstates:
reset = False
if (
state_class != STATE_CLASS_TOTAL_INCREASING
and (
last_reset := _last_reset_as_utc_isoformat(
state.attributes.get("last_reset"), entity_id
)
)
!= old_last_reset
and last_reset is not None
):
if old_state is None:
_LOGGER.info(
"Compiling initial sum statistics for %s, zero point set to %s",
entity_id,
fstate,
)
else:
_LOGGER.info(
"Detected new cycle for %s, last_reset set to %s (old last_reset %s)",
entity_id,
last_reset,
old_last_reset,
)
reset = True
elif old_state is None and last_reset is None:
reset = True
_LOGGER.info(
"Compiling initial sum statistics for %s, zero point set to %s",
entity_id,
fstate,
)
elif state_class == STATE_CLASS_TOTAL_INCREASING:
try:
if old_state is None or reset_detected(
hass, entity_id, fstate, new_state, state
):
reset = True
_LOGGER.info(
"Detected new cycle for %s, value dropped from %s to %s, "
"triggered by state with last_updated set to %s",
entity_id,
new_state,
state.last_updated.isoformat(),
fstate,
)
except HomeAssistantError:
continue
if reset:
# The sensor has been reset, update the sum
if old_state is not None:
_sum += new_state - old_state
# ..and update the starting point
new_state = fstate
old_last_reset = last_reset
# Force a new cycle for an existing sensor to start at 0
if old_state is not None:
old_state = 0.0
else:
old_state = new_state
else:
new_state = fstate
if new_state is None or old_state is None:
# No valid updates
continue
# Update the sum with the last state
_sum += new_state - old_state
if last_reset is not None:
stat["last_reset"] = dt_util.parse_datetime(last_reset)
stat["sum"] = _sum
stat["state"] = new_state
result.append({"meta": meta, "stat": stat})
return statistics.PlatformCompiledStatistics(result, old_metadatas)
def list_statistic_ids(
hass: HomeAssistant,
statistic_ids: list[str] | tuple[str] | None = None,
statistic_type: str | None = None,
) -> dict:
"""Return all or filtered statistic_ids and meta data."""
entities = _get_sensor_states(hass)
result = {}
for state in entities:
state_class = state.attributes[ATTR_STATE_CLASS]
device_class = state.attributes.get(ATTR_DEVICE_CLASS)
native_unit = state.attributes.get(ATTR_UNIT_OF_MEASUREMENT)
provided_statistics = DEFAULT_STATISTICS[state_class]
if statistic_type is not None and statistic_type not in provided_statistics:
continue
if statistic_ids is not None and state.entity_id not in statistic_ids:
continue
if (
"sum" in provided_statistics
and ATTR_LAST_RESET not in state.attributes
and state.attributes.get(ATTR_STATE_CLASS) == STATE_CLASS_MEASUREMENT
):
continue
if device_class not in UNIT_CONVERSIONS:
result[state.entity_id] = {
"has_mean": "mean" in provided_statistics,
"has_sum": "sum" in provided_statistics,
"source": RECORDER_DOMAIN,
"unit_of_measurement": native_unit,
}
continue
if native_unit not in UNIT_CONVERSIONS[device_class]:
continue
statistics_unit = DEVICE_CLASS_UNITS[device_class]
result[state.entity_id] = {
"has_mean": "mean" in provided_statistics,
"has_sum": "sum" in provided_statistics,
"source": RECORDER_DOMAIN,
"unit_of_measurement": statistics_unit,
}
return result
def validate_statistics(
hass: HomeAssistant,
) -> dict[str, list[statistics.ValidationIssue]]:
"""Validate statistics."""
validation_result = defaultdict(list)
sensor_states = hass.states.all(DOMAIN)
metadatas = statistics.get_metadata(hass, statistic_source=RECORDER_DOMAIN)
sensor_entity_ids = {i.entity_id for i in sensor_states}
sensor_statistic_ids = set(metadatas)
for state in sensor_states:
entity_id = state.entity_id
device_class = state.attributes.get(ATTR_DEVICE_CLASS)
state_class = state.attributes.get(ATTR_STATE_CLASS)
state_unit = state.attributes.get(ATTR_UNIT_OF_MEASUREMENT)
if metadata := metadatas.get(entity_id):
if not is_entity_recorded(hass, state.entity_id):
# Sensor was previously recorded, but no longer is
validation_result[entity_id].append(
statistics.ValidationIssue(
"entity_no_longer_recorded",
{"statistic_id": entity_id},
)
)
if state_class not in STATE_CLASSES:
# Sensor no longer has a valid state class
validation_result[entity_id].append(
statistics.ValidationIssue(
"unsupported_state_class",
{"statistic_id": entity_id, "state_class": state_class},
)
)
metadata_unit = metadata[1]["unit_of_measurement"]
if device_class not in UNIT_CONVERSIONS:
if state_unit != metadata_unit:
# The unit has changed
validation_result[entity_id].append(
statistics.ValidationIssue(
"units_changed",
{
"statistic_id": entity_id,
"state_unit": state_unit,
"metadata_unit": metadata_unit,
},
)
)
elif metadata_unit != DEVICE_CLASS_UNITS[device_class]:
# The unit in metadata is not supported for this device class
validation_result[entity_id].append(
statistics.ValidationIssue(
"unsupported_unit_metadata",
{
"statistic_id": entity_id,
"device_class": device_class,
"metadata_unit": metadata_unit,
"supported_unit": DEVICE_CLASS_UNITS[device_class],
},
)
)
elif state_class in STATE_CLASSES:
if not is_entity_recorded(hass, state.entity_id):
# Sensor is not recorded
validation_result[entity_id].append(
statistics.ValidationIssue(
"entity_not_recorded",
{"statistic_id": entity_id},
)
)
if (
state_class in STATE_CLASSES
and device_class in UNIT_CONVERSIONS
and state_unit not in UNIT_CONVERSIONS[device_class]
):
# The unit in the state is not supported for this device class
validation_result[entity_id].append(
statistics.ValidationIssue(
"unsupported_unit_state",
{
"statistic_id": entity_id,
"device_class": device_class,
"state_unit": state_unit,
},
)
)
for statistic_id in sensor_statistic_ids - sensor_entity_ids:
# There is no sensor matching the statistics_id
validation_result[statistic_id].append(
statistics.ValidationIssue(
"no_state",
{
"statistic_id": statistic_id,
},
)
)
return validation_result
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