From c69cb8cc094cc916adbc516b09e944cd3d137c01 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sat, 27 Apr 2024 13:08:07 +0200 Subject: Adding upstream version 1.29.3. Signed-off-by: Daniel Baumann --- .../python.d.plugin/sensors/sensors.chart.py | 163 +++++++++++++++++++++ 1 file changed, 163 insertions(+) create mode 100644 collectors/python.d.plugin/sensors/sensors.chart.py (limited to 'collectors/python.d.plugin/sensors/sensors.chart.py') diff --git a/collectors/python.d.plugin/sensors/sensors.chart.py b/collectors/python.d.plugin/sensors/sensors.chart.py new file mode 100644 index 0000000..8c0cde6 --- /dev/null +++ b/collectors/python.d.plugin/sensors/sensors.chart.py @@ -0,0 +1,163 @@ +# -*- coding: utf-8 -*- +# Description: sensors netdata python.d plugin +# Author: Pawel Krupa (paulfantom) +# SPDX-License-Identifier: GPL-3.0-or-later + +from bases.FrameworkServices.SimpleService import SimpleService +from third_party import lm_sensors as sensors + +ORDER = [ + 'temperature', + 'fan', + 'voltage', + 'current', + 'power', + 'energy', + 'humidity', +] + +# This is a prototype of chart definition which is used to dynamically create self.definitions +CHARTS = { + 'temperature': { + 'options': [None, ' temperature', 'Celsius', 'temperature', 'sensors.temperature', 'line'], + 'lines': [ + [None, None, 'absolute', 1, 1000] + ] + }, + 'voltage': { + 'options': [None, ' voltage', 'Volts', 'voltage', 'sensors.voltage', 'line'], + 'lines': [ + [None, None, 'absolute', 1, 1000] + ] + }, + 'current': { + 'options': [None, ' current', 'Ampere', 'current', 'sensors.current', 'line'], + 'lines': [ + [None, None, 'absolute', 1, 1000] + ] + }, + 'power': { + 'options': [None, ' power', 'Watt', 'power', 'sensors.power', 'line'], + 'lines': [ + [None, None, 'absolute', 1, 1000] + ] + }, + 'fan': { + 'options': [None, ' fans speed', 'Rotations/min', 'fans', 'sensors.fan', 'line'], + 'lines': [ + [None, None, 'absolute', 1, 1000] + ] + }, + 'energy': { + 'options': [None, ' energy', 'Joule', 'energy', 'sensors.energy', 'line'], + 'lines': [ + [None, None, 'incremental', 1, 1000] + ] + }, + 'humidity': { + 'options': [None, ' humidity', 'Percent', 'humidity', 'sensors.humidity', 'line'], + 'lines': [ + [None, None, 'absolute', 1, 1000] + ] + } +} + +LIMITS = { + 'temperature': [-127, 1000], + 'voltage': [-127, 127], + 'current': [-127, 127], + 'fan': [0, 65535] +} + +TYPE_MAP = { + 0: 'voltage', + 1: 'fan', + 2: 'temperature', + 3: 'power', + 4: 'energy', + 5: 'current', + 6: 'humidity', + 7: 'max_main', + 16: 'vid', + 17: 'intrusion', + 18: 'max_other', + 24: 'beep_enable' +} + + +class Service(SimpleService): + def __init__(self, configuration=None, name=None): + SimpleService.__init__(self, configuration=configuration, name=name) + self.order = list() + self.definitions = dict() + self.chips = configuration.get('chips') + + def get_data(self): + data = dict() + try: + for chip in sensors.ChipIterator(): + prefix = sensors.chip_snprintf_name(chip) + for feature in sensors.FeatureIterator(chip): + sfi = sensors.SubFeatureIterator(chip, feature) + val = None + for sf in sfi: + try: + val = sensors.get_value(chip, sf.number) + break + except sensors.SensorsError: + continue + if val is None: + continue + type_name = TYPE_MAP[feature.type] + if type_name in LIMITS: + limit = LIMITS[type_name] + if val < limit[0] or val > limit[1]: + continue + data[prefix + '_' + str(feature.name.decode())] = int(val * 1000) + except sensors.SensorsError as error: + self.error(error) + return None + + return data or None + + def create_definitions(self): + for sensor in ORDER: + for chip in sensors.ChipIterator(): + chip_name = sensors.chip_snprintf_name(chip) + if self.chips and not any([chip_name.startswith(ex) for ex in self.chips]): + continue + for feature in sensors.FeatureIterator(chip): + sfi = sensors.SubFeatureIterator(chip, feature) + vals = list() + for sf in sfi: + try: + vals.append(sensors.get_value(chip, sf.number)) + except sensors.SensorsError as error: + self.error('{0}: {1}'.format(sf.name, error)) + continue + if not vals or (vals[0] == 0 and feature.type != 1): + continue + if TYPE_MAP[feature.type] == sensor: + # create chart + name = chip_name + '_' + TYPE_MAP[feature.type] + if name not in self.order: + self.order.append(name) + chart_def = list(CHARTS[sensor]['options']) + chart_def[1] = chip_name + chart_def[1] + self.definitions[name] = {'options': chart_def} + self.definitions[name]['lines'] = [] + line = list(CHARTS[sensor]['lines'][0]) + line[0] = chip_name + '_' + str(feature.name.decode()) + line[1] = sensors.get_label(chip, feature) + self.definitions[name]['lines'].append(line) + + def check(self): + try: + sensors.init() + except sensors.SensorsError as error: + self.error(error) + return False + + self.create_definitions() + + return bool(self.get_data()) -- cgit v1.2.3