# SPDX-License-Identifier: LGPL-2.1 """ @package sensors.py Python Bindings for libsensors3 use the documentation of libsensors for the low level API. see example.py for high level API usage. @author: Pavel Rojtberg (http://www.rojtberg.net) @see: https://github.com/paroj/sensors.py @copyright: LGPLv2 (same as libsensors) """ from ctypes import * import ctypes.util _libc = cdll.LoadLibrary(ctypes.util.find_library("c")) # see https://github.com/paroj/sensors.py/issues/1 _libc.free.argtypes = [c_void_p] _hdl = cdll.LoadLibrary(ctypes.util.find_library("sensors")) version = c_char_p.in_dll(_hdl, "libsensors_version").value.decode("ascii") class SensorsError(Exception): pass class ErrorWildcards(SensorsError): pass class ErrorNoEntry(SensorsError): pass class ErrorAccessRead(SensorsError, OSError): pass class ErrorKernel(SensorsError, OSError): pass class ErrorDivZero(SensorsError, ZeroDivisionError): pass class ErrorChipName(SensorsError): pass class ErrorBusName(SensorsError): pass class ErrorParse(SensorsError): pass class ErrorAccessWrite(SensorsError, OSError): pass class ErrorIO(SensorsError, IOError): pass class ErrorRecursion(SensorsError): pass _ERR_MAP = { 1: ErrorWildcards, 2: ErrorNoEntry, 3: ErrorAccessRead, 4: ErrorKernel, 5: ErrorDivZero, 6: ErrorChipName, 7: ErrorBusName, 8: ErrorParse, 9: ErrorAccessWrite, 10: ErrorIO, 11: ErrorRecursion } def raise_sensor_error(errno, message=''): raise _ERR_MAP[abs(errno)](message) class bus_id(Structure): _fields_ = [("type", c_short), ("nr", c_short)] class chip_name(Structure): _fields_ = [("prefix", c_char_p), ("bus", bus_id), ("addr", c_int), ("path", c_char_p)] class feature(Structure): _fields_ = [("name", c_char_p), ("number", c_int), ("type", c_int)] # sensors_feature_type IN = 0x00 FAN = 0x01 TEMP = 0x02 POWER = 0x03 ENERGY = 0x04 CURR = 0x05 HUMIDITY = 0x06 MAX_MAIN = 0x7 VID = 0x10 INTRUSION = 0x11 MAX_OTHER = 0x12 BEEP_ENABLE = 0x18 class subfeature(Structure): _fields_ = [("name", c_char_p), ("number", c_int), ("type", c_int), ("mapping", c_int), ("flags", c_uint)] _hdl.sensors_get_detected_chips.restype = POINTER(chip_name) _hdl.sensors_get_features.restype = POINTER(feature) _hdl.sensors_get_all_subfeatures.restype = POINTER(subfeature) _hdl.sensors_get_label.restype = c_void_p # return pointer instead of str so we can free it _hdl.sensors_get_adapter_name.restype = c_char_p # docs do not say whether to free this or not _hdl.sensors_strerror.restype = c_char_p ### RAW API ### MODE_R = 1 MODE_W = 2 COMPUTE_MAPPING = 4 def init(cfg_file=None): file = _libc.fopen(cfg_file.encode("utf-8"), "r") if cfg_file is not None else None result = _hdl.sensors_init(file) if result != 0: raise_sensor_error(result, "sensors_init failed") if file is not None: _libc.fclose(file) def cleanup(): _hdl.sensors_cleanup() def parse_chip_name(orig_name): ret = chip_name() err = _hdl.sensors_parse_chip_name(orig_name.encode("utf-8"), byref(ret)) if err < 0: raise_sensor_error(err, strerror(err)) return ret def strerror(errnum): return _hdl.sensors_strerror(errnum).decode("utf-8") def free_chip_name(chip): _hdl.sensors_free_chip_name(byref(chip)) def get_detected_chips(match, nr): """ @return: (chip, next nr to query) """ _nr = c_int(nr) if match is not None: match = byref(match) chip = _hdl.sensors_get_detected_chips(match, byref(_nr)) chip = chip.contents if bool(chip) else None return chip, _nr.value def chip_snprintf_name(chip, buffer_size=200): """ @param buffer_size defaults to the size used in the sensors utility """ ret = create_string_buffer(buffer_size) err = _hdl.sensors_snprintf_chip_name(ret, buffer_size, byref(chip)) if err < 0: raise_sensor_error(err, strerror(err)) return ret.value.decode("utf-8") def do_chip_sets(chip): """ @attention this function was not tested """ err = _hdl.sensors_do_chip_sets(byref(chip)) if err < 0: raise_sensor_error(err, strerror(err)) def get_adapter_name(bus): return _hdl.sensors_get_adapter_name(byref(bus)).decode("utf-8") def get_features(chip, nr): """ @return: (feature, next nr to query) """ _nr = c_int(nr) feature = _hdl.sensors_get_features(byref(chip), byref(_nr)) feature = feature.contents if bool(feature) else None return feature, _nr.value def get_label(chip, feature): ptr = _hdl.sensors_get_label(byref(chip), byref(feature)) val = cast(ptr, c_char_p).value.decode("utf-8") _libc.free(ptr) return val def get_all_subfeatures(chip, feature, nr): """ @return: (subfeature, next nr to query) """ _nr = c_int(nr) subfeature = _hdl.sensors_get_all_subfeatures(byref(chip), byref(feature), byref(_nr)) subfeature = subfeature.contents if bool(subfeature) else None return subfeature, _nr.value def get_value(chip, subfeature_nr): val = c_double() err = _hdl.sensors_get_value(byref(chip), subfeature_nr, byref(val)) if err < 0: raise_sensor_error(err, strerror(err)) return val.value def set_value(chip, subfeature_nr, value): """ @attention this function was not tested """ val = c_double(value) err = _hdl.sensors_set_value(byref(chip), subfeature_nr, byref(val)) if err < 0: raise_sensor_error(err, strerror(err)) ### Convenience API ### class ChipIterator: def __init__(self, match=None): self.match = parse_chip_name(match) if match is not None else None self.nr = 0 def __iter__(self): return self def __next__(self): chip, self.nr = get_detected_chips(self.match, self.nr) if chip is None: raise StopIteration return chip def __del__(self): if self.match is not None: free_chip_name(self.match) def next(self): # python2 compability return self.__next__() class FeatureIterator: def __init__(self, chip): self.chip = chip self.nr = 0 def __iter__(self): return self def __next__(self): feature, self.nr = get_features(self.chip, self.nr) if feature is None: raise StopIteration return feature def next(self): # python2 compability return self.__next__() class SubFeatureIterator: def __init__(self, chip, feature): self.chip = chip self.feature = feature self.nr = 0 def __iter__(self): return self def __next__(self): subfeature, self.nr = get_all_subfeatures(self.chip, self.feature, self.nr) if subfeature is None: raise StopIteration return subfeature def next(self): # python2 compability return self.__next__()