/*************************************************************************** lmsensor.cpp - description ------------------- begin : Mon Aug 6 2001 copyright : (C) 2001 by email : ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * ***************************************************************************/ #include "lmsensor.h" #include "lmsensorschip.h" #include "stdio.h" LMSensor::LMSensor(SensorsList *parent): Sensor(parent) { feature= -1; } LMSensor::~LMSensor(){ } #if SENSORS_API_VERSION < 0x400 /* libsensor 3 code */ bool LMSensor::init(const sensors_feature_data **data, int *nr1,int *nr2) #else bool LMSensor::init(const sensors_feature **data, int *nr1, int *nr2) #endif { double min,max; const sensors_chip_name *chip_name= getChipName(); const char* main_name = (*data)->name; feature= (*data)->number; char *label = NULL; TQString uniqueSensorName; #if SENSORS_API_VERSION < 0x400 /* libsensor 3 code */ uniqueSensorName.sprintf("%s_%d_%d.%s", chip_name->prefix, chip_name->bus, chip_name->addr, main_name); #else uniqueSensorName.sprintf("%s_%d_%d.%s", chip_name->prefix, chip_name->bus.nr, chip_name->addr, main_name); #endif setName(uniqueSensorName.latin1()); #if SENSORS_API_VERSION < 0x400 /* libsensor 3 code */ bool min_found=false; bool max_found=false; while( (*data= sensors_get_all_features(*chip_name, nr1, nr2)) && (*data)->mapping!=SENSORS_NO_MAPPING) { int len = strlen((*data)->name); const char *postfix = (*data)->name + len - 4; if (len < 5) continue; if((!strcmp(postfix, "_min") || !strcmp(postfix, "_low")) && !sensors_get_feature(*chip_name, (*data)->number, &valMin)) min_found=true; if(!strcmp(postfix, "_max") && !sensors_get_feature(*chip_name, (*data)->number, &valMax)) { max_found=true; continue; } postfix--; if((!strcmp(postfix, "_over") || !strcmp(postfix, "_high")) && !sensors_get_feature(*chip_name, (*data)->number, &valMax)) max_found=true; } double newVal; if ((sensors_get_ignored(*chip_name, feature) != 1) || (sensors_get_feature(*chip_name, feature, &newVal) != 0)) { return false; } if (strstr(main_name, "temp")) { setType(lmTemp); max= 65; min= 0; } else if (strstr(main_name, "fan")) { setType(lmFan); max= 10000; min= 3000; } else if (strstr(main_name, "alarm") || strstr(main_name, "sensor") || strstr(main_name, "vrm")) { return false; } else { setType(lmVoltage); max= 16; min= -16; } sensors_get_label(*chip_name,feature,&label); if (label) { setDescription(TQString(label)); delete label; label = NULL; } else { setDescription(uniqueSensorName.latin1()); } if(min_found) min = valMin; if(max_found) max = valMax; #else /* libsensors4 code */ const sensors_subfeature *sub_feature; const sensors_feature *feature_data = *data; /* Move to next feature for the loop in LMSensorsChip::createSensors() */ *data = sensors_get_features(chip_name, nr1); switch(feature_data->type) { case SENSORS_FEATURE_IN: sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_IN_INPUT); if (!sub_feature) return false; feature = sub_feature->number; if (!(sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_IN_MIN)) || sensors_get_value(chip_name, sub_feature->number, &min)) min = -16; if (!(sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_IN_MAX)) || sensors_get_value(chip_name, sub_feature->number, &max)) max = 16; setType(lmVoltage); break; case SENSORS_FEATURE_FAN: sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_FAN_INPUT); if (!sub_feature) return false; feature = sub_feature->number; if (!(sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_FAN_MIN)) || sensors_get_value(chip_name, sub_feature->number, &min)) min = 3000; max = 10000; setType(lmFan); break; case SENSORS_FEATURE_TEMP: sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_TEMP_INPUT); if (!sub_feature) return false; feature = sub_feature->number; if (!(sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_TEMP_MIN)) || sensors_get_value(chip_name, sub_feature->number, &min)) min = 0; if ((!(sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_TEMP_MAX)) && !(sub_feature = sensors_get_subfeature(chip_name, feature_data, SENSORS_SUBFEATURE_TEMP_CRIT))) || sensors_get_value(chip_name, sub_feature->number, &max)) max = 65; setType(lmTemp); break; default: return false; } label = sensors_get_label(chip_name, feature_data); if (label) { setDescription(TQString(label)); delete label; label = NULL; } else setDescription( uniqueSensorName.latin1() ); #endif /* libsensors3 / libsensors4 code */ if(min>max) { double pivot= min; min= max; max= pivot; } setValueMax(max,dgCelsius); setValueMin(min,dgCelsius); readConfig(); updateValue(); setValueIdeal(getValue()); return true; } void LMSensor::updateValue() { setValue( readSensorValue(), dgCelsius ); } double LMSensor::readSensorValue() { double newVal; const sensors_chip_name *chip_name= getChipName(); #if SENSORS_API_VERSION < 0x400 /* libsensor 3 code */ sensors_get_feature(*chip_name, feature, &newVal); #else sensors_get_value(chip_name, feature, &newVal); #endif return newVal; } #define ABSOLUTE_VALUE(n) ( (n)>=0 ? (n) : -(n) ) #define TRUNCATE_VALUE(n) ( (double)(int)(n) ) double LMSensor::calculateIdealValue() { double value= readSensorValue(); if(getType()==lmVoltage) { double decimals= 10; double module = ABSOLUTE_VALUE(value); if(module>3.0) { if( ABSOLUTE_VALUE( 12.0-value)<2.0 ) return 12.0; if( ABSOLUTE_VALUE(-12.0-value)<2.0 ) return -12.0; if( ABSOLUTE_VALUE( 5.0-value)<1.0 ) return 5.0; if( ABSOLUTE_VALUE( -5.0-value)<1.0 ) return -5.0; if( ABSOLUTE_VALUE( 3.3-value)<0.3 ) return 3.3; if( ABSOLUTE_VALUE( -3.3-value)<0.3 ) return -3.3; if(module>4.0) decimals= 1; } return TRUNCATE_VALUE((value * decimals)) / decimals; } else { return value; } } const sensors_chip_name *LMSensor::getChipName() { return ((LMSensorsChip *)parent())->getChipName(); } #include "lmsensor.moc"