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/**
* Copyright (C) ARM Limited 2013-2015. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#include "HwmonDriver.h"
#include "libsensors/sensors.h"
#include "Logging.h"
// feature->type to input map
static sensors_subfeature_type getInput(const sensors_feature_type type) {
switch (type) {
case SENSORS_FEATURE_IN: return SENSORS_SUBFEATURE_IN_INPUT;
case SENSORS_FEATURE_FAN: return SENSORS_SUBFEATURE_FAN_INPUT;
case SENSORS_FEATURE_TEMP: return SENSORS_SUBFEATURE_TEMP_INPUT;
case SENSORS_FEATURE_POWER: return SENSORS_SUBFEATURE_POWER_INPUT;
case SENSORS_FEATURE_ENERGY: return SENSORS_SUBFEATURE_ENERGY_INPUT;
case SENSORS_FEATURE_CURR: return SENSORS_SUBFEATURE_CURR_INPUT;
case SENSORS_FEATURE_HUMIDITY: return SENSORS_SUBFEATURE_HUMIDITY_INPUT;
default:
logg.logError("Unsupported hwmon feature %i", type);
handleException();
}
};
class HwmonCounter : public DriverCounter {
public:
HwmonCounter(DriverCounter *next, char *const name, const sensors_chip_name *chip, const sensors_feature *feature);
~HwmonCounter();
const char *getLabel() const { return mLabel; }
const char *getTitle() const { return mTitle; }
bool isDuplicate() const { return mDuplicate; }
const char *getDisplay() const { return mDisplay; }
const char *getCounterClass() const { return mCounterClass; }
const char *getUnit() const { return mUnit; }
double getMultiplier() const { return mMultiplier; }
int64_t read();
private:
void init(const sensors_chip_name *chip, const sensors_feature *feature);
const sensors_chip_name *mChip;
const sensors_feature *mFeature;
char *mLabel;
const char *mTitle;
const char *mDisplay;
const char *mCounterClass;
const char *mUnit;
double mPreviousValue;
double mMultiplier;
int mMonotonic: 1,
mDuplicate : 1;
// Intentionally unimplemented
HwmonCounter(const HwmonCounter &);
HwmonCounter &operator=(const HwmonCounter &);
};
HwmonCounter::HwmonCounter(DriverCounter *next, char *const name, const sensors_chip_name *const chip, const sensors_feature *feature) : DriverCounter(next, name), mChip(chip), mFeature(feature), mDuplicate(false) {
mLabel = sensors_get_label(mChip, mFeature);
switch (mFeature->type) {
case SENSORS_FEATURE_IN:
mTitle = "Voltage";
mDisplay = "maximum";
mCounterClass = "absolute";
mUnit = "V";
mMultiplier = 0.001;
mMonotonic = false;
break;
case SENSORS_FEATURE_FAN:
mTitle = "Fan";
mDisplay = "average";
mCounterClass = "absolute";
mUnit = "RPM";
mMultiplier = 1.0;
mMonotonic = false;
break;
case SENSORS_FEATURE_TEMP:
mTitle = "Temperature";
mDisplay = "maximum";
mCounterClass = "absolute";
mUnit = "°C";
mMultiplier = 0.001;
mMonotonic = false;
break;
case SENSORS_FEATURE_POWER:
mTitle = "Power";
mDisplay = "maximum";
mCounterClass = "absolute";
mUnit = "W";
mMultiplier = 0.000001;
mMonotonic = false;
break;
case SENSORS_FEATURE_ENERGY:
mTitle = "Energy";
mDisplay = "accumulate";
mCounterClass = "delta";
mUnit = "J";
mMultiplier = 0.000001;
mMonotonic = true;
break;
case SENSORS_FEATURE_CURR:
mTitle = "Current";
mDisplay = "maximum";
mCounterClass = "absolute";
mUnit = "A";
mMultiplier = 0.001;
mMonotonic = false;
break;
case SENSORS_FEATURE_HUMIDITY:
mTitle = "Humidity";
mDisplay = "average";
mCounterClass = "absolute";
mUnit = "%";
mMultiplier = 0.001;
mMonotonic = false;
break;
default:
logg.logError("Unsupported hwmon feature %i", mFeature->type);
handleException();
}
for (HwmonCounter * counter = static_cast<HwmonCounter *>(next); counter != NULL; counter = static_cast<HwmonCounter *>(counter->getNext())) {
if (strcmp(mLabel, counter->getLabel()) == 0 && strcmp(mTitle, counter->getTitle()) == 0) {
mDuplicate = true;
counter->mDuplicate = true;
break;
}
}
}
HwmonCounter::~HwmonCounter() {
free((void *)mLabel);
}
int64_t HwmonCounter::read() {
double value;
double result;
const sensors_subfeature *subfeature;
// Keep in sync with the read check in HwmonDriver::readEvents
subfeature = sensors_get_subfeature(mChip, mFeature, getInput(mFeature->type));
if (!subfeature) {
logg.logError("No input value for hwmon sensor %s", mLabel);
handleException();
}
if (sensors_get_value(mChip, subfeature->number, &value) != 0) {
logg.logError("Can't get input value for hwmon sensor %s", mLabel);
handleException();
}
result = (mMonotonic ? value - mPreviousValue : value);
mPreviousValue = value;
return result;
}
HwmonDriver::HwmonDriver() {
}
HwmonDriver::~HwmonDriver() {
sensors_cleanup();
}
void HwmonDriver::readEvents(mxml_node_t *const) {
int err = sensors_init(NULL);
if (err) {
logg.logSetup("Libsensors Disabled\nInitialize failed (%d)", err);
return;
}
sensors_sysfs_no_scaling = 1;
int chip_nr = 0;
const sensors_chip_name *chip;
while ((chip = sensors_get_detected_chips(NULL, &chip_nr))) {
int feature_nr = 0;
const sensors_feature *feature;
while ((feature = sensors_get_features(chip, &feature_nr))) {
// Keep in sync with HwmonCounter::read
// Can this counter be read?
double value;
const sensors_subfeature *const subfeature = sensors_get_subfeature(chip, feature, getInput(feature->type));
if ((subfeature == NULL) || (sensors_get_value(chip, subfeature->number, &value) != 0)) {
continue;
}
// Get the name of the counter
int len = sensors_snprintf_chip_name(NULL, 0, chip) + 1;
char *chip_name = new char[len];
sensors_snprintf_chip_name(chip_name, len, chip);
len = snprintf(NULL, 0, "hwmon_%s_%d_%d", chip_name, chip_nr, feature->number) + 1;
char *const name = new char[len];
snprintf(name, len, "hwmon_%s_%d_%d", chip_name, chip_nr, feature->number);
delete [] chip_name;
setCounters(new HwmonCounter(getCounters(), name, chip, feature));
}
}
}
void HwmonDriver::writeEvents(mxml_node_t *root) const {
root = mxmlNewElement(root, "category");
mxmlElementSetAttr(root, "name", "Hardware Monitor");
char buf[1024];
for (HwmonCounter *counter = static_cast<HwmonCounter *>(getCounters()); counter != NULL; counter = static_cast<HwmonCounter *>(counter->getNext())) {
mxml_node_t *node = mxmlNewElement(root, "event");
mxmlElementSetAttr(node, "counter", counter->getName());
mxmlElementSetAttr(node, "title", counter->getTitle());
if (counter->isDuplicate()) {
mxmlElementSetAttrf(node, "name", "%s (0x%x)", counter->getLabel(), counter->getKey());
} else {
mxmlElementSetAttr(node, "name", counter->getLabel());
}
mxmlElementSetAttr(node, "display", counter->getDisplay());
mxmlElementSetAttr(node, "class", counter->getCounterClass());
mxmlElementSetAttr(node, "units", counter->getUnit());
if (counter->getMultiplier() != 1.0) {
mxmlElementSetAttrf(node, "multiplier", "%lf", counter->getMultiplier());
}
if (strcmp(counter->getDisplay(), "average") == 0 || strcmp(counter->getDisplay(), "maximum") == 0) {
mxmlElementSetAttr(node, "average_selection", "yes");
}
mxmlElementSetAttr(node, "series_composition", "overlay");
mxmlElementSetAttr(node, "rendering_type", "line");
snprintf(buf, sizeof(buf), "libsensors %s sensor %s (%s)", counter->getTitle(), counter->getLabel(), counter->getName());
mxmlElementSetAttr(node, "description", buf);
}
}
void HwmonDriver::start() {
for (DriverCounter *counter = getCounters(); counter != NULL; counter = counter->getNext()) {
if (!counter->isEnabled()) {
continue;
}
counter->read();
}
}
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