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https://github.com/xzeldon/htop.git
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249 lines
6.8 KiB
C
249 lines
6.8 KiB
C
#include "linux/LibSensors.h"
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#ifdef HAVE_SENSORS_SENSORS_H
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#include <dlfcn.h>
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#include <errno.h>
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#include <math.h>
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#include <sensors/sensors.h>
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#include "XUtils.h"
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#ifdef BUILD_STATIC
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#define sym_sensors_init sensors_init
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#define sym_sensors_cleanup sensors_cleanup
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#define sym_sensors_get_detected_chips sensors_get_detected_chips
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#define sym_sensors_get_features sensors_get_features
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#define sym_sensors_get_subfeature sensors_get_subfeature
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#define sym_sensors_get_value sensors_get_value
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#else
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static int (*sym_sensors_init)(FILE*);
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static void (*sym_sensors_cleanup)(void);
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static const sensors_chip_name* (*sym_sensors_get_detected_chips)(const sensors_chip_name*, int*);
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static const sensors_feature* (*sym_sensors_get_features)(const sensors_chip_name*, int*);
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static const sensors_subfeature* (*sym_sensors_get_subfeature)(const sensors_chip_name*, const sensors_feature*, sensors_subfeature_type);
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static int (*sym_sensors_get_value)(const sensors_chip_name*, int, double*);
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static void* dlopenHandle = NULL;
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#endif /* BUILD_STATIC */
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int LibSensors_init(FILE* input) {
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#ifdef BUILD_STATIC
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return sym_sensors_init(input);
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#else
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if (!dlopenHandle) {
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/* Find the unversioned libsensors.so (symlink) and prefer that, but Debian has .so.5 and Fedora .so.4 without
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matching symlinks (unless people install the -dev packages) */
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dlopenHandle = dlopen("libsensors.so", RTLD_LAZY);
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if (!dlopenHandle)
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dlopenHandle = dlopen("libsensors.so.5", RTLD_LAZY);
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if (!dlopenHandle)
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dlopenHandle = dlopen("libsensors.so.4", RTLD_LAZY);
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if (!dlopenHandle)
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goto dlfailure;
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/* Clear any errors */
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dlerror();
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#define resolve(symbolname) do { \
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*(void **)(&sym_##symbolname) = dlsym(dlopenHandle, #symbolname); \
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if (!sym_##symbolname || dlerror() != NULL) \
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goto dlfailure; \
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} while(0)
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resolve(sensors_init);
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resolve(sensors_cleanup);
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resolve(sensors_get_detected_chips);
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resolve(sensors_get_features);
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resolve(sensors_get_subfeature);
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resolve(sensors_get_value);
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#undef resolve
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}
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return sym_sensors_init(input);
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dlfailure:
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if (dlopenHandle) {
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dlclose(dlopenHandle);
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dlopenHandle = NULL;
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}
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return -1;
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#endif /* BUILD_STATIC */
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}
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void LibSensors_cleanup(void) {
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#ifdef BUILD_STATIC
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sym_sensors_cleanup();
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#else
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if (dlopenHandle) {
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sym_sensors_cleanup();
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dlclose(dlopenHandle);
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dlopenHandle = NULL;
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}
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#endif /* BUILD_STATIC */
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}
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static int tempDriverPriority(const sensors_chip_name* chip) {
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static const struct TempDriverDefs {
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const char* prefix;
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int priority;
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} tempDrivers[] = {
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{ "coretemp", 0 },
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{ "via_cputemp", 0 },
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{ "cpu_thermal", 0 },
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{ "k10temp", 0 },
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{ "zenpower", 0 },
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/* Low priority drivers */
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{ "acpitz", 1 },
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};
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for (size_t i = 0; i < ARRAYSIZE(tempDrivers); i++)
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if (String_eq(chip->prefix, tempDrivers[i].prefix))
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return tempDrivers[i].priority;
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return -1;
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}
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void LibSensors_getCPUTemperatures(CPUData* cpus, unsigned int cpuCount) {
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assert(cpuCount > 0 && cpuCount < 16384);
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double data[cpuCount + 1];
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for (size_t i = 0; i < cpuCount + 1; i++)
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data[i] = NAN;
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#ifndef BUILD_STATIC
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if (!dlopenHandle)
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goto out;
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#endif /* !BUILD_STATIC */
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unsigned int coreTempCount = 0;
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int topPriority = 99;
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int n = 0;
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for (const sensors_chip_name* chip = sym_sensors_get_detected_chips(NULL, &n); chip; chip = sym_sensors_get_detected_chips(NULL, &n)) {
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const int priority = tempDriverPriority(chip);
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if (priority < 0)
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continue;
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if (priority > topPriority)
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continue;
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if (priority < topPriority) {
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/* Clear data from lower priority sensor */
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for (size_t i = 0; i < cpuCount + 1; i++)
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data[i] = NAN;
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}
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topPriority = priority;
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int m = 0;
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for (const sensors_feature* feature = sym_sensors_get_features(chip, &m); feature; feature = sym_sensors_get_features(chip, &m)) {
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if (feature->type != SENSORS_FEATURE_TEMP)
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continue;
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if (!feature->name || !String_startsWith(feature->name, "temp"))
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continue;
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unsigned long int tempID = strtoul(feature->name + strlen("temp"), NULL, 10);
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if (tempID == 0 || tempID == ULONG_MAX)
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continue;
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/* Feature name IDs start at 1, adjust to start at 0 to match data indices */
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tempID--;
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if (tempID > cpuCount)
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continue;
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const sensors_subfeature* subFeature = sym_sensors_get_subfeature(chip, feature, SENSORS_SUBFEATURE_TEMP_INPUT);
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if (!subFeature)
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continue;
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double temp;
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int r = sym_sensors_get_value(chip, subFeature->number, &temp);
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if (r != 0)
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continue;
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/* If already set, e.g. Ryzen reporting platform temperature for each die, use the bigger one */
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if (isnan(data[tempID])) {
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data[tempID] = temp;
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if (tempID > 0)
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coreTempCount++;
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} else {
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data[tempID] = MAXIMUM(data[tempID], temp);
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}
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}
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}
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/* Adjust data for chips not providing a platform temperature */
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if (coreTempCount + 1 == cpuCount || coreTempCount + 1 == cpuCount / 2) {
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memmove(&data[1], &data[0], cpuCount * sizeof(*data));
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data[0] = NAN;
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coreTempCount++;
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/* Check for further adjustments */
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}
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/* Only package temperature - copy to all cores */
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if (coreTempCount == 0 && !isnan(data[0])) {
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for (unsigned int i = 1; i <= cpuCount; i++)
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data[i] = data[0];
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/* No further adjustments */
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goto out;
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}
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/* No package temperature - set to max core temperature */
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if (isnan(data[0]) && coreTempCount != 0) {
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double maxTemp = NAN;
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for (unsigned int i = 1; i <= cpuCount; i++) {
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if (isnan(data[i]))
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continue;
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maxTemp = MAXIMUM(maxTemp, data[i]);
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}
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data[0] = maxTemp;
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/* Check for further adjustments */
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}
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/* Only temperature for core 0, maybe Ryzen - copy to all other cores */
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if (coreTempCount == 1 && !isnan(data[1])) {
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for (unsigned int i = 2; i <= cpuCount; i++)
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data[i] = data[1];
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/* No further adjustments */
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goto out;
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}
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/* Half the temperatures, probably HT/SMT - copy to second half */
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const unsigned int delta = cpuCount / 2;
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if (coreTempCount == delta) {
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memcpy(&data[delta + 1], &data[1], delta * sizeof(*data));
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/* No further adjustments */
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goto out;
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}
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out:
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for (unsigned int i = 0; i <= cpuCount; i++)
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cpus[i].temperature = data[i];
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}
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#endif /* HAVE_SENSORS_SENSORS_H */
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