#endif
-struct psensor *psensor_create(char *id, char *name,
- unsigned int type, int values_max_length)
+struct psensor *psensor_create(char *id,
+ char *name,
+ char *chip,
+ unsigned int type,
+ int values_max_length)
{
struct psensor *psensor
= (struct psensor *)malloc(sizeof(struct psensor));
psensor->id = id;
psensor->name = name;
+ psensor->chip = chip;
psensor->enabled = 1;
psensor->min = UNKNOWN_DBL_VALUE;
psensor->max = UNKNOWN_DBL_VALUE;
psensor->values_max_length = values_max_length;
psensor->measures = measures_dbl_create(values_max_length);
- psensor->alarm_limit = 0;
+ psensor->alarm_enabled = 0;
+ psensor->alarm_high_threshold = 0;
+ psensor->alarm_low_threshold = 0;
psensor->cb_alarm_raised = NULL;
psensor->cb_alarm_raised_data = NULL;
psensor->alarm_raised = 0;
- psensor->alarm_enabled = 0;
-
psensor->url = NULL;
psensor->color = NULL;
+ psensor->appindicator_enabled = 0;
+
return psensor;
}
void psensor_free(struct psensor *sensor)
{
if (sensor) {
+ log_debug("Cleanup %s", sensor->id);
+
free(sensor->name);
free(sensor->id);
+ if (sensor->chip)
+ free(sensor->chip);
+
if (sensor->color)
free(sensor->color);
return type & SENSOR_TYPE_FAN;
}
-char *psensor_value_to_string(unsigned int type, double value)
+double celcius_to_fahrenheit(double c)
+{
+ return c * (9.0/5.0) + 32;
+}
+
+double fahrenheit_to_celcius(double f)
+{
+ return (f - 32) * (5.0/9.0);
+}
+
+char *
+psensor_value_to_str(unsigned int type, double value, int use_celcius)
{
- /* should not be possible to exceed 20 characters with temp or
- rpm values the .x part is never displayed */
- char *str = malloc(20);
+ char *str;
+ const char *unit;
+
+ /*
+ * should not be possible to exceed 20 characters with temp or
+ * rpm values the .x part is never displayed
+ */
+ str = malloc(20);
- char *unit;
+ unit = psensor_type_to_unit_str(type, use_celcius);
- if (is_temp_type(type))
- unit = "C";
- else if (type & SENSOR_TYPE_CPU_USAGE)
- unit = "%";
- else
- unit = "";
+ if (!use_celcius)
+ value = celcius_to_fahrenheit(value);
sprintf(str, "%.0f%s", value, unit);
return str;
}
+char *
+psensor_measure_to_str(const struct measure *m,
+ unsigned int type,
+ unsigned int use_celcius)
+{
+ return psensor_value_to_str(type, m->value, use_celcius);
+}
+
void psensor_set_current_value(struct psensor *sensor, double value)
{
struct timeval tv;
&s->measures[1],
(s->values_max_length - 1) * sizeof(struct measure));
- s->measures[s->values_max_length - 1].value.d_num = v;
+ s->measures[s->values_max_length - 1].value = v;
s->measures[s->values_max_length - 1].time = tv;
if (s->min == UNKNOWN_DBL_VALUE || v < s->min)
if (s->max == UNKNOWN_DBL_VALUE || v > s->max)
s->max = v;
- if (s->alarm_limit && s->alarm_enabled) {
- if (v > s->alarm_limit) {
+ if (s->alarm_enabled) {
+ if (v > s->alarm_high_threshold || v < s->alarm_low_threshold) {
if (!s->alarm_raised && s->cb_alarm_raised)
- s->cb_alarm_raised(s,
- s->cb_alarm_raised_data);
+ s->cb_alarm_raised(s, s->cb_alarm_raised_data);
s->alarm_raised = 1;
} else {
double psensor_get_current_value(struct psensor *sensor)
{
- return sensor->measures[sensor->values_max_length - 1].value.d_num;
+ return sensor->measures[sensor->values_max_length - 1].value;
}
struct measure *psensor_get_current_measure(struct psensor *sensor)
double t;
for (i = 0; i < sensor->values_max_length; i++) {
- t = sensor->measures[i].value.d_num;
+ t = sensor->measures[i].value;
if (t == UNKNOWN_DBL_VALUE)
continue;
int i;
double t;
for (i = 0; i < sensor->values_max_length; i++) {
- t = sensor->measures[i].value.d_num;
+ t = sensor->measures[i].value;
if (t == UNKNOWN_DBL_VALUE)
continue;
return get_max_value(sensors, SENSOR_TYPE_TEMP);
}
-struct psensor **get_all_sensors(int values_max_length)
+struct psensor **get_all_sensors(int use_libatasmart, int values_max_length)
{
- struct psensor **psensors = NULL;
+ struct psensor **psensors;
struct psensor **tmp_psensors;
psensors = lmsensor_psensor_list_add(NULL, values_max_length);
- tmp_psensors = hdd_psensor_list_add(psensors, values_max_length);
- if (tmp_psensors != psensors) {
- free(psensors);
- psensors = tmp_psensors;
+ if (!use_libatasmart) {
+ tmp_psensors = hddtemp_psensor_list_add(psensors,
+ values_max_length);
+ if (tmp_psensors != psensors) {
+ free(psensors);
+ psensors = tmp_psensors;
+ }
}
+#ifdef HAVE_ATASMART
+ else {
+ tmp_psensors = hdd_psensor_list_add(psensors,
+ values_max_length);
+ if (tmp_psensors != psensors) {
+ free(psensors);
+ psensors = tmp_psensors;
+ }
+ }
+#endif
if (!psensors) { /* there is no detected sensors */
psensors = malloc(sizeof(struct psensor *));
const char *psensor_type_to_str(unsigned int type)
{
- if ((type & SENSOR_TYPE_NVIDIA_TEMP) == SENSOR_TYPE_NVIDIA_TEMP)
- return "NVidia GPU Temperature";
-
- if ((type & SENSOR_TYPE_AMD_TEMP) == SENSOR_TYPE_AMD_TEMP)
- return "AMD GPU Temperature";
-
- if ((type & SENSOR_TYPE_AMD_FAN) == SENSOR_TYPE_AMD_FAN)
- return "AMD GPU Fan Speed";
+ if (type & SENSOR_TYPE_NVCTRL)
+ return "NVidia GPU";
+
+ if (type & SENSOR_TYPE_ATIADL) {
+ if (type & SENSOR_TYPE_TEMP)
+ return "AMD GPU Temperature";
+ else if (type & SENSOR_TYPE_RPM)
+ return "AMD GPU Fan Speed";
+ else /* type & SENSOR_TYPE_USAGE */
+ return "AMD GPU Usage";
+ }
if ((type & SENSOR_TYPE_HDD_TEMP) == SENSOR_TYPE_HDD_TEMP)
return "HDD Temperature";
- if (type & SENSOR_TYPE_CPU_USAGE)
+ if ((type & SENSOR_TYPE_CPU_USAGE) == SENSOR_TYPE_CPU_USAGE)
return "CPU Usage";
if (type & SENSOR_TYPE_TEMP)
if (type & SENSOR_TYPE_FAN)
return "Fan";
+ if (type & SENSOR_TYPE_CPU)
+ return "CPU";
+
if (type & SENSOR_TYPE_REMOTE)
return "Remote";
- return "N/A"; /* should not be possible */
+ return "N/A";
}
-const char *psensor_type_to_unit_str(unsigned int type)
+const char *psensor_type_to_unit_str(unsigned int type, int use_celcius)
{
- if (type & SENSOR_TYPE_TEMP)
- return _("C");
-
- if (type & SENSOR_TYPE_FAN)
+ if (is_temp_type(type)) {
+ if (use_celcius)
+ return "\302\260C";
+ else
+ return "\302\260F";
+ } else if (is_fan_type(type)) {
return _("RPM");
-
- if (type & SENSOR_TYPE_CPU_USAGE)
+ } else if (type & SENSOR_TYPE_CPU_USAGE) {
return _("%");
-
- return "N/A";
+ } else {
+ return _("N/A");
+ }
}
void psensor_list_update_measures(struct psensor **sensors)
cpu_psensor_list_update(sensors);
#endif
- if (psensor_list_contains_type(sensors, SENSOR_TYPE_HDD_TEMP_HDDTEMP)
- || psensor_list_contains_type(sensors,
- SENSOR_TYPE_HDD_TEMP_ATASMART))
+ if (psensor_list_contains_type(sensors, SENSOR_TYPE_HDDTEMP))
+ hddtemp_psensor_list_update(sensors);
+
+#ifdef HAVE_ATASMART
+ if (psensor_list_contains_type(sensors, SENSOR_TYPE_ATASMART))
hdd_psensor_list_update(sensors);
+#endif
+}
+
+void psensor_log_measures(struct psensor **sensors)
+{
+ if (log_level == LOG_DEBUG)
+ while (*sensors) {
+ log_debug("Measure: %s %.2f",
+ (*sensors)->name,
+ psensor_get_current_value(*sensors));
+
+ sensors++;
+ }
}
void psensor_init()