Fix NetBSD CPU temp gauge bug
This patch fixes a bug in which multiple (conflicting) CPU temps may be included in the output for the "cpu temperature" module. The bug is due to the way that the code parsed the envsys(4)-returned data, and would manifest itself on x86-based NetBSD machines, since those use cputemp(4) as well as acpitz(4), thereby creating multiple envsys(4) entries with identical descriptions but which refer to different physical sensors. Instead of matching the description attribute of each device returned by envsys(4) against the target format, this patch throws away non-matching keys in the first instruction inside the dict walk. This has the benefit of sparing unnecessary CPU cycles, and preventing other sensors from being included erroneously. Additionally, the THERMAL_ZONE format is now joined with OpenBSD in that it uses acpitz(4) explicitly. This is prefered since it is much older (dating back to NetBSD 2.0), and does not exclude x86-based users (as with cputemp(4)).
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@ -30,12 +30,9 @@ enum { O_DZEN2, O_XMOBAR, O_I3BAR, O_TERM, O_NONE } output_format;
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#define BATT_TIME "hw.acpi.battery.time"
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#define BATT_STATE "hw.acpi.battery.state"
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#elif defined(__OpenBSD__)
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#elif defined(__OpenBSD__) || defined(__NetBSD__)
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/* Default to acpitz(4) if no path is set. */
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#define THERMAL_ZONE "acpitz%d"
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#elif defined(__NetBSD__)
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/* Rely on envsys(4). The key of the sensor is generally cpu%d temperature */
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#define THERMAL_ZONE "cpu%d temperature"
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#endif
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#if defined(__FreeBSD_kernel__) && defined(__GLIBC__)
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@ -167,7 +167,6 @@ void print_cpu_temperature_info(yajl_gen json_gen, char *buffer, int zone, const
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goto error_netbsd2;
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}
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/* print sensors for all devices registered */
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iter = prop_dictionary_iterator(dict);
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if (iter == NULL) {
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err = true;
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@ -176,39 +175,43 @@ void print_cpu_temperature_info(yajl_gen json_gen, char *buffer, int zone, const
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/* iterate over the dictionary returned by the kernel */
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while ((obj = prop_object_iterator_next(iter)) != NULL) {
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/* skip this dict if it's not what we're looking for */
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if ((strlen(prop_dictionary_keysym_cstring_nocopy(obj)) != strlen(thermal_zone)) ||
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(strncmp(thermal_zone,
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prop_dictionary_keysym_cstring_nocopy(obj),
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strlen(thermal_zone)) != 0))
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continue;
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array = prop_dictionary_get_keysym(dict, obj);
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if (prop_object_type(array) != PROP_TYPE_ARRAY) {
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err = true;
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goto error_netbsd3;
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}
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iter2 = prop_array_iterator(array);
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if (!iter2) {
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err = true;
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goto error_netbsd3;
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}
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/* iterate over the array of dictionaries */
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/* iterate over array of dicts specific to target sensor */
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while ((obj2 = prop_object_iterator_next(iter2)) != NULL) {
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obj3 = prop_dictionary_get(obj2, "description");
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if (obj3 &&
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strcmp(thermal_zone, prop_string_cstring_nocopy(obj3)) == 0)
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{
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obj3 = prop_dictionary_get(obj2, "cur-value");
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float temp = MUKTOC(prop_number_integer_value(obj3));
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if ((int)temp >= max_threshold) {
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START_COLOR("color_bad");
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colorful_output = true;
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}
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obj3 = prop_dictionary_get(obj2, "cur-value");
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outwalk += sprintf(outwalk, "%.2f", temp);
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if (colorful_output) {
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END_COLOR;
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colorful_output = false;
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}
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break;
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float temp = MUKTOC(prop_number_integer_value(obj3));
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if ((int)temp >= max_threshold) {
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START_COLOR("color_bad");
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colorful_output = true;
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}
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outwalk += sprintf(outwalk, "%.2f", temp);
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if (colorful_output) {
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END_COLOR;
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colorful_output = false;
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}
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break;
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}
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prop_object_iterator_release(iter2);
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}
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