void HwmonDriver::writeEvents(mxml_node_t *root) const { root = mxmlNewElement(root, "category"); mxmlElementSetAttr(root, "name", "hwmon"); 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->getModifier() != 1) { mxmlElementSetAttrf(node, "modifier", "%d", counter->getModifier()); } if (strcmp(counter->getDisplay(), "average") == 0 || strcmp(counter->getDisplay(), "maximum") == 0) { mxmlElementSetAttr(node, "average_selection", "yes"); } snprintf(buf, sizeof(buf), "libsensors %s sensor %s (%s)", counter->getTitle(), counter->getLabel(), counter->getName()); mxmlElementSetAttr(node, "description", buf); } }
HwmonCounter::HwmonCounter(DriverCounter *next, char *const name, const sensors_chip_name *chip, const sensors_feature *feature) : DriverCounter(next, name), chip(chip), feature(feature), duplicate(false) { label = sensors_get_label(chip, feature); switch (feature->type) { case SENSORS_FEATURE_IN: title = "Voltage"; display = "maximum"; counter_class = "absolute"; unit = "V"; modifier = 1000; monotonic = false; break; case SENSORS_FEATURE_FAN: title = "Fan"; display = "average"; counter_class = "absolute"; unit = "RPM"; modifier = 1; monotonic = false; break; case SENSORS_FEATURE_TEMP: title = "Temperature"; display = "maximum"; counter_class = "absolute"; unit = "°C"; modifier = 1000; monotonic = false; break; case SENSORS_FEATURE_POWER: title = "Power"; display = "maximum"; counter_class = "absolute"; unit = "W"; modifier = 1000000; monotonic = false; break; case SENSORS_FEATURE_ENERGY: title = "Energy"; display = "accumulate"; counter_class = "delta"; unit = "J"; modifier = 1000000; monotonic = true; break; case SENSORS_FEATURE_CURR: title = "Current"; display = "maximum"; counter_class = "absolute"; unit = "A"; modifier = 1000; monotonic = false; break; case SENSORS_FEATURE_HUMIDITY: title = "Humidity"; display = "average"; counter_class = "absolute"; unit = "%"; modifier = 1000; monotonic = false; break; default: logg->logError(__FILE__, __LINE__, "Unsupported hwmon feature %i", feature->type); handleException(); } for (HwmonCounter * counter = static_cast<HwmonCounter *>(next); counter != NULL; counter = static_cast<HwmonCounter *>(counter->getNext())) { if (strcmp(label, counter->getLabel()) == 0 && strcmp(title, counter->getTitle()) == 0) { duplicate = true; counter->duplicate = true; break; } } }
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(HwmonCounter *next, const sensors_chip_name *chip, const sensors_feature *feature) : next(next), key(getEventKey()), polled(false), readable(false), enabled(false), duplicate(false), chip(chip), feature(feature) { 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", chip_name, feature->number) + 1; name = new char[len]; snprintf(name, len, "hwmon_%s_%d", chip_name, feature->number); delete [] chip_name; label = sensors_get_label(chip, feature); switch (feature->type) { case SENSORS_FEATURE_IN: title = "Voltage"; input = SENSORS_SUBFEATURE_IN_INPUT; display = "maximum"; counter_class = "absolute"; unit = "V"; modifier = 1000; monotonic = false; break; case SENSORS_FEATURE_FAN: title = "Fan"; input = SENSORS_SUBFEATURE_FAN_INPUT; display = "average"; counter_class = "absolute"; unit = "RPM"; modifier = 1; monotonic = false; break; case SENSORS_FEATURE_TEMP: title = "Temperature"; input = SENSORS_SUBFEATURE_TEMP_INPUT; display = "maximum"; counter_class = "absolute"; unit = "°C"; modifier = 1000; monotonic = false; break; case SENSORS_FEATURE_POWER: title = "Power"; input = SENSORS_SUBFEATURE_POWER_INPUT; display = "maximum"; counter_class = "absolute"; unit = "W"; modifier = 1000000; monotonic = false; break; case SENSORS_FEATURE_ENERGY: title = "Energy"; input = SENSORS_SUBFEATURE_ENERGY_INPUT; display = "accumulate"; counter_class = "delta"; unit = "J"; modifier = 1000000; monotonic = true; break; case SENSORS_FEATURE_CURR: title = "Current"; input = SENSORS_SUBFEATURE_CURR_INPUT; display = "maximum"; counter_class = "absolute"; unit = "A"; modifier = 1000; monotonic = false; break; case SENSORS_FEATURE_HUMIDITY: title = "Humidity"; input = SENSORS_SUBFEATURE_HUMIDITY_INPUT; display = "average"; counter_class = "absolute"; unit = "%"; modifier = 1000; monotonic = false; break; default: logg->logError(__FILE__, __LINE__, "Unsupported hwmon feature %i", feature->type); handleException(); } for (HwmonCounter * counter = next; counter != NULL; counter = counter->getNext()) { if (strcmp(label, counter->getLabel()) == 0 && strcmp(title, counter->getTitle()) == 0) { duplicate = true; counter->duplicate = true; break; } } }