$entry) { if ($entry['npSmokePower'] === 'off') { continue; } $oid = '.1.3.6.1.4.1.25728.8200.1.1.2.' . $index; $descr = $entry['npSmokeMemo'] ?: 'Smoke ' . $index; $value = $entry['npSmokeStatus']; if ($value) { discover_status($device, $oid, 'npSmokeStatus.' . $index, 'dskf-mib-smoke-state', $descr, $value, [ 'entPhysicalClass' => 'other' ]); } } /* $cache_discovery['DKSF-PWR-OLD-MIB']['loop'] = snmpwalk_cache_oid($device, 'npCurLoopTable', array(), 'DKSF-PWR-OLD-MIB'); foreach ($cache_discovery['DKSF-PWR-OLD-MIB']['loop'] as $index => $entry) { if ($entry['npCurLoopPower'] == 'off' || $entry['npCurLoopStatus'] == 'notPowered') { continue; } $descr = 'Analog Smoke '.$index; // Loop state $oid = '.1.3.6.1.4.1.25728.8300.1.1.2.'.$index; $value = $entry['npCurLoopStatus']; if ($value) { discover_status($device, $oid, 'npCurLoopStatus.'.$index, 'dskf-mib-loop-state', $descr, $value, array('entPhysicalClass' => 'other')); } // Loop current $oid = '.1.3.6.1.4.1.25728.8300.1.1.3.'.$index; $value = $entry['npCurLoopI']; if ($value) { discover_sensor('current', $device, $oid, 'npCurLoopI.'.$index, 'dskf-mib-loop', $descr, 0.001, $value); } // Loop voltage $oid = '.1.3.6.1.4.1.25728.8300.1.1.4.'.$index; $value = $entry['npCurLoopV']; if ($value) { discover_sensor('voltage', $device, $oid, 'npCurLoopV.'.$index, 'dskf-mib-loop', $descr, 0.001, $value); } // Loop resistance $oid = '.1.3.6.1.4.1.25728.8300.1.1.5.'.$index; $value = $entry['npCurLoopR']; if ($value && $value < 99999) { discover_sensor('resistance', $device, $oid, 'npCurLoopR.'.$index, 'dskf-mib-loop', $descr, 1, $value); } } */ $cache_discovery['DKSF-PWR-OLD-MIB']['temphum'] = snmpwalk_cache_oid($device, 'npRelHumidity', [], 'DKSF-PWR-OLD-MIB'); foreach ($cache_discovery['DKSF-PWR-OLD-MIB']['temphum'] as $index => $entry) { // Temperature $descr = 'Temperature ' . $index; $value = $entry['npRelHumSensorValueT100']; if ($value && $entry['npRelHumSensorStatus'] != 'error') { $oid = '.1.3.6.1.4.1.25728.8400.2.9.' . $index; discover_sensor('temperature', $device, $oid, "npRelHumSensorValueT100.$index", 'dskf-mib', $descr, 0.01, $value); } // Humidity $descr = 'Humidity ' . $index; $value = $entry['npRelHumSensorValueH']; if ($value >= 0 && $entry['npRelHumSensorStatusH'] != 'sensorFailed') { $oid = '.1.3.6.1.4.1.25728.8400.2.2.' . $index; $limits = [ 'limit_high' => $entry['npRelHumSafeRangeHigh'], 'limit_low' => $entry['npRelHumSafeRangeLow'] ]; discover_sensor('humidity', $device, $oid, "npRelHumSensorValueH.$index", 'dskf-mib', $descr, 1, $value, $limits); } } /* Moved to DEF $cache_discovery['DKSF-PWR-OLD-MIB']['thermo'] = snmpwalk_cache_oid($device, 'npThermoTable', array(), 'DKSF-PWR-OLD-MIB'); foreach ($cache_discovery['DKSF-PWR-OLD-MIB']['thermo'] as $index => $entry) { // Temperature $descr = ($entry['npThermoMemo'] ? $entry['npThermoMemo'] : 'Thermo '.$index); $value = $entry['npThermoValue']; if ($value && $entry['npThermoStatus'] != 'failed') { $oid = '.1.3.6.1.4.1.25728.8800.1.1.2.'.$index; $limits = array('limit_high' => $entry['npThermoHigh'], 'limit_low' => $entry['npThermoLow']); discover_sensor('temperature', $device, $oid, "npThermoValue.$index", 'dskf-mib', $descr, 1, $value, $limits); } } */ $cache_discovery['DKSF-PWR-OLD-MIB']['io'] = snmpwalk_cache_oid($device, 'npIoTable', [], 'DKSF-PWR-OLD-MIB'); foreach ($cache_discovery['DKSF-PWR-OLD-MIB']['io'] as $index => $entry) { if ($entry['npIoLevelIn'] == '0') { continue; } $descr = $entry['npIoMemo'] ?: 'Pulse Counter ' . $index; $descr .= ' (' . $entry['npIoSinglePulseDuration'] . 'ms)'; $oid_name = 'npIoPulseCounter'; $value = $entry['npIoPulseCounter']; $oid = '.1.3.6.1.4.1.25728.8900.1.1.9.' . $index; //discover_sensor('counter', $device, $oid, "npIoPulseCounter.$index", 'dskf-mib', $descr, 1, $value); discover_counter($device, 'counter', $mib, $oid_name, $oid, $index, $descr, 1, $value); } print_debug_vars($cache_discovery['DKSF-PWR-OLD-MIB']); unset($cache_discovery['DKSF-PWR-OLD-MIB']); // EOF