392 lines
21 KiB
PHP
392 lines
21 KiB
PHP
<?php
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/**
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* Observium
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*
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* This file is part of Observium.
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*
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* @package observium
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* @subpackage discovery
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* @copyright (C) Adam Armstrong
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*
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*/
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/*
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableTransceiverTemp = INTEGER: 22
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableTransceiverSupply = INTEGER: 3290100
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableTxBias = INTEGER: 9900
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableTxOutput = INTEGER: -5515
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableRxOpticalPower = INTEGER: -8986
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableDataReady = INTEGER: 1
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableLOS = INTEGER: 0
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableTxFault = INTEGER: 0
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableSFPEepromQualified = INTEGER: 2
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableRxOpticalPower1 = INTEGER: -8986
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableRxOpticalPower2 = INTEGER: -8986
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableRxOpticalPower3 = INTEGER: -8986
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableTxBias1 = INTEGER: 9888
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableTxBias2 = INTEGER: 9892
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableTxBias3 = INTEGER: 9892
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableLOS1 = INTEGER: 0
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableLOS2 = INTEGER: 0
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RADLAN-PHY-MIB::rlPhyTestGetResult.49.rlPhyTestTableLOS3 = INTEGER: 0
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableTransceiverTemp = INTEGER: degree(7)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableTransceiverSupply = INTEGER: microVolt(8)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableTxBias = INTEGER: microAmper(10)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableTxOutput = INTEGER: milidbm(17)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableRxOpticalPower = INTEGER: milidbm(17)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableDataReady = INTEGER: boolean(2)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableLOS = INTEGER: boolean(2)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableTxFault = INTEGER: boolean(2)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableSFPEepromQualified = INTEGER: boolean(2)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableRxOpticalPower1 = INTEGER: milidbm(17)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableRxOpticalPower2 = INTEGER: milidbm(17)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableRxOpticalPower3 = INTEGER: milidbm(17)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableTxBias1 = INTEGER: microAmper(10)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableTxBias2 = INTEGER: microAmper(10)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableTxBias3 = INTEGER: microAmper(10)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableLOS1 = INTEGER: boolean(2)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableLOS2 = INTEGER: boolean(2)
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RADLAN-PHY-MIB::rlPhyTestGetUnits.49.rlPhyTestTableLOS3 = INTEGER: boolean(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableTransceiverTemp = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableTransceiverSupply = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableTxBias = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableTxOutput = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableRxOpticalPower = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableDataReady = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableLOS = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableTxFault = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableSFPEepromQualified = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableRxOpticalPower1 = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableRxOpticalPower2 = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableRxOpticalPower3 = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableTxBias1 = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableTxBias2 = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableTxBias3 = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableLOS1 = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableLOS2 = INTEGER: success(2)
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RADLAN-PHY-MIB::rlPhyTestGetStatus.49.rlPhyTestTableLOS3 = INTEGER: success(2)
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*/
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$oids = snmpwalk_cache_twopart_oid($device, 'rlPhyTestGetResult', [], 'RADLAN-PHY-MIB');
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$oids = snmpwalk_cache_twopart_oid($device, 'rlPhyTestGetStatus', $oids, 'RADLAN-PHY-MIB');
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$new_oids = [];
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foreach ($oids as $index => $entry) {
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// Skip all non-dom entries
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if (!isset($entry['rlPhyTestTableTransceiverTemp']) || $entry['rlPhyTestTableTransceiverTemp']['rlPhyTestGetResult'] == 0) {
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continue;
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}
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$new_oids[$index] = $entry;
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// Detect multilane
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$multilane = FALSE;
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if (isset($entry['rlPhyTestTableRxOpticalPower1']) && in_array($entry['rlPhyTestTableRxOpticalPower1']['rlPhyTestGetStatus'], ['success', 'inProgress'])) {
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// FIXME. Seems as incorrectly report as multi-lane
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//$multilane = TRUE;
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}
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$new_oids[$index]['multilane'] = $multilane;
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}
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if (count($new_oids) == 0) {
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// Stop walk if not exist DOM sensors
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return;
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}
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// Get additional OIDs
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$oids = snmpwalk_cache_twopart_oid($device, 'rlPhyTestGetUnits', $oids, 'RADLAN-PHY-MIB');
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// Vendor specific
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$extra_oids = [];
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdType.49.temperature = INTEGER: temperature(0)
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdType.49.supply = INTEGER: supply(1)
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdType.49.txBias = INTEGER: txBias(2)
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdType.49.txOutput = INTEGER: txOutput(3)
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdType.49.rxOpticalPower = INTEGER: txOutput(3)
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighAlarm.49.temperature = INTEGER: 90
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighAlarm.49.supply = INTEGER: 3600000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighAlarm.49.txBias = INTEGER: 65000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighAlarm.49.txOutput = INTEGER: 999
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighAlarm.49.rxOpticalPower = INTEGER: 999
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighWarning.49.temperature = INTEGER: 85
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighWarning.49.supply = INTEGER: 3500000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighWarning.49.txBias = INTEGER: 55000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighWarning.49.txOutput = INTEGER: -3000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdHighWarning.49.rxOpticalPower = INTEGER: -3000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowWarning.49.temperature = INTEGER: -5
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowWarning.49.supply = INTEGER: 3100000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowWarning.49.txBias = INTEGER: 3000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowWarning.49.txOutput = INTEGER: -9501
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowWarning.49.rxOpticalPower = INTEGER: -18997
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowAlarm.49.temperature = INTEGER: -10
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowAlarm.49.supply = INTEGER: 3000000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowAlarm.49.txBias = INTEGER: 1000
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowAlarm.49.txOutput = INTEGER: -13497
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// ELTEX-MES-PHYSICAL-DESCRIPTION-MIB::eltPhdTransceiverThresholdLowAlarm.49.rxOpticalPower = INTEGER: -23011
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$oids = snmpwalk_cache_twopart_oid($device, 'eltPhdTransceiverThresholdTable', $oids, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB');
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}
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print_debug_vars($oids);
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foreach ($new_oids as $ifIndex => $entry1) {
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$multilane = $entry1['multilane'];
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foreach ($oids[$ifIndex] as $oid_name => $entry) {
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if (!in_array($entry['rlPhyTestGetStatus'], ['success', 'inProgress'])) {
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continue;
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}
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if (str_starts_with($entry['rlPhyTestGetUnits'], 'micro')) {
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$scale = si_to_scale('micro');
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} elseif (str_starts_with($entry['rlPhyTestGetUnits'], 'mili')) {
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$scale = si_to_scale('milli');
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} elseif (str_starts_with($entry['rlPhyTestGetUnits'], 'deci')) {
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$scale = si_to_scale('deci');
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} else {
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$scale = 1;
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}
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$entry['ifIndex'] = $ifIndex;
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$match = ['measured_match' => ['entity_type' => 'port', 'field' => 'ifIndex', 'match' => '%ifIndex%']];
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$options = entity_measured_match_definition($device, $match, $entry);
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//print_debug_vars($options);
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$name = $options['port_label'];
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switch ($oid_name) {
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case 'rlPhyTestTableTransceiverTemp':
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$descr = $name . " Temperature";
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$index = $ifIndex . '.5';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'temperature';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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$entry_limits = $oids[$ifIndex]['temperature'];
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$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'];
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$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'];
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$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'];
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$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'];
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}
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break;
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case 'rlPhyTestTableTransceiverSupply':
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$descr = $name . " Voltage";
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$index = $ifIndex . '.6';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'voltage';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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// microVolt
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$entry_limits = $oids[$ifIndex]['supply'];
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$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.000001;
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$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.000001;
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$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.000001;
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$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.000001;
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}
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break;
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case 'rlPhyTestTableTxBias':
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if ($multilane) {
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$name .= " Lane 1";
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}
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$descr = $name . " Tx Bias";
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$index = $ifIndex . '.7';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'current';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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// microAmper
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$entry_limits = $oids[$ifIndex]['txBias'];
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$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.000001;
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$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.000001;
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$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.000001;
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$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.000001;
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}
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break;
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case 'rlPhyTestTableTxBias1':
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if (!$multilane) {
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continue 2;
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} // Skip when not multi-lane
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$name .= " Lane 2";
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$descr = $name . " Tx Bias";
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$index = $ifIndex . '.30';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'current';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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// microAmper
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$entry_limits = $oids[$ifIndex]['txBias'];
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$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.000001;
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$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.000001;
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$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.000001;
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$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.000001;
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}
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break;
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case 'rlPhyTestTableTxBias2':
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if (!$multilane) {
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continue 2;
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} // Skip when not multi-lane
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$name .= " Lane 3";
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$descr = $name . " Tx Bias";
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$index = $ifIndex . '.31';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'current';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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// microAmper
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$entry_limits = $oids[$ifIndex]['txBias'];
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$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.000001;
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$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.000001;
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$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.000001;
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$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.000001;
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}
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break;
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case 'rlPhyTestTableTxBias3':
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if (!$multilane) {
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continue 2;
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} // Skip when not multi-lane
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$name .= " Lane 4";
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$descr = $name . " Tx Bias";
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$index = $ifIndex . '.32';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'current';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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// microAmper
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$entry_limits = $oids[$ifIndex]['txBias'];
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$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.000001;
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$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.000001;
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$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.000001;
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$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.000001;
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}
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break;
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case 'rlPhyTestTableTxOutput':
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$descr = $name . " TX Power";
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$index = $ifIndex . '.8';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'dbm';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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// microWatt (really milli dBm)
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$entry_limits = $oids[$ifIndex]['txOutput'];
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// $options['limit_unit'] = 'W';
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$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.001;
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$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.001;
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$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.001;
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$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.001;
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}
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break;
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case 'rlPhyTestTableRxOpticalPower':
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if ($multilane) {
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$name .= " Lane 1";
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}
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$descr = $name . " RX Power";
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$index = $ifIndex . '.9';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'dbm';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
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// microWatt
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$entry_limits = $oids[$ifIndex]['rxOpticalPower'];
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// $options['limit_unit'] = 'W';
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$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.001;
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$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.001;
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$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.001;
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$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.001;
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}
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break;
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case 'rlPhyTestTableRxOpticalPower1':
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if (!$multilane) {
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continue 2;
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} // Skip when not multi-lane
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$name .= " Lane 2";
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$descr = $name . " RX Power";
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$index = $ifIndex . '.27';
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$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
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$class = 'dbm';
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// Limits
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if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
|
|
// microWatt
|
|
$entry_limits = $oids[$ifIndex]['rxOpticalPower'];
|
|
// $options['limit_unit'] = 'W';
|
|
$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.001;
|
|
$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.001;
|
|
$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.001;
|
|
$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.001;
|
|
}
|
|
break;
|
|
|
|
case 'rlPhyTestTableRxOpticalPower2':
|
|
if (!$multilane) {
|
|
continue 2;
|
|
} // Skip when not multi-lane
|
|
|
|
$name .= " Lane 3";
|
|
$descr = $name . " RX Power";
|
|
$index = $ifIndex . '.28';
|
|
$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
|
|
$class = 'dbm';
|
|
|
|
// Limits
|
|
if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
|
|
// microWatt
|
|
$entry_limits = $oids[$ifIndex]['rxOpticalPower'];
|
|
// $options['limit_unit'] = 'W';
|
|
$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.001;
|
|
$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.001;
|
|
$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.001;
|
|
$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.001;
|
|
}
|
|
break;
|
|
|
|
case 'rlPhyTestTableRxOpticalPower3':
|
|
if (!$multilane) {
|
|
continue 2;
|
|
} // Skip when not multi-lane
|
|
|
|
$name .= " Lane 4";
|
|
$descr = $name . " RX Power";
|
|
$index = $ifIndex . '.29';
|
|
$oid = ".1.3.6.1.4.1.89.90.1.2.1.3.$index";
|
|
$class = 'dbm';
|
|
|
|
// Limits
|
|
if (is_device_mib($device, 'ELTEX-MES-PHYSICAL-DESCRIPTION-MIB', FALSE)) {
|
|
// microWatt
|
|
$entry_limits = $oids[$ifIndex]['rxOpticalPower'];
|
|
// $options['limit_unit'] = 'W';
|
|
$options['limit_high'] = $entry_limits['eltPhdTransceiverThresholdHighAlarm'] * 0.001;
|
|
$options['limit_high_warn'] = $entry_limits['eltPhdTransceiverThresholdHighWarning'] * 0.001;
|
|
$options['limit_low'] = $entry_limits['eltPhdTransceiverThresholdLowAlarm'] * 0.001;
|
|
$options['limit_low_warn'] = $entry_limits['eltPhdTransceiverThresholdLowWarning'] * 0.001;
|
|
}
|
|
break;
|
|
|
|
default:
|
|
continue 2;
|
|
}
|
|
$value = $entry['rlPhyTestGetResult'];
|
|
discover_sensor_ng($device, $class, $mib, 'rlPhyTestGetResult', $oid, $index, $descr, $scale, $value, $options);
|
|
}
|
|
}
|
|
|
|
// EOF
|