261 lines
11 KiB
PHP
261 lines
11 KiB
PHP
<?php
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// PDU - Phase
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$oids = snmp_walk($device, 'rPDUStatusPhaseIndex', '-OsqnU', 'PowerNet-MIB');
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if (isset($oids) && $oids) {
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d_echo($oids . "\n");
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$oids = trim($oids);
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if ($oids) {
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echo 'APC PowerNet-MIB Phase ';
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}
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$type = 'apc';
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$precision = '10';
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foreach (explode("\n", $oids) as $data) {
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$data = trim($data);
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if ($data) {
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[$oid,$kind] = explode(' ', $data);
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$split_oid = explode('.', $oid);
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$index = $split_oid[count($split_oid) - 1];
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$current_oid = '.1.3.6.1.4.1.318.1.1.12.2.3.1.1.2.' . $index;
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// rPDULoadStatusLoad
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$phase_oid = '.1.3.6.1.4.1.318.1.1.12.2.3.1.1.4.' . $index;
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// rPDULoadStatusPhaseNumber
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$limit_oid = '.1.3.6.1.4.1.318.1.1.12.2.2.1.1.4.' . $index;
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// rPDULoadPhaseConfigOverloadThreshold
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$lowlimit_oid = '.1.3.6.1.4.1.318.1.1.12.2.2.1.1.2.' . $index;
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// rPDULoadPhaseConfigLowLoadThreshold
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$warnlimit_oid = '.1.3.6.1.4.1.318.1.1.12.2.2.1.1.3.' . $index;
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// rPDULoadPhaseConfigNearOverloadThreshold
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$phase = snmp_get($device, $phase_oid, '-Oqv', '');
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$current = (snmp_get($device, $current_oid, '-Oqv', '') / $precision);
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$limit = snmp_get($device, $limit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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$lowlimit = snmp_get($device, $lowlimit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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$warnlimit = snmp_get($device, $warnlimit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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if (count(explode("\n", $oids)) != 1) {
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$descr = "Phase $phase";
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} else {
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$descr = 'Output';
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}
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discover_sensor($valid['sensor'], 'current', $device, $current_oid, $index, $type, $descr, '10', '1', $lowlimit, null, $warnlimit, $limit, $current);
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}
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}
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}
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unset($oids);
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$oids = snmp_walk($device, 'rPDULoadStatusPhaseNumber', '-OsqnU', 'PowerNet-MIB');
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if (isset($oids) && $oids) {
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d_echo($oids . "\n");
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$oids = trim($oids);
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if ($oids) {
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echo 'APC PowerNet-MIB Phase ';
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}
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$type = 'apc';
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$precision = '10';
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foreach (explode("\n", $oids) as $data) {
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$data = trim($data);
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if ($data) {
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[$oid,$phasenum] = explode(' ', $data);
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// If the phasenum is 0, we can ignore becuase it's bank data
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if ($phasenum == 0) {
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continue;
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}
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$split_oid = explode('.', $oid);
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$index = $split_oid[count($split_oid) - 1];
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$current_oid = '.1.3.6.1.4.1.318.1.1.12.2.3.1.1.2.' . $index;
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// rPDULoadStatusLoad
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$phase_oid = '.1.3.6.1.4.1.318.1.1.12.2.3.1.1.4.' . $index;
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// rPDULoadStatusPhaseNumber
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$limit_oid = '.1.3.6.1.4.1.318.1.1.12.2.2.1.1.4.' . $phasenum;
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// rPDULoadPhaseConfigOverloadThreshold
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$lowlimit_oid = '.1.3.6.1.4.1.318.1.1.12.2.2.1.1.2.' . $phasenum;
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// rPDULoadPhaseConfigLowLoadThreshold
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$warnlimit_oid = '.1.3.6.1.4.1.318.1.1.12.2.2.1.1.3.' . $phasenum;
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// rPDULoadPhaseConfigNearOverloadThreshold
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$phase = snmp_get($device, $phase_oid, '-Oqv', '');
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$current = (snmp_get($device, $current_oid, '-Oqv', '') / $precision);
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$limit = snmp_get($device, $limit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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$lowlimit = snmp_get($device, $lowlimit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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$warnlimit = snmp_get($device, $warnlimit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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if (count(explode("\n", $oids)) != 1) {
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$descr = "Phase $phase";
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} else {
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$descr = 'Output';
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}
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discover_sensor($valid['sensor'], 'current', $device, $current_oid, $index, $type, $descr, '10', '1', $lowlimit, null, $warnlimit, $limit, $current);
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}
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}
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}
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unset($oids);
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// v2 firmware- first bank is total, v3 firmware, 3rd bank is total
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$bank_count = snmp_get($device, 'rPDULoadDevNumBanks.0', '-Oqv', 'PowerNet-MIB');
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if ($bank_count > 0) {
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$oids = snmp_walk($device, 'rPDULoadStatusBankNumber', '-OsqnU', 'PowerNet-MIB');
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}
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// should work with firmware v2 and v3
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if (isset($oids) && $oids) {
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echo 'APC PowerNet-MIB Banks ';
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d_echo($oids . "\n");
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$oids = trim($oids);
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$type = 'apc';
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$precision = '10';
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foreach (explode("\n", $oids) as $data) {
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$data = trim($data);
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if ($data) {
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[$oid,$banknum] = explode(' ', $data);
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// If the banknum is 0, we can ignore becuase it's phase data
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if ($banknum == 0) {
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continue;
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}
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$split_oid = explode('.', $oid);
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$index = $split_oid[count($split_oid) - 1];
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$descr = 'Bank ' . $banknum;
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$current_oid = '.1.3.6.1.4.1.318.1.1.12.2.3.1.1.2.' . $index;
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// rPDULoadStatusLoad
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$bank_oid = '.1.3.6.1.4.1.318.1.1.12.2.3.1.1.5.' . $index;
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// rPDULoadStatusBankNumber
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$limit_oid = '.1.3.6.1.4.1.318.1.1.12.2.4.1.1.4.' . $banknum;
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// rPDULoadBankConfigOverloadThreshold
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$lowlimit_oid = '.1.3.6.1.4.1.318.1.1.12.2.4.1.1.2.' . $banknum;
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// rPDULoadBankConfigLowLoadThreshold
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$warnlimit_oid = '.1.3.6.1.4.1.318.1.1.12.2.4.1.1.3.' . $banknum;
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// rPDULoadBankConfigNearOverloadThreshold
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$bank = snmp_get($device, $bank_oid, '-Oqv', '');
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$current = (snmp_get($device, $current_oid, '-Oqv', '') / $precision);
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$limit = snmp_get($device, $limit_oid, '-Oqv', '');
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$lowlimit = snmp_get($device, $lowlimit_oid, '-Oqv', '');
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$warnlimit = snmp_get($device, $warnlimit_oid, '-Oqv', '');
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if ($limit != -1 && $lowlimit != -1 && $warnlimit != -1) {
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discover_sensor($valid['sensor'], 'current', $device, $current_oid, $index, $type, $descr, '10', '1', $lowlimit, null, $warnlimit, $limit, $current);
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}
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}
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}
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unset($baseversion);
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}
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unset($oids);
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// Per Outlet Power Bar
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$oids = snmp_walk($device, '.1.3.6.1.4.1.318.1.1.26.9.4.3.1.1', '-t 30 -OsqnU', 'PowerNet-MIB');
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if (isset($oids) && $oids) {
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echo 'APC PowerNet-MIB Outlets ';
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d_echo($oids . "\n");
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$oids = trim($oids);
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$type = 'apc';
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$precision = '10';
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foreach (explode("\n", $oids) as $data) {
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$data = trim($data);
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if ($data) {
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[$oid,$kind] = explode(' ', $data);
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$split_oid = explode('.', $oid);
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$index = $split_oid[count($split_oid) - 1];
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$voltage_oid = '.1.3.6.1.4.1.318.1.1.26.6.3.1.6';
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// rPDU2PhaseStatusVoltage
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$current_oid = '.1.3.6.1.4.1.318.1.1.26.9.4.3.1.6.' . $index;
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// rPDU2OutletMeteredStatusCurrent
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$limit_oid = '.1.3.6.1.4.1.318.1.1.26.9.4.1.1.7.' . $index;
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// rPDU2OutletMeteredConfigOverloadCurrentThreshold
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$lowlimit_oid = '.1.3.6.1.4.1.318.1.1.26.9.4.1.1.7.' . $index;
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// rPDU2OutletMeteredConfigLowLoadCurrentThreshold
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$warnlimit_oid = '.1.3.6.1.4.1.318.1.1.26.9.4.1.1.6.' . $index;
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// rPDU2OutletMeteredConfigNearOverloadCurrentThreshold
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$name_oid = '.1.3.6.1.4.1.318.1.1.26.9.4.3.1.3.' . $index;
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// rPDU2OutletMeteredStatusName
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$voltage = snmp_get($device, $voltage_oid, '-Oqv', '');
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$current = (snmp_get($device, $current_oid, '-Oqv', '') / $precision);
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$limit = null;
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$lowlimit = null;
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$warnlimit = null;
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if ($voltage) {
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$limit = (snmp_get($device, $limit_oid, '-Oqv', '') / $voltage);
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$lowlimit = (snmp_get($device, $lowlimit_oid, '-Oqv', '') / $voltage);
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$warnlimit = (snmp_get($device, $warnlimit_oid, '-Oqv', '') / $voltage);
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}
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$descr = 'Outlet ' . $index . ' - ' . snmp_get($device, $name_oid, '-Oqv', '');
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discover_sensor($valid['sensor'], 'current', $device, $current_oid, $index, $type, $descr, '10', '1', $lowlimit, null, $warnlimit, $limit, $current);
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}
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}
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}
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unset($oids);
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// ATS
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$oids = snmp_walk($device, 'atsConfigPhaseTableIndex', '-OsqnU', 'PowerNet-MIB');
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if (isset($oids) && $oids) {
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$type = 'apc';
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$precision = '10';
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d_echo($oids . "\n");
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$oids = trim($oids);
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if ($oids) {
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echo 'APC PowerNet-MIB ATS ';
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}
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$current_oid = '.1.3.6.1.4.1.318.1.1.8.5.4.3.1.4.1.1.1';
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// atsOutputCurrent
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$limit_oid = '.1.3.6.1.4.1.318.1.1.8.4.16.1.5.1';
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// atsConfigPhaseOverLoadThreshold
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$lowlimit_oid = '.1.3.6.1.4.1.318.1.1.8.4.16.1.3.1';
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// atsConfigPhaseLowLoadThreshold
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$warnlimit_oid = '.1.3.6.1.4.1.318.1.1.8.4.16.1.4.1';
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// atsConfigPhaseNearOverLoadThreshold
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$index = 1;
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$current = (snmp_get($device, $current_oid, '-Oqv', '') / $precision);
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$limit = snmp_get($device, $limit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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$lowlimit = snmp_get($device, $lowlimit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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$warnlimit = snmp_get($device, $warnlimit_oid, '-Oqv', '');
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// No / $precision here! Nice, APC!
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$descr = 'Output Feed';
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discover_sensor($valid['sensor'], 'current', $device, $current_oid, $index, $type, $descr, '10', '1', $lowlimit, null, $warnlimit, $limit, $current);
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}
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unset($oids);
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// UPS
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$phasecount = $pre_cache['apcups_phase_count'];
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if ($phasecount > 1) {
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$oids = snmpwalk_cache_oid($device, 'upsPhaseOutputCurrent', [], 'PowerNet-MIB');
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$in_oids = snmpwalk_cache_oid($device, 'upsPhaseInputCurrent', $in_oids, 'PowerNet-MIB');
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} else {
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$oids = snmpwalk_cache_oid($device, 'upsHighPrecOutputCurrent', [], 'PowerNet-MIB');
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}
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if (isset($in_oids)) {
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foreach ($in_oids as $index => $data) {
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$type = 'apcUPS';
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$current_oid = '.1.3.6.1.4.1.318.1.1.1.9.2.3.1.6.' . $index;
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$divisor = 10;
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$current = $data['upsPhaseInputCurrent'] / $divisor;
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$in_index = '3.1.4.' . $index;
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if (substr($index, 0, 1) == 2 && $data['upsPhaseInputCurrent'] != -1) {
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$descr = 'Phase ' . substr($index, -1) . ' Bypass Input';
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discover_sensor($valid['sensor'], 'current', $device, $current_oid, $in_index, $type, $descr, $divisor, 0, null, null, null, null, $current);
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} elseif (substr($index, 0, 1) == 1) {
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$descr = 'Phase ' . substr($index, -1) . ' Input';
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discover_sensor($valid['sensor'], 'current', $device, $current_oid, $in_index, $type, $descr, $divisor, 0, null, null, null, null, $current);
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}
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}
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}
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unset($index);
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unset($data);
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foreach ($oids as $index => $data) {
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$type = 'apcUPS';
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$descr = 'Phase ' . substr($index, -1) . ' Output';
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if (isset($data['upsHighPrecOutputCurrent'])) {
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$current_oid = '.1.3.6.1.4.1.318.1.1.1.4.3.4.' . $index;
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$divisor = 10;
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$current = $data['upsHighPrecOutputCurrent'] / $divisor;
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} else {
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$current_oid = '.1.3.6.1.4.1.318.1.1.1.9.3.3.1.4.' . $index;
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$divisor = 10;
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$current = $data['upsPhaseOutputCurrent'] / $divisor;
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}
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if ($current >= -1) {
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discover_sensor($valid['sensor'], 'current', $device, $current_oid, $index, $type, $descr, $divisor, 1, null, null, null, null, $current);
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}
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}
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unset($index);
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unset($data);
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