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librenms-librenms/includes/discovery/sensors/gw-eydfa.inc.php
Jellyfrog 20b4215204 Swich links to https (#12511) 
* Switch librenms links to https

* Convert librenms links in comments

* Switch gnu.org url to https

* switch php urls to https
2021-02-09 00:29:04 +01:00

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<?php
/**
* gw-eydfa.inc.php
*
* LibreNMS temperature discovery module for Glass Way WDM EYDFA Optical Amplifier
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
* @link https://www.librenms.org
* @copyright 2018 TheGreatDoc
* @author TheGreatDoc
*/
$oids = snmp_walk($device, 'oaPumpTable', '-Osq', 'NSCRTV-HFCEMS-OPTICALAMPLIFIER-MIB');
d_echo($oids . "\n");
if ($oids) {
echo 'GW EYDFA PUMP ';
}
foreach (explode("\n", $oids) as $data) {
[$oid, $value] = explode(' ', $data);
$split_oid = explode('.', $oid);
$index = $split_oid[1];
// Check for sensor type
if ($split_oid[0] == 'oaPumpBIAS') { // Current - mA
$divisor = 1000;
$descr = 'BIAS Pump - ' . $index;
$num_oid = '.1.3.6.1.4.1.17409.1.11.4.1.2.' . $index;
$sensor_index = 'oaPumpBIAS' . $index;
$value = $value / $divisor;
if (is_numeric($value)) {
$low_limit = snmp_get($device, 'analogAlarmLOLO.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$low_warn = snmp_get($device, 'analogAlarmLO.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_warn = snmp_get($device, 'analogAlarmHI.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_limit = snmp_get($device, 'analogAlarmHIHI.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
}
discover_sensor($valid['sensor'], 'current', $device, $num_oid, $sensor_index, 'gw-eydfa', $descr, $divisor, 1, $low_limit, $low_warn, $high_warn, $high_limit, $value);
}
if ($split_oid[0] == 'oaPumpTEC' && $index = 1) { // Current - A
$divisor = 100;
$descr = 'TEC Pump - ' . $index;
$num_oid = '.1.3.6.1.4.1.17409.1.11.4.1.3.' . $index;
$value = $value / $divisor;
if (is_numeric($value)) {
$low_limit = snmp_get($device, 'analogAlarmLOLO.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$low_warn = snmp_get($device, 'analogAlarmLO.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_warn = snmp_get($device, 'analogAlarmHI.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_limit = snmp_get($device, 'analogAlarmHIHI.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
}
$sensor_index = 'oaPumpTEC' . $index;
discover_sensor($valid['sensor'], 'current', $device, $num_oid, $sensor_index, 'gw-eydfa', $descr, $divisor, 1, $low_limit, $low_warn, $high_warn, $high_limit, $value);
}
if ($split_oid[0] == 'oaPumpTemp' && $index = 1) { // Temperature - C
$divisor = 10;
$descr = 'Temperature Pump - ' . $index;
$num_oid = '.1.3.6.1.4.1.17409.1.11.4.1.4.' . $index;
$value = $value / $divisor;
if (is_numeric($value)) {
$low_limit = snmp_get($device, 'analogAlarmLOLO.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$low_warn = snmp_get($device, 'analogAlarmLO.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_warn = snmp_get($device, 'analogAlarmHI.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_limit = snmp_get($device, 'analogAlarmHIHI.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
}
$sensor_index = 'oaPumpTemp' . $index;
discover_sensor($valid['sensor'], 'temperature', $device, $num_oid, $sensor_index, 'gw-eydfa', $descr, $divisor, 1, $low_limit, $low_warn, $high_warn, $high_limit, $value);
}
unset($oids, $split_oid, $index, $divisor, $descr, $low_limit, $low_warn, $high_warn, $sensor_index);
}
$oids = snmp_walk($device, 'oaDCPowerTable', '-Osq', 'NSCRTV-HFCEMS-OPTICALAMPLIFIER-MIB');
d_echo($oids . "\n");
if ($oids) {
echo 'GW EYDFA DC POWER ';
}
foreach (explode("\n", $oids) as $data) {
[$oid, $value] = explode(' ', $data);
$split_oid = explode('.', $oid);
$index = $split_oid[1];
// Check for sensor type
if ($split_oid[0] == 'oaDCPowerVoltage') { // Voltage - V
$divisor = 10;
$descr = 'DC +5V - ' . $index;
$num_oid = '.1.3.6.1.4.1.17409.1.11.7.1.2.' . $index;
if (is_numeric($value)) {
$low_limit = snmp_get($device, 'analogAlarmLOLO.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$low_warn = snmp_get($device, 'analogAlarmLO.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_warn = snmp_get($device, 'analogAlarmHI.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_limit = snmp_get($device, 'analogAlarmHIHI.13' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
}
$sensor_index = 'oaDCPowerVoltage' . $index;
$value = $value / $divisor;
discover_sensor($valid['sensor'], 'voltage', $device, $num_oid, $sensor_index, 'gw-eydfa', $descr, $divisor, 1, $low_limit, $low_warn, $high_warn, $high_limit, $value);
}
}
unset($oids, $split_oid, $index, $divisor, $descr, $low_limit, $low_warn, $high_warn, $sensor_index);
// Internal Temperature
echo 'GW EYDFA Internal Temp ';
$num_oid = '.1.3.6.1.4.1.17409.1.3.3.2.2.1.12.1';
$value = snmp_get($device, 'commonDeviceInternalTemperature.1', '-Ovq', 'NSCRTV-HFCEMS-COMMON-MIB');
$descr = 'Internal Temp';
if (is_numeric($value)) {
$low_limit = snmp_get($device, 'analogAlarmLOLO.12.1.3.6.1.4.1.17409.1.3.1.13.0', '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB');
$low_warn = snmp_get($device, 'analogAlarmLO.12.1.3.6.1.4.1.17409.1.3.1.13.0', '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB');
$high_warn = snmp_get($device, 'analogAlarmHI.12.1.3.6.1.4.1.17409.1.3.1.13.0', '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB');
$high_limit = snmp_get($device, 'analogAlarmHIHI.12.1.3.6.1.4.1.17409.1.3.1.13.0', '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB');
}
$sensor_index = 'commonDeviceInternalTemperature.1';
discover_sensor($valid['sensor'], 'temperature', $device, $num_oid, $sensor_index, 'gw-eydfa', $descr, 1, 1, $low_limit, $low_warn, $high_warn, $high_limit, $value);
unset($num_oid, $value, $descr, $low_limit, $low_warn, $high_warn, $sensor_index);
// Per Output Optical Power
echo 'GW EYDFA Per Output Optical Power ';
$num_oid = '.1.3.6.1.4.1.17409.1.11.2.0';
$value = snmp_get($device, 'oaOutputOpticalPower.0', '-Ovq', 'NSCRTV-HFCEMS-OPTICALAMPLIFIER-MIB');
$divisor = 10;
$descr = 'Per Output Power';
if (is_numeric($value)) {
$low_limit = snmp_get($device, 'analogAlarmLOLO.11' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$low_warn = snmp_get($device, 'analogAlarmLO.11' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_warn = snmp_get($device, 'analogAlarmHI.11' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_limit = snmp_get($device, 'analogAlarmHIHI.11' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
}
$value = $value / $divisor;
$sensor_index = 'oaOutputOpticalPower.0';
discover_sensor($valid['sensor'], 'dbm', $device, $num_oid, $sensor_index, 'gw-eydfa', $descr, $divisor, 1, $low_limit, $low_warn, $high_warn, $high_limit, $value);
unset($num_oid, $value, $divisor, $descr, $low_limit, $low_warn, $high_warn, $sensor_index);
// Input Optical Power
echo 'GW EYDFA Input Optical Power ';
$num_oid = '.1.3.6.1.4.1.17409.1.11.3.0';
$value = snmp_get($device, 'oaInputOpticalPower.0', '-Ovq', 'NSCRTV-HFCEMS-OPTICALAMPLIFIER-MIB');
$divisor = 10;
$descr = 'Input Power';
if (is_numeric($value)) {
$low_limit = snmp_get($device, 'analogAlarmLOLO.11' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$low_warn = snmp_get($device, 'analogAlarmLO.11' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_warn = snmp_get($device, 'analogAlarmHI.11' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
$high_limit = snmp_get($device, 'analogAlarmHIHI.11' . $num_oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB') / $divisor;
}
$value = $value / $divisor;
$sensor_index = 'oaInputOpticalPower.0';
discover_sensor($valid['sensor'], 'dbm', $device, $num_oid, $sensor_index, 'gw-eydfa', $descr, $divisor, 1, $low_limit, $low_warn, $high_warn, $high_limit, $value);
unset($num_oid, $value, $divisor, $descr, $low_limit, $low_warn, $high_warn, $sensor_index);
// Power Supply State
echo 'GW EYDFA PSU State ';
$oids = ['.1.3.6.1.4.1.17409.1.1.2.1.4.11.1.3.6.1.4.1.17409.1.11.100.0.2', '.1.3.6.1.4.1.17409.1.1.2.1.4.11.1.3.6.1.4.1.17409.1.11.101.0.2'];
$state_name = 'PowerSupplyState';
$states = [
['value' => 1, 'generic' => 0, 'graph' => 0, 'descr' => 'normal'],
['value' => 7, 'generic' => 1, 'graph' => 0, 'descr' => 'warning'],
['value' => 6, 'generic' => 2, 'graph' => 0, 'descr' => 'critical'],
];
create_state_index($state_name, $states);
$n = 1;
foreach ($oids as $oid) {
$value = snmp_get($device, $oid, '-Ovq', 'NSCRTV-HFCEMS-PROPERTY-MIB');
$descr = 'Power Supply ' . $n;
$sensor_index = 'PowerSupplyState' . $n;
discover_sensor($valid['sensor'], 'state', $device, $oid, $sensor_index, $state_name, $descr, 1, 1, null, null, null, null, $value, 'snmp');
create_sensor_to_state_index($device, $state_name, $sensor_index);
$n++;
}
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