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librenms/tests/data/istars.json

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Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
{
"os": {
"discovery": {
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{
"sysName": "<private>",
"sysObjectID": ".1.3.6.1.4.1.40614",
"sysDescr": "iStars_SWV4.25",
"sysContact": null,
"version": null,
"hardware": null,
"features": null,
"os": "istars",
"type": "power",
"serial": null,
"icon": "istars.png",
"location": null
}
]
},
"poller": {
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{
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"sysObjectID": ".1.3.6.1.4.1.40614",
"sysDescr": "iStars_SWV4.25",
"sysContact": "<private>",
"version": "iStars_SWV4.25R1.1.1",
"hardware": null,
"features": null,
"os": "istars",
"type": "power",
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"icon": "istars.png",
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}
]
}
},
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}
]
},
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}
},
"sensors": {
"discovery": {
"sensors": [
{
"sensor_deleted": 0,
"sensor_class": "charge",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.2.4.0",
"sensor_index": "500",
"sensor_type": "rfc1628",
"sensor_descr": "Battery charge remaining",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 100,
"sensor_limit": 101,
"sensor_limit_warn": null,
"sensor_limit_low": 15,
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"sensor_alert": 1,
"sensor_custom": "No",
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},
{
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"sensor_class": "current",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.4.1.3.1.0",
"sensor_index": "1",
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"group": null,
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"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
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"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "current",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.3.3.1.4.1.0",
"sensor_index": "101",
"sensor_type": "rfc1628",
"sensor_descr": "Input",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
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"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "current",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.5.3.1.3.1.0",
"sensor_index": "201",
"sensor_type": "rfc1628",
"sensor_descr": "Bypass",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
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"sensor_alert": 1,
"sensor_custom": "No",
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"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "current",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.2.6.0",
"sensor_index": "500",
"sensor_type": "rfc1628",
"sensor_descr": "Battery",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
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"sensor_custom": "No",
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},
{
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"sensor_type": "rfc1628",
"sensor_descr": "Input",
"group": null,
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"sensor_current": 60,
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"sensor_limit_low": 57,
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"sensor_alert": 1,
"sensor_custom": "No",
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"state_name": null
},
{
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"sensor_class": "frequency",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.2.0",
"sensor_index": "4.2.0",
"sensor_type": "rfc1628",
"sensor_descr": "Output",
"group": null,
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},
{
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"sensor_index": "5.1.0",
"sensor_type": "rfc1628",
"sensor_descr": "Bypass",
"group": null,
"sensor_divisor": 10,
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},
{
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"sensor_class": "load",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.4.1.5.1.0",
"sensor_index": "501",
"sensor_type": "rfc1628",
"sensor_descr": "Percentage load",
"group": null,
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},
{
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"sensor_class": "power",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.3.3.1.5.1.0",
"sensor_index": "101",
"sensor_type": "rfc1628",
"sensor_descr": "Input",
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Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
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"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
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"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "power",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.5.3.1.4.1.0",
"sensor_index": "201",
"sensor_type": "rfc1628",
"sensor_descr": "Bypass",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "power",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.4.1.4.1.0",
"sensor_index": "301",
"sensor_type": "rfc1628",
"sensor_descr": "Output",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
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},
{
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"sensor_oid": ".1.3.6.1.2.1.33.1.2.2.0",
"sensor_index": "100",
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"sensor_descr": "Time on battery",
"group": null,
"sensor_divisor": 60,
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"sensor_custom": "No",
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},
{
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"sensor_index": "200",
"sensor_type": "rfc1628",
"sensor_descr": "Estimated battery time remaining",
"group": null,
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"sensor_current": 848,
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},
{
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"sensor_oid": ".1.3.6.1.2.1.33.1.2.1.0",
"sensor_index": "0",
"sensor_type": "upsBatteryStatusState",
"sensor_descr": "Battery Status",
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},
{
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},
{
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{
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{
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{
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],
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{
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},
{
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{
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{
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},
{
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{
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{
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{
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{
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},
{
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{
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]
},
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{
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"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "current",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.3.3.1.4.1.0",
"sensor_index": "101",
"sensor_type": "rfc1628",
"sensor_descr": "Input",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "current",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.5.3.1.3.1.0",
"sensor_index": "201",
"sensor_type": "rfc1628",
"sensor_descr": "Bypass",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "current",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.2.6.0",
"sensor_index": "500",
"sensor_type": "rfc1628",
"sensor_descr": "Battery",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "frequency",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.3.3.1.2.1.0",
"sensor_index": "3.2.0.1",
"sensor_type": "rfc1628",
"sensor_descr": "Input",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 60,
"sensor_limit": 63,
"sensor_limit_warn": null,
"sensor_limit_low": 57,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "frequency",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.2.0",
"sensor_index": "4.2.0",
"sensor_type": "rfc1628",
"sensor_descr": "Output",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 60,
"sensor_limit": 63,
"sensor_limit_warn": null,
"sensor_limit_low": 57,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "frequency",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.5.1.0",
"sensor_index": "5.1.0",
"sensor_type": "rfc1628",
"sensor_descr": "Bypass",
"group": null,
"sensor_divisor": 10,
"sensor_multiplier": 1,
"sensor_current": 60,
"sensor_limit": 63,
"sensor_limit_warn": null,
"sensor_limit_low": 57,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "load",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.4.1.5.1.0",
"sensor_index": "501",
"sensor_type": "rfc1628",
"sensor_descr": "Percentage load",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 17,
"sensor_limit": 80,
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "power",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.3.3.1.5.1.0",
"sensor_index": "101",
"sensor_type": "rfc1628",
"sensor_descr": "Input",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "power",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.5.3.1.4.1.0",
"sensor_index": "201",
"sensor_type": "rfc1628",
"sensor_descr": "Bypass",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "power",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.4.1.4.1.0",
"sensor_index": "301",
"sensor_type": "rfc1628",
"sensor_descr": "Output",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 0,
Remove guessed limits for some health sensors, documentation for sensor classes (#10327) * Default to null for group yaml discovery. * Update test data for a154bda yaml group null fix. * Changes to guessed limit functions for sensors. Original behaviour =================== The file `includes/discovery/functions.inc.php` contains `sensor_limit_low()` and `sensor_limit()` which both attempt to guess a sane value for sensors when no explicitly defined low_limit or high_limit can be found during discovery. Both switch control structures used in those two functions have empty case statements which means that if one of those matches, it's going to fall through and run the code for each subsequent case until a `break` is reached. For example, when we call `function sensor_low_limit(dbm, -13.036)` it will return the value `-12.3842` instead of `null`. That is because there will be a match at `case 'dbm':` which falls through all the way to `case 'cooling':`, where it performs `$limit = -13.036 * 0.95` before hitting a `break`. Changed behaviour =================== Removed `power_consumed` and `count` guessed low_limit and high_limit, I personally added those sensor classes in PR #9471 when I didn't understand that a switch control structure has fall-through behaviour so I can guarantee that guessing limits for those is a mistake on my behalf. It should not be there, only power_factor can have guessed limits. Apologies for the issue, I'm still a beginning programmer! Furthermore, I removed guessed high_limit values for `current` and `power` because these are supposed to draw higher values as more devices or components are installed on for example a PDU or a chassis. Finally, I removed guessed low_limit and high_limit for `dbm` sensors, there is a much too large variance in power budget on commercially available optical transceivers for there to be a sensible window where you can guess these values. * Documentation on adding sensor classes. * Update test data - sensor limit changes @ 30212d2
2019-06-21 14:03:27 +00:00
"sensor_limit": null,
Added support for East iStars UPS (os: istars) (#10041) * istars - Added support for East iStars UPS (os: istars) * typo * remove duplicate image * refactored to use rfc1628 * added json * update is_array to isset for bad rfc1628 implementation * Update istars.inc.php * revert rfc1628 changes * update test data + PR 10240 patch * update OIDs
2019-05-21 16:03:28 +00:00
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "runtime",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.2.2.0",
"sensor_index": "100",
"sensor_type": "rfc1628",
"sensor_descr": "Time on battery",
"group": null,
"sensor_divisor": 60,
"sensor_multiplier": 1,
"sensor_current": 0,
"sensor_limit": 2,
"sensor_limit_warn": 1,
"sensor_limit_low": 0,
"sensor_limit_low_warn": 0,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "runtime",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.2.3.0",
"sensor_index": "200",
"sensor_type": "rfc1628",
"sensor_descr": "Estimated battery time remaining",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 848,
"sensor_limit": 10000,
"sensor_limit_warn": null,
"sensor_limit_low": 5,
"sensor_limit_low_warn": 10,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "state",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.2.1.0",
"sensor_index": "0",
"sensor_type": "upsBatteryStatusState",
"sensor_descr": "Battery Status",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 2,
"sensor_limit": null,
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": "0",
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": "upsBatteryStatusState"
},
{
"sensor_deleted": 0,
"sensor_class": "state",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.1.0",
"sensor_index": "0",
"sensor_type": "upsOutputSourceState",
"sensor_descr": "Output Source",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 3,
"sensor_limit": null,
"sensor_limit_warn": null,
"sensor_limit_low": null,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": "0",
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": "upsOutputSourceState"
},
{
"sensor_deleted": 0,
"sensor_class": "temperature",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.2.7.0",
"sensor_index": "0",
"sensor_type": "rfc1628",
"sensor_descr": "Battery",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 35,
"sensor_limit": 55,
"sensor_limit_warn": null,
"sensor_limit_low": 25,
"sensor_limit_low_warn": null,
"sensor_alert": 1,
"sensor_custom": "No",
"entPhysicalIndex": null,
"entPhysicalIndex_measured": null,
"sensor_prev": null,
"user_func": null,
"state_name": null
},
{
"sensor_deleted": 0,
"sensor_class": "voltage",
"poller_type": "snmp",
"sensor_oid": ".1.3.6.1.2.1.33.1.4.4.1.2.1.0",
"sensor_index": "1",
"sensor_type": "rfc1628",
"sensor_descr": "Output",
"group": null,
"sensor_divisor": 1,
"sensor_multiplier": 1,
"sensor_current": 115,
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},
{
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},
{
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},
{
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}
],
"state_indexes": [
{
"state_name": "upsBatteryStatusState",
"state_descr": "Unknown",
"state_draw_graph": 0,
"state_value": 1,
"state_generic_value": 3
},
{
"state_name": "upsBatteryStatusState",
"state_descr": "Normal",
"state_draw_graph": 0,
"state_value": 2,
"state_generic_value": 0
},
{
"state_name": "upsBatteryStatusState",
"state_descr": "Low",
"state_draw_graph": 0,
"state_value": 3,
"state_generic_value": 2
},
{
"state_name": "upsBatteryStatusState",
"state_descr": "Depleted",
"state_draw_graph": 0,
"state_value": 4,
"state_generic_value": 2
},
{
"state_name": "upsOutputSourceState",
"state_descr": "Other",
"state_draw_graph": 0,
"state_value": 1,
"state_generic_value": 3
},
{
"state_name": "upsOutputSourceState",
"state_descr": "None",
"state_draw_graph": 0,
"state_value": 2,
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},
{
"state_name": "upsOutputSourceState",
"state_descr": "Normal",
"state_draw_graph": 0,
"state_value": 3,
"state_generic_value": 0
},
{
"state_name": "upsOutputSourceState",
"state_descr": "Bypass",
"state_draw_graph": 0,
"state_value": 4,
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},
{
"state_name": "upsOutputSourceState",
"state_descr": "Battery",
"state_draw_graph": 0,
"state_value": 5,
"state_generic_value": 2
},
{
"state_name": "upsOutputSourceState",
"state_descr": "Booster",
"state_draw_graph": 0,
"state_value": 6,
"state_generic_value": 2
},
{
"state_name": "upsOutputSourceState",
"state_descr": "Reducer",
"state_draw_graph": 0,
"state_value": 7,
"state_generic_value": 2
}
]
}
}
}
Reference in New Issue Copy Permalink