ipmi_exporter/docs/metrics.md

# Exported metrics

## Scrape meta data

These metrics provide data about the scrape itself:

 - `ipmi_up{collector="<NAME>"}` is `1` if the data for this collector could
   successfully be retrieved from the remote host, `0` otherwise. The following
   collectors are available and can be enabled or disabled in the config:
   - `ipmi`: collects IPMI sensor data. If it fails, sensor metrics (see below)
     will not be available
   - `dcmi`: collects DCMI data, currently only power consumption. If it fails,
     power consumption metrics (see below) will not be available
   - `bmc`: collects BMC details. If it fails, BMC info metrics (see below)
     will not be available
   - `chassis`: collects the current chassis power state (on/off). If it fails,
     the chassis power state metric (see below) will not be available
   - `sel`: collects system event log (SEL) details. If it fails, SEL metrics
     (see below) will not be available
   - `sm-lan-mode`: collects the "LAN mode" setting in the current BMC config.
     If it fails, the LAN mode metric (see below) will not be available
 - `ipmi_scrape_duration_seconds` is the amount of time it took to retrieve the
   data

## BMC info

This metric is only provided if the `bmc` collector is enabled.

For some basic information, there is a constant metric `ipmi_bmc_info` with
value `1` and labels providing the firmware revision and manufacturer as
returned from the BMC, and the host system's firmware version (usually the BIOS
version). Example:

    ipmi_bmc_info{firmware_revision="1.66",manufacturer_id="Dell Inc. (674)",system_firmware_version="2.6.1"} 1

**Note:** some systems do not expose the system's firmware version, in which
case it will be exported as `"N/A"`.

## Chassis Power State

This metric is only provided if the `chassis` collector is enabled.

The metric `ipmi_chassis_power_state` shows the current chassis power state of
the machine. The value is 1 for power on, and 0 otherwise.

## Power consumption

This metric is only provided if the `dcmi` collector is enabled.

The metric `ipmi_dcmi_power_consumption_current_watts` can be used to monitor
the live power consumption of the machine in Watts. If in doubt, this metric
should be used over any of the sensor data (see below), even if their name
might suggest that they measure the same thing. This metric has no labels.

## System event log (SEL) info

These metrics are only provided if the `sel` collector is enabled (it isn't by
default).

The metric `ipmi_sel_entries_count` contains the current number of entries in
the SEL. It is a gauge, as the SEL can be cleared at any time. This metric has
no labels.

The metric `ipmi_sel_free_space_bytes` contains the current number of free
space for new SEL entries, in bytes. This metric has no labels.

## Supermicro LAN mode setting

This metric is only provided if the `sm-lan-mode` collector is enabled (it
isn't by default).

**NOTE:** This is a vendor-specific collector, it will only work on Supermicro
hardware, possibly even only on _some_ Supermicro systems.

**NOTE:** Retrieving this setting requires setting `privilege: "admin"` in the
config.

See e.g. https://www.supermicro.com/support/faqs/faq.cfm?faq=28159

The metric `ipmi_config_lan_mode` contains the value for the current "LAN mode"
setting (see link above): `0` for "dedicated", `1` for "shared", and `2` for
"failover".

## Sensors

These metrics are only provided if the `ipmi` collector is enabled.

IPMI sensors in general have one or two distinct pieces of information that are
of interest: a value and/or a state. The exporter always exports both, even if
the value is NaN or the state non-sensical. This is so one can still always
find the metrics to avoid ending up in a situation where one is looking for
e.g. the value of a sensor that is in a critical state, but can't find it and
assume this to be a problem.

The state of a sensor can be one of _nominal_, _warning_, _critical_, or _N/A_,
reflected by the metric values `0`, `1`, `2`, and `NaN` respectively. Think of
this as a kind of severity.

For sensors with known semantics (i.e. units), corresponding specific metrics
are exported. For everything else, generic metrics are exported.

### Temperature sensors

Temperature sensors measure a temperature in degrees Celsius and their state
usually reflects the temperature going above the vendor-recommended value. For
each temperature sensor, two metrics are exported (state and value), using the
sensor ID and the sensor name as labels. Example:

    ipmi_temperature_celsius{id="18",name="Inlet Temp"} 24
    ipmi_temperature_state{id="18",name="Inlet Temp"} 0

### Fan speed sensors

Fan speed sensors measure fan speed in rotations per minute (RPM) or as a
percentage of the maximum speed, and their state usually reflects the speed
being to low, indicating the fan might be broken. For each fan speed sensor,
two metrics are exported (state and value), using the sensor ID and the
sensor name as labels. Example:

    ipmi_fan_speed_rpm{id="12",name="Fan1A"} 4560
    ipmi_fan_speed_state{id="12",name="Fan1A"} 0

or, for a percentage based fan:

    ipmi_fan_speed_ratio{id="58",name="Fan 1 DutyCycle"} 0.2195
    ipmi_fan_speed_state{id="58",name="Fan 1 DutyCycle"} 0

### Voltage sensors

Voltage sensors measure a voltage in Volts. For each voltage sensor, two
metrics are exported (state and value), using the sensor ID and the sensor name
as labels. Example:

    ipmi_voltage_state{id="2416",name="12V"} 0
    ipmi_voltage_volts{id="2416",name="12V"} 12

### Current sensors

Current sensors measure a current in Amperes. For each current sensor, two
metrics are exported (state and value), using the sensor ID and the sensor name
as labels. Example:

    ipmi_current_state{id="83",name="Current 1"} 0
    ipmi_current_amperes{id="83",name="Current 1"} 0

### Power sensors

Power sensors measure power in Watts. For each power sensor, two metrics are
exported (state and value), using the sensor ID and the sensor name as labels.
Example:

    ipmi_power_state{id="90",name="Pwr Consumption"} 0
    ipmi_power_watts{id="90",name="Pwr Consumption"} 70

Note that based on our observations, this may or may not be a reading
reflecting the actual live power consumption. We recommend using the more
explicit [power consumption metrics](#power_consumption) for this.

### Generic sensors

For all sensors that can not be classified, two generic metrics are exported,
the state and the value. However, to provide a little more context, the sensor
type is added as label (in addition to name and ID). Example:

    ipmi_sensor_state{id="139",name="Power Cable",type="Cable/Interconnect"} 0
    ipmi_sensor_value{id="139",name="Power Cable",type="Cable/Interconnect"} NaN
The great refactoring - Move every collector into its own file - Move FreeIPMI code into own package - Allow more customization of commands executed by collectors - Split up documentation, so README is a little less overwhelming A single commit message does not do justice to the amount of changes here, but hey... :) 2021-05-19 21:27:29 +00:00			`# Exported metrics`

			`## Scrape meta data`

			`These metrics provide data about the scrape itself:`

			- `ipmi_up{collector="<NAME>"}` is `1` if the data for this collector could
			successfully be retrieved from the remote host, `0` otherwise. The following
			`collectors are available and can be enabled or disabled in the config:`
			- `ipmi`: collects IPMI sensor data. If it fails, sensor metrics (see below)
			`will not be available`
			- `dcmi`: collects DCMI data, currently only power consumption. If it fails,
			`power consumption metrics (see below) will not be available`
			- `bmc`: collects BMC details. If it fails, BMC info metrics (see below)
			`will not be available`
			- `chassis`: collects the current chassis power state (on/off). If it fails,
			`the chassis power state metric (see below) will not be available`
			- `sel`: collects system event log (SEL) details. If it fails, SEL metrics
			`(see below) will not be available`
			- `sm-lan-mode`: collects the "LAN mode" setting in the current BMC config.
			`If it fails, the LAN mode metric (see below) will not be available`
			- `ipmi_scrape_duration_seconds` is the amount of time it took to retrieve the
			`data`

			`## BMC info`

			This metric is only provided if the `bmc` collector is enabled.

			For some basic information, there is a constant metric `ipmi_bmc_info` with
			value `1` and labels providing the firmware revision and manufacturer as
			`returned from the BMC, and the host system's firmware version (usually the BIOS`
			`version). Example:`

			`ipmi_bmc_info{firmware_revision="1.66",manufacturer_id="Dell Inc. (674)",system_firmware_version="2.6.1"} 1`

			`Note: some systems do not expose the system's firmware version, in which`
			case it will be exported as `"N/A"`.

			`## Chassis Power State`

			This metric is only provided if the `chassis` collector is enabled.

			The metric `ipmi_chassis_power_state` shows the current chassis power state of
Now, `ipmi_dcmi_power_consumption_watts` metric is not present if Power Measurement feature is not present. Before this change - the value was zero Signed-off-by: Konstantin Shalygin <k0ste@k0ste.ru> 2023-06-12 10:45:09 +00:00			`the machine. The value is 1 for power on, and 0 otherwise.`
The great refactoring - Move every collector into its own file - Move FreeIPMI code into own package - Allow more customization of commands executed by collectors - Split up documentation, so README is a little less overwhelming A single commit message does not do justice to the amount of changes here, but hey... :) 2021-05-19 21:27:29 +00:00
			`## Power consumption`

			This metric is only provided if the `dcmi` collector is enabled.

			The metric `ipmi_dcmi_power_consumption_current_watts` can be used to monitor
			`the live power consumption of the machine in Watts. If in doubt, this metric`
			`should be used over any of the sensor data (see below), even if their name`
			`might suggest that they measure the same thing. This metric has no labels.`

			`## System event log (SEL) info`

			These metrics are only provided if the `sel` collector is enabled (it isn't by
			`default).`

			The metric `ipmi_sel_entries_count` contains the current number of entries in
			`the SEL. It is a gauge, as the SEL can be cleared at any time. This metric has`
			`no labels.`

			The metric `ipmi_sel_free_space_bytes` contains the current number of free
			`space for new SEL entries, in bytes. This metric has no labels.`

			`## Supermicro LAN mode setting`

			This metric is only provided if the `sm-lan-mode` collector is enabled (it
			`isn't by default).`

			`NOTE: This is a vendor-specific collector, it will only work on Supermicro`
			`hardware, possibly even only on _some_ Supermicro systems.`

			NOTE: Retrieving this setting requires setting `privilege: "admin"` in the
			`config.`

			`See e.g. https://www.supermicro.com/support/faqs/faq.cfm?faq=28159`

			The metric `ipmi_config_lan_mode` contains the value for the current "LAN mode"
			setting (see link above): `0` for "dedicated", `1` for "shared", and `2` for
			`"failover".`

			`## Sensors`

			These metrics are only provided if the `ipmi` collector is enabled.

			`IPMI sensors in general have one or two distinct pieces of information that are`
			`of interest: a value and/or a state. The exporter always exports both, even if`
			`the value is NaN or the state non-sensical. This is so one can still always`
			`find the metrics to avoid ending up in a situation where one is looking for`
			`e.g. the value of a sensor that is in a critical state, but can't find it and`
			`assume this to be a problem.`

			`The state of a sensor can be one of _nominal_, _warning_, _critical_, or _N/A_,`
			reflected by the metric values `0`, `1`, `2`, and `NaN` respectively. Think of
			`this as a kind of severity.`

			`For sensors with known semantics (i.e. units), corresponding specific metrics`
			`are exported. For everything else, generic metrics are exported.`

			`### Temperature sensors`

			`Temperature sensors measure a temperature in degrees Celsius and their state`
			`usually reflects the temperature going above the vendor-recommended value. For`
			`each temperature sensor, two metrics are exported (state and value), using the`
			`sensor ID and the sensor name as labels. Example:`

			`ipmi_temperature_celsius{id="18",name="Inlet Temp"} 24`
			`ipmi_temperature_state{id="18",name="Inlet Temp"} 0`

			`### Fan speed sensors`

Add support for fan sensors which report as a percentage Fan sensors on HP servers report speed as a percentage of the maximum instead of a raw RPM value. Signed-off-by: Tom Hughes <tom@compton.nu> 2021-11-14 10:32:52 +00:00			`Fan speed sensors measure fan speed in rotations per minute (RPM) or as a`
			`percentage of the maximum speed, and their state usually reflects the speed`
			`being to low, indicating the fan might be broken. For each fan speed sensor,`
			`two metrics are exported (state and value), using the sensor ID and the`
			`sensor name as labels. Example:`
The great refactoring - Move every collector into its own file - Move FreeIPMI code into own package - Allow more customization of commands executed by collectors - Split up documentation, so README is a little less overwhelming A single commit message does not do justice to the amount of changes here, but hey... :) 2021-05-19 21:27:29 +00:00
			`ipmi_fan_speed_rpm{id="12",name="Fan1A"} 4560`
			`ipmi_fan_speed_state{id="12",name="Fan1A"} 0`

Add support for fan sensors which report as a percentage Fan sensors on HP servers report speed as a percentage of the maximum instead of a raw RPM value. Signed-off-by: Tom Hughes <tom@compton.nu> 2021-11-14 10:32:52 +00:00			`or, for a percentage based fan:`

			`ipmi_fan_speed_ratio{id="58",name="Fan 1 DutyCycle"} 0.2195`
			`ipmi_fan_speed_state{id="58",name="Fan 1 DutyCycle"} 0`

The great refactoring - Move every collector into its own file - Move FreeIPMI code into own package - Allow more customization of commands executed by collectors - Split up documentation, so README is a little less overwhelming A single commit message does not do justice to the amount of changes here, but hey... :) 2021-05-19 21:27:29 +00:00			`### Voltage sensors`

			`Voltage sensors measure a voltage in Volts. For each voltage sensor, two`
			`metrics are exported (state and value), using the sensor ID and the sensor name`
			`as labels. Example:`

			`ipmi_voltage_state{id="2416",name="12V"} 0`
			`ipmi_voltage_volts{id="2416",name="12V"} 12`

			`### Current sensors`

			`Current sensors measure a current in Amperes. For each current sensor, two`
			`metrics are exported (state and value), using the sensor ID and the sensor name`
			`as labels. Example:`

			`ipmi_current_state{id="83",name="Current 1"} 0`
			`ipmi_current_amperes{id="83",name="Current 1"} 0`

			`### Power sensors`

			`Power sensors measure power in Watts. For each power sensor, two metrics are`
			`exported (state and value), using the sensor ID and the sensor name as labels.`
			`Example:`

			`ipmi_power_state{id="90",name="Pwr Consumption"} 0`
			`ipmi_power_watts{id="90",name="Pwr Consumption"} 70`

			`Note that based on our observations, this may or may not be a reading`
			`reflecting the actual live power consumption. We recommend using the more`
			`explicit [power consumption metrics](#power_consumption) for this.`

			`### Generic sensors`

			`For all sensors that can not be classified, two generic metrics are exported,`
Now, `ipmi_dcmi_power_consumption_watts` metric is not present if Power Measurement feature is not present. Before this change - the value was zero Signed-off-by: Konstantin Shalygin <k0ste@k0ste.ru> 2023-06-12 10:45:09 +00:00			`the state and the value. However, to provide a little more context, the sensor`
The great refactoring - Move every collector into its own file - Move FreeIPMI code into own package - Allow more customization of commands executed by collectors - Split up documentation, so README is a little less overwhelming A single commit message does not do justice to the amount of changes here, but hey... :) 2021-05-19 21:27:29 +00:00			`type is added as label (in addition to name and ID). Example:`

			`ipmi_sensor_state{id="139",name="Power Cable",type="Cable/Interconnect"} 0`
			`ipmi_sensor_value{id="139",name="Power Cable",type="Cable/Interconnect"} NaN`