// Copyright 2016 The Prometheus Authors
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// +build !nohwmon
package collector
import (
"errors"
"io/ioutil"
"os"
"path"
"path/filepath"
"regexp"
"strconv"
"strings"
"syscall"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/common/log"
)
var (
hwmonInvalidMetricChars = regexp . MustCompile ( "[^a-z0-9:_]" )
hwmonFilenameFormat = regexp . MustCompile ( ` ^(?P<type>[^0-9]+)(?P<id>[0-9]*)?(_(?P<property>.+))?$ ` )
hwmonLabelDesc = [ ] string { "chip" , "sensor" }
hwmonChipNameLabelDesc = [ ] string { "chip" , "chip_name" }
hwmonSensorTypes = [ ] string {
"vrm" , "beep_enable" , "update_interval" , "in" , "cpu" , "fan" ,
"pwm" , "temp" , "curr" , "power" , "energy" , "humidity" ,
"intrusion" ,
}
)
func init ( ) {
registerCollector ( "hwmon" , defaultEnabled , NewHwMonCollector )
}
type hwMonCollector struct { }
// NewHwMonCollector returns a new Collector exposing /sys/class/hwmon stats
// (similar to lm-sensors).
func NewHwMonCollector ( ) ( Collector , error ) {
return & hwMonCollector { } , nil
}
func cleanMetricName ( name string ) string {
lower := strings . ToLower ( name )
replaced := hwmonInvalidMetricChars . ReplaceAllLiteralString ( lower , "_" )
cleaned := strings . Trim ( replaced , "_" )
return cleaned
}
func addValueFile ( data map [ string ] map [ string ] string , sensor string , prop string , file string ) {
raw , err := sysReadFile ( file )
if err != nil {
return
}
value := strings . Trim ( string ( raw ) , "\n" )
if _ , ok := data [ sensor ] ; ! ok {
data [ sensor ] = make ( map [ string ] string )
}
data [ sensor ] [ prop ] = value
}
// sysReadFile is a simplified ioutil.ReadFile that invokes syscall.Read directly.
func sysReadFile ( file string ) ( [ ] byte , error ) {
f , err := os . Open ( file )
if err != nil {
return nil , err
}
defer f . Close ( )
// On some machines, hwmon drivers are broken and return EAGAIN. This causes
// Go's ioutil.ReadFile implementation to poll forever.
//
// Since we either want to read data or bail immediately, do the simplest
// possible read using syscall directly.
b := make ( [ ] byte , 128 )
n , err := syscall . Read ( int ( f . Fd ( ) ) , b )
if err != nil {
return nil , err
}
return b [ : n ] , nil
}
// explodeSensorFilename splits a sensor name into <type><num>_<property>.
func explodeSensorFilename ( filename string ) ( ok bool , sensorType string , sensorNum int , sensorProperty string ) {
matches := hwmonFilenameFormat . FindStringSubmatch ( filename )
if len ( matches ) == 0 {
return false , sensorType , sensorNum , sensorProperty
}
for i , match := range hwmonFilenameFormat . SubexpNames ( ) {
if i >= len ( matches ) {
return true , sensorType , sensorNum , sensorProperty
}
if match == "type" {
sensorType = matches [ i ]
}
if match == "property" {
sensorProperty = matches [ i ]
}
if match == "id" && len ( matches [ i ] ) > 0 {
if num , err := strconv . Atoi ( matches [ i ] ) ; err == nil {
sensorNum = num
} else {
return false , sensorType , sensorNum , sensorProperty
}
}
}
return true , sensorType , sensorNum , sensorProperty
}
func collectSensorData ( dir string , data map [ string ] map [ string ] string ) error {
sensorFiles , dirError := ioutil . ReadDir ( dir )
if dirError != nil {
return dirError
}
for _ , file := range sensorFiles {
filename := file . Name ( )
ok , sensorType , sensorNum , sensorProperty := explodeSensorFilename ( filename )
if ! ok {
continue
}
for _ , t := range hwmonSensorTypes {
if t == sensorType {
addValueFile ( data , sensorType + strconv . Itoa ( sensorNum ) , sensorProperty , path . Join ( dir , file . Name ( ) ) )
break
}
}
}
return nil
}
func ( c * hwMonCollector ) updateHwmon ( ch chan <- prometheus . Metric , dir string ) error {
hwmonName , err := c . hwmonName ( dir )
if err != nil {
return err
}
data := make ( map [ string ] map [ string ] string )
err = collectSensorData ( dir , data )
if err != nil {
return err
}
if _ , err := os . Stat ( path . Join ( dir , "device" ) ) ; err == nil {
err := collectSensorData ( path . Join ( dir , "device" ) , data )
if err != nil {
return err
}
}
hwmonChipName , err := c . hwmonHumanReadableChipName ( dir )
if err == nil {
// sensor chip metadata
desc := prometheus . NewDesc (
"node_hwmon_chip_names" ,
"Annotation metric for human-readable chip names" ,
hwmonChipNameLabelDesc ,
nil ,
)
ch <- prometheus . MustNewConstMetric (
desc ,
prometheus . GaugeValue ,
1.0 ,
hwmonName ,
hwmonChipName ,
)
}
// Format all sensors.
for sensor , sensorData := range data {
_ , sensorType , _ , _ := explodeSensorFilename ( sensor )
labels := [ ] string { hwmonName , sensor }
if labelText , ok := sensorData [ "label" ] ; ok {
label := cleanMetricName ( labelText )
if label != "" {
desc := prometheus . NewDesc ( "node_hwmon_sensor_label" , "Label for given chip and sensor" ,
[ ] string { "chip" , "sensor" , "label" } , nil )
ch <- prometheus . MustNewConstMetric ( desc , prometheus . GaugeValue , 1.0 , hwmonName , sensor , label )
}
}
if sensorType == "beep_enable" {
value := 0.0
if sensorData [ "" ] == "1" {
value = 1.0
}
metricName := "node_hwmon_beep_enabled"
desc := prometheus . NewDesc ( metricName , "Hardware beep enabled" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , value , labels ... )
continue
}
if sensorType == "vrm" {
parsedValue , err := strconv . ParseFloat ( sensorData [ "" ] , 64 )
if err != nil {
continue
}
metricName := "node_hwmon_voltage_regulator_version"
desc := prometheus . NewDesc ( metricName , "Hardware voltage regulator" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue , labels ... )
continue
}
if sensorType == "update_interval" {
parsedValue , err := strconv . ParseFloat ( sensorData [ "" ] , 64 )
if err != nil {
continue
}
metricName := "node_hwmon_update_interval_seconds"
desc := prometheus . NewDesc ( metricName , "Hardware monitor update interval" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue * 0.001 , labels ... )
continue
}
prefix := "node_hwmon_" + sensorType
for element , value := range sensorData {
if element == "label" {
continue
}
name := prefix
if element == "input" {
// input is actually the value
if _ , ok := sensorData [ "" ] ; ok {
name = name + "_input"
}
} else if element != "" {
name = name + "_" + cleanMetricName ( element )
}
parsedValue , err := strconv . ParseFloat ( value , 64 )
if err != nil {
continue
}
// special elements, fault, alarm & beep should be handed out without units
if element == "fault" || element == "alarm" {
desc := prometheus . NewDesc ( name , "Hardware sensor " + element + " status (" + sensorType + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric ( desc , prometheus . GaugeValue , parsedValue , labels ... )
continue
}
if element == "beep" {
desc := prometheus . NewDesc ( name + "_enabled" , "Hardware monitor sensor has beeping enabled" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric ( desc , prometheus . GaugeValue , parsedValue , labels ... )
continue
}
// everything else should get a unit
if sensorType == "in" || sensorType == "cpu" {
desc := prometheus . NewDesc ( name + "_volts" , "Hardware monitor for voltage (" + element + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue * 0.001 , labels ... )
continue
}
if sensorType == "temp" && element != "type" {
desc := prometheus . NewDesc ( name + "_celsius" , "Hardware monitor for temperature (" + element + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue * 0.001 , labels ... )
continue
}
if sensorType == "curr" {
desc := prometheus . NewDesc ( name + "_amps" , "Hardware monitor for current (" + element + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue * 0.001 , labels ... )
continue
}
if sensorType == "energy" {
desc := prometheus . NewDesc ( name + "_joule_total" , "Hardware monitor for joules used so far (" + element + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . CounterValue , parsedValue / 1000000.0 , labels ... )
continue
}
if sensorType == "power" && element == "accuracy" {
desc := prometheus . NewDesc ( name , "Hardware monitor power meter accuracy, as a ratio" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue / 1000000.0 , labels ... )
continue
}
if sensorType == "power" && ( element == "average_interval" || element == "average_interval_min" || element == "average_interval_max" ) {
desc := prometheus . NewDesc ( name + "_seconds" , "Hardware monitor power usage update interval (" + element + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue * 0.001 , labels ... )
continue
}
if sensorType == "power" {
desc := prometheus . NewDesc ( name + "_watt" , "Hardware monitor for power usage in watts (" + element + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue / 1000000.0 , labels ... )
continue
}
if sensorType == "humidity" {
desc := prometheus . NewDesc ( name , "Hardware monitor for humidity, as a ratio (multiply with 100.0 to get the humidity as a percentage) (" + element + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue / 1000000.0 , labels ... )
continue
}
if sensorType == "fan" && ( element == "input" || element == "min" || element == "max" || element == "target" ) {
desc := prometheus . NewDesc ( name + "_rpm" , "Hardware monitor for fan revolutions per minute (" + element + ")" , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue , labels ... )
continue
}
// fallback, just dump the metric as is
desc := prometheus . NewDesc ( name , "Hardware monitor " + sensorType + " element " + element , hwmonLabelDesc , nil )
ch <- prometheus . MustNewConstMetric (
desc , prometheus . GaugeValue , parsedValue , labels ... )
}
}
return nil
}
func ( c * hwMonCollector ) hwmonName ( dir string ) ( string , error ) {
// generate a name for a sensor path
// sensor numbering depends on the order of linux module loading and
// is thus unstable.
// However the path of the device has to be stable:
// - /sys/devices/<bus>/<device>
// Some hardware monitors have a "name" file that exports a human
// readbale name that can be used.
// human readable names would be bat0 or coretemp, while a path string
// could be platform_applesmc.768
// preference 1: construct a name based on device name, always unique
devicePath , devErr := filepath . EvalSymlinks ( path . Join ( dir , "device" ) )
if devErr == nil {
devPathPrefix , devName := path . Split ( devicePath )
_ , devType := path . Split ( strings . TrimRight ( devPathPrefix , "/" ) )
cleanDevName := cleanMetricName ( devName )
cleanDevType := cleanMetricName ( devType )
if cleanDevType != "" && cleanDevName != "" {
return cleanDevType + "_" + cleanDevName , nil
}
if cleanDevName != "" {
return cleanDevName , nil
}
}
// preference 2: is there a name file
sysnameRaw , nameErr := ioutil . ReadFile ( path . Join ( dir , "name" ) )
if nameErr == nil && string ( sysnameRaw ) != "" {
cleanName := cleanMetricName ( string ( sysnameRaw ) )
if cleanName != "" {
return cleanName , nil
}
}
// it looks bad, name and device don't provide enough information
// return a hwmon[0-9]* name
realDir , err := filepath . EvalSymlinks ( dir )
if err != nil {
return "" , err
}
// take the last path element, this will be hwmonX
_ , name := path . Split ( realDir )
cleanName := cleanMetricName ( name )
if cleanName != "" {
return cleanName , nil
}
return "" , errors . New ( "Could not derive a monitoring name for " + dir )
}
// hwmonHumanReadableChipName is similar to the methods in hwmonName, but with
// different precedences -- we can allow duplicates here.
func ( c * hwMonCollector ) hwmonHumanReadableChipName ( dir string ) ( string , error ) {
sysnameRaw , nameErr := ioutil . ReadFile ( path . Join ( dir , "name" ) )
if nameErr != nil {
return "" , nameErr
}
if string ( sysnameRaw ) != "" {
cleanName := cleanMetricName ( string ( sysnameRaw ) )
if cleanName != "" {
return cleanName , nil
}
}
return "" , errors . New ( "Could not derive a human-readable chip type for " + dir )
}
func ( c * hwMonCollector ) Update ( ch chan <- prometheus . Metric ) error {
// Step 1: scan /sys/class/hwmon, resolve all symlinks and call
// updatesHwmon for each folder
hwmonPathName := path . Join ( sysFilePath ( "class" ) , "hwmon" )
hwmonFiles , err := ioutil . ReadDir ( hwmonPathName )
if err != nil {
if os . IsNotExist ( err ) {
log . Debug ( "hwmon collector metrics are not available for this system" )
return nil
}
return err
}
for _ , hwDir := range hwmonFiles {
hwmonXPathName := path . Join ( hwmonPathName , hwDir . Name ( ) )
if hwDir . Mode ( ) & os . ModeSymlink > 0 {
hwDir , err = os . Stat ( hwmonXPathName )
if err != nil {
continue
}
}
if ! hwDir . IsDir ( ) {
continue
}
if lastErr := c . updateHwmon ( ch , hwmonXPathName ) ; lastErr != nil {
err = lastErr
}
}
return err
}