telegraf/plugins/inputs/win_perf_counters/win_perf_counters.go

363 lines
11 KiB
Go

// +build windows
package win_perf_counters
import (
"errors"
"fmt"
"log"
"regexp"
"strings"
"time"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/internal"
"github.com/influxdata/telegraf/plugins/inputs"
)
var sampleConfig = `
## By default this plugin returns basic CPU and Disk statistics.
## See the README file for more examples.
## Uncomment examples below or write your own as you see fit. If the system
## being polled for data does not have the Object at startup of the Telegraf
## agent, it will not be gathered.
## Settings:
# PrintValid = false # Print All matching performance counters
# If UseWildcardsExpansion params is set to true, wildcards (partial wildcards in instance names and wildcards in counters names) in configured counter paths will be expanded
# and in case of localized Windows, counter paths will be also localized. It also returns instance indexes in instance names.
# If false, wildcards (not partial) in instance names will still be expanded, but instance indexes will not be returned in instance names.
#UseWildcardsExpansion = false
# Period after which counters will be reread from configuration and wildcards in counter paths expanded
CountersRefreshInterval="1m"
[[inputs.win_perf_counters.object]]
# Processor usage, alternative to native, reports on a per core.
ObjectName = "Processor"
Instances = ["*"]
Counters = [
"%% Idle Time", "%% Interrupt Time",
"%% Privileged Time", "%% User Time",
"%% Processor Time"
]
Measurement = "win_cpu"
# Set to true to include _Total instance when querying for all (*).
# IncludeTotal=false
# Print out when the performance counter is missing from object, counter or instance.
# WarnOnMissing = false
[[inputs.win_perf_counters.object]]
# Disk times and queues
ObjectName = "LogicalDisk"
Instances = ["*"]
Counters = [
"%% Idle Time", "%% Disk Time","%% Disk Read Time",
"%% Disk Write Time", "%% User Time", "Current Disk Queue Length"
]
Measurement = "win_disk"
[[inputs.win_perf_counters.object]]
ObjectName = "System"
Counters = ["Context Switches/sec","System Calls/sec"]
Instances = ["------"]
Measurement = "win_system"
[[inputs.win_perf_counters.object]]
# Example counterPath where the Instance portion must be removed to get data back,
# such as from the Memory object.
ObjectName = "Memory"
Counters = [
"Available Bytes", "Cache Faults/sec", "Demand Zero Faults/sec",
"Page Faults/sec", "Pages/sec", "Transition Faults/sec",
"Pool Nonpaged Bytes", "Pool Paged Bytes"
]
Instances = ["------"] # Use 6 x - to remove the Instance bit from the counterPath.
Measurement = "win_mem"
`
type Win_PerfCounters struct {
PrintValid bool
//deprecated: determined dynamically
PreVistaSupport bool
Object []perfobject
CountersRefreshInterval internal.Duration
UseWildcardsExpansion bool
lastRefreshed time.Time
counters []*counter
query PerformanceQuery
}
type perfobject struct {
ObjectName string
Counters []string
Instances []string
Measurement string
WarnOnMissing bool
FailOnMissing bool
IncludeTotal bool
}
type counter struct {
counterPath string
objectName string
counter string
instance string
measurement string
includeTotal bool
counterHandle PDH_HCOUNTER
}
var sanitizedChars = strings.NewReplacer("/sec", "_persec", "/Sec", "_persec",
" ", "_", "%", "Percent", `\`, "")
//General Counter path pattern is: \\computer\object(parent/instance#index)\counter
//parent/instance#index part is skipped in single instance objects (e.g. Memory): \\computer\object\counter
var counterPathRE = regexp.MustCompile(`.*\\(.*)\\(.*)`)
var objectInstanceRE = regexp.MustCompile(`(.*)\((.*)\)`)
//extractObjectInstanceCounterFromQuery gets object name, instance name (if available) and counter name from counter path
func extractObjectInstanceCounterFromQuery(query string) (object string, instance string, counter string, err error) {
pathParts := counterPathRE.FindAllStringSubmatch(query, -1)
if pathParts == nil || len(pathParts[0]) != 3 {
err = errors.New("Could not extract counter info from: " + query)
return
}
counter = pathParts[0][2]
//try to get instance name
objectInstanceParts := objectInstanceRE.FindAllStringSubmatch(pathParts[0][1], -1)
if objectInstanceParts == nil || len(objectInstanceParts[0]) != 3 {
object = pathParts[0][1]
} else {
object = objectInstanceParts[0][1]
instance = objectInstanceParts[0][2]
}
return
}
func (m *Win_PerfCounters) Description() string {
return "Input plugin to counterPath Performance Counters on Windows operating systems"
}
func (m *Win_PerfCounters) SampleConfig() string {
return sampleConfig
}
//objectName string, counter string, instance string, measurement string, include_total bool
func (m *Win_PerfCounters) AddItem(counterPath string, objectName string, instance string, counterName string, measurement string, includeTotal bool) error {
var err error
var counterHandle PDH_HCOUNTER
if !m.query.AddEnglishCounterSupported() {
counterHandle, err = m.query.AddCounterToQuery(counterPath)
if err != nil {
return err
}
} else {
counterHandle, err = m.query.AddEnglishCounterToQuery(counterPath)
if err != nil {
return err
}
}
if m.UseWildcardsExpansion {
origInstance := instance
counterPath, err = m.query.GetCounterPath(counterHandle)
if err != nil {
return err
}
counters, err := m.query.ExpandWildCardPath(counterPath)
if err != nil {
return err
}
for _, counterPath := range counters {
var err error
counterHandle, err := m.query.AddCounterToQuery(counterPath)
objectName, instance, counterName, err = extractObjectInstanceCounterFromQuery(counterPath)
if err != nil {
return err
}
if instance == "_Total" && origInstance == "*" && !includeTotal {
continue
}
newItem := &counter{counterPath, objectName, counterName, instance, measurement,
includeTotal, counterHandle}
m.counters = append(m.counters, newItem)
if m.PrintValid {
log.Printf("Valid: %s\n", counterPath)
}
}
} else {
newItem := &counter{counterPath, objectName, counterName, instance, measurement,
includeTotal, counterHandle}
m.counters = append(m.counters, newItem)
if m.PrintValid {
log.Printf("Valid: %s\n", counterPath)
}
}
return nil
}
func (m *Win_PerfCounters) ParseConfig() error {
var counterPath string
if len(m.Object) > 0 {
for _, PerfObject := range m.Object {
for _, counter := range PerfObject.Counters {
for _, instance := range PerfObject.Instances {
objectname := PerfObject.ObjectName
if instance == "------" {
counterPath = "\\" + objectname + "\\" + counter
} else {
counterPath = "\\" + objectname + "(" + instance + ")\\" + counter
}
err := m.AddItem(counterPath, objectname, instance, counter, PerfObject.Measurement, PerfObject.IncludeTotal)
if err != nil {
if PerfObject.FailOnMissing || PerfObject.WarnOnMissing {
log.Printf("Invalid counterPath: '%s'. Error: %s\n", counterPath, err.Error())
}
if PerfObject.FailOnMissing {
return err
}
}
}
}
}
return nil
} else {
err := errors.New("no performance objects configured")
return err
}
}
func (m *Win_PerfCounters) Gather(acc telegraf.Accumulator) error {
// Parse the config once
var err error
if m.lastRefreshed.IsZero() || (m.CountersRefreshInterval.Duration.Nanoseconds() > 0 && m.lastRefreshed.Add(m.CountersRefreshInterval.Duration).Before(time.Now())) {
if m.counters != nil {
m.counters = m.counters[:0]
}
err = m.query.Open()
if err != nil {
return err
}
err = m.ParseConfig()
if err != nil {
return err
}
//some counters need two data samples before computing a value
err = m.query.CollectData()
if err != nil {
return err
}
m.lastRefreshed = time.Now()
time.Sleep(time.Second)
}
type InstanceGrouping struct {
name string
instance string
objectname string
}
var collectFields = make(map[InstanceGrouping]map[string]interface{})
err = m.query.CollectData()
if err != nil {
return err
}
// For iterate over the known metrics and get the samples.
for _, metric := range m.counters {
// collect
if m.UseWildcardsExpansion {
value, err := m.query.GetFormattedCounterValueDouble(metric.counterHandle)
if err == nil {
measurement := sanitizedChars.Replace(metric.measurement)
if measurement == "" {
measurement = "win_perf_counters"
}
var instance = InstanceGrouping{measurement, metric.instance, metric.objectName}
if collectFields[instance] == nil {
collectFields[instance] = make(map[string]interface{})
}
collectFields[instance][sanitizedChars.Replace(metric.counter)] = float32(value)
} else {
//ignore invalid data from as some counters from process instances returns this sometimes
if phderr, ok := err.(*PdhError); ok && phderr.ErrorCode != PDH_INVALID_DATA && phderr.ErrorCode != PDH_CALC_NEGATIVE_VALUE {
return fmt.Errorf("error while getting value for counter %s: %v", metric.counterPath, err)
}
}
} else {
counterValues, err := m.query.GetFormattedCounterArrayDouble(metric.counterHandle)
if err == nil {
for _, cValue := range counterValues {
var add bool
if metric.includeTotal {
// If IncludeTotal is set, include all.
add = true
} else if metric.instance == "*" && !strings.Contains(cValue.InstanceName, "_Total") {
// Catch if set to * and that it is not a '*_Total*' instance.
add = true
} else if metric.instance == cValue.InstanceName {
// Catch if we set it to total or some form of it
add = true
} else if strings.Contains(metric.instance, "#") && strings.HasPrefix(metric.instance, cValue.InstanceName) {
// If you are using a multiple instance identifier such as "w3wp#1"
// phd.dll returns only the first 2 characters of the identifier.
add = true
cValue.InstanceName = metric.instance
} else if metric.instance == "------" {
add = true
}
if add {
measurement := sanitizedChars.Replace(metric.measurement)
if measurement == "" {
measurement = "win_perf_counters"
}
var instance = InstanceGrouping{measurement, cValue.InstanceName, metric.objectName}
if collectFields[instance] == nil {
collectFields[instance] = make(map[string]interface{})
}
collectFields[instance][sanitizedChars.Replace(metric.counter)] = float32(cValue.Value)
}
}
}
}
}
for instance, fields := range collectFields {
var tags = map[string]string{
"objectname": instance.objectname,
}
if len(instance.instance) > 0 {
tags["instance"] = instance.instance
}
acc.AddFields(instance.name, fields, tags)
}
return nil
}
func init() {
inputs.Add("win_perf_counters", func() telegraf.Input {
return &Win_PerfCounters{query: &PerformanceQueryImpl{}, CountersRefreshInterval: internal.Duration{Duration: time.Second * 60}}
})
}