telegraf/plugins/processors/strings/strings.go

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package strings
import (
"strings"
"unicode"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/plugins/processors"
)
type Strings struct {
Lowercase []converter `toml:"lowercase"`
Uppercase []converter `toml:"uppercase"`
Trim []converter `toml:"trim"`
TrimLeft []converter `toml:"trim_left"`
TrimRight []converter `toml:"trim_right"`
TrimPrefix []converter `toml:"trim_prefix"`
TrimSuffix []converter `toml:"trim_suffix"`
Replace []converter `toml:"replace"`
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converters []converter
init bool
}
type ConvertFunc func(s string) string
type converter struct {
Field string
FieldKey string
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Tag string
TagKey string
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Measurement string
Dest string
Cutset string
Suffix string
Prefix string
Old string
New string
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fn ConvertFunc
}
const sampleConfig = `
## Convert a tag value to uppercase
# [[processors.strings.uppercase]]
# tag = "method"
## Convert a field value to lowercase and store in a new field
# [[processors.strings.lowercase]]
# field = "uri_stem"
# dest = "uri_stem_normalised"
## Trim leading and trailing whitespace using the default cutset
# [[processors.strings.trim]]
# field = "message"
## Trim leading characters in cutset
# [[processors.strings.trim_left]]
# field = "message"
# cutset = "\t"
## Trim trailing characters in cutset
# [[processors.strings.trim_right]]
# field = "message"
# cutset = "\r\n"
## Trim the given prefix from the field
# [[processors.strings.trim_prefix]]
# field = "my_value"
# prefix = "my_"
## Trim the given suffix from the field
# [[processors.strings.trim_suffix]]
# field = "read_count"
# suffix = "_count"
## Replace all non-overlapping instances of old with new
# [[processors.strings.replace]]
# measurement = "*"
# old = ":"
# new = "_"
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`
func (s *Strings) SampleConfig() string {
return sampleConfig
}
func (s *Strings) Description() string {
return "Perform string processing on tags, fields, and measurements"
}
func (c *converter) convertTag(metric telegraf.Metric) {
var tags map[string]string
if c.Tag == "*" {
tags = metric.Tags()
} else {
tags = make(map[string]string)
tv, ok := metric.GetTag(c.Tag)
if !ok {
return
}
tags[c.Tag] = tv
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}
for key, value := range tags {
dest := key
if c.Tag != "*" && c.Dest != "" {
dest = c.Dest
}
metric.AddTag(dest, c.fn(value))
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}
}
func (c *converter) convertTagKey(metric telegraf.Metric) {
var tags map[string]string
if c.TagKey == "*" {
tags = metric.Tags()
} else {
tags = make(map[string]string)
tv, ok := metric.GetTag(c.TagKey)
if !ok {
return
}
tags[c.TagKey] = tv
}
for key, value := range tags {
if k := c.fn(key); k != "" {
metric.RemoveTag(key)
metric.AddTag(k, value)
}
}
}
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func (c *converter) convertField(metric telegraf.Metric) {
var fields map[string]interface{}
if c.Field == "*" {
fields = metric.Fields()
} else {
fields = make(map[string]interface{})
fv, ok := metric.GetField(c.Field)
if !ok {
return
}
fields[c.Field] = fv
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}
for key, value := range fields {
dest := key
if c.Field != "*" && c.Dest != "" {
dest = c.Dest
}
if fv, ok := value.(string); ok {
metric.AddField(dest, c.fn(fv))
}
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}
}
func (c *converter) convertFieldKey(metric telegraf.Metric) {
var fields map[string]interface{}
if c.FieldKey == "*" {
fields = metric.Fields()
} else {
fields = make(map[string]interface{})
fv, ok := metric.GetField(c.FieldKey)
if !ok {
return
}
fields[c.FieldKey] = fv
}
for key, value := range fields {
if k := c.fn(key); k != "" {
metric.RemoveField(key)
metric.AddField(k, value)
}
}
}
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func (c *converter) convertMeasurement(metric telegraf.Metric) {
if metric.Name() != c.Measurement && c.Measurement != "*" {
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return
}
metric.SetName(c.fn(metric.Name()))
}
func (c *converter) convert(metric telegraf.Metric) {
if c.Field != "" {
c.convertField(metric)
}
if c.FieldKey != "" {
c.convertFieldKey(metric)
}
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if c.Tag != "" {
c.convertTag(metric)
}
if c.TagKey != "" {
c.convertTagKey(metric)
}
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if c.Measurement != "" {
c.convertMeasurement(metric)
}
}
func (s *Strings) initOnce() {
if s.init {
return
}
s.converters = make([]converter, 0)
for _, c := range s.Lowercase {
c.fn = strings.ToLower
s.converters = append(s.converters, c)
}
for _, c := range s.Uppercase {
c.fn = strings.ToUpper
s.converters = append(s.converters, c)
}
for _, c := range s.Trim {
c := c
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if c.Cutset != "" {
c.fn = func(s string) string { return strings.Trim(s, c.Cutset) }
} else {
c.fn = func(s string) string { return strings.TrimFunc(s, unicode.IsSpace) }
}
s.converters = append(s.converters, c)
}
for _, c := range s.TrimLeft {
c := c
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if c.Cutset != "" {
c.fn = func(s string) string { return strings.TrimLeft(s, c.Cutset) }
} else {
c.fn = func(s string) string { return strings.TrimLeftFunc(s, unicode.IsSpace) }
}
s.converters = append(s.converters, c)
}
for _, c := range s.TrimRight {
c := c
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if c.Cutset != "" {
c.fn = func(s string) string { return strings.TrimRight(s, c.Cutset) }
} else {
c.fn = func(s string) string { return strings.TrimRightFunc(s, unicode.IsSpace) }
}
s.converters = append(s.converters, c)
}
for _, c := range s.TrimPrefix {
c := c
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c.fn = func(s string) string { return strings.TrimPrefix(s, c.Prefix) }
s.converters = append(s.converters, c)
}
for _, c := range s.TrimSuffix {
c := c
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c.fn = func(s string) string { return strings.TrimSuffix(s, c.Suffix) }
s.converters = append(s.converters, c)
}
for _, c := range s.Replace {
c := c
c.fn = func(s string) string {
newString := strings.Replace(s, c.Old, c.New, -1)
if newString == "" {
return s
} else {
return newString
}
}
s.converters = append(s.converters, c)
}
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s.init = true
}
func (s *Strings) Apply(in ...telegraf.Metric) []telegraf.Metric {
s.initOnce()
for _, metric := range in {
for _, converter := range s.converters {
converter.convert(metric)
}
}
return in
}
func init() {
processors.Add("strings", func() telegraf.Processor {
return &Strings{}
})
}