telegraf/internal/models/filter.go

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package models
import (
"fmt"
"github.com/influxdata/telegraf/filter"
)
// TagFilter is the name of a tag, and the values on which to filter
type TagFilter struct {
Name string
Filter []string
filter filter.Filter
}
// Filter containing drop/pass and tagdrop/tagpass rules
type Filter struct {
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NameDrop []string
nameDrop filter.Filter
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NamePass []string
namePass filter.Filter
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FieldDrop []string
fieldDrop filter.Filter
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FieldPass []string
fieldPass filter.Filter
TagDrop []TagFilter
TagPass []TagFilter
TagExclude []string
tagExclude filter.Filter
TagInclude []string
tagInclude filter.Filter
isActive bool
}
// Compile all Filter lists into filter.Filter objects.
func (f *Filter) Compile() error {
if len(f.NameDrop) == 0 &&
len(f.NamePass) == 0 &&
len(f.FieldDrop) == 0 &&
len(f.FieldPass) == 0 &&
len(f.TagInclude) == 0 &&
len(f.TagExclude) == 0 &&
len(f.TagPass) == 0 &&
len(f.TagDrop) == 0 {
return nil
}
f.isActive = true
var err error
f.nameDrop, err = filter.Compile(f.NameDrop)
if err != nil {
return fmt.Errorf("Error compiling 'namedrop', %s", err)
}
f.namePass, err = filter.Compile(f.NamePass)
if err != nil {
return fmt.Errorf("Error compiling 'namepass', %s", err)
}
f.fieldDrop, err = filter.Compile(f.FieldDrop)
if err != nil {
return fmt.Errorf("Error compiling 'fielddrop', %s", err)
}
f.fieldPass, err = filter.Compile(f.FieldPass)
if err != nil {
return fmt.Errorf("Error compiling 'fieldpass', %s", err)
}
f.tagExclude, err = filter.Compile(f.TagExclude)
if err != nil {
return fmt.Errorf("Error compiling 'tagexclude', %s", err)
}
f.tagInclude, err = filter.Compile(f.TagInclude)
if err != nil {
return fmt.Errorf("Error compiling 'taginclude', %s", err)
}
for i, _ := range f.TagDrop {
f.TagDrop[i].filter, err = filter.Compile(f.TagDrop[i].Filter)
if err != nil {
return fmt.Errorf("Error compiling 'tagdrop', %s", err)
}
}
for i, _ := range f.TagPass {
f.TagPass[i].filter, err = filter.Compile(f.TagPass[i].Filter)
if err != nil {
return fmt.Errorf("Error compiling 'tagpass', %s", err)
}
}
return nil
}
// Apply applies the filter to the given measurement name, fields map, and
// tags map. It will return false if the metric should be "filtered out", and
// true if the metric should "pass".
// It will modify tags & fields in-place if they need to be deleted.
func (f *Filter) Apply(
measurement string,
fields map[string]interface{},
tags map[string]string,
) bool {
if !f.isActive {
return true
}
// check if the measurement name should pass
if !f.shouldNamePass(measurement) {
return false
}
// check if the tags should pass
if !f.shouldTagsPass(tags) {
return false
}
// filter fields
for fieldkey, _ := range fields {
if !f.shouldFieldPass(fieldkey) {
delete(fields, fieldkey)
}
}
if len(fields) == 0 {
return false
}
// filter tags
f.filterTags(tags)
return true
}
// IsActive checking if filter is active
func (f *Filter) IsActive() bool {
return f.isActive
}
// shouldNamePass returns true if the metric should pass, false if should drop
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// based on the drop/pass filter parameters
func (f *Filter) shouldNamePass(key string) bool {
pass := func(f *Filter) bool {
if f.namePass.Match(key) {
return true
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}
return false
}
drop := func(f *Filter) bool {
if f.nameDrop.Match(key) {
return false
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}
return true
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}
if f.namePass != nil && f.nameDrop != nil {
return pass(f) && drop(f)
} else if f.namePass != nil {
return pass(f)
} else if f.nameDrop != nil {
return drop(f)
}
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return true
}
// shouldFieldPass returns true if the metric should pass, false if should drop
// based on the drop/pass filter parameters
func (f *Filter) shouldFieldPass(key string) bool {
pass := func(f *Filter) bool {
if f.fieldPass.Match(key) {
return true
}
return false
}
drop := func(f *Filter) bool {
if f.fieldDrop.Match(key) {
return false
}
return true
}
if f.fieldPass != nil && f.fieldDrop != nil {
return pass(f) && drop(f)
} else if f.fieldPass != nil {
return pass(f)
} else if f.fieldDrop != nil {
return drop(f)
}
return true
}
// shouldTagsPass returns true if the metric should pass, false if should drop
// based on the tagdrop/tagpass filter parameters
func (f *Filter) shouldTagsPass(tags map[string]string) bool {
pass := func(f *Filter) bool {
for _, pat := range f.TagPass {
if pat.filter == nil {
continue
}
if tagval, ok := tags[pat.Name]; ok {
if pat.filter.Match(tagval) {
return true
}
}
}
return false
}
drop := func(f *Filter) bool {
for _, pat := range f.TagDrop {
if pat.filter == nil {
continue
}
if tagval, ok := tags[pat.Name]; ok {
if pat.filter.Match(tagval) {
return false
}
}
}
return true
}
// Add additional logic in case where both parameters are set.
// see: https://github.com/influxdata/telegraf/issues/2860
if f.TagPass != nil && f.TagDrop != nil {
// return true only in case when tag pass and won't be dropped (true, true).
// in case when the same tag should be passed and dropped it will be dropped (true, false).
return pass(f) && drop(f)
} else if f.TagPass != nil {
return pass(f)
} else if f.TagDrop != nil {
return drop(f)
}
return true
}
// Apply TagInclude and TagExclude filters.
// modifies the tags map in-place.
func (f *Filter) filterTags(tags map[string]string) {
if f.tagInclude != nil {
for k, _ := range tags {
if !f.tagInclude.Match(k) {
delete(tags, k)
}
}
}
if f.tagExclude != nil {
for k, _ := range tags {
if f.tagExclude.Match(k) {
delete(tags, k)
}
}
}
}