Adds support for removing/keeping tags from metrics

closes #706
This commit is contained in:
Cameron Sparr 2016-04-12 17:06:27 -06:00
parent f76739cb1b
commit 81d0a64d46
14 changed files with 611 additions and 236 deletions

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@ -1,5 +1,20 @@
## v0.13 [unreleased]
### Release Notes
- `tagexclude` and `tagexclude` are now available, which can be used to remove
tags from measurements on inputs and outputs. See
[the configuration doc](https://github.com/influxdata/telegraf/blob/master/docs/CONFIGURATION.md)
for more details.
- **Measurement filtering:** All measurement filters now match based on glob
only. Previously there was an undocumented behavior where filters would match
based on _prefix_ in addition to globs. This means that a filter like
`fielddrop = ["time_"]` will need to be changed to `fielddrop = ["time_*"]`
### Features
- [#1017](https://github.com/influxdata/telegraf/pull/1017): taginclude and tagexclude arguments.
### Bugfixes
## v0.12.1 [2016-04-14]
### Release Notes

1
Godeps
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@ -16,6 +16,7 @@ github.com/eapache/go-resiliency b86b1ec0dd4209a588dc1285cdd471e73525c0b3
github.com/eapache/queue ded5959c0d4e360646dc9e9908cff48666781367
github.com/eclipse/paho.mqtt.golang 0f7a459f04f13a41b7ed752d47944528d4bf9a86
github.com/go-sql-driver/mysql 1fca743146605a172a266e1654e01e5cd5669bee
github.com/gobwas/glob d877f6352135181470c40c73ebb81aefa22115fa
github.com/golang/protobuf 552c7b9542c194800fd493123b3798ef0a832032
github.com/golang/snappy 427fb6fc07997f43afa32f35e850833760e489a7
github.com/gonuts/go-shellquote e842a11b24c6abfb3dd27af69a17f482e4b483c2

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@ -96,6 +96,7 @@ func (ac *accumulator) AddFields(
tags[k] = v
}
}
ac.inputConfig.Filter.FilterTags(tags)
result := make(map[string]interface{})
for k, v := range fields {

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@ -300,3 +300,35 @@ func TestAddBools(t *testing.T) {
fmt.Sprintf("acctest,acc=test,default=tag value=false %d", now.UnixNano()),
actual)
}
// Test that tag filters get applied to metrics.
func TestAccFilterTags(t *testing.T) {
a := accumulator{}
now := time.Now()
a.metrics = make(chan telegraf.Metric, 10)
defer close(a.metrics)
filter := internal_models.Filter{
TagExclude: []string{"acc"},
}
assert.NoError(t, filter.CompileFilter())
a.inputConfig = &internal_models.InputConfig{}
a.inputConfig.Filter = filter
a.Add("acctest", float64(101), map[string]string{})
a.Add("acctest", float64(101), map[string]string{"acc": "test"})
a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
testm := <-a.metrics
actual := testm.String()
assert.Contains(t, actual, "acctest value=101")
testm = <-a.metrics
actual = testm.String()
assert.Contains(t, actual, "acctest value=101")
testm = <-a.metrics
actual = testm.String()
assert.Equal(t,
fmt.Sprintf("acctest value=101 %d", now.UnixNano()),
actual)
}

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@ -3,11 +3,20 @@
## Generating a Configuration File
A default Telegraf config file can be generated using the -sample-config flag:
`telegraf -sample-config > telegraf.conf`
```
telegraf -sample-config > telegraf.conf
```
To generate a file with specific inputs and outputs, you can use the
-input-filter and -output-filter flags:
`telegraf -sample-config -input-filter cpu:mem:net:swap -output-filter influxdb:kafka`
```
telegraf -sample-config -input-filter cpu:mem:net:swap -output-filter influxdb:kafka
```
You can see the latest config file with all available plugins
[here](https://github.com/influxdata/telegraf/blob/master/etc/telegraf.conf)
## Environment Variables
@ -17,8 +26,8 @@ for numbers and booleans they should be plain (ie, $INT_VAR, $BOOL_VAR)
## `[global_tags]` Configuration
Global tags can be specific in the `[global_tags]` section of the config file in
key="value" format. All metrics being gathered on this host will be tagged
Global tags can be specified in the `[global_tags]` section of the config file
in key="value" format. All metrics being gathered on this host will be tagged
with the tags specified here.
## `[agent]` Configuration
@ -47,9 +56,35 @@ ie, a jitter of 5s and flush_interval 10s means flushes will happen every 10-15s
* **quiet**: Run telegraf in quiet mode.
* **hostname**: Override default hostname, if empty use os.Hostname().
## `[inputs.xxx]` Configuration
#### Measurement Filtering
There are some configuration options that are configurable per input:
Filters can be configured per input or output, see below for examples.
* **namepass**: An array of strings that is used to filter metrics generated by the
current input. Each string in the array is tested as a glob match against
measurement names and if it matches, the field is emitted.
* **namedrop**: The inverse of pass, if a measurement name matches, it is not emitted.
* **fieldpass**: An array of strings that is used to filter metrics generated by the
current input. Each string in the array is tested as a glob match against field names
and if it matches, the field is emitted. fieldpass is not available for outputs.
* **fielddrop**: The inverse of pass, if a field name matches, it is not emitted.
fielddrop is not available for outputs.
* **tagpass**: tag names and arrays of strings that are used to filter
measurements by the current input. Each string in the array is tested as a glob
match against the tag name, and if it matches the measurement is emitted.
* **tagdrop**: The inverse of tagpass. If a tag matches, the measurement is not
emitted. This is tested on measurements that have passed the tagpass test.
* **tagexclude**: tagexclude can be used to exclude a tag from measurement(s).
As opposed to tagdrop, which will drop an entire measurement based on it's
tags, tagexclude simply strips the given tag keys from the measurement. This
can be used on inputs & outputs, but it is _recommended_ to be used on inputs,
as it is more efficient to filter out tags at the ingestion point.
* **taginclude**: taginclude is the inverse of tagexclude. It will only include
the tag keys in the final measurement.
## Input Configuration
Some configuration options are configurable per input:
* **name_override**: Override the base name of the measurement.
(Default is the name of the input).
@ -60,24 +95,6 @@ There are some configuration options that are configurable per input:
global interval, but if one particular input should be run less or more often,
you can configure that here.
#### Input Filters
There are also filters that can be configured per input:
* **namepass**: An array of strings that is used to filter metrics generated by the
current input. Each string in the array is tested as a glob match against
measurement names and if it matches, the field is emitted.
* **namedrop**: The inverse of pass, if a measurement name matches, it is not emitted.
* **fieldpass**: An array of strings that is used to filter metrics generated by the
current input. Each string in the array is tested as a glob match against field names
and if it matches, the field is emitted.
* **fielddrop**: The inverse of pass, if a field name matches, it is not emitted.
* **tagpass**: tag names and arrays of strings that are used to filter
measurements by the current input. Each string in the array is tested as a glob
match against the tag name, and if it matches the measurement is emitted.
* **tagdrop**: The inverse of tagpass. If a tag matches, the measurement is not
emitted. This is tested on measurements that have passed the tagpass test.
#### Input Configuration Examples
This is a full working config that will output CPU data to an InfluxDB instance
@ -155,6 +172,20 @@ fields which begin with `time_`.
namepass = ["rest_client_*"]
```
#### Input Config: taginclude and tagexclude
```toml
# Only include the "cpu" tag in the measurements for the cpu plugin.
[[inputs.cpu]]
percpu = true
totalcpu = true
taginclude = ["cpu"]
# Exclude the "fstype" tag from the measurements for the disk plugin.
[[inputs.disk]]
tagexclude = ["fstype"]
```
#### Input config: prefix, suffix, and override
This plugin will emit measurements with the name `cpu_total`
@ -180,6 +211,9 @@ This will emit measurements with the name `foobar`
This plugin will emit measurements with two additional tags: `tag1=foo` and
`tag2=bar`
NOTE: Order matters, the `[inputs.cpu.tags]` table must be at the _end_ of the
plugin definition.
```toml
[[inputs.cpu]]
percpu = false
@ -208,15 +242,12 @@ to avoid measurement collisions:
fielddrop = ["cpu_time*"]
```
## `[outputs.xxx]` Configuration
## Output Configuration
Telegraf also supports specifying multiple output sinks to send data to,
configuring each output sink is different, but examples can be
found by running `telegraf -sample-config`.
Outputs also support the same configurable options as inputs
(namepass, namedrop, tagpass, tagdrop)
```toml
[[outputs.influxdb]]
urls = [ "http://localhost:8086" ]

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@ -28,6 +28,5 @@
- github.com/wvanbergen/kazoo-go [MIT LICENSE](https://github.com/wvanbergen/kazoo-go/blob/master/MIT-LICENSE)
- gopkg.in/dancannon/gorethink.v1 [APACHE LICENSE](https://github.com/dancannon/gorethink/blob/v1.1.2/LICENSE)
- gopkg.in/mgo.v2 [BSD LICENSE](https://github.com/go-mgo/mgo/blob/v2/LICENSE)
- golang.org/x/crypto/* [BSD LICENSE](https://github.com/golang/crypto/blob/master/LICENSE)
- internal Glob function [MIT LICENSE](https://github.com/ryanuber/go-glob/blob/master/LICENSE)
- golang.org/x/crypto/ [BSD LICENSE](https://github.com/golang/crypto/blob/master/LICENSE)

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@ -580,9 +580,9 @@ func (c *Config) addInput(name string, table *ast.Table) error {
// buildFilter builds a Filter
// (tagpass/tagdrop/namepass/namedrop/fieldpass/fielddrop) to
// be inserted into the internal_models.OutputConfig/internal_models.InputConfig to be used for prefix
// filtering on tags and measurements
func buildFilter(tbl *ast.Table) internal_models.Filter {
// be inserted into the internal_models.OutputConfig/internal_models.InputConfig
// to be used for glob filtering on tags and measurements
func buildFilter(tbl *ast.Table) (internal_models.Filter, error) {
f := internal_models.Filter{}
if node, ok := tbl.Fields["namepass"]; ok {
@ -681,6 +681,33 @@ func buildFilter(tbl *ast.Table) internal_models.Filter {
}
}
if node, ok := tbl.Fields["tagexclude"]; ok {
if kv, ok := node.(*ast.KeyValue); ok {
if ary, ok := kv.Value.(*ast.Array); ok {
for _, elem := range ary.Value {
if str, ok := elem.(*ast.String); ok {
f.TagExclude = append(f.TagExclude, str.Value)
}
}
}
}
}
if node, ok := tbl.Fields["taginclude"]; ok {
if kv, ok := node.(*ast.KeyValue); ok {
if ary, ok := kv.Value.(*ast.Array); ok {
for _, elem := range ary.Value {
if str, ok := elem.(*ast.String); ok {
f.TagInclude = append(f.TagInclude, str.Value)
}
}
}
}
}
if err := f.CompileFilter(); err != nil {
return f, err
}
delete(tbl.Fields, "namedrop")
delete(tbl.Fields, "namepass")
delete(tbl.Fields, "fielddrop")
@ -689,7 +716,9 @@ func buildFilter(tbl *ast.Table) internal_models.Filter {
delete(tbl.Fields, "pass")
delete(tbl.Fields, "tagdrop")
delete(tbl.Fields, "tagpass")
return f
delete(tbl.Fields, "tagexclude")
delete(tbl.Fields, "taginclude")
return f, nil
}
// buildInput parses input specific items from the ast.Table,
@ -748,7 +777,11 @@ func buildInput(name string, tbl *ast.Table) (*internal_models.InputConfig, erro
delete(tbl.Fields, "name_override")
delete(tbl.Fields, "interval")
delete(tbl.Fields, "tags")
cp.Filter = buildFilter(tbl)
var err error
cp.Filter, err = buildFilter(tbl)
if err != nil {
return cp, err
}
return cp, nil
}
@ -864,13 +897,18 @@ func buildSerializer(name string, tbl *ast.Table) (serializers.Serializer, error
return serializers.NewSerializer(c)
}
// buildOutput parses output specific items from the ast.Table, builds the filter and returns an
// buildOutput parses output specific items from the ast.Table,
// builds the filter and returns an
// internal_models.OutputConfig to be inserted into internal_models.RunningInput
// Note: error exists in the return for future calls that might require error
func buildOutput(name string, tbl *ast.Table) (*internal_models.OutputConfig, error) {
filter, err := buildFilter(tbl)
if err != nil {
return nil, err
}
oc := &internal_models.OutputConfig{
Name: name,
Filter: buildFilter(tbl),
Filter: filter,
}
// Outputs don't support FieldDrop/FieldPass, so set to NameDrop/NamePass
if len(oc.Filter.FieldDrop) > 0 {

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@ -26,9 +26,7 @@ func TestConfig_LoadSingleInputWithEnvVars(t *testing.T) {
memcached := inputs.Inputs["memcached"]().(*memcached.Memcached)
memcached.Servers = []string{"192.168.1.1"}
mConfig := &internal_models.InputConfig{
Name: "memcached",
Filter: internal_models.Filter{
filter := internal_models.Filter{
NameDrop: []string{"metricname2"},
NamePass: []string{"metricname1"},
FieldDrop: []string{"other", "stuff"},
@ -46,7 +44,11 @@ func TestConfig_LoadSingleInputWithEnvVars(t *testing.T) {
},
},
IsActive: true,
},
}
assert.NoError(t, filter.CompileFilter())
mConfig := &internal_models.InputConfig{
Name: "memcached",
Filter: filter,
Interval: 10 * time.Second,
}
mConfig.Tags = make(map[string]string)
@ -64,9 +66,7 @@ func TestConfig_LoadSingleInput(t *testing.T) {
memcached := inputs.Inputs["memcached"]().(*memcached.Memcached)
memcached.Servers = []string{"localhost"}
mConfig := &internal_models.InputConfig{
Name: "memcached",
Filter: internal_models.Filter{
filter := internal_models.Filter{
NameDrop: []string{"metricname2"},
NamePass: []string{"metricname1"},
FieldDrop: []string{"other", "stuff"},
@ -84,7 +84,11 @@ func TestConfig_LoadSingleInput(t *testing.T) {
},
},
IsActive: true,
},
}
assert.NoError(t, filter.CompileFilter())
mConfig := &internal_models.InputConfig{
Name: "memcached",
Filter: filter,
Interval: 5 * time.Second,
}
mConfig.Tags = make(map[string]string)
@ -109,9 +113,7 @@ func TestConfig_LoadDirectory(t *testing.T) {
memcached := inputs.Inputs["memcached"]().(*memcached.Memcached)
memcached.Servers = []string{"localhost"}
mConfig := &internal_models.InputConfig{
Name: "memcached",
Filter: internal_models.Filter{
filter := internal_models.Filter{
NameDrop: []string{"metricname2"},
NamePass: []string{"metricname1"},
FieldDrop: []string{"other", "stuff"},
@ -129,7 +131,11 @@ func TestConfig_LoadDirectory(t *testing.T) {
},
},
IsActive: true,
},
}
assert.NoError(t, filter.CompileFilter())
mConfig := &internal_models.InputConfig{
Name: "memcached",
Filter: filter,
Interval: 5 * time.Second,
}
mConfig.Tags = make(map[string]string)

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@ -139,59 +139,3 @@ func SnakeCase(in string) string {
return string(out)
}
// Glob will test a string pattern, potentially containing globs, against a
// subject string. The result is a simple true/false, determining whether or
// not the glob pattern matched the subject text.
//
// Adapted from https://github.com/ryanuber/go-glob/blob/master/glob.go
// thanks Ryan Uber!
func Glob(pattern, measurement string) bool {
// Empty pattern can only match empty subject
if pattern == "" {
return measurement == pattern
}
// If the pattern _is_ a glob, it matches everything
if pattern == "*" {
return true
}
parts := strings.Split(pattern, "*")
if len(parts) == 1 {
// No globs in pattern, so test for match
return pattern == measurement
}
leadingGlob := strings.HasPrefix(pattern, "*")
trailingGlob := strings.HasSuffix(pattern, "*")
end := len(parts) - 1
for i, part := range parts {
switch i {
case 0:
if leadingGlob {
continue
}
if !strings.HasPrefix(measurement, part) {
return false
}
case end:
if len(measurement) > 0 {
return trailingGlob || strings.HasSuffix(measurement, part)
}
default:
if !strings.Contains(measurement, part) {
return false
}
}
// Trim evaluated text from measurement as we loop over the pattern.
idx := strings.Index(measurement, part) + len(part)
measurement = measurement[idx:]
}
// All parts of the pattern matched
return true
}

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@ -2,47 +2,6 @@ package internal
import "testing"
func testGlobMatch(t *testing.T, pattern, subj string) {
if !Glob(pattern, subj) {
t.Errorf("%s should match %s", pattern, subj)
}
}
func testGlobNoMatch(t *testing.T, pattern, subj string) {
if Glob(pattern, subj) {
t.Errorf("%s should not match %s", pattern, subj)
}
}
func TestEmptyPattern(t *testing.T) {
testGlobMatch(t, "", "")
testGlobNoMatch(t, "", "test")
}
func TestPatternWithoutGlobs(t *testing.T) {
testGlobMatch(t, "test", "test")
}
func TestGlob(t *testing.T) {
for _, pattern := range []string{
"*test", // Leading glob
"this*", // Trailing glob
"*is*a*", // Lots of globs
"**test**", // Double glob characters
"**is**a***test*", // Varying number of globs
} {
testGlobMatch(t, pattern, "this_is_a_test")
}
for _, pattern := range []string{
"test*", // Implicit substring match should fail
"*is", // Partial match should fail
"*no*", // Globs without a match between them should fail
} {
testGlobNoMatch(t, pattern, "this_is_a_test")
}
}
type SnakeTest struct {
input string
output string

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@ -1,33 +1,104 @@
package internal_models
import (
"fmt"
"strings"
"github.com/gobwas/glob"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/internal"
)
// TagFilter is the name of a tag, and the values on which to filter
type TagFilter struct {
Name string
Filter []string
filter glob.Glob
}
// Filter containing drop/pass and tagdrop/tagpass rules
type Filter struct {
NameDrop []string
nameDrop glob.Glob
NamePass []string
namePass glob.Glob
FieldDrop []string
fieldDrop glob.Glob
FieldPass []string
fieldPass glob.Glob
TagDrop []TagFilter
TagPass []TagFilter
TagExclude []string
tagExclude glob.Glob
TagInclude []string
tagInclude glob.Glob
IsActive bool
}
func (f Filter) ShouldMetricPass(metric telegraf.Metric) bool {
// Compile all Filter lists into glob.Glob objects.
func (f *Filter) CompileFilter() error {
var err error
f.nameDrop, err = compileFilter(f.NameDrop)
if err != nil {
return fmt.Errorf("Error compiling 'namedrop', %s", err)
}
f.namePass, err = compileFilter(f.NamePass)
if err != nil {
return fmt.Errorf("Error compiling 'namepass', %s", err)
}
f.fieldDrop, err = compileFilter(f.FieldDrop)
if err != nil {
return fmt.Errorf("Error compiling 'fielddrop', %s", err)
}
f.fieldPass, err = compileFilter(f.FieldPass)
if err != nil {
return fmt.Errorf("Error compiling 'fieldpass', %s", err)
}
f.tagExclude, err = compileFilter(f.TagExclude)
if err != nil {
return fmt.Errorf("Error compiling 'tagexclude', %s", err)
}
f.tagInclude, err = compileFilter(f.TagInclude)
if err != nil {
return fmt.Errorf("Error compiling 'taginclude', %s", err)
}
for i, _ := range f.TagDrop {
f.TagDrop[i].filter, err = compileFilter(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 = compileFilter(f.TagPass[i].Filter)
if err != nil {
return fmt.Errorf("Error compiling 'tagpass', %s", err)
}
}
return nil
}
func compileFilter(filter []string) (glob.Glob, error) {
if len(filter) == 0 {
return nil, nil
}
var g glob.Glob
var err error
if len(filter) == 1 {
g, err = glob.Compile(filter[0])
} else {
g, err = glob.Compile("{" + strings.Join(filter, ",") + "}")
}
return g, err
}
func (f *Filter) ShouldMetricPass(metric telegraf.Metric) bool {
if f.ShouldNamePass(metric.Name()) && f.ShouldTagsPass(metric.Tags()) {
return true
}
@ -36,70 +107,51 @@ func (f Filter) ShouldMetricPass(metric telegraf.Metric) bool {
// ShouldFieldsPass returns true if the metric should pass, false if should drop
// based on the drop/pass filter parameters
func (f Filter) ShouldNamePass(key string) bool {
if f.NamePass != nil {
for _, pat := range f.NamePass {
// TODO remove HasPrefix check, leaving it for now for legacy support.
// Cam, 2015-12-07
if strings.HasPrefix(key, pat) || internal.Glob(pat, key) {
func (f *Filter) ShouldNamePass(key string) bool {
if f.namePass != nil {
if f.namePass.Match(key) {
return true
}
}
return false
}
if f.NameDrop != nil {
for _, pat := range f.NameDrop {
// TODO remove HasPrefix check, leaving it for now for legacy support.
// Cam, 2015-12-07
if strings.HasPrefix(key, pat) || internal.Glob(pat, key) {
if f.nameDrop != nil {
if f.nameDrop.Match(key) {
return false
}
}
return true
}
return true
}
// ShouldFieldsPass returns true if the metric should pass, false if should drop
// based on the drop/pass filter parameters
func (f Filter) ShouldFieldsPass(key string) bool {
if f.FieldPass != nil {
for _, pat := range f.FieldPass {
// TODO remove HasPrefix check, leaving it for now for legacy support.
// Cam, 2015-12-07
if strings.HasPrefix(key, pat) || internal.Glob(pat, key) {
func (f *Filter) ShouldFieldsPass(key string) bool {
if f.fieldPass != nil {
if f.fieldPass.Match(key) {
return true
}
}
return false
}
if f.FieldDrop != nil {
for _, pat := range f.FieldDrop {
// TODO remove HasPrefix check, leaving it for now for legacy support.
// Cam, 2015-12-07
if strings.HasPrefix(key, pat) || internal.Glob(pat, key) {
if f.fieldDrop != nil {
if f.fieldDrop.Match(key) {
return false
}
}
return true
}
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 {
func (f *Filter) ShouldTagsPass(tags map[string]string) bool {
if f.TagPass != nil {
for _, pat := range f.TagPass {
if tagval, ok := tags[pat.Name]; ok {
for _, filter := range pat.Filter {
if internal.Glob(filter, tagval) {
return true
if pat.filter == nil {
continue
}
if tagval, ok := tags[pat.Name]; ok {
if pat.filter.Match(tagval) {
return true
}
}
}
@ -108,11 +160,12 @@ func (f Filter) ShouldTagsPass(tags map[string]string) bool {
if f.TagDrop != nil {
for _, pat := range f.TagDrop {
if tagval, ok := tags[pat.Name]; ok {
for _, filter := range pat.Filter {
if internal.Glob(filter, tagval) {
return false
if pat.filter == nil {
continue
}
if tagval, ok := tags[pat.Name]; ok {
if pat.filter.Match(tagval) {
return false
}
}
}
@ -121,3 +174,23 @@ func (f Filter) ShouldTagsPass(tags map[string]string) bool {
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)
}
}
}
}

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@ -2,6 +2,11 @@ package internal_models
import (
"testing"
"github.com/influxdata/telegraf/testutil"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
func TestFilter_Empty(t *testing.T) {
@ -28,6 +33,7 @@ func TestFilter_NamePass(t *testing.T) {
f := Filter{
NamePass: []string{"foo*", "cpu_usage_idle"},
}
require.NoError(t, f.CompileFilter())
passes := []string{
"foo",
@ -61,6 +67,7 @@ func TestFilter_NameDrop(t *testing.T) {
f := Filter{
NameDrop: []string{"foo*", "cpu_usage_idle"},
}
require.NoError(t, f.CompileFilter())
drops := []string{
"foo",
@ -94,6 +101,7 @@ func TestFilter_FieldPass(t *testing.T) {
f := Filter{
FieldPass: []string{"foo*", "cpu_usage_idle"},
}
require.NoError(t, f.CompileFilter())
passes := []string{
"foo",
@ -127,6 +135,7 @@ func TestFilter_FieldDrop(t *testing.T) {
f := Filter{
FieldDrop: []string{"foo*", "cpu_usage_idle"},
}
require.NoError(t, f.CompileFilter())
drops := []string{
"foo",
@ -169,6 +178,7 @@ func TestFilter_TagPass(t *testing.T) {
f := Filter{
TagPass: filters,
}
require.NoError(t, f.CompileFilter())
passes := []map[string]string{
{"cpu": "cpu-total"},
@ -212,6 +222,7 @@ func TestFilter_TagDrop(t *testing.T) {
f := Filter{
TagDrop: filters,
}
require.NoError(t, f.CompileFilter())
drops := []map[string]string{
{"cpu": "cpu-total"},
@ -241,3 +252,115 @@ func TestFilter_TagDrop(t *testing.T) {
}
}
}
func TestFilter_CompileFilterError(t *testing.T) {
f := Filter{
NameDrop: []string{"", ""},
}
assert.Error(t, f.CompileFilter())
f = Filter{
NamePass: []string{"", ""},
}
assert.Error(t, f.CompileFilter())
f = Filter{
FieldDrop: []string{"", ""},
}
assert.Error(t, f.CompileFilter())
f = Filter{
FieldPass: []string{"", ""},
}
assert.Error(t, f.CompileFilter())
f = Filter{
TagExclude: []string{"", ""},
}
assert.Error(t, f.CompileFilter())
f = Filter{
TagInclude: []string{"", ""},
}
assert.Error(t, f.CompileFilter())
filters := []TagFilter{
TagFilter{
Name: "cpu",
Filter: []string{"{foobar}"},
}}
f = Filter{
TagDrop: filters,
}
require.Error(t, f.CompileFilter())
filters = []TagFilter{
TagFilter{
Name: "cpu",
Filter: []string{"{foobar}"},
}}
f = Filter{
TagPass: filters,
}
require.Error(t, f.CompileFilter())
}
func TestFilter_ShouldMetricsPass(t *testing.T) {
m := testutil.TestMetric(1, "testmetric")
f := Filter{
NameDrop: []string{"foobar"},
}
require.NoError(t, f.CompileFilter())
require.True(t, f.ShouldMetricPass(m))
m = testutil.TestMetric(1, "foobar")
require.False(t, f.ShouldMetricPass(m))
}
func TestFilter_FilterTagsNoMatches(t *testing.T) {
pretags := map[string]string{
"host": "localhost",
"mytag": "foobar",
}
f := Filter{
TagExclude: []string{"nomatch"},
}
require.NoError(t, f.CompileFilter())
f.FilterTags(pretags)
assert.Equal(t, map[string]string{
"host": "localhost",
"mytag": "foobar",
}, pretags)
f = Filter{
TagInclude: []string{"nomatch"},
}
require.NoError(t, f.CompileFilter())
f.FilterTags(pretags)
assert.Equal(t, map[string]string{}, pretags)
}
func TestFilter_FilterTagsMatches(t *testing.T) {
pretags := map[string]string{
"host": "localhost",
"mytag": "foobar",
}
f := Filter{
TagExclude: []string{"ho*"},
}
require.NoError(t, f.CompileFilter())
f.FilterTags(pretags)
assert.Equal(t, map[string]string{
"mytag": "foobar",
}, pretags)
pretags = map[string]string{
"host": "localhost",
"mytag": "foobar",
}
f = Filter{
TagInclude: []string{"my*"},
}
require.NoError(t, f.CompileFilter())
f.FilterTags(pretags)
assert.Equal(t, map[string]string{
"mytag": "foobar",
}, pretags)
}

View File

@ -59,6 +59,19 @@ func (ro *RunningOutput) AddMetric(metric telegraf.Metric) {
ro.Lock()
defer ro.Unlock()
// Filter any tagexclude/taginclude parameters before adding metric
if len(ro.Config.Filter.TagExclude) != 0 || len(ro.Config.Filter.TagInclude) != 0 {
// In order to filter out tags, we need to create a new metric, since
// metrics are immutable once created.
tags := metric.Tags()
fields := metric.Fields()
t := metric.Time()
name := metric.Name()
ro.Config.Filter.FilterTags(tags)
// error is not possible if creating from another metric, so ignore.
metric, _ = telegraf.NewMetric(name, tags, fields, t)
}
if len(ro.metrics) < ro.MetricBufferLimit {
ro.metrics = append(ro.metrics, metric)
} else {

View File

@ -29,6 +29,146 @@ var next5 = []telegraf.Metric{
testutil.TestMetric(101, "metric10"),
}
// Test that NameDrop filters ger properly applied.
func TestRunningOutput_DropFilter(t *testing.T) {
conf := &OutputConfig{
Filter: Filter{
IsActive: true,
NameDrop: []string{"metric1", "metric2"},
},
}
assert.NoError(t, conf.Filter.CompileFilter())
m := &mockOutput{}
ro := NewRunningOutput("test", m, conf)
for _, metric := range first5 {
ro.AddMetric(metric)
}
for _, metric := range next5 {
ro.AddMetric(metric)
}
assert.Len(t, m.Metrics(), 0)
err := ro.Write()
assert.NoError(t, err)
assert.Len(t, m.Metrics(), 8)
}
// Test that NameDrop filters without a match do nothing.
func TestRunningOutput_PassFilter(t *testing.T) {
conf := &OutputConfig{
Filter: Filter{
IsActive: true,
NameDrop: []string{"metric1000", "foo*"},
},
}
assert.NoError(t, conf.Filter.CompileFilter())
m := &mockOutput{}
ro := NewRunningOutput("test", m, conf)
for _, metric := range first5 {
ro.AddMetric(metric)
}
for _, metric := range next5 {
ro.AddMetric(metric)
}
assert.Len(t, m.Metrics(), 0)
err := ro.Write()
assert.NoError(t, err)
assert.Len(t, m.Metrics(), 10)
}
// Test that tags are properly included
func TestRunningOutput_TagIncludeNoMatch(t *testing.T) {
conf := &OutputConfig{
Filter: Filter{
IsActive: true,
TagInclude: []string{"nothing*"},
},
}
assert.NoError(t, conf.Filter.CompileFilter())
m := &mockOutput{}
ro := NewRunningOutput("test", m, conf)
ro.AddMetric(first5[0])
assert.Len(t, m.Metrics(), 0)
err := ro.Write()
assert.NoError(t, err)
assert.Len(t, m.Metrics(), 1)
assert.Empty(t, m.Metrics()[0].Tags())
}
// Test that tags are properly excluded
func TestRunningOutput_TagExcludeMatch(t *testing.T) {
conf := &OutputConfig{
Filter: Filter{
IsActive: true,
TagExclude: []string{"tag*"},
},
}
assert.NoError(t, conf.Filter.CompileFilter())
m := &mockOutput{}
ro := NewRunningOutput("test", m, conf)
ro.AddMetric(first5[0])
assert.Len(t, m.Metrics(), 0)
err := ro.Write()
assert.NoError(t, err)
assert.Len(t, m.Metrics(), 1)
assert.Len(t, m.Metrics()[0].Tags(), 0)
}
// Test that tags are properly Excluded
func TestRunningOutput_TagExcludeNoMatch(t *testing.T) {
conf := &OutputConfig{
Filter: Filter{
IsActive: true,
TagExclude: []string{"nothing*"},
},
}
assert.NoError(t, conf.Filter.CompileFilter())
m := &mockOutput{}
ro := NewRunningOutput("test", m, conf)
ro.AddMetric(first5[0])
assert.Len(t, m.Metrics(), 0)
err := ro.Write()
assert.NoError(t, err)
assert.Len(t, m.Metrics(), 1)
assert.Len(t, m.Metrics()[0].Tags(), 1)
}
// Test that tags are properly included
func TestRunningOutput_TagIncludeMatch(t *testing.T) {
conf := &OutputConfig{
Filter: Filter{
IsActive: true,
TagInclude: []string{"tag*"},
},
}
assert.NoError(t, conf.Filter.CompileFilter())
m := &mockOutput{}
ro := NewRunningOutput("test", m, conf)
ro.AddMetric(first5[0])
assert.Len(t, m.Metrics(), 0)
err := ro.Write()
assert.NoError(t, err)
assert.Len(t, m.Metrics(), 1)
assert.Len(t, m.Metrics()[0].Tags(), 1)
}
// Test that we can write metrics with simple default setup.
func TestRunningOutputDefault(t *testing.T) {
conf := &OutputConfig{