447 lines
12 KiB
Go
447 lines
12 KiB
Go
package topk
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import (
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"fmt"
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"log"
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"math"
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"sort"
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"time"
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"github.com/influxdata/telegraf"
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"github.com/influxdata/telegraf/filter"
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"github.com/influxdata/telegraf/internal"
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"github.com/influxdata/telegraf/metric"
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"github.com/influxdata/telegraf/plugins/processors"
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)
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type TopK struct {
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Period internal.Duration
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K int
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GroupBy []string `toml:"group_by"`
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Fields []string
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Aggregation string
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Bottomk bool
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AddGroupByTag string `toml:"add_groupby_tag"`
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AddRankFields []string `toml:"add_rank_fields"`
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AddAggregateFields []string `toml:"add_aggregate_fields"`
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cache map[string][]telegraf.Metric
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tagsGlobs filter.Filter
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rankFieldSet map[string]bool
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aggFieldSet map[string]bool
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lastAggregation time.Time
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}
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func New() *TopK {
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// Create object
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topk := TopK{}
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// Setup defaults
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topk.Period = internal.Duration{Duration: time.Second * time.Duration(10)}
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topk.K = 10
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topk.Fields = []string{"value"}
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topk.Aggregation = "mean"
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topk.GroupBy = []string{"*"}
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topk.AddGroupByTag = ""
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topk.AddRankFields = []string{""}
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topk.AddAggregateFields = []string{""}
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// Initialize cache
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topk.Reset()
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return &topk
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}
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var sampleConfig = `
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## How many seconds between aggregations
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# period = 10
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## How many top metrics to return
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# k = 10
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## Over which tags should the aggregation be done. Globs can be specified, in
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## which case any tag matching the glob will aggregated over. If set to an
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## empty list is no aggregation over tags is done
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# group_by = ['*']
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## Over which fields are the top k are calculated
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# fields = ["value"]
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## What aggregation to use. Options: sum, mean, min, max
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# aggregation = "mean"
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## Instead of the top k largest metrics, return the bottom k lowest metrics
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# bottomk = false
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## The plugin assigns each metric a GroupBy tag generated from its name and
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## tags. If this setting is different than "" the plugin will add a
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## tag (which name will be the value of this setting) to each metric with
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## the value of the calculated GroupBy tag. Useful for debugging
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# add_groupby_tag = ""
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## These settings provide a way to know the position of each metric in
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## the top k. The 'add_rank_field' setting allows to specify for which
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## fields the position is required. If the list is non empty, then a field
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## will be added to each and every metric for each string present in this
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## setting. This field will contain the ranking of the group that
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## the metric belonged to when aggregated over that field.
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## The name of the field will be set to the name of the aggregation field,
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## suffixed with the string '_topk_rank'
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# add_rank_fields = []
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## These settings provide a way to know what values the plugin is generating
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## when aggregating metrics. The 'add_agregate_field' setting allows to
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## specify for which fields the final aggregation value is required. If the
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## list is non empty, then a field will be added to each every metric for
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## each field present in this setting. This field will contain
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## the computed aggregation for the group that the metric belonged to when
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## aggregated over that field.
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## The name of the field will be set to the name of the aggregation field,
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## suffixed with the string '_topk_aggregate'
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# add_aggregate_fields = []
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`
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type MetricAggregation struct {
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groupbykey string
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values map[string]float64
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}
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func sortMetrics(metrics []MetricAggregation, field string, reverse bool) {
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less := func(i, j int) bool {
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iv := metrics[i].values[field]
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jv := metrics[j].values[field]
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if iv < jv {
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return true
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} else {
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return false
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}
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}
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if reverse {
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sort.SliceStable(metrics, less)
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} else {
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sort.SliceStable(metrics, func(i, j int) bool { return !less(i, j) })
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}
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}
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func (t *TopK) SampleConfig() string {
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return sampleConfig
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}
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func (t *TopK) Reset() {
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t.cache = make(map[string][]telegraf.Metric)
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t.lastAggregation = time.Now()
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}
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func (t *TopK) Description() string {
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return "Print all metrics that pass through this filter."
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}
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func (t *TopK) generateGroupByKey(m telegraf.Metric) (string, error) {
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// Create the filter.Filter objects if they have not been created
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if t.tagsGlobs == nil && len(t.GroupBy) > 0 {
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var err error
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t.tagsGlobs, err = filter.Compile(t.GroupBy)
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if err != nil {
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return "", fmt.Errorf("could not compile pattern: %v %v", t.GroupBy, err)
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}
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}
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groupkey := m.Name() + "&"
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if len(t.GroupBy) > 0 {
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tags := m.Tags()
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keys := make([]string, 0, len(tags))
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for tag, value := range tags {
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if t.tagsGlobs.Match(tag) {
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keys = append(keys, tag+"="+value+"&")
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}
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}
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// Sorting the selected tags is necessary because dictionaries
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// do not ensure any specific or deterministic ordering
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sort.SliceStable(keys, func(i, j int) bool { return keys[i] < keys[j] })
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for _, str := range keys {
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groupkey += str
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}
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}
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return groupkey, nil
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}
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func (t *TopK) groupBy(m telegraf.Metric) {
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// Generate the metric group key
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groupkey, err := t.generateGroupByKey(m)
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if err != nil {
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// If we could not generate the groupkey, fail hard
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// by dropping this and all subsequent metrics
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log.Printf("E! [processors.topk]: could not generate group key: %v", err)
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return
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}
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// Initialize the key with an empty list if necessary
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if _, ok := t.cache[groupkey]; !ok {
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t.cache[groupkey] = make([]telegraf.Metric, 0, 10)
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}
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// Append the metric to the corresponding key list
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t.cache[groupkey] = append(t.cache[groupkey], m)
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// Add the generated groupby key tag to the metric if requested
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if t.AddGroupByTag != "" {
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m.AddTag(t.AddGroupByTag, groupkey)
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}
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}
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func (t *TopK) Apply(in ...telegraf.Metric) []telegraf.Metric {
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// Init any internal datastructures that are not initialized yet
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if t.rankFieldSet == nil {
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t.rankFieldSet = make(map[string]bool)
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for _, f := range t.AddRankFields {
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t.rankFieldSet[f] = true
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}
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}
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if t.aggFieldSet == nil {
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t.aggFieldSet = make(map[string]bool)
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for _, f := range t.AddAggregateFields {
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t.aggFieldSet[f] = true
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}
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}
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// Add the metrics received to our internal cache
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for _, m := range in {
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// When tracking metrics this plugin could deadlock the input by
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// holding undelivered metrics while the input waits for metrics to be
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// delivered. Instead, treat all handled metrics as delivered and
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// produced metrics as untracked in a similar way to aggregators.
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m.Drop()
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// Check if the metric has any of the fields over which we are aggregating
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hasField := false
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for _, f := range t.Fields {
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if m.HasField(f) {
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hasField = true
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break
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}
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}
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if !hasField {
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continue
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}
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// Add the metric to the internal cache
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t.groupBy(m)
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}
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// If enough time has passed
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elapsed := time.Since(t.lastAggregation)
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if elapsed >= t.Period.Duration {
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return t.push()
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}
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return []telegraf.Metric{}
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}
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func min(a, b int) int {
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if a > b {
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return b
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}
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return a
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}
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func convert(in interface{}) (float64, bool) {
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switch v := in.(type) {
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case float64:
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return v, true
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case int64:
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return float64(v), true
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case uint64:
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return float64(v), true
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default:
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return 0, false
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}
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}
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func (t *TopK) push() []telegraf.Metric {
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// Generate aggregations list using the selected fields
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aggregations := make([]MetricAggregation, 0, 100)
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aggregator, err := t.getAggregationFunction(t.Aggregation)
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if err != nil {
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// If we could not generate the aggregation
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// function, fail hard by dropping all metrics
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log.Printf("E! [processors.topk]: %v", err)
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return []telegraf.Metric{}
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}
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for k, ms := range t.cache {
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aggregations = append(aggregations, MetricAggregation{groupbykey: k, values: aggregator(ms, t.Fields)})
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}
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// The return value that will hold the returned metrics
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var ret []telegraf.Metric = make([]telegraf.Metric, 0, 0)
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// Get the top K metrics for each field and add them to the return value
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addedKeys := make(map[string]bool)
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groupTag := t.AddGroupByTag
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for _, field := range t.Fields {
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// Sort the aggregations
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sortMetrics(aggregations, field, t.Bottomk)
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// Create a one dimensional list with the top K metrics of each key
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for i, ag := range aggregations[0:min(t.K, len(aggregations))] {
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// Check whether of not we need to add fields of tags to the selected metrics
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if len(t.aggFieldSet) != 0 || len(t.rankFieldSet) != 0 || groupTag != "" {
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for _, m := range t.cache[ag.groupbykey] {
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// Add the aggregation final value if requested
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_, addAggField := t.aggFieldSet[field]
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if addAggField && m.HasField(field) {
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m.AddField(field+"_topk_aggregate", ag.values[field])
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}
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// Add the rank relative to the current field if requested
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_, addRankField := t.rankFieldSet[field]
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if addRankField && m.HasField(field) {
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m.AddField(field+"_topk_rank", i+1)
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}
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}
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}
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// Add metrics if we have not already appended them to the return value
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_, ok := addedKeys[ag.groupbykey]
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if !ok {
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ret = append(ret, t.cache[ag.groupbykey]...)
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addedKeys[ag.groupbykey] = true
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}
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}
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}
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t.Reset()
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result := make([]telegraf.Metric, 0, len(ret))
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for _, m := range ret {
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copy, err := metric.New(m.Name(), m.Tags(), m.Fields(), m.Time(), m.Type())
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if err != nil {
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continue
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}
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result = append(result, copy)
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}
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return result
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}
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// Function that generates the aggregation functions
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func (t *TopK) getAggregationFunction(aggOperation string) (func([]telegraf.Metric, []string) map[string]float64, error) {
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// This is a function aggregates a set of metrics using a given aggregation function
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var aggregator = func(ms []telegraf.Metric, fields []string, f func(map[string]float64, float64, string)) map[string]float64 {
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agg := make(map[string]float64)
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// Compute the sums of the selected fields over all the measurements collected for this metric
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for _, m := range ms {
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for _, field := range fields {
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fieldVal, ok := m.Fields()[field]
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if !ok {
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continue // Skip if this metric doesn't have this field set
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}
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val, ok := convert(fieldVal)
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if !ok {
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log.Printf("Cannot convert value '%s' from metric '%s' with tags '%s'",
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m.Fields()[field], m.Name(), m.Tags())
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continue
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}
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f(agg, val, field)
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}
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}
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return agg
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}
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switch aggOperation {
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case "sum":
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return func(ms []telegraf.Metric, fields []string) map[string]float64 {
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sum := func(agg map[string]float64, val float64, field string) {
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agg[field] += val
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}
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return aggregator(ms, fields, sum)
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}, nil
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case "min":
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return func(ms []telegraf.Metric, fields []string) map[string]float64 {
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min := func(agg map[string]float64, val float64, field string) {
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// If this field has not been set, set it to the maximum float64
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_, ok := agg[field]
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if !ok {
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agg[field] = math.MaxFloat64
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}
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// Check if we've found a new minimum
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if agg[field] > val {
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agg[field] = val
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}
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}
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return aggregator(ms, fields, min)
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}, nil
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case "max":
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return func(ms []telegraf.Metric, fields []string) map[string]float64 {
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max := func(agg map[string]float64, val float64, field string) {
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// If this field has not been set, set it to the minimum float64
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_, ok := agg[field]
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if !ok {
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agg[field] = -math.MaxFloat64
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}
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// Check if we've found a new maximum
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if agg[field] < val {
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agg[field] = val
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}
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}
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return aggregator(ms, fields, max)
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}, nil
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case "mean":
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return func(ms []telegraf.Metric, fields []string) map[string]float64 {
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mean := make(map[string]float64)
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meanCounters := make(map[string]float64)
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// Compute the sums of the selected fields over all the measurements collected for this metric
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for _, m := range ms {
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for _, field := range fields {
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fieldVal, ok := m.Fields()[field]
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if !ok {
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continue // Skip if this metric doesn't have this field set
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}
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val, ok := convert(fieldVal)
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if !ok {
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log.Printf("Cannot convert value '%s' from metric '%s' with tags '%s'",
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m.Fields()[field], m.Name(), m.Tags())
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continue
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}
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mean[field] += val
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meanCounters[field] += 1
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}
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}
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// Divide by the number of recorded measurements collected for every field
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noMeasurementsFound := true // Canary to check if no field with values was found, so we can return nil
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for k := range mean {
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if meanCounters[k] == 0 {
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mean[k] = 0
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continue
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}
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mean[k] = mean[k] / meanCounters[k]
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noMeasurementsFound = noMeasurementsFound && false
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}
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if noMeasurementsFound {
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return nil
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}
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return mean
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}, nil
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default:
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return nil, fmt.Errorf("Unknown aggregation function '%s'. No metrics will be processed", t.Aggregation)
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}
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}
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func init() {
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processors.Add("topk", func() telegraf.Processor {
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return New()
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})
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}
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