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The open and composable observability and data visualization platform. Visualize metrics, logs, and traces from multiple sources like Prometheus, Loki, Elasticsearch, InfluxDB, Postgres and many more.
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grafana/pkg/tsdb/elasticsearch/response_parser.go

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package elasticsearch
import (
"errors"
"regexp"
"sort"
"strconv"
"strings"
"github.com/grafana/grafana/pkg/components/null"
"github.com/grafana/grafana/pkg/components/simplejson"
"github.com/grafana/grafana/pkg/tsdb"
"github.com/grafana/grafana/pkg/tsdb/elasticsearch/client"
)
const (
// Metric types
countType = "count"
percentilesType = "percentiles"
extendedStatsType = "extended_stats"
// Bucket types
dateHistType = "date_histogram"
histogramType = "histogram"
filtersType = "filters"
termsType = "terms"
geohashGridType = "geohash_grid"
)
type responseParser struct {
Responses []*es.SearchResponse
Targets []*Query
}
var newResponseParser = func(responses []*es.SearchResponse, targets []*Query) *responseParser {
return &responseParser{
Responses: responses,
Targets: targets,
}
}
func (rp *responseParser) getTimeSeries() (*tsdb.Response, error) {
result := &tsdb.Response{}
result.Results = make(map[string]*tsdb.QueryResult)
if rp.Responses == nil {
return result, nil
}
for i, res := range rp.Responses {
target := rp.Targets[i]
if res.Error != nil {
result.Results[target.RefID] = getErrorFromElasticResponse(res)
continue
}
queryRes := tsdb.NewQueryResult()
props := make(map[string]string)
table := tsdb.Table{
Columns: make([]tsdb.TableColumn, 0),
Rows: make([]tsdb.RowValues, 0),
}
err := rp.processBuckets(res.Aggregations, target, &queryRes.Series, &table, props, 0)
if err != nil {
return nil, err
}
rp.nameSeries(&queryRes.Series, target)
rp.trimDatapoints(&queryRes.Series, target)
if len(table.Rows) > 0 {
queryRes.Tables = append(queryRes.Tables, &table)
}
result.Results[target.RefID] = queryRes
}
return result, nil
}
func (rp *responseParser) processBuckets(aggs map[string]interface{}, target *Query, series *tsdb.TimeSeriesSlice, table *tsdb.Table, props map[string]string, depth int) error {
var err error
maxDepth := len(target.BucketAggs) - 1
aggIDs := make([]string, 0)
for k := range aggs {
aggIDs = append(aggIDs, k)
}
sort.Strings(aggIDs)
for _, aggID := range aggIDs {
v := aggs[aggID]
aggDef, _ := findAgg(target, aggID)
esAgg := simplejson.NewFromAny(v)
if aggDef == nil {
continue
}
if depth == maxDepth {
if aggDef.Type == dateHistType {
err = rp.processMetrics(esAgg, target, series, props)
} else {
err = rp.processAggregationDocs(esAgg, aggDef, target, table, props)
}
if err != nil {
return err
}
} else {
for _, b := range esAgg.Get("buckets").MustArray() {
bucket := simplejson.NewFromAny(b)
newProps := make(map[string]string)
for k, v := range props {
newProps[k] = v
}
if key, err := bucket.Get("key").String(); err == nil {
newProps[aggDef.Field] = key
} else if key, err := bucket.Get("key").Int64(); err == nil {
newProps[aggDef.Field] = strconv.FormatInt(key, 10)
}
if key, err := bucket.Get("key_as_string").String(); err == nil {
newProps[aggDef.Field] = key
}
err = rp.processBuckets(bucket.MustMap(), target, series, table, newProps, depth+1)
if err != nil {
return err
}
}
buckets := esAgg.Get("buckets").MustMap()
bucketKeys := make([]string, 0)
for k := range buckets {
bucketKeys = append(bucketKeys, k)
}
sort.Strings(bucketKeys)
for _, bucketKey := range bucketKeys {
bucket := simplejson.NewFromAny(buckets[bucketKey])
newProps := make(map[string]string)
for k, v := range props {
newProps[k] = v
}
newProps["filter"] = bucketKey
err = rp.processBuckets(bucket.MustMap(), target, series, table, newProps, depth+1)
if err != nil {
return err
}
}
}
}
return nil
}
func (rp *responseParser) processMetrics(esAgg *simplejson.Json, target *Query, series *tsdb.TimeSeriesSlice, props map[string]string) error {
for _, metric := range target.Metrics {
if metric.Hide {
continue
}
switch metric.Type {
case countType:
newSeries := tsdb.TimeSeries{
Tags: make(map[string]string),
}
for _, v := range esAgg.Get("buckets").MustArray() {
bucket := simplejson.NewFromAny(v)
value := castToNullFloat(bucket.Get("doc_count"))
key := castToNullFloat(bucket.Get("key"))
newSeries.Points = append(newSeries.Points, tsdb.TimePoint{value, key})
}
for k, v := range props {
newSeries.Tags[k] = v
}
newSeries.Tags["metric"] = countType
*series = append(*series, &newSeries)
case percentilesType:
buckets := esAgg.Get("buckets").MustArray()
if len(buckets) == 0 {
break
}
firstBucket := simplejson.NewFromAny(buckets[0])
percentiles := firstBucket.GetPath(metric.ID, "values").MustMap()
percentileKeys := make([]string, 0)
for k := range percentiles {
percentileKeys = append(percentileKeys, k)
}
sort.Strings(percentileKeys)
for _, percentileName := range percentileKeys {
newSeries := tsdb.TimeSeries{
Tags: make(map[string]string),
}
for k, v := range props {
newSeries.Tags[k] = v
}
newSeries.Tags["metric"] = "p" + percentileName
newSeries.Tags["field"] = metric.Field
for _, v := range buckets {
bucket := simplejson.NewFromAny(v)
value := castToNullFloat(bucket.GetPath(metric.ID, "values", percentileName))
key := castToNullFloat(bucket.Get("key"))
newSeries.Points = append(newSeries.Points, tsdb.TimePoint{value, key})
}
*series = append(*series, &newSeries)
}
case extendedStatsType:
buckets := esAgg.Get("buckets").MustArray()
metaKeys := make([]string, 0)
meta := metric.Meta.MustMap()
for k := range meta {
metaKeys = append(metaKeys, k)
}
sort.Strings(metaKeys)
for _, statName := range metaKeys {
v := meta[statName]
if enabled, ok := v.(bool); !ok || !enabled {
continue
}
newSeries := tsdb.TimeSeries{
Tags: make(map[string]string),
}
for k, v := range props {
newSeries.Tags[k] = v
}
newSeries.Tags["metric"] = statName
newSeries.Tags["field"] = metric.Field
for _, v := range buckets {
bucket := simplejson.NewFromAny(v)
key := castToNullFloat(bucket.Get("key"))
var value null.Float
if statName == "std_deviation_bounds_upper" {
value = castToNullFloat(bucket.GetPath(metric.ID, "std_deviation_bounds", "upper"))
} else if statName == "std_deviation_bounds_lower" {
value = castToNullFloat(bucket.GetPath(metric.ID, "std_deviation_bounds", "lower"))
} else {
value = castToNullFloat(bucket.GetPath(metric.ID, statName))
}
newSeries.Points = append(newSeries.Points, tsdb.TimePoint{value, key})
}
*series = append(*series, &newSeries)
}
default:
newSeries := tsdb.TimeSeries{
Tags: make(map[string]string),
}
for k, v := range props {
newSeries.Tags[k] = v
}
newSeries.Tags["metric"] = metric.Type
newSeries.Tags["field"] = metric.Field
for _, v := range esAgg.Get("buckets").MustArray() {
bucket := simplejson.NewFromAny(v)
key := castToNullFloat(bucket.Get("key"))
valueObj, err := bucket.Get(metric.ID).Map()
if err != nil {
continue
}
var value null.Float
if _, ok := valueObj["normalized_value"]; ok {
value = castToNullFloat(bucket.GetPath(metric.ID, "normalized_value"))
} else {
value = castToNullFloat(bucket.GetPath(metric.ID, "value"))
}
newSeries.Points = append(newSeries.Points, tsdb.TimePoint{value, key})
}
*series = append(*series, &newSeries)
}
}
return nil
}
func (rp *responseParser) processAggregationDocs(esAgg *simplejson.Json, aggDef *BucketAgg, target *Query, table *tsdb.Table, props map[string]string) error {
propKeys := make([]string, 0)
for k := range props {
propKeys = append(propKeys, k)
}
sort.Strings(propKeys)
if len(table.Columns) == 0 {
for _, propKey := range propKeys {
table.Columns = append(table.Columns, tsdb.TableColumn{Text: propKey})
}
table.Columns = append(table.Columns, tsdb.TableColumn{Text: aggDef.Field})
}
addMetricValue := func(values *tsdb.RowValues, metricName string, value null.Float) {
found := false
for _, c := range table.Columns {
if c.Text == metricName {
found = true
break
}
}
if !found {
table.Columns = append(table.Columns, tsdb.TableColumn{Text: metricName})
}
*values = append(*values, value)
}
for _, v := range esAgg.Get("buckets").MustArray() {
bucket := simplejson.NewFromAny(v)
values := make(tsdb.RowValues, 0)
for _, propKey := range propKeys {
values = append(values, props[propKey])
}
if key, err := bucket.Get("key").String(); err == nil {
values = append(values, key)
} else {
values = append(values, castToNullFloat(bucket.Get("key")))
}
for _, metric := range target.Metrics {
switch metric.Type {
case countType:
addMetricValue(&values, rp.getMetricName(metric.Type), castToNullFloat(bucket.Get("doc_count")))
case extendedStatsType:
metaKeys := make([]string, 0)
meta := metric.Meta.MustMap()
for k := range meta {
metaKeys = append(metaKeys, k)
}
sort.Strings(metaKeys)
for _, statName := range metaKeys {
v := meta[statName]
if enabled, ok := v.(bool); !ok || !enabled {
continue
}
var value null.Float
if statName == "std_deviation_bounds_upper" {
value = castToNullFloat(bucket.GetPath(metric.ID, "std_deviation_bounds", "upper"))
} else if statName == "std_deviation_bounds_lower" {
value = castToNullFloat(bucket.GetPath(metric.ID, "std_deviation_bounds", "lower"))
} else {
value = castToNullFloat(bucket.GetPath(metric.ID, statName))
}
addMetricValue(&values, rp.getMetricName(metric.Type), value)
break
}
default:
metricName := rp.getMetricName(metric.Type)
otherMetrics := make([]*MetricAgg, 0)
for _, m := range target.Metrics {
if m.Type == metric.Type {
otherMetrics = append(otherMetrics, m)
}
}
if len(otherMetrics) > 1 {
metricName += " " + metric.Field
}
addMetricValue(&values, metricName, castToNullFloat(bucket.GetPath(metric.ID, "value")))
}
}
table.Rows = append(table.Rows, values)
}
return nil
}
func (rp *responseParser) trimDatapoints(series *tsdb.TimeSeriesSlice, target *Query) {
var histogram *BucketAgg
for _, bucketAgg := range target.BucketAggs {
if bucketAgg.Type == dateHistType {
histogram = bucketAgg
break
}
}
if histogram == nil {
return
}
trimEdges, err := histogram.Settings.Get("trimEdges").Int()
if err != nil {
return
}
for _, s := range *series {
if len(s.Points) > trimEdges*2 {
s.Points = s.Points[trimEdges : len(s.Points)-trimEdges]
}
}
}
func (rp *responseParser) nameSeries(seriesList *tsdb.TimeSeriesSlice, target *Query) {
set := make(map[string]string)
for _, v := range *seriesList {
if metricType, exists := v.Tags["metric"]; exists {
if _, ok := set[metricType]; !ok {
set[metricType] = ""
}
}
}
metricTypeCount := len(set)
for _, series := range *seriesList {
series.Name = rp.getSeriesName(series, target, metricTypeCount)
}
}
var aliasPatternRegex = regexp.MustCompile(`\{\{([\s\S]+?)\}\}`)
func (rp *responseParser) getSeriesName(series *tsdb.TimeSeries, target *Query, metricTypeCount int) string {
metricType := series.Tags["metric"]
metricName := rp.getMetricName(metricType)
delete(series.Tags, "metric")
field := ""
if v, ok := series.Tags["field"]; ok {
field = v
delete(series.Tags, "field")
}
if target.Alias != "" {
seriesName := target.Alias
subMatches := aliasPatternRegex.FindAllStringSubmatch(target.Alias, -1)
for _, subMatch := range subMatches {
group := subMatch[0]
if len(subMatch) > 1 {
group = subMatch[1]
}
if strings.Index(group, "term ") == 0 {
seriesName = strings.Replace(seriesName, subMatch[0], series.Tags[group[5:]], 1)
}
if v, ok := series.Tags[group]; ok {
seriesName = strings.Replace(seriesName, subMatch[0], v, 1)
}
if group == "metric" {
seriesName = strings.Replace(seriesName, subMatch[0], metricName, 1)
}
if group == "field" {
seriesName = strings.Replace(seriesName, subMatch[0], field, 1)
}
}
return seriesName
}
// todo, if field and pipelineAgg
if field != "" && isPipelineAgg(metricType) {
found := false
for _, metric := range target.Metrics {
if metric.ID == field {
metricName += " " + describeMetric(metric.Type, field)
found = true
}
}
if !found {
metricName = "Unset"
}
} else if field != "" {
metricName += " " + field
}
if len(series.Tags) == 0 {
return metricName
}
name := ""
for _, v := range series.Tags {
name += v + " "
}
if metricTypeCount == 1 {
return strings.TrimSpace(name)
}
return strings.TrimSpace(name) + " " + metricName
}
func (rp *responseParser) getMetricName(metric string) string {
if text, ok := metricAggType[metric]; ok {
return text
}
if text, ok := extendedStats[metric]; ok {
return text
}
return metric
}
func castToNullFloat(j *simplejson.Json) null.Float {
f, err := j.Float64()
if err == nil {
return null.FloatFrom(f)
}
if s, err := j.String(); err == nil {
if strings.ToLower(s) == "nan" {
return null.NewFloat(0, false)
}
if v, err := strconv.ParseFloat(s, 64); err == nil {
return null.FloatFromPtr(&v)
}
}
return null.NewFloat(0, false)
}
func findAgg(target *Query, aggID string) (*BucketAgg, error) {
for _, v := range target.BucketAggs {
if aggID == v.ID {
return v, nil
}
}
return nil, errors.New("can't found aggDef, aggID:" + aggID)
}
func getErrorFromElasticResponse(response *es.SearchResponse) *tsdb.QueryResult {
result := tsdb.NewQueryResult()
json := simplejson.NewFromAny(response.Error)
reason := json.Get("reason").MustString()
rootCauseReason := json.Get("root_cause").GetIndex(0).Get("reason").MustString()
if rootCauseReason != "" {
result.ErrorString = rootCauseReason
} else if reason != "" {
result.ErrorString = reason
} else {
result.ErrorString = "Unknown elasticsearch error response"
}
return result
}