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package querystats
import (
"flag"
"fmt"
"io"
"sort"
"sync"
"time"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
)
var (
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lastQueriesCount = flag . Int ( "search.queryStats.lastQueriesCount" , 20000 , "Query stats for /api/v1/status/top_queries is tracked on this number of last queries. " +
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"Zero value disables query stats tracking" )
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minQueryDuration = flag . Duration ( "search.queryStats.minQueryDuration" , 0 , "The minimum duration for queries to track in query stats at /api/v1/status/top_queries. " +
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"Queries with lower duration are ignored in query stats" )
)
var (
qsTracker * queryStatsTracker
initOnce sync . Once
)
// Enabled returns true of query stats tracking is enabled.
func Enabled ( ) bool {
return * lastQueriesCount > 0
}
// RegisterQuery registers the query on the given timeRangeMsecs, which has been started at startTime.
//
// RegisterQuery must be called when the query is finished.
func RegisterQuery ( query string , timeRangeMsecs int64 , startTime time . Time ) {
initOnce . Do ( initQueryStats )
qsTracker . registerQuery ( query , timeRangeMsecs , startTime )
}
// WriteJSONQueryStats writes query stats to given writer in json format.
func WriteJSONQueryStats ( w io . Writer , topN int , maxLifetime time . Duration ) {
initOnce . Do ( initQueryStats )
qsTracker . writeJSONQueryStats ( w , topN , maxLifetime )
}
// queryStatsTracker holds statistics for queries
type queryStatsTracker struct {
mu sync . Mutex
a [ ] queryStatRecord
nextIdx uint
}
type queryStatRecord struct {
query string
timeRangeSecs int64
registerTime time . Time
duration time . Duration
}
type queryStatKey struct {
query string
timeRangeSecs int64
}
func initQueryStats ( ) {
recordsCount := * lastQueriesCount
if recordsCount <= 0 {
recordsCount = 1
} else {
logger . Infof ( "enabled query stats tracking at `/api/v1/status/top_queries` with -search.queryStats.lastQueriesCount=%d, -search.queryStats.minQueryDuration=%s" ,
* lastQueriesCount , * minQueryDuration )
}
qsTracker = & queryStatsTracker {
a : make ( [ ] queryStatRecord , recordsCount ) ,
}
}
func ( qst * queryStatsTracker ) writeJSONQueryStats ( w io . Writer , topN int , maxLifetime time . Duration ) {
fmt . Fprintf ( w , ` { "topN":"%d","maxLifetime":%q, ` , topN , maxLifetime )
fmt . Fprintf ( w , ` "search.queryStats.lastQueriesCount":%d, ` , * lastQueriesCount )
fmt . Fprintf ( w , ` "search.queryStats.minQueryDuration":%q, ` , * minQueryDuration )
fmt . Fprintf ( w , ` "topByCount":[ ` )
topByCount := qst . getTopByCount ( topN , maxLifetime )
for i , r := range topByCount {
fmt . Fprintf ( w , ` { "query":%q,"timeRangeSeconds":%d,"count":%d} ` , r . query , r . timeRangeSecs , r . count )
if i + 1 < len ( topByCount ) {
fmt . Fprintf ( w , ` , ` )
}
}
fmt . Fprintf ( w , ` ],"topByAvgDuration":[ ` )
topByAvgDuration := qst . getTopByAvgDuration ( topN , maxLifetime )
for i , r := range topByAvgDuration {
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fmt . Fprintf ( w , ` { "query":%q,"timeRangeSeconds":%d,"avgDurationSeconds":%.3f,"count":%d} ` , r . query , r . timeRangeSecs , r . duration . Seconds ( ) , r . count )
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if i + 1 < len ( topByAvgDuration ) {
fmt . Fprintf ( w , ` , ` )
}
}
fmt . Fprintf ( w , ` ],"topBySumDuration":[ ` )
topBySumDuration := qst . getTopBySumDuration ( topN , maxLifetime )
for i , r := range topBySumDuration {
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fmt . Fprintf ( w , ` { "query":%q,"timeRangeSeconds":%d,"sumDurationSeconds":%.3f,"count":%d} ` , r . query , r . timeRangeSecs , r . duration . Seconds ( ) , r . count )
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if i + 1 < len ( topBySumDuration ) {
fmt . Fprintf ( w , ` , ` )
}
}
fmt . Fprintf ( w , ` ]} ` )
}
func ( qst * queryStatsTracker ) registerQuery ( query string , timeRangeMsecs int64 , startTime time . Time ) {
registerTime := time . Now ( )
duration := registerTime . Sub ( startTime )
if duration < * minQueryDuration {
return
}
qst . mu . Lock ( )
defer qst . mu . Unlock ( )
a := qst . a
idx := qst . nextIdx
if idx >= uint ( len ( a ) ) {
idx = 0
}
qst . nextIdx = idx + 1
r := & a [ idx ]
r . query = query
r . timeRangeSecs = timeRangeMsecs / 1000
r . registerTime = registerTime
r . duration = duration
}
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func ( r * queryStatRecord ) matches ( currentTime time . Time , maxLifetime time . Duration ) bool {
if r . query == "" || currentTime . Sub ( r . registerTime ) > maxLifetime {
return false
}
return true
}
func ( r * queryStatRecord ) key ( ) queryStatKey {
return queryStatKey {
query : r . query ,
timeRangeSecs : r . timeRangeSecs ,
}
}
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func ( qst * queryStatsTracker ) getTopByCount ( topN int , maxLifetime time . Duration ) [ ] queryStatByCount {
currentTime := time . Now ( )
qst . mu . Lock ( )
m := make ( map [ queryStatKey ] int )
for _ , r := range qst . a {
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if r . matches ( currentTime , maxLifetime ) {
k := r . key ( )
m [ k ] = m [ k ] + 1
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}
}
qst . mu . Unlock ( )
var a [ ] queryStatByCount
for k , count := range m {
a = append ( a , queryStatByCount {
query : k . query ,
timeRangeSecs : k . timeRangeSecs ,
count : count ,
} )
}
sort . Slice ( a , func ( i , j int ) bool {
return a [ i ] . count > a [ j ] . count
} )
if len ( a ) > topN {
a = a [ : topN ]
}
return a
}
type queryStatByCount struct {
query string
timeRangeSecs int64
count int
}
func ( qst * queryStatsTracker ) getTopByAvgDuration ( topN int , maxLifetime time . Duration ) [ ] queryStatByDuration {
currentTime := time . Now ( )
qst . mu . Lock ( )
type countSum struct {
count int
sum time . Duration
}
m := make ( map [ queryStatKey ] countSum )
for _ , r := range qst . a {
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if r . matches ( currentTime , maxLifetime ) {
k := r . key ( )
ks := m [ k ]
ks . count ++
ks . sum += r . duration
m [ k ] = ks
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}
}
qst . mu . Unlock ( )
var a [ ] queryStatByDuration
for k , ks := range m {
a = append ( a , queryStatByDuration {
query : k . query ,
timeRangeSecs : k . timeRangeSecs ,
duration : ks . sum / time . Duration ( ks . count ) ,
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count : ks . count ,
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} )
}
sort . Slice ( a , func ( i , j int ) bool {
return a [ i ] . duration > a [ j ] . duration
} )
if len ( a ) > topN {
a = a [ : topN ]
}
return a
}
type queryStatByDuration struct {
query string
timeRangeSecs int64
duration time . Duration
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count int
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}
func ( qst * queryStatsTracker ) getTopBySumDuration ( topN int , maxLifetime time . Duration ) [ ] queryStatByDuration {
currentTime := time . Now ( )
qst . mu . Lock ( )
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type countDuration struct {
count int
sum time . Duration
}
m := make ( map [ queryStatKey ] countDuration )
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for _ , r := range qst . a {
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if r . matches ( currentTime , maxLifetime ) {
k := r . key ( )
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kd := m [ k ]
kd . count ++
kd . sum += r . duration
m [ k ] = kd
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}
}
qst . mu . Unlock ( )
var a [ ] queryStatByDuration
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for k , kd := range m {
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a = append ( a , queryStatByDuration {
query : k . query ,
timeRangeSecs : k . timeRangeSecs ,
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duration : kd . sum ,
count : kd . count ,
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} )
}
sort . Slice ( a , func ( i , j int ) bool {
return a [ i ] . duration > a [ j ] . duration
} )
if len ( a ) > topN {
a = a [ : topN ]
}
return a
}