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package searchutils
import (
"flag"
"fmt"
"math"
"net/http"
"strconv"
"strings"
"time"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/promutils"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/storage"
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"github.com/VictoriaMetrics/metricsql"
)
var (
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maxExportDuration = flag . Duration ( "search.maxExportDuration" , time . Hour * 24 * 30 , "The maximum duration for /api/v1/export call" )
maxQueryDuration = flag . Duration ( "search.maxQueryDuration" , time . Second * 30 , "The maximum duration for query execution" )
maxStatusRequestDuration = flag . Duration ( "search.maxStatusRequestDuration" , time . Minute * 5 , "The maximum duration for /api/v1/status/* requests" )
denyPartialResponse = flag . Bool ( "search.denyPartialResponse" , false , "Whether to deny partial responses if a part of -storageNode instances fail to perform queries; " +
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"this trades availability over consistency; see also -search.maxQueryDuration" )
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)
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func roundToSeconds ( ms int64 ) int64 {
return ms - ms % 1000
}
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// GetInt returns integer value from the given argKey.
func GetInt ( r * http . Request , argKey string ) ( int , error ) {
argValue := r . FormValue ( argKey )
if len ( argValue ) == 0 {
return 0 , nil
}
n , err := strconv . Atoi ( argValue )
if err != nil {
return 0 , fmt . Errorf ( "cannot parse integer %q=%q: %w" , argKey , argValue , err )
}
return n , nil
}
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// GetTime returns time from the given argKey query arg.
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//
// If argKey is missing in r, then defaultMs rounded to seconds is returned.
// The rounding is needed in order to align query results in Grafana
// executed at different times. See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/720
func GetTime ( r * http . Request , argKey string , defaultMs int64 ) ( int64 , error ) {
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argValue := r . FormValue ( argKey )
if len ( argValue ) == 0 {
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return roundToSeconds ( defaultMs ) , nil
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}
secs , err := strconv . ParseFloat ( argValue , 64 )
if err != nil {
// Try parsing string format
t , err := time . Parse ( time . RFC3339 , argValue )
if err != nil {
// Handle Prometheus'-provided minTime and maxTime.
// See https://github.com/prometheus/client_golang/issues/614
switch argValue {
case prometheusMinTimeFormatted :
return minTimeMsecs , nil
case prometheusMaxTimeFormatted :
return maxTimeMsecs , nil
}
// Try parsing duration relative to the current time
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d , err1 := promutils . ParseDuration ( argValue )
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if err1 != nil {
return 0 , fmt . Errorf ( "cannot parse %q=%q: %w" , argKey , argValue , err )
}
if d > 0 {
d = - d
}
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t = time . Now ( ) . Add ( d )
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}
secs = float64 ( t . UnixNano ( ) ) / 1e9
}
msecs := int64 ( secs * 1e3 )
if msecs < minTimeMsecs {
msecs = 0
}
if msecs > maxTimeMsecs {
msecs = maxTimeMsecs
}
return msecs , nil
}
var (
// These constants were obtained from https://github.com/prometheus/prometheus/blob/91d7175eaac18b00e370965f3a8186cc40bf9f55/web/api/v1/api.go#L442
// See https://github.com/prometheus/client_golang/issues/614 for details.
prometheusMinTimeFormatted = time . Unix ( math . MinInt64 / 1000 + 62135596801 , 0 ) . UTC ( ) . Format ( time . RFC3339Nano )
prometheusMaxTimeFormatted = time . Unix ( math . MaxInt64 / 1000 - 62135596801 , 999999999 ) . UTC ( ) . Format ( time . RFC3339Nano )
)
const (
// These values prevent from overflow when storing msec-precision time in int64.
minTimeMsecs = 0 // use 0 instead of `int64(-1<<63) / 1e6` because the storage engine doesn't actually support negative time
maxTimeMsecs = int64 ( 1 << 63 - 1 ) / 1e6
)
// GetDuration returns duration from the given argKey query arg.
func GetDuration ( r * http . Request , argKey string , defaultValue int64 ) ( int64 , error ) {
argValue := r . FormValue ( argKey )
if len ( argValue ) == 0 {
return defaultValue , nil
}
secs , err := strconv . ParseFloat ( argValue , 64 )
if err != nil {
// Try parsing string format
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d , err := promutils . ParseDuration ( argValue )
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if err != nil {
return 0 , fmt . Errorf ( "cannot parse %q=%q: %w" , argKey , argValue , err )
}
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secs = d . Seconds ( )
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}
msecs := int64 ( secs * 1e3 )
if msecs <= 0 || msecs > maxDurationMsecs {
return 0 , fmt . Errorf ( "%q=%dms is out of allowed range [%d ... %d]" , argKey , msecs , 0 , int64 ( maxDurationMsecs ) )
}
return msecs , nil
}
const maxDurationMsecs = 100 * 365 * 24 * 3600 * 1000
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// GetMaxQueryDuration returns the maximum duration for query from r.
func GetMaxQueryDuration ( r * http . Request ) time . Duration {
dms , err := GetDuration ( r , "timeout" , 0 )
if err != nil {
dms = 0
}
d := time . Duration ( dms ) * time . Millisecond
if d <= 0 || d > * maxQueryDuration {
d = * maxQueryDuration
}
return d
}
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// GetDeadlineForQuery returns deadline for the given query r.
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func GetDeadlineForQuery ( r * http . Request , startTime time . Time ) Deadline {
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dMax := maxQueryDuration . Milliseconds ( )
return getDeadlineWithMaxDuration ( r , startTime , dMax , "-search.maxQueryDuration" )
}
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// GetDeadlineForStatusRequest returns deadline for the given request to /api/v1/status/*.
func GetDeadlineForStatusRequest ( r * http . Request , startTime time . Time ) Deadline {
dMax := maxStatusRequestDuration . Milliseconds ( )
return getDeadlineWithMaxDuration ( r , startTime , dMax , "-search.maxStatusRequestDuration" )
}
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// GetDeadlineForExport returns deadline for the given request to /api/v1/export.
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func GetDeadlineForExport ( r * http . Request , startTime time . Time ) Deadline {
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dMax := maxExportDuration . Milliseconds ( )
return getDeadlineWithMaxDuration ( r , startTime , dMax , "-search.maxExportDuration" )
}
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func getDeadlineWithMaxDuration ( r * http . Request , startTime time . Time , dMax int64 , flagHint string ) Deadline {
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d , err := GetDuration ( r , "timeout" , 0 )
if err != nil {
d = 0
}
if d <= 0 || d > dMax {
d = dMax
}
timeout := time . Duration ( d ) * time . Millisecond
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return NewDeadline ( startTime , timeout , flagHint )
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}
// GetBool returns boolean value from the given argKey query arg.
func GetBool ( r * http . Request , argKey string ) bool {
argValue := r . FormValue ( argKey )
switch strings . ToLower ( argValue ) {
case "" , "0" , "f" , "false" , "no" :
return false
default :
return true
}
}
// GetDenyPartialResponse returns whether partial responses are denied.
func GetDenyPartialResponse ( r * http . Request ) bool {
if * denyPartialResponse {
return true
}
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if r == nil {
return false
}
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return GetBool ( r , "deny_partial_response" )
}
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// Deadline contains deadline with the corresponding timeout for pretty error messages.
type Deadline struct {
deadline uint64
timeout time . Duration
flagHint string
}
// NewDeadline returns deadline for the given timeout.
//
// flagHint must contain a hit for command-line flag, which could be used
// in order to increase timeout.
func NewDeadline ( startTime time . Time , timeout time . Duration , flagHint string ) Deadline {
return Deadline {
deadline : uint64 ( startTime . Add ( timeout ) . Unix ( ) ) ,
timeout : timeout ,
flagHint : flagHint ,
}
}
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// DeadlineFromTimestamp returns deadline from the given timestamp in seconds.
func DeadlineFromTimestamp ( timestamp uint64 ) Deadline {
startTime := time . Now ( )
timeout := time . Unix ( int64 ( timestamp ) , 0 ) . Sub ( startTime )
return NewDeadline ( startTime , timeout , "" )
}
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// Exceeded returns true if deadline is exceeded.
func ( d * Deadline ) Exceeded ( ) bool {
return fasttime . UnixTimestamp ( ) > d . deadline
}
// Deadline returns deadline in unix timestamp seconds.
func ( d * Deadline ) Deadline ( ) uint64 {
return d . deadline
}
// String returns human-readable string representation for d.
func ( d * Deadline ) String ( ) string {
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startTime := time . Unix ( int64 ( d . deadline ) , 0 ) . Add ( - d . timeout )
elapsed := time . Since ( startTime )
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msg := fmt . Sprintf ( "%.3f seconds (elapsed %.3f seconds)" , d . timeout . Seconds ( ) , elapsed . Seconds ( ) )
if d . flagHint != "" {
msg += fmt . Sprintf ( "; the timeout can be adjusted with `%s` command-line flag" , d . flagHint )
}
return msg
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}
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// GetExtraTagFilters returns additional label filters from request.
//
// Label filters can be present in extra_label and extra_filters[] query args.
// They are combined. For example, the following query args:
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//
// extra_label=t1=v1&extra_label=t2=v2&extra_filters[]={env="prod",team="devops"}&extra_filters={env=~"dev|staging",team!="devops"}
//
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// should be translated to the following filters joined with "or":
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//
// {env="prod",team="devops",t1="v1",t2="v2"}
// {env=~"dev|staging",team!="devops",t1="v1",t2="v2"}
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func GetExtraTagFilters ( r * http . Request ) ( [ ] [ ] storage . TagFilter , error ) {
var tagFilters [ ] storage . TagFilter
for _ , match := range r . Form [ "extra_label" ] {
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tmp := strings . SplitN ( match , "=" , 2 )
if len ( tmp ) != 2 {
return nil , fmt . Errorf ( "`extra_label` query arg must have the format `name=value`; got %q" , match )
}
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if tmp [ 0 ] == "__name__" {
// This is required for storage.Search.
tmp [ 0 ] = ""
}
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tagFilters = append ( tagFilters , storage . TagFilter {
Key : [ ] byte ( tmp [ 0 ] ) ,
Value : [ ] byte ( tmp [ 1 ] ) ,
} )
}
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extraFilters := append ( [ ] string { } , r . Form [ "extra_filters" ] ... )
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extraFilters = append ( extraFilters , r . Form [ "extra_filters[]" ] ... )
if len ( extraFilters ) == 0 {
if len ( tagFilters ) == 0 {
return nil , nil
}
return [ ] [ ] storage . TagFilter { tagFilters } , nil
}
var etfs [ ] [ ] storage . TagFilter
for _ , extraFilter := range extraFilters {
tfs , err := ParseMetricSelector ( extraFilter )
if err != nil {
return nil , fmt . Errorf ( "cannot parse extra_filters=%s: %w" , extraFilter , err )
}
tfs = append ( tfs , tagFilters ... )
etfs = append ( etfs , tfs )
}
return etfs , nil
}
// JoinTagFilterss adds etfs to every src filter and returns the result.
func JoinTagFilterss ( src , etfs [ ] [ ] storage . TagFilter ) [ ] [ ] storage . TagFilter {
if len ( src ) == 0 {
return etfs
}
if len ( etfs ) == 0 {
return src
}
var dst [ ] [ ] storage . TagFilter
for _ , tf := range src {
for _ , etf := range etfs {
tfs := append ( [ ] storage . TagFilter { } , tf ... )
tfs = append ( tfs , etf ... )
dst = append ( dst , tfs )
}
}
return dst
}
// ParseMetricSelector parses s containing PromQL metric selector and returns the corresponding LabelFilters.
func ParseMetricSelector ( s string ) ( [ ] storage . TagFilter , error ) {
expr , err := metricsql . Parse ( s )
if err != nil {
return nil , err
}
me , ok := expr . ( * metricsql . MetricExpr )
if ! ok {
return nil , fmt . Errorf ( "expecting metricSelector; got %q" , expr . AppendString ( nil ) )
}
if len ( me . LabelFilters ) == 0 {
return nil , fmt . Errorf ( "labelFilters cannot be empty" )
}
tfs := ToTagFilters ( me . LabelFilters )
return tfs , nil
}
// ToTagFilters converts lfs to a slice of storage.TagFilter
func ToTagFilters ( lfs [ ] metricsql . LabelFilter ) [ ] storage . TagFilter {
tfs := make ( [ ] storage . TagFilter , len ( lfs ) )
for i := range lfs {
toTagFilter ( & tfs [ i ] , & lfs [ i ] )
}
return tfs
}
func toTagFilter ( dst * storage . TagFilter , src * metricsql . LabelFilter ) {
if src . Label != "__name__" {
dst . Key = [ ] byte ( src . Label )
} else {
// This is required for storage.Search.
dst . Key = nil
}
dst . Value = [ ] byte ( src . Value )
dst . IsRegexp = src . IsRegexp
dst . IsNegative = src . IsNegative
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}