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package storage
import (
"bytes"
"fmt"
"io"
"math/rand"
"os"
"reflect"
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"regexp"
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"sort"
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
"sync/atomic"
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"testing"
"time"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/mergeset"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/uint64set"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/workingsetcache"
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
"github.com/VictoriaMetrics/fastcache"
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)
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func TestReverseBytes ( t * testing . T ) {
f := func ( s , resultExpected string ) {
t . Helper ( )
result := reverseBytes ( nil , [ ] byte ( s ) )
if string ( result ) != resultExpected {
t . Fatalf ( "unexpected result for reverseBytes(%q); got %q; want %q" , s , result , resultExpected )
}
}
f ( "" , "" )
f ( "a" , "a" )
f ( "av" , "va" )
f ( "foo.bar" , "rab.oof" )
}
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func TestMergeTagToMetricIDsRows ( t * testing . T ) {
f := func ( items [ ] string , expectedItems [ ] string ) {
t . Helper ( )
var data [ ] byte
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var itemsB [ ] mergeset . Item
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for _ , item := range items {
data = append ( data , item ... )
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itemsB = append ( itemsB , mergeset . Item {
Start : uint32 ( len ( data ) - len ( item ) ) ,
End : uint32 ( len ( data ) ) ,
} )
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}
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if ! checkItemsSorted ( data , itemsB ) {
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t . Fatalf ( "source items aren't sorted; items:\n%q" , itemsB )
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}
resultData , resultItemsB := mergeTagToMetricIDsRows ( data , itemsB )
if len ( resultItemsB ) != len ( expectedItems ) {
t . Fatalf ( "unexpected len(resultItemsB); got %d; want %d" , len ( resultItemsB ) , len ( expectedItems ) )
}
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if ! checkItemsSorted ( resultData , resultItemsB ) {
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t . Fatalf ( "result items aren't sorted; items:\n%q" , resultItemsB )
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}
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buf := resultData
for i , it := range resultItemsB {
item := it . Bytes ( resultData )
if ! bytes . HasPrefix ( buf , item ) {
t . Fatalf ( "unexpected prefix for resultData #%d;\ngot\n%X\nwant\n%X" , i , buf , item )
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}
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buf = buf [ len ( item ) : ]
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}
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if len ( buf ) != 0 {
t . Fatalf ( "unexpected tail left in resultData: %X" , buf )
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}
var resultItems [ ] string
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for _ , it := range resultItemsB {
resultItems = append ( resultItems , string ( it . Bytes ( resultData ) ) )
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}
if ! reflect . DeepEqual ( expectedItems , resultItems ) {
t . Fatalf ( "unexpected items;\ngot\n%X\nwant\n%X" , resultItems , expectedItems )
}
}
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xy := func ( nsPrefix byte , key , value string , metricIDs [ ] uint64 ) string {
dst := marshalCommonPrefix ( nil , nsPrefix )
if nsPrefix == nsPrefixDateTagToMetricIDs {
dst = encoding . MarshalUint64 ( dst , 1234567901233 )
}
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t := & Tag {
Key : [ ] byte ( key ) ,
Value : [ ] byte ( value ) ,
}
dst = t . Marshal ( dst )
for _ , metricID := range metricIDs {
dst = encoding . MarshalUint64 ( dst , metricID )
}
return string ( dst )
}
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x := func ( key , value string , metricIDs [ ] uint64 ) string {
return xy ( nsPrefixTagToMetricIDs , key , value , metricIDs )
}
y := func ( key , value string , metricIDs [ ] uint64 ) string {
return xy ( nsPrefixDateTagToMetricIDs , key , value , metricIDs )
}
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f ( nil , nil )
f ( [ ] string { } , nil )
f ( [ ] string { "foo" } , [ ] string { "foo" } )
f ( [ ] string { "a" , "b" , "c" , "def" } , [ ] string { "a" , "b" , "c" , "def" } )
f ( [ ] string { "\x00" , "\x00b" , "\x00c" , "\x00def" } , [ ] string { "\x00" , "\x00b" , "\x00c" , "\x00def" } )
f ( [ ] string {
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
} , [ ] string {
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
} )
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f ( [ ] string {
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
} , [ ] string {
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
} )
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f ( [ ] string {
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
"xyz" ,
} , [ ] string {
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
"xyz" ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
} , [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
} )
f ( [ ] string {
"\x00asdf" ,
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y ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
} , [ ] string {
"\x00asdf" ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
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x ( "" , "" , [ ] uint64 { 0 } ) ,
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"xyz" ,
} , [ ] string {
"\x00asdf" ,
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x ( "" , "" , [ ] uint64 { 0 } ) ,
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"xyz" ,
} )
f ( [ ] string {
"\x00asdf" ,
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x ( "" , "" , [ ] uint64 { 0 } ) ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
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y ( "" , "" , [ ] uint64 { 0 } ) ,
y ( "" , "" , [ ] uint64 { 0 } ) ,
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"xyz" ,
} , [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 0 } ) ,
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y ( "" , "" , [ ] uint64 { 0 } ) ,
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"xyz" ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 } ) ,
x ( "" , "" , [ ] uint64 { 2 } ) ,
x ( "" , "" , [ ] uint64 { 3 } ) ,
x ( "" , "" , [ ] uint64 { 4 } ) ,
"xyz" ,
} , [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 , 2 , 3 , 4 } ) ,
"xyz" ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 } ) ,
x ( "" , "" , [ ] uint64 { 2 } ) ,
x ( "" , "" , [ ] uint64 { 3 } ) ,
x ( "" , "" , [ ] uint64 { 4 } ) ,
} , [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 , 2 , 3 } ) ,
x ( "" , "" , [ ] uint64 { 4 } ) ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 } ) ,
x ( "" , "" , [ ] uint64 { 2 , 3 , 4 } ) ,
x ( "" , "" , [ ] uint64 { 2 , 3 , 4 , 5 } ) ,
x ( "" , "" , [ ] uint64 { 3 , 5 } ) ,
"foo" ,
} , [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 , 2 , 3 , 4 , 5 } ) ,
"foo" ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 } ) ,
x ( "" , "a" , [ ] uint64 { 2 , 3 , 4 } ) ,
x ( "" , "a" , [ ] uint64 { 2 , 3 , 4 , 5 } ) ,
x ( "" , "b" , [ ] uint64 { 3 , 5 } ) ,
"foo" ,
} , [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 } ) ,
x ( "" , "a" , [ ] uint64 { 2 , 3 , 4 , 5 } ) ,
x ( "" , "b" , [ ] uint64 { 3 , 5 } ) ,
"foo" ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 } ) ,
x ( "x" , "a" , [ ] uint64 { 2 , 3 , 4 } ) ,
x ( "y" , "" , [ ] uint64 { 2 , 3 , 4 , 5 } ) ,
x ( "y" , "x" , [ ] uint64 { 3 , 5 } ) ,
"foo" ,
} , [ ] string {
"\x00asdf" ,
x ( "" , "" , [ ] uint64 { 1 } ) ,
x ( "x" , "a" , [ ] uint64 { 2 , 3 , 4 } ) ,
x ( "y" , "" , [ ] uint64 { 2 , 3 , 4 , 5 } ) ,
x ( "y" , "x" , [ ] uint64 { 3 , 5 } ) ,
"foo" ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "sdf" , "aa" , [ ] uint64 { 1 , 1 , 3 } ) ,
x ( "sdf" , "aa" , [ ] uint64 { 1 , 2 } ) ,
"foo" ,
} , [ ] string {
"\x00asdf" ,
x ( "sdf" , "aa" , [ ] uint64 { 1 , 2 , 3 } ) ,
"foo" ,
} )
f ( [ ] string {
"\x00asdf" ,
x ( "sdf" , "aa" , [ ] uint64 { 1 , 2 , 2 , 4 } ) ,
x ( "sdf" , "aa" , [ ] uint64 { 1 , 2 , 3 } ) ,
"foo" ,
} , [ ] string {
"\x00asdf" ,
x ( "sdf" , "aa" , [ ] uint64 { 1 , 2 , 3 , 4 } ) ,
"foo" ,
} )
// Construct big source chunks
var metricIDs [ ] uint64
metricIDs = metricIDs [ : 0 ]
for i := 0 ; i < maxMetricIDsPerRow - 1 ; i ++ {
metricIDs = append ( metricIDs , uint64 ( i ) )
}
f ( [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , metricIDs ) ,
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y ( "foo" , "bar" , metricIDs ) ,
y ( "foo" , "bar" , metricIDs ) ,
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"x" ,
} , [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
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y ( "foo" , "bar" , metricIDs ) ,
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"x" ,
} )
metricIDs = metricIDs [ : 0 ]
for i := 0 ; i < maxMetricIDsPerRow ; i ++ {
metricIDs = append ( metricIDs , uint64 ( i ) )
}
f ( [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , metricIDs ) ,
"x" ,
} , [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , metricIDs ) ,
"x" ,
} )
metricIDs = metricIDs [ : 0 ]
for i := 0 ; i < 3 * maxMetricIDsPerRow ; i ++ {
metricIDs = append ( metricIDs , uint64 ( i ) )
}
f ( [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , metricIDs ) ,
"x" ,
} , [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , metricIDs ) ,
"x" ,
} )
f ( [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , [ ] uint64 { 0 , 0 , 1 , 2 , 3 } ) ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , metricIDs ) ,
"x" ,
} , [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , [ ] uint64 { 0 , 1 , 2 , 3 } ) ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , metricIDs ) ,
"x" ,
} )
// Check for duplicate metricIDs removal
metricIDs = metricIDs [ : 0 ]
for i := 0 ; i < maxMetricIDsPerRow - 1 ; i ++ {
metricIDs = append ( metricIDs , 123 )
}
f ( [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , metricIDs ) ,
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y ( "foo" , "bar" , metricIDs ) ,
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"x" ,
} , [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , [ ] uint64 { 123 } ) ,
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y ( "foo" , "bar" , [ ] uint64 { 123 } ) ,
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"x" ,
} )
// Check fallback to the original items after merging, which result in incorrect ordering.
metricIDs = metricIDs [ : 0 ]
for i := 0 ; i < maxMetricIDsPerRow - 3 ; i ++ {
metricIDs = append ( metricIDs , uint64 ( 123 ) )
}
f ( [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 123 , 125 } ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 124 } ) ,
"x" ,
} , [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 123 , 125 } ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 124 } ) ,
"x" ,
} )
f ( [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 123 , 125 } ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 124 } ) ,
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y ( "foo" , "bar" , [ ] uint64 { 123 , 124 } ) ,
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} , [ ] string {
"\x00aa" ,
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 123 , 125 } ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 124 } ) ,
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y ( "foo" , "bar" , [ ] uint64 { 123 , 124 } ) ,
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} )
f ( [ ] string {
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 123 , 125 } ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 124 } ) ,
} , [ ] string {
x ( "foo" , "bar" , metricIDs ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 123 , 125 } ) ,
x ( "foo" , "bar" , [ ] uint64 { 123 , 124 } ) ,
} )
}
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func TestRemoveDuplicateMetricIDs ( t * testing . T ) {
f := func ( metricIDs , expectedMetricIDs [ ] uint64 ) {
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t . Helper ( )
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a := removeDuplicateMetricIDs ( metricIDs )
if ! reflect . DeepEqual ( a , expectedMetricIDs ) {
t . Fatalf ( "unexpected result from removeDuplicateMetricIDs:\ngot\n%d\nwant\n%d" , a , expectedMetricIDs )
}
}
f ( nil , nil )
f ( [ ] uint64 { 123 } , [ ] uint64 { 123 } )
f ( [ ] uint64 { 123 , 123 } , [ ] uint64 { 123 } )
f ( [ ] uint64 { 123 , 123 , 123 } , [ ] uint64 { 123 } )
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f ( [ ] uint64 { 123 , 1234 , 1235 } , [ ] uint64 { 123 , 1234 , 1235 } )
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f ( [ ] uint64 { 0 , 1 , 1 , 2 } , [ ] uint64 { 0 , 1 , 2 } )
f ( [ ] uint64 { 0 , 0 , 0 , 1 , 1 , 2 } , [ ] uint64 { 0 , 1 , 2 } )
f ( [ ] uint64 { 0 , 1 , 1 , 2 , 2 } , [ ] uint64 { 0 , 1 , 2 } )
f ( [ ] uint64 { 0 , 1 , 2 , 2 } , [ ] uint64 { 0 , 1 , 2 } )
}
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func TestMarshalUnmarshalTSIDs ( t * testing . T ) {
f := func ( tsids [ ] TSID ) {
t . Helper ( )
value := marshalTSIDs ( nil , tsids )
tsidsGot , err := unmarshalTSIDs ( nil , value )
if err != nil {
t . Fatalf ( "cannot unmarshal tsids: %s" , err )
}
if len ( tsids ) == 0 && len ( tsidsGot ) != 0 || len ( tsids ) > 0 && ! reflect . DeepEqual ( tsids , tsidsGot ) {
t . Fatalf ( "unexpected tsids unmarshaled\ngot\n%+v\nwant\n%+v" , tsidsGot , tsids )
}
// Try marshlaing with prefix
prefix := [ ] byte ( "prefix" )
valueExt := marshalTSIDs ( prefix , tsids )
if ! bytes . Equal ( valueExt [ : len ( prefix ) ] , prefix ) {
t . Fatalf ( "unexpected prefix after marshaling;\ngot\n%X\nwant\n%X" , valueExt [ : len ( prefix ) ] , prefix )
}
if ! bytes . Equal ( valueExt [ len ( prefix ) : ] , value ) {
t . Fatalf ( "unexpected prefixed marshaled value;\ngot\n%X\nwant\n%X" , valueExt [ len ( prefix ) : ] , value )
}
// Try unmarshaling with prefix
tsidPrefix := [ ] TSID { { MetricID : 123 } , { JobID : 456 } }
tsidsGot , err = unmarshalTSIDs ( tsidPrefix , value )
if err != nil {
t . Fatalf ( "cannot unmarshal prefixed tsids: %s" , err )
}
if ! reflect . DeepEqual ( tsidsGot [ : len ( tsidPrefix ) ] , tsidPrefix ) {
t . Fatalf ( "unexpected tsid prefix\ngot\n%+v\nwant\n%+v" , tsidsGot [ : len ( tsidPrefix ) ] , tsidPrefix )
}
if len ( tsids ) == 0 && len ( tsidsGot ) != len ( tsidPrefix ) || len ( tsids ) > 0 && ! reflect . DeepEqual ( tsidsGot [ len ( tsidPrefix ) : ] , tsids ) {
t . Fatalf ( "unexpected prefixed tsids unmarshaled\ngot\n%+v\nwant\n%+v" , tsidsGot [ len ( tsidPrefix ) : ] , tsids )
}
}
f ( nil )
f ( [ ] TSID { { MetricID : 123 } } )
f ( [ ] TSID { { JobID : 34 } , { MetricID : 2343 } , { InstanceID : 243321 } } )
}
func TestIndexDBOpenClose ( t * testing . T ) {
2021-06-11 11:42:26 +02:00
s := newTestStorage ( )
defer stopTestStorage ( s )
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
tableName := nextIndexDBTableName ( )
2019-05-22 23:16:55 +02:00
for i := 0 ; i < 5 ; i ++ {
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
db , err := openIndexDB ( tableName , s , 0 )
2019-05-22 23:16:55 +02:00
if err != nil {
t . Fatalf ( "cannot open indexDB: %s" , err )
}
db . MustClose ( )
}
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
if err := os . RemoveAll ( tableName ) ; err != nil {
2019-05-22 23:16:55 +02:00
t . Fatalf ( "cannot remove indexDB: %s" , err )
}
}
func TestIndexDB ( t * testing . T ) {
const metricGroups = 10
t . Run ( "serial" , func ( t * testing . T ) {
2021-06-11 11:42:26 +02:00
s := newTestStorage ( )
defer stopTestStorage ( s )
2019-06-25 19:09:57 +02:00
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
dbName := nextIndexDBTableName ( )
db , err := openIndexDB ( dbName , s , 0 )
2019-05-22 23:16:55 +02:00
if err != nil {
t . Fatalf ( "cannot open indexDB: %s" , err )
}
defer func ( ) {
db . MustClose ( )
if err := os . RemoveAll ( dbName ) ; err != nil {
t . Fatalf ( "cannot remove indexDB: %s" , err )
}
} ( )
if err := testIndexDBBigMetricName ( db ) ; err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
2019-11-21 22:18:22 +01:00
mns , tsids , err := testIndexDBGetOrCreateTSIDByName ( db , metricGroups )
2019-05-22 23:16:55 +02:00
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if err := testIndexDBBigMetricName ( db ) ; err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if err := testIndexDBCheckTSIDByName ( db , mns , tsids , false ) ; err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if err := testIndexDBBigMetricName ( db ) ; err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
// Re-open the db and verify it works as expected.
db . MustClose ( )
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
db , err = openIndexDB ( dbName , s , 0 )
2019-05-22 23:16:55 +02:00
if err != nil {
t . Fatalf ( "cannot open indexDB: %s" , err )
}
if err := testIndexDBBigMetricName ( db ) ; err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if err := testIndexDBCheckTSIDByName ( db , mns , tsids , false ) ; err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if err := testIndexDBBigMetricName ( db ) ; err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
} )
t . Run ( "concurrent" , func ( t * testing . T ) {
2021-06-11 11:42:26 +02:00
s := newTestStorage ( )
defer stopTestStorage ( s )
2019-06-25 19:09:57 +02:00
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
dbName := nextIndexDBTableName ( )
db , err := openIndexDB ( dbName , s , 0 )
2019-05-22 23:16:55 +02:00
if err != nil {
t . Fatalf ( "cannot open indexDB: %s" , err )
}
defer func ( ) {
db . MustClose ( )
if err := os . RemoveAll ( dbName ) ; err != nil {
t . Fatalf ( "cannot remove indexDB: %s" , err )
}
} ( )
ch := make ( chan error , 3 )
for i := 0 ; i < cap ( ch ) ; i ++ {
go func ( ) {
if err := testIndexDBBigMetricName ( db ) ; err != nil {
ch <- err
return
}
2019-11-21 22:18:22 +01:00
mns , tsid , err := testIndexDBGetOrCreateTSIDByName ( db , metricGroups )
2019-05-22 23:16:55 +02:00
if err != nil {
ch <- err
return
}
if err := testIndexDBBigMetricName ( db ) ; err != nil {
ch <- err
return
}
if err := testIndexDBCheckTSIDByName ( db , mns , tsid , true ) ; err != nil {
ch <- err
return
}
if err := testIndexDBBigMetricName ( db ) ; err != nil {
ch <- err
return
}
ch <- nil
} ( )
}
var errors [ ] error
for i := 0 ; i < cap ( ch ) ; i ++ {
select {
case err := <- ch :
if err != nil {
2020-06-30 21:58:18 +02:00
errors = append ( errors , fmt . Errorf ( "unexpected error: %w" , err ) )
2019-05-22 23:16:55 +02:00
}
case <- time . After ( 30 * time . Second ) :
t . Fatalf ( "timeout" )
}
}
if len ( errors ) > 0 {
t . Fatal ( errors [ 0 ] )
}
} )
}
func testIndexDBBigMetricName ( db * indexDB ) error {
var bigBytes [ ] byte
for i := 0 ; i < 128 * 1000 ; i ++ {
bigBytes = append ( bigBytes , byte ( i ) )
}
var mn MetricName
var tsid TSID
2020-07-23 19:42:57 +02:00
is := db . getIndexSearch ( noDeadline )
2019-05-22 23:16:55 +02:00
defer db . putIndexSearch ( is )
// Try creating too big metric group
mn . Reset ( )
mn . MetricGroup = append ( mn . MetricGroup [ : 0 ] , bigBytes ... )
mn . sortTags ( )
metricName := mn . Marshal ( nil )
if err := is . GetOrCreateTSIDByName ( & tsid , metricName ) ; err == nil {
return fmt . Errorf ( "expecting non-nil error on an attempt to insert metric with too big MetricGroup" )
}
// Try creating too big tag key
mn . Reset ( )
mn . MetricGroup = append ( mn . MetricGroup [ : 0 ] , "xxx" ... )
mn . Tags = [ ] Tag { {
Key : append ( [ ] byte ( nil ) , bigBytes ... ) ,
Value : [ ] byte ( "foobar" ) ,
} }
mn . sortTags ( )
metricName = mn . Marshal ( nil )
if err := is . GetOrCreateTSIDByName ( & tsid , metricName ) ; err == nil {
return fmt . Errorf ( "expecting non-nil error on an attempt to insert metric with too big tag key" )
}
// Try creating too big tag value
mn . Reset ( )
mn . MetricGroup = append ( mn . MetricGroup [ : 0 ] , "xxx" ... )
mn . Tags = [ ] Tag { {
Key : [ ] byte ( "foobar" ) ,
Value : append ( [ ] byte ( nil ) , bigBytes ... ) ,
} }
mn . sortTags ( )
metricName = mn . Marshal ( nil )
if err := is . GetOrCreateTSIDByName ( & tsid , metricName ) ; err == nil {
return fmt . Errorf ( "expecting non-nil error on an attempt to insert metric with too big tag value" )
}
// Try creating metric name with too many tags
mn . Reset ( )
mn . MetricGroup = append ( mn . MetricGroup [ : 0 ] , "xxx" ... )
for i := 0 ; i < 60000 ; i ++ {
mn . Tags = append ( mn . Tags , Tag {
Key : [ ] byte ( fmt . Sprintf ( "foobar %d" , i ) ) ,
Value : [ ] byte ( fmt . Sprintf ( "sdfjdslkfj %d" , i ) ) ,
} )
}
mn . sortTags ( )
metricName = mn . Marshal ( nil )
if err := is . GetOrCreateTSIDByName ( & tsid , metricName ) ; err == nil {
return fmt . Errorf ( "expecting non-nil error on an attempt to insert metric with too many tags" )
}
return nil
}
2019-11-21 22:18:22 +01:00
func testIndexDBGetOrCreateTSIDByName ( db * indexDB , metricGroups int ) ( [ ] MetricName , [ ] TSID , error ) {
2019-05-22 23:16:55 +02:00
// Create tsids.
var mns [ ] MetricName
var tsids [ ] TSID
2020-07-23 19:42:57 +02:00
is := db . getIndexSearch ( noDeadline )
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defer db . putIndexSearch ( is )
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var metricNameBuf [ ] byte
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for i := 0 ; i < 4e2 + 1 ; i ++ {
var mn MetricName
// Init MetricGroup.
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mn . MetricGroup = [ ] byte ( fmt . Sprintf ( "metricGroup.%d\x00\x01\x02" , i % metricGroups ) )
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// Init other tags.
tagsCount := rand . Intn ( 10 ) + 1
for j := 0 ; j < tagsCount ; j ++ {
key := fmt . Sprintf ( "key\x01\x02\x00_%d_%d" , i , j )
value := fmt . Sprintf ( "val\x01_%d\x00_%d\x02" , i , j )
mn . AddTag ( key , value )
}
mn . sortTags ( )
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metricNameBuf = mn . Marshal ( metricNameBuf [ : 0 ] )
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// Create tsid for the metricName.
var tsid TSID
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if err := is . GetOrCreateTSIDByName ( & tsid , metricNameBuf ) ; err != nil {
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return nil , nil , fmt . Errorf ( "unexpected error when creating tsid for mn:\n%s: %w" , & mn , err )
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}
mns = append ( mns , mn )
tsids = append ( tsids , tsid )
}
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// fill Date -> MetricID cache
date := uint64 ( timestampFromTime ( time . Now ( ) ) ) / msecPerDay
for i := range tsids {
tsid := & tsids [ i ]
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if err := is . storeDateMetricID ( date , tsid . MetricID , & mns [ i ] ) ; err != nil {
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return nil , nil , fmt . Errorf ( "error in storeDateMetricID(%d, %d): %w" , date , tsid . MetricID , err )
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}
}
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// Flush index to disk, so it becomes visible for search
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db . tb . DebugFlush ( )
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return mns , tsids , nil
}
func testIndexDBCheckTSIDByName ( db * indexDB , mns [ ] MetricName , tsids [ ] TSID , isConcurrent bool ) error {
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hasValue := func ( tvs [ ] string , v [ ] byte ) bool {
for _ , tv := range tvs {
if string ( v ) == tv {
return true
}
}
return false
}
timeseriesCounters := make ( map [ uint64 ] bool )
var tsidCopy TSID
var metricNameCopy [ ] byte
allKeys := make ( map [ string ] bool )
for i := range mns {
mn := & mns [ i ]
tsid := & tsids [ i ]
tc := timeseriesCounters
tc [ tsid . MetricID ] = true
mn . sortTags ( )
metricName := mn . Marshal ( nil )
if err := db . getTSIDByNameNoCreate ( & tsidCopy , metricName ) ; err != nil {
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return fmt . Errorf ( "cannot obtain tsid #%d for mn %s: %w" , i , mn , err )
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}
if isConcurrent {
// Copy tsid.MetricID, since multiple TSIDs may match
// the same mn in concurrent mode.
tsidCopy . MetricID = tsid . MetricID
}
if ! reflect . DeepEqual ( tsid , & tsidCopy ) {
return fmt . Errorf ( "unexpected tsid for mn:\n%s\ngot\n%+v\nwant\n%+v" , mn , & tsidCopy , tsid )
}
// Search for metric name for the given metricID.
var err error
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metricNameCopy , err = db . searchMetricNameWithCache ( metricNameCopy [ : 0 ] , tsidCopy . MetricID )
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if err != nil {
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return fmt . Errorf ( "error in searchMetricNameWithCache for metricID=%d; i=%d: %w" , tsidCopy . MetricID , i , err )
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}
if ! bytes . Equal ( metricName , metricNameCopy ) {
return fmt . Errorf ( "unexpected mn for metricID=%d;\ngot\n%q\nwant\n%q" , tsidCopy . MetricID , metricNameCopy , metricName )
}
// Try searching metric name for non-existent MetricID.
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buf , err := db . searchMetricNameWithCache ( nil , 1 )
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if err != io . EOF {
return fmt . Errorf ( "expecting io.EOF error when searching for non-existing metricID; got %v" , err )
}
if len ( buf ) > 0 {
return fmt . Errorf ( "expecting empty buf when searching for non-existent metricID; got %X" , buf )
}
// Test SearchTagValues
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tvs , err := db . SearchTagValues ( nil , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "error in SearchTagValues for __name__: %w" , err )
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}
if ! hasValue ( tvs , mn . MetricGroup ) {
return fmt . Errorf ( "SearchTagValues couldn't find %q; found %q" , mn . MetricGroup , tvs )
}
for i := range mn . Tags {
tag := & mn . Tags [ i ]
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tvs , err := db . SearchTagValues ( tag . Key , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "error in SearchTagValues for __name__: %w" , err )
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}
if ! hasValue ( tvs , tag . Value ) {
return fmt . Errorf ( "SearchTagValues couldn't find %q=%q; found %q" , tag . Key , tag . Value , tvs )
}
allKeys [ string ( tag . Key ) ] = true
}
}
// Test SearchTagKeys
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tks , err := db . SearchTagKeys ( 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "error in SearchTagKeys: %w" , err )
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}
if ! hasValue ( tks , nil ) {
return fmt . Errorf ( "cannot find __name__ in %q" , tks )
}
for key := range allKeys {
if ! hasValue ( tks , [ ] byte ( key ) ) {
return fmt . Errorf ( "cannot find %q in %q" , key , tks )
}
}
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// Check timerseriesCounters only for serial test.
// Concurrent test may create duplicate timeseries, so GetSeriesCount
// would return more timeseries than needed.
if ! isConcurrent {
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n , err := db . GetSeriesCount ( noDeadline )
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if err != nil {
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return fmt . Errorf ( "unexpected error in GetSeriesCount(): %w" , err )
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}
if n != uint64 ( len ( timeseriesCounters ) ) {
return fmt . Errorf ( "unexpected GetSeriesCount(); got %d; want %d" , n , uint64 ( len ( timeseriesCounters ) ) )
}
}
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// Try tag filters.
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currentTime := timestampFromTime ( time . Now ( ) )
tr := TimeRange {
MinTimestamp : currentTime - msecPerDay ,
MaxTimestamp : currentTime + msecPerDay ,
}
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for i := range mns {
mn := & mns [ i ]
tsid := & tsids [ i ]
// Search without regexps.
tfs := NewTagFilters ( )
if err := tfs . Add ( nil , mn . MetricGroup , false , false ) ; err != nil {
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return fmt . Errorf ( "cannot create tag filter for MetricGroup: %w" , err )
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}
for j := 0 ; j < len ( mn . Tags ) ; j ++ {
t := & mn . Tags [ j ]
if err := tfs . Add ( t . Key , t . Value , false , false ) ; err != nil {
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return fmt . Errorf ( "cannot create tag filter for tag: %w" , err )
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}
}
if err := tfs . Add ( nil , [ ] byte ( "foobar" ) , true , false ) ; err != nil {
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return fmt . Errorf ( "cannot add negative filter: %w" , err )
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}
if err := tfs . Add ( nil , nil , true , false ) ; err != nil {
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return fmt . Errorf ( "cannot add no-op negative filter: %w" , err )
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}
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tsidsFound , err := db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search by exact tag filter: %w" , err )
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}
if ! testHasTSID ( tsidsFound , tsid ) {
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return fmt . Errorf ( "tsids is missing in exact tsidsFound\ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s\ni=%d" , tsid , tsidsFound , tfs , mn , i )
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}
// Verify tag cache.
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tsidsCached , err := db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search by exact tag filter: %w" , err )
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}
if ! reflect . DeepEqual ( tsidsCached , tsidsFound ) {
return fmt . Errorf ( "unexpected tsids returned; got\n%+v; want\n%+v" , tsidsCached , tsidsFound )
}
// Add negative filter for zeroing search results.
if err := tfs . Add ( nil , mn . MetricGroup , true , false ) ; err != nil {
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return fmt . Errorf ( "cannot add negative filter for zeroing search results: %w" , err )
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}
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tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search by exact tag filter with full negative: %w" , err )
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}
if testHasTSID ( tsidsFound , tsid ) {
return fmt . Errorf ( "unexpected tsid found for exact negative filter\ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s" , tsid , tsidsFound , tfs , mn )
}
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// Search for Graphite wildcard
tfs . Reset ( )
n := bytes . IndexByte ( mn . MetricGroup , '.' )
if n < 0 {
return fmt . Errorf ( "cannot find dot in MetricGroup %q" , mn . MetricGroup )
}
re := "[^.]*" + regexp . QuoteMeta ( string ( mn . MetricGroup [ n : ] ) )
if err := tfs . Add ( nil , [ ] byte ( re ) , false , true ) ; err != nil {
return fmt . Errorf ( "cannot create regexp tag filter for Graphite wildcard" )
}
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tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search by regexp tag filter for Graphite wildcard: %w" , err )
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}
if ! testHasTSID ( tsidsFound , tsid ) {
return fmt . Errorf ( "tsids is missing in regexp for Graphite wildcard tsidsFound\ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s" , tsid , tsidsFound , tfs , mn )
}
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// Search with a filter matching empty tag (a single filter)
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1601
tfs . Reset ( )
if err := tfs . Add ( nil , mn . MetricGroup , false , false ) ; err != nil {
return fmt . Errorf ( "cannot create tag filter for MetricGroup: %w" , err )
}
if err := tfs . Add ( [ ] byte ( "non-existent-tag" ) , [ ] byte ( "foo|" ) , false , true ) ; err != nil {
return fmt . Errorf ( "cannot create regexp tag filter for non-existing tag: %w" , err )
}
tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
if err != nil {
return fmt . Errorf ( "cannot search with a filter matching empty tag: %w" , err )
}
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if ! testHasTSID ( tsidsFound , tsid ) {
return fmt . Errorf ( "tsids is missing when matching a filter with empty tag tsidsFound\ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s" , tsid , tsidsFound , tfs , mn )
}
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// Search with filters matching empty tags (multiple filters)
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1601
tfs . Reset ( )
if err := tfs . Add ( nil , mn . MetricGroup , false , false ) ; err != nil {
return fmt . Errorf ( "cannot create tag filter for MetricGroup: %w" , err )
}
if err := tfs . Add ( [ ] byte ( "non-existent-tag1" ) , [ ] byte ( "foo|" ) , false , true ) ; err != nil {
return fmt . Errorf ( "cannot create regexp tag filter for non-existing tag1: %w" , err )
}
if err := tfs . Add ( [ ] byte ( "non-existent-tag2" ) , [ ] byte ( "bar|" ) , false , true ) ; err != nil {
return fmt . Errorf ( "cannot create regexp tag filter for non-existing tag2: %w" , err )
}
tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
if err != nil {
return fmt . Errorf ( "cannot search with multipel filters matching empty tags: %w" , err )
}
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if ! testHasTSID ( tsidsFound , tsid ) {
return fmt . Errorf ( "tsids is missing when matching multiple filters with empty tags tsidsFound\ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s" , tsid , tsidsFound , tfs , mn )
}
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// Search with regexps.
tfs . Reset ( )
if err := tfs . Add ( nil , mn . MetricGroup , false , true ) ; err != nil {
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return fmt . Errorf ( "cannot create regexp tag filter for MetricGroup: %w" , err )
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}
for j := 0 ; j < len ( mn . Tags ) ; j ++ {
t := & mn . Tags [ j ]
if err := tfs . Add ( t . Key , append ( t . Value , "|foo*." ... ) , false , true ) ; err != nil {
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return fmt . Errorf ( "cannot create regexp tag filter for tag: %w" , err )
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}
if err := tfs . Add ( t . Key , append ( t . Value , "|aaa|foo|bar" ... ) , false , true ) ; err != nil {
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return fmt . Errorf ( "cannot create regexp tag filter for tag: %w" , err )
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}
}
if err := tfs . Add ( nil , [ ] byte ( "^foobar$" ) , true , true ) ; err != nil {
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return fmt . Errorf ( "cannot add negative filter with regexp: %w" , err )
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}
if err := tfs . Add ( nil , nil , true , true ) ; err != nil {
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return fmt . Errorf ( "cannot add no-op negative filter with regexp: %w" , err )
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}
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tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search by regexp tag filter: %w" , err )
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}
if ! testHasTSID ( tsidsFound , tsid ) {
return fmt . Errorf ( "tsids is missing in regexp tsidsFound\ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s" , tsid , tsidsFound , tfs , mn )
}
if err := tfs . Add ( nil , mn . MetricGroup , true , true ) ; err != nil {
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return fmt . Errorf ( "cannot add negative filter for zeroing search results: %w" , err )
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}
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tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search by regexp tag filter with full negative: %w" , err )
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}
if testHasTSID ( tsidsFound , tsid ) {
return fmt . Errorf ( "unexpected tsid found for regexp negative filter\ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s" , tsid , tsidsFound , tfs , mn )
}
// Search with filter matching zero results.
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "non-existing-key" ) , [ ] byte ( "foobar" ) , false , false ) ; err != nil {
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return fmt . Errorf ( "cannot add non-existing key: %w" , err )
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}
if err := tfs . Add ( nil , mn . MetricGroup , false , true ) ; err != nil {
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return fmt . Errorf ( "cannot create tag filter for MetricGroup matching zero results: %w" , err )
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}
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tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search by non-existing tag filter: %w" , err )
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}
if len ( tsidsFound ) > 0 {
return fmt . Errorf ( "non-zero tsidsFound for non-existing tag filter: %+v" , tsidsFound )
}
if isConcurrent {
// Skip empty filter search in concurrent mode, since it looks like
// it has a lag preventing from correct work.
continue
}
// Search with empty filter. It should match all the results.
tfs . Reset ( )
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tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search for common prefix: %w" , err )
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}
if ! testHasTSID ( tsidsFound , tsid ) {
return fmt . Errorf ( "tsids is missing in common prefix\ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s" , tsid , tsidsFound , tfs , mn )
}
// Search with empty metricGroup. It should match zero results.
tfs . Reset ( )
if err := tfs . Add ( nil , nil , false , false ) ; err != nil {
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return fmt . Errorf ( "cannot create tag filter for empty metricGroup: %w" , err )
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}
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tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search for empty metricGroup: %w" , err )
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}
if len ( tsidsFound ) != 0 {
return fmt . Errorf ( "unexpected non-empty tsids found for empty metricGroup: %v" , tsidsFound )
}
// Search with multiple tfss
tfs1 := NewTagFilters ( )
if err := tfs1 . Add ( nil , nil , false , false ) ; err != nil {
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return fmt . Errorf ( "cannot create tag filter for empty metricGroup: %w" , err )
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}
tfs2 := NewTagFilters ( )
if err := tfs2 . Add ( nil , mn . MetricGroup , false , false ) ; err != nil {
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return fmt . Errorf ( "cannot create tag filter for MetricGroup: %w" , err )
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}
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tsidsFound , err = db . searchTSIDs ( [ ] * TagFilters { tfs1 , tfs2 } , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search for empty metricGroup: %w" , err )
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}
if ! testHasTSID ( tsidsFound , tsid ) {
return fmt . Errorf ( "tsids is missing when searching for multiple tfss \ntsid=%+v\ntsidsFound=%+v\ntfs=%s\nmn=%s" , tsid , tsidsFound , tfs , mn )
}
// Verify empty tfss
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tsidsFound , err = db . searchTSIDs ( nil , tr , 1e5 , noDeadline )
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if err != nil {
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return fmt . Errorf ( "cannot search for nil tfss: %w" , err )
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}
if len ( tsidsFound ) != 0 {
return fmt . Errorf ( "unexpected non-empty tsids fround for nil tfss; found %d tsids" , len ( tsidsFound ) )
}
}
return nil
}
func testHasTSID ( tsids [ ] TSID , tsid * TSID ) bool {
for i := range tsids {
if tsids [ i ] == * tsid {
return true
}
}
return false
}
func TestMatchTagFilters ( t * testing . T ) {
var mn MetricName
mn . MetricGroup = append ( mn . MetricGroup , "foobar_metric" ... )
for i := 0 ; i < 5 ; i ++ {
key := fmt . Sprintf ( "key %d" , i )
value := fmt . Sprintf ( "value %d" , i )
mn . AddTag ( key , value )
}
var bb bytesutil . ByteBuffer
var tfs TagFilters
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "foobar_metric" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add filter: %s" , err )
}
ok , err := matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "should match" )
}
// Empty tag filters should match.
tfs . Reset ( )
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "empty tag filters should match" )
}
// Negative match by MetricGroup
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "foobar" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "obar.+" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "foobar_metric" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "foob.+metric" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
2020-04-01 16:40:18 +02:00
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( ".+" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
2019-05-22 23:16:55 +02:00
// Positive match by MetricGroup
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "foobar_metric" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "foobar.+etric" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "obar_metric" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "ob.+metric" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
2020-04-01 16:40:18 +02:00
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( ".+" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, positive filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
2019-05-22 23:16:55 +02:00
2022-03-18 11:58:22 +01:00
// Positive empty match by non-existing tag
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "non-existing-tag" ) , [ ] byte ( "foobar|" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, positive filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
2019-05-22 23:16:55 +02:00
// Negative match by non-existing tag
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "non-existing-tag" ) , [ ] byte ( "foobar" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "non-existing-tag" ) , [ ] byte ( "obar.+" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "non-existing-tag" ) , [ ] byte ( "foobar_metric" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
2019-07-30 14:14:09 +02:00
if ! ok {
t . Fatalf ( "Should match" )
2019-05-22 23:16:55 +02:00
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "non-existing-tag" ) , [ ] byte ( "foob.+metric" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
2019-07-30 14:14:09 +02:00
if ! ok {
t . Fatalf ( "Should match" )
}
2019-07-30 14:38:52 +02:00
tfs . Reset ( )
2019-07-30 14:14:09 +02:00
if err := tfs . Add ( [ ] byte ( "non-existing-tag" ) , [ ] byte ( ".+" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
2019-05-22 23:16:55 +02:00
}
2020-04-01 16:40:18 +02:00
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "non-existing-tag" ) , [ ] byte ( ".+" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, non-negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
2019-05-22 23:16:55 +02:00
// Negative match by existing tag
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 0" ) , [ ] byte ( "foobar" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 1" ) , [ ] byte ( "obar.+" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 2" ) , [ ] byte ( "value 2" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( "v.+lue 3" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
2020-04-01 16:40:18 +02:00
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( ".+" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
2019-05-22 23:16:55 +02:00
2020-06-10 17:40:00 +02:00
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/546
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( "|value 3" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( "|value 2" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
2019-05-22 23:16:55 +02:00
// Positive match by existing tag
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 0" ) , [ ] byte ( "value 0" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 1" ) , [ ] byte ( ".+lue 1" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 2" ) , [ ] byte ( "value 3" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
tfs . Reset ( )
2020-04-01 16:40:18 +02:00
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( "v.+lue 2|" ) , true , true ) ; err != nil {
2019-05-22 23:16:55 +02:00
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
2019-07-30 14:14:09 +02:00
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
2019-07-30 14:38:52 +02:00
tfs . Reset ( )
2019-07-30 14:14:09 +02:00
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( "" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
2019-05-22 23:16:55 +02:00
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
2020-04-01 16:40:18 +02:00
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( ".+" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, non-negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
2019-05-22 23:16:55 +02:00
// Positive match by multiple tags and MetricGroup
tfs . Reset ( )
if err := tfs . Add ( [ ] byte ( "key 0" ) , [ ] byte ( "value 0" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
if err := tfs . Add ( [ ] byte ( "key 2" ) , [ ] byte ( "value [0-9]" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( "value 23" ) , true , false ) ; err != nil {
t . Fatalf ( "cannt add no regexp, negative filter: %s" , err )
}
if err := tfs . Add ( [ ] byte ( "key 2" ) , [ ] byte ( "lue.+43" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
if err := tfs . Add ( nil , [ ] byte ( "foobar_metric" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
if err := tfs . Add ( nil , [ ] byte ( "foo.+metric" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
if err := tfs . Add ( nil , [ ] byte ( "sdfdsf" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, negative filter: %s" , err )
}
if err := tfs . Add ( nil , [ ] byte ( "o.+metr" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! ok {
t . Fatalf ( "Should match" )
}
// Negative match by multiple tags and MetricGroup
tfs . Reset ( )
// Positive matches
if err := tfs . Add ( [ ] byte ( "key 0" ) , [ ] byte ( "value 0" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
if err := tfs . Add ( [ ] byte ( "key 2" ) , [ ] byte ( "value [0-9]" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
if err := tfs . Add ( [ ] byte ( "key 3" ) , [ ] byte ( "value 23" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, negative filter: %s" , err )
}
// Negative matches
if err := tfs . Add ( [ ] byte ( "key 2" ) , [ ] byte ( "v.+2" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
if err := tfs . Add ( nil , [ ] byte ( "obar_metric" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, no negative filter: %s" , err )
}
if err := tfs . Add ( nil , [ ] byte ( "oo.+metric" ) , false , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, no negative filter: %s" , err )
}
// Positive matches
if err := tfs . Add ( nil , [ ] byte ( "sdfdsf" ) , true , false ) ; err != nil {
t . Fatalf ( "cannot add no regexp, negative filter: %s" , err )
}
if err := tfs . Add ( nil , [ ] byte ( "o.+metr" ) , true , true ) ; err != nil {
t . Fatalf ( "cannot add regexp, negative filter: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
2020-04-01 16:40:18 +02:00
// Negative match for multiple non-regexp positive filters
tfs . Reset ( )
if err := tfs . Add ( nil , [ ] byte ( "foobar_metric" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add non-regexp positive filter for MetricGroup: %s" , err )
}
if err := tfs . Add ( [ ] byte ( "non-existing-metric" ) , [ ] byte ( "foobar" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add non-regexp positive filter for non-existing tag: %s" , err )
}
ok , err = matchTagFilters ( & mn , toTFPointers ( tfs . tfs ) , & bb )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ok {
t . Fatalf ( "Shouldn't match" )
}
2019-05-22 23:16:55 +02:00
}
lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2022-02-11 23:30:08 +01:00
func TestIndexDBRepopulateAfterRotation ( t * testing . T ) {
path := "TestIndexRepopulateAfterRotation"
s , err := OpenStorage ( path , 0 , 1e5 , 1e5 )
if err != nil {
t . Fatalf ( "cannot open storage: %s" , err )
}
s . retentionMsecs = msecsPerMonth
defer func ( ) {
s . MustClose ( )
if err := os . RemoveAll ( path ) ; err != nil {
t . Fatalf ( "cannot remove %q: %s" , path , err )
}
} ( )
db := s . idb ( )
if db . generation == 0 {
t . Fatalf ( "expected indexDB generation to be not 0" )
}
const metricRowsN = 1000
// use min-max timestamps of 1month range to create smaller number of partitions
timeMin , timeMax := time . Now ( ) . Add ( - 730 * time . Hour ) , time . Now ( )
mrs := testGenerateMetricRows ( metricRowsN , timeMin . UnixMilli ( ) , timeMax . UnixMilli ( ) )
if err := s . AddRows ( mrs , defaultPrecisionBits ) ; err != nil {
t . Fatalf ( "unexpected error when adding mrs: %s" , err )
}
s . DebugFlush ( )
// verify the storage contains rows.
var m Metrics
s . UpdateMetrics ( & m )
if m . TableMetrics . SmallRowsCount < uint64 ( metricRowsN ) {
t . Fatalf ( "expecting at least %d rows in the table; got %d" , metricRowsN , m . TableMetrics . SmallRowsCount )
}
// check new series were registered in indexDB
added := atomic . LoadUint64 ( & db . newTimeseriesCreated )
if added != metricRowsN {
t . Fatalf ( "expected indexDB to contain %d rows; got %d" , metricRowsN , added )
}
// check new series were added to cache
var cs fastcache . Stats
s . tsidCache . UpdateStats ( & cs )
if cs . EntriesCount != metricRowsN {
t . Fatalf ( "expected tsidCache to contain %d rows; got %d" , metricRowsN , cs . EntriesCount )
}
// check if cache entries do belong to current indexDB generation
var genTSID generationTSID
for _ , mr := range mrs {
s . getTSIDFromCache ( & genTSID , mr . MetricNameRaw )
if genTSID . generation != db . generation {
t . Fatalf ( "expected all entries in tsidCache to have the same indexDB generation: %d;" +
"got %d" , db . generation , genTSID . generation )
}
}
prevGeneration := db . generation
// force index rotation
s . mustRotateIndexDB ( )
// check tsidCache wasn't reset after the rotation
var cs2 fastcache . Stats
s . tsidCache . UpdateStats ( & cs2 )
if cs . EntriesCount != metricRowsN {
t . Fatalf ( "expected tsidCache after rotation to contain %d rows; got %d" , metricRowsN , cs2 . EntriesCount )
}
dbNew := s . idb ( )
if dbNew . generation == 0 {
t . Fatalf ( "expected new indexDB generation to be not 0" )
}
if dbNew . generation == prevGeneration {
t . Fatalf ( "expected new indexDB generation %d to be different from prev indexDB" , dbNew . generation )
}
// Re-insert rows again and verify that entries belong prevGeneration and dbNew.generation,
// while the majority of entries remain at prevGeneration.
if err := s . AddRows ( mrs , defaultPrecisionBits ) ; err != nil {
t . Fatalf ( "unexpected error when adding mrs: %s" , err )
}
s . DebugFlush ( )
entriesByGeneration := make ( map [ uint64 ] int )
for _ , mr := range mrs {
s . getTSIDFromCache ( & genTSID , mr . MetricNameRaw )
entriesByGeneration [ genTSID . generation ] ++
}
if len ( entriesByGeneration ) > 2 {
t . Fatalf ( "expecting two generations; got %d" , entriesByGeneration )
}
prevEntries := entriesByGeneration [ prevGeneration ]
currEntries := entriesByGeneration [ dbNew . generation ]
totalEntries := prevEntries + currEntries
if totalEntries != metricRowsN {
t . Fatalf ( "unexpected number of entries in tsid cache; got %d; want %d" , totalEntries , metricRowsN )
}
if float64 ( currEntries ) / float64 ( totalEntries ) > 0.1 {
t . Fatalf ( "too big share of entries in the new generation; currEntries=%d, prevEntries=%d" , currEntries , prevEntries )
}
}
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func TestSearchTSIDWithTimeRange ( t * testing . T ) {
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s := newTestStorage ( )
defer stopTestStorage ( s )
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lib/index: reduce read/write load after indexDB rotation (#2177)
* lib/index: reduce read/write load after indexDB rotation
IndexDB in VM is responsible for storing TSID - ID's used for identifying
time series. The index is stored on disk and used by both ingestion and read path.
IndexDB is stored separately to data parts and is global for all stored data.
It can't be deleted partially as VM deletes data parts. Instead, indexDB is
rotated once in `retention` interval.
The rotation procedure means that `current` indexDB becomes `previous`,
and new freshly created indexDB struct becomes `current`. So in any time,
VM holds indexDB for current and previous retention periods.
When time series is ingested or queried, VM checks if its TSID is present
in `current` indexDB. If it is missing, it checks the `previous` indexDB.
If TSID was found, it gets copied to the `current` indexDB. In this way
`current` indexDB stores only series which were active during the retention
period.
To improve indexDB lookups, VM uses a cache layer called `tsidCache`. Both
write and read path consult `tsidCache` and on miss the relad lookup happens.
When rotation happens, VM resets the `tsidCache`. This is needed for ingestion
path to trigger `current` indexDB re-population. Since index re-population
requires additional resources, every index rotation event may cause some extra
load on CPU and disk. While it may be unnoticeable for most of the cases,
for systems with very high number of unique series each rotation may lead
to performance degradation for some period of time.
This PR makes an attempt to smooth out resource usage after the rotation.
The changes are following:
1. `tsidCache` is no longer reset after the rotation;
2. Instead, each entry in `tsidCache` gains a notion of indexDB to which
they belong;
3. On ingestion path after the rotation we check if requested TSID was
found in `tsidCache`. Then we have 3 branches:
3.1 Fast path. It was found, and belongs to the `current` indexDB. Return TSID.
3.2 Slow path. It wasn't found, so we generate it from scratch,
add to `current` indexDB, add it to `tsidCache`.
3.3 Smooth path. It was found but does not belong to the `current` indexDB.
In this case, we add it to the `current` indexDB with some probability.
The probability is based on time passed since the last rotation with some threshold.
The more time has passed since rotation the higher is chance to re-populate `current` indexDB.
The default re-population interval in this PR is set to `1h`, during which entries from
`previous` index supposed to slowly re-populate `current` index.
The new metric `vm_timeseries_repopulated_total` was added to identify how many TSIDs
were moved from `previous` indexDB to the `current` indexDB. This metric supposed to
grow only during the first `1h` after the last rotation.
https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
Signed-off-by: hagen1778 <roman@victoriametrics.com>
* wip
* wip
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
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dbName := nextIndexDBTableName ( )
db , err := openIndexDB ( dbName , s , 0 )
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if err != nil {
t . Fatalf ( "cannot open indexDB: %s" , err )
}
defer func ( ) {
db . MustClose ( )
if err := os . RemoveAll ( dbName ) ; err != nil {
t . Fatalf ( "cannot remove indexDB: %s" , err )
}
} ( )
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is := db . getIndexSearch ( noDeadline )
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defer db . putIndexSearch ( is )
// Create a bunch of per-day time series
const days = 5
const metricsPerDay = 1000
theDay := time . Date ( 2019 , time . October , 15 , 5 , 1 , 0 , 0 , time . UTC )
now := uint64 ( timestampFromTime ( theDay ) )
baseDate := now / msecPerDay
var metricNameBuf [ ] byte
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perDayMetricIDs := make ( map [ uint64 ] * uint64set . Set )
var allMetricIDs uint64set . Set
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tagKeys := [ ] string {
"" , "constant" , "day" , "uniqueid" ,
}
tagValues := [ ] string {
"testMetric" ,
}
sort . Strings ( tagKeys )
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for day := 0 ; day < days ; day ++ {
var tsids [ ] TSID
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var mns [ ] MetricName
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for metric := 0 ; metric < metricsPerDay ; metric ++ {
var mn MetricName
mn . MetricGroup = [ ] byte ( "testMetric" )
mn . AddTag (
"constant" ,
"const" ,
)
mn . AddTag (
"day" ,
fmt . Sprintf ( "%v" , day ) ,
)
mn . AddTag (
"uniqueid" ,
fmt . Sprintf ( "%v" , metric ) ,
)
mn . sortTags ( )
metricNameBuf = mn . Marshal ( metricNameBuf [ : 0 ] )
var tsid TSID
if err := is . GetOrCreateTSIDByName ( & tsid , metricNameBuf ) ; err != nil {
t . Fatalf ( "unexpected error when creating tsid for mn:\n%s: %s" , & mn , err )
}
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mns = append ( mns , mn )
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tsids = append ( tsids , tsid )
}
// Add the metrics to the per-day stores
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date := baseDate - uint64 ( day )
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var metricIDs uint64set . Set
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for i := range tsids {
tsid := & tsids [ i ]
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metricIDs . Add ( tsid . MetricID )
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if err := is . storeDateMetricID ( date , tsid . MetricID , & mns [ i ] ) ; err != nil {
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t . Fatalf ( "error in storeDateMetricID(%d, %d): %s" , date , tsid . MetricID , err )
}
}
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allMetricIDs . Union ( & metricIDs )
perDayMetricIDs [ date ] = & metricIDs
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}
// Flush index to disk, so it becomes visible for search
db . tb . DebugFlush ( )
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is2 := db . getIndexSearch ( noDeadline )
defer db . putIndexSearch ( is2 )
// Check that all the metrics are found for all the days.
for date := baseDate - days + 1 ; date <= baseDate ; date ++ {
metricIDs , err := is2 . getMetricIDsForDate ( date , metricsPerDay )
if err != nil {
t . Fatalf ( "unexpected error: %s" , err )
}
if ! perDayMetricIDs [ date ] . Equal ( metricIDs ) {
t . Fatalf ( "unexpected metricIDs found;\ngot\n%d\nwant\n%d" , metricIDs . AppendTo ( nil ) , perDayMetricIDs [ date ] . AppendTo ( nil ) )
}
}
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// Check that all the metrics are found in global index
metricIDs , err := is2 . getMetricIDsForDate ( 0 , metricsPerDay * days )
if err != nil {
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t . Fatalf ( "unexpected error: %s" , err )
}
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if ! allMetricIDs . Equal ( metricIDs ) {
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t . Fatalf ( "unexpected metricIDs found;\ngot\n%d\nwant\n%d" , metricIDs . AppendTo ( nil ) , allMetricIDs . AppendTo ( nil ) )
}
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// Check SearchTagKeysOnTimeRange.
tks , err := db . SearchTagKeysOnTimeRange ( TimeRange {
MinTimestamp : int64 ( now ) - msecPerDay ,
MaxTimestamp : int64 ( now ) ,
} , 10000 , noDeadline )
if err != nil {
t . Fatalf ( "unexpected error in SearchTagKeysOnTimeRange: %s" , err )
}
sort . Strings ( tks )
if ! reflect . DeepEqual ( tks , tagKeys ) {
t . Fatalf ( "unexpected tagKeys; got\n%s\nwant\n%s" , tks , tagKeys )
}
// Check SearchTagValuesOnTimeRange.
tvs , err := db . SearchTagValuesOnTimeRange ( [ ] byte ( "" ) , TimeRange {
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MinTimestamp : int64 ( now ) - msecPerDay ,
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MaxTimestamp : int64 ( now ) ,
} , 10000 , noDeadline )
if err != nil {
t . Fatalf ( "unexpected error in SearchTagValuesOnTimeRange: %s" , err )
}
sort . Strings ( tvs )
if ! reflect . DeepEqual ( tvs , tagValues ) {
t . Fatalf ( "unexpected tagValues; got\n%s\nwant\n%s" , tvs , tagValues )
}
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// Create a filter that will match series that occur across multiple days
tfs := NewTagFilters ( )
if err := tfs . Add ( [ ] byte ( "constant" ) , [ ] byte ( "const" ) , false , false ) ; err != nil {
t . Fatalf ( "cannot add filter: %s" , err )
}
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// Perform a search within a day.
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// This should return the metrics for the day
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tr := TimeRange {
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MinTimestamp : int64 ( now - 2 * msecPerHour - 1 ) ,
MaxTimestamp : int64 ( now ) ,
}
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matchedTSIDs , err := db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 10000 , noDeadline )
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if err != nil {
t . Fatalf ( "error searching tsids: %v" , err )
}
if len ( matchedTSIDs ) != metricsPerDay {
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t . Fatalf ( "expected %d time series for current day, got %d time series" , metricsPerDay , len ( matchedTSIDs ) )
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}
// Perform a search across all the days, should match all metrics
tr = TimeRange {
MinTimestamp : int64 ( now - msecPerDay * days ) ,
MaxTimestamp : int64 ( now ) ,
}
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matchedTSIDs , err = db . searchTSIDs ( [ ] * TagFilters { tfs } , tr , 10000 , noDeadline )
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if err != nil {
t . Fatalf ( "error searching tsids: %v" , err )
}
if len ( matchedTSIDs ) != metricsPerDay * days {
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t . Fatalf ( "expected %d time series for all days, got %d time series" , metricsPerDay * days , len ( matchedTSIDs ) )
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}
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// Check GetTSDBStatusWithFiltersForDate with nil filters.
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status , err := db . GetTSDBStatusWithFiltersForDate ( nil , baseDate , 5 , 1e6 , noDeadline )
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if err != nil {
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t . Fatalf ( "error in GetTSDBStatusWithFiltersForDate with nil filters: %s" , err )
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}
if ! status . hasEntries ( ) {
t . Fatalf ( "expecting non-empty TSDB status" )
}
expectedSeriesCountByMetricName := [ ] TopHeapEntry {
{
Name : "testMetric" ,
Count : 1000 ,
} ,
}
if ! reflect . DeepEqual ( status . SeriesCountByMetricName , expectedSeriesCountByMetricName ) {
t . Fatalf ( "unexpected SeriesCountByMetricName;\ngot\n%v\nwant\n%v" , status . SeriesCountByMetricName , expectedSeriesCountByMetricName )
}
expectedLabelValueCountByLabelName := [ ] TopHeapEntry {
{
Name : "uniqueid" ,
Count : 1000 ,
} ,
{
Name : "__name__" ,
Count : 1 ,
} ,
{
Name : "constant" ,
Count : 1 ,
} ,
{
Name : "day" ,
Count : 1 ,
} ,
}
if ! reflect . DeepEqual ( status . LabelValueCountByLabelName , expectedLabelValueCountByLabelName ) {
t . Fatalf ( "unexpected LabelValueCountByLabelName;\ngot\n%v\nwant\n%v" , status . LabelValueCountByLabelName , expectedLabelValueCountByLabelName )
}
expectedSeriesCountByLabelValuePair := [ ] TopHeapEntry {
{
Name : "__name__=testMetric" ,
Count : 1000 ,
} ,
{
Name : "constant=const" ,
Count : 1000 ,
} ,
{
Name : "day=0" ,
Count : 1000 ,
} ,
{
Name : "uniqueid=0" ,
Count : 1 ,
} ,
{
Name : "uniqueid=1" ,
Count : 1 ,
} ,
}
if ! reflect . DeepEqual ( status . SeriesCountByLabelValuePair , expectedSeriesCountByLabelValuePair ) {
t . Fatalf ( "unexpected SeriesCountByLabelValuePair;\ngot\n%v\nwant\n%v" , status . SeriesCountByLabelValuePair , expectedSeriesCountByLabelValuePair )
}
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// Check GetTSDBStatusWithFiltersForDate
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tfs = NewTagFilters ( )
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if err := tfs . Add ( [ ] byte ( "day" ) , [ ] byte ( "0" ) , false , false ) ; err != nil {
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t . Fatalf ( "cannot add filter: %s" , err )
}
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status , err = db . GetTSDBStatusWithFiltersForDate ( [ ] * TagFilters { tfs } , baseDate , 5 , 1e6 , noDeadline )
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if err != nil {
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t . Fatalf ( "error in GetTSDBStatusWithFiltersForDate: %s" , err )
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}
if ! status . hasEntries ( ) {
t . Fatalf ( "expecting non-empty TSDB status" )
}
expectedSeriesCountByMetricName = [ ] TopHeapEntry {
{
Name : "testMetric" ,
Count : 1000 ,
} ,
}
if ! reflect . DeepEqual ( status . SeriesCountByMetricName , expectedSeriesCountByMetricName ) {
t . Fatalf ( "unexpected SeriesCountByMetricName;\ngot\n%v\nwant\n%v" , status . SeriesCountByMetricName , expectedSeriesCountByMetricName )
}
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}
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func toTFPointers ( tfs [ ] tagFilter ) [ ] * tagFilter {
tfps := make ( [ ] * tagFilter , len ( tfs ) )
for i := range tfs {
tfps [ i ] = & tfs [ i ]
}
return tfps
}
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func newTestStorage ( ) * Storage {
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s := & Storage {
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cachePath : "test-storage-cache" ,
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metricIDCache : workingsetcache . New ( 1234 ) ,
metricNameCache : workingsetcache . New ( 1234 ) ,
tsidCache : workingsetcache . New ( 1234 ) ,
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}
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s . setDeletedMetricIDs ( & uint64set . Set { } )
return s
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}
func stopTestStorage ( s * Storage ) {
s . metricIDCache . Stop ( )
s . metricNameCache . Stop ( )
s . tsidCache . Stop ( )
fs . MustRemoveAll ( s . cachePath )
}