// Copyright 2017 The Prometheus Authors // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package tsdb import ( "fmt" "io/ioutil" "math" "math/rand" "os" "path/filepath" "sort" "strconv" "testing" "github.com/pkg/errors" "github.com/prometheus/prometheus/pkg/labels" "github.com/prometheus/prometheus/tsdb/chunkenc" "github.com/prometheus/prometheus/tsdb/chunks" "github.com/prometheus/prometheus/tsdb/index" "github.com/prometheus/prometheus/tsdb/tombstones" "github.com/prometheus/prometheus/tsdb/tsdbutil" "github.com/prometheus/prometheus/util/testutil" ) type mockSeriesSet struct { next func() bool series func() Series err func() error } func (m *mockSeriesSet) Next() bool { return m.next() } func (m *mockSeriesSet) At() Series { return m.series() } func (m *mockSeriesSet) Err() error { return m.err() } func newMockSeriesSet(list []Series) *mockSeriesSet { i := -1 return &mockSeriesSet{ next: func() bool { i++ return i < len(list) }, series: func() Series { return list[i] }, err: func() error { return nil }, } } func TestMergedSeriesSet(t *testing.T) { cases := []struct { // The input sets in order (samples in series in b are strictly // after those in a). a, b SeriesSet // The composition of a and b in the partition series set must yield // results equivalent to the result series set. exp SeriesSet }{ { a: newMockSeriesSet([]Series{ newSeries(map[string]string{ "a": "a", }, []tsdbutil.Sample{ sample{t: 1, v: 1}, }), }), b: newMockSeriesSet([]Series{ newSeries(map[string]string{ "a": "a", }, []tsdbutil.Sample{ sample{t: 2, v: 2}, }), newSeries(map[string]string{ "b": "b", }, []tsdbutil.Sample{ sample{t: 1, v: 1}, }), }), exp: newMockSeriesSet([]Series{ newSeries(map[string]string{ "a": "a", }, []tsdbutil.Sample{ sample{t: 1, v: 1}, sample{t: 2, v: 2}, }), newSeries(map[string]string{ "b": "b", }, []tsdbutil.Sample{ sample{t: 1, v: 1}, }), }), }, { a: newMockSeriesSet([]Series{ newSeries(map[string]string{ "handler": "prometheus", "instance": "127.0.0.1:9090", }, []tsdbutil.Sample{ sample{t: 1, v: 1}, }), newSeries(map[string]string{ "handler": "prometheus", "instance": "localhost:9090", }, []tsdbutil.Sample{ sample{t: 1, v: 2}, }), }), b: newMockSeriesSet([]Series{ newSeries(map[string]string{ "handler": "prometheus", "instance": "127.0.0.1:9090", }, []tsdbutil.Sample{ sample{t: 2, v: 1}, }), newSeries(map[string]string{ "handler": "query", "instance": "localhost:9090", }, []tsdbutil.Sample{ sample{t: 2, v: 2}, }), }), exp: newMockSeriesSet([]Series{ newSeries(map[string]string{ "handler": "prometheus", "instance": "127.0.0.1:9090", }, []tsdbutil.Sample{ sample{t: 1, v: 1}, sample{t: 2, v: 1}, }), newSeries(map[string]string{ "handler": "prometheus", "instance": "localhost:9090", }, []tsdbutil.Sample{ sample{t: 1, v: 2}, }), newSeries(map[string]string{ "handler": "query", "instance": "localhost:9090", }, []tsdbutil.Sample{ sample{t: 2, v: 2}, }), }), }, } Outer: for _, c := range cases { res := NewMergedSeriesSet([]SeriesSet{c.a, c.b}) for { eok, rok := c.exp.Next(), res.Next() testutil.Equals(t, eok, rok) if !eok { continue Outer } sexp := c.exp.At() sres := res.At() testutil.Equals(t, sexp.Labels(), sres.Labels()) smplExp, errExp := expandSeriesIterator(sexp.Iterator()) smplRes, errRes := expandSeriesIterator(sres.Iterator()) testutil.Equals(t, errExp, errRes) testutil.Equals(t, smplExp, smplRes) } } } func expandSeriesIterator(it SeriesIterator) (r []tsdbutil.Sample, err error) { for it.Next() { t, v := it.At() r = append(r, sample{t: t, v: v}) } return r, it.Err() } type seriesSamples struct { lset map[string]string chunks [][]sample } // Index: labels -> postings -> chunkMetas -> chunkRef // ChunkReader: ref -> vals func createIdxChkReaders(t *testing.T, tc []seriesSamples) (IndexReader, ChunkReader, int64, int64) { sort.Slice(tc, func(i, j int) bool { return labels.Compare(labels.FromMap(tc[i].lset), labels.FromMap(tc[i].lset)) < 0 }) postings := index.NewMemPostings() chkReader := mockChunkReader(make(map[uint64]chunkenc.Chunk)) lblIdx := make(map[string]stringset) mi := newMockIndex() blockMint := int64(math.MaxInt64) blockMaxt := int64(math.MinInt64) var chunkRef uint64 for i, s := range tc { i = i + 1 // 0 is not a valid posting. metas := make([]chunks.Meta, 0, len(s.chunks)) for _, chk := range s.chunks { if chk[0].t < blockMint { blockMint = chk[0].t } if chk[len(chk)-1].t > blockMaxt { blockMaxt = chk[len(chk)-1].t } metas = append(metas, chunks.Meta{ MinTime: chk[0].t, MaxTime: chk[len(chk)-1].t, Ref: chunkRef, }) chunk := chunkenc.NewXORChunk() app, _ := chunk.Appender() for _, smpl := range chk { app.Append(smpl.t, smpl.v) } chkReader[chunkRef] = chunk chunkRef += 1 } ls := labels.FromMap(s.lset) testutil.Ok(t, mi.AddSeries(uint64(i), ls, metas...)) postings.Add(uint64(i), ls) for _, l := range ls { vs, present := lblIdx[l.Name] if !present { vs = stringset{} lblIdx[l.Name] = vs } vs.set(l.Value) } } for l, vs := range lblIdx { testutil.Ok(t, mi.WriteLabelIndex([]string{l}, vs.slice())) } testutil.Ok(t, postings.Iter(func(l labels.Label, p index.Postings) error { return mi.WritePostings(l.Name, l.Value, p) })) return mi, chkReader, blockMint, blockMaxt } func TestBlockQuerier(t *testing.T) { newSeries := func(l map[string]string, s []tsdbutil.Sample) Series { return &mockSeries{ labels: func() labels.Labels { return labels.FromMap(l) }, iterator: func() SeriesIterator { return newListSeriesIterator(s) }, } } type query struct { mint, maxt int64 ms []*labels.Matcher exp SeriesSet } cases := struct { data []seriesSamples queries []query }{ data: []seriesSamples{ { lset: map[string]string{ "a": "a", }, chunks: [][]sample{ { {1, 2}, {2, 3}, {3, 4}, }, { {5, 2}, {6, 3}, {7, 4}, }, }, }, { lset: map[string]string{ "a": "a", "b": "b", }, chunks: [][]sample{ { {1, 1}, {2, 2}, {3, 3}, }, { {5, 3}, {6, 6}, }, }, }, { lset: map[string]string{ "b": "b", }, chunks: [][]sample{ { {1, 3}, {2, 2}, {3, 6}, }, { {5, 1}, {6, 7}, {7, 2}, }, }, }, }, queries: []query{ { mint: 0, maxt: 0, ms: []*labels.Matcher{}, exp: newMockSeriesSet([]Series{}), }, { mint: 0, maxt: 0, ms: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "a", "a")}, exp: newMockSeriesSet([]Series{}), }, { mint: 1, maxt: 0, ms: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "a", "a")}, exp: newMockSeriesSet([]Series{}), }, { mint: 2, maxt: 6, ms: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "a", "a")}, exp: newMockSeriesSet([]Series{ newSeries(map[string]string{ "a": "a", }, []tsdbutil.Sample{sample{2, 3}, sample{3, 4}, sample{5, 2}, sample{6, 3}}, ), newSeries(map[string]string{ "a": "a", "b": "b", }, []tsdbutil.Sample{sample{2, 2}, sample{3, 3}, sample{5, 3}, sample{6, 6}}, ), }), }, }, } Outer: for _, c := range cases.queries { ir, cr, _, _ := createIdxChkReaders(t, cases.data) querier := &blockQuerier{ index: ir, chunks: cr, tombstones: tombstones.NewMemTombstones(), mint: c.mint, maxt: c.maxt, } res, err := querier.Select(c.ms...) testutil.Ok(t, err) for { eok, rok := c.exp.Next(), res.Next() testutil.Equals(t, eok, rok) if !eok { continue Outer } sexp := c.exp.At() sres := res.At() testutil.Equals(t, sexp.Labels(), sres.Labels()) smplExp, errExp := expandSeriesIterator(sexp.Iterator()) smplRes, errRes := expandSeriesIterator(sres.Iterator()) testutil.Equals(t, errExp, errRes) testutil.Equals(t, smplExp, smplRes) } } } func TestBlockQuerierDelete(t *testing.T) { newSeries := func(l map[string]string, s []tsdbutil.Sample) Series { return &mockSeries{ labels: func() labels.Labels { return labels.FromMap(l) }, iterator: func() SeriesIterator { return newListSeriesIterator(s) }, } } type query struct { mint, maxt int64 ms []*labels.Matcher exp SeriesSet } cases := struct { data []seriesSamples tombstones tombstones.Reader queries []query }{ data: []seriesSamples{ { lset: map[string]string{ "a": "a", }, chunks: [][]sample{ { {1, 2}, {2, 3}, {3, 4}, }, { {5, 2}, {6, 3}, {7, 4}, }, }, }, { lset: map[string]string{ "a": "a", "b": "b", }, chunks: [][]sample{ { {1, 1}, {2, 2}, {3, 3}, }, { {4, 15}, {5, 3}, {6, 6}, }, }, }, { lset: map[string]string{ "b": "b", }, chunks: [][]sample{ { {1, 3}, {2, 2}, {3, 6}, }, { {5, 1}, {6, 7}, {7, 2}, }, }, }, }, tombstones: tombstones.NewTestMemTombstones([]tombstones.Intervals{ tombstones.Intervals{{Mint: 1, Maxt: 3}}, tombstones.Intervals{{Mint: 1, Maxt: 3}, {Mint: 6, Maxt: 10}}, tombstones.Intervals{{Mint: 6, Maxt: 10}}, }), queries: []query{ { mint: 2, maxt: 7, ms: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "a", "a")}, exp: newMockSeriesSet([]Series{ newSeries(map[string]string{ "a": "a", }, []tsdbutil.Sample{sample{5, 2}, sample{6, 3}, sample{7, 4}}, ), newSeries(map[string]string{ "a": "a", "b": "b", }, []tsdbutil.Sample{sample{4, 15}, sample{5, 3}}, ), }), }, { mint: 2, maxt: 7, ms: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "b", "b")}, exp: newMockSeriesSet([]Series{ newSeries(map[string]string{ "a": "a", "b": "b", }, []tsdbutil.Sample{sample{4, 15}, sample{5, 3}}, ), newSeries(map[string]string{ "b": "b", }, []tsdbutil.Sample{sample{2, 2}, sample{3, 6}, sample{5, 1}}, ), }), }, { mint: 1, maxt: 4, ms: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "a", "a")}, exp: newMockSeriesSet([]Series{ newSeries(map[string]string{ "a": "a", "b": "b", }, []tsdbutil.Sample{sample{4, 15}}, ), }), }, { mint: 1, maxt: 3, ms: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "a", "a")}, exp: newMockSeriesSet([]Series{}), }, }, } fmt.Println("tombstones", cases.tombstones) Outer: for _, c := range cases.queries { ir, cr, _, _ := createIdxChkReaders(t, cases.data) querier := &blockQuerier{ index: ir, chunks: cr, tombstones: cases.tombstones, mint: c.mint, maxt: c.maxt, } res, err := querier.Select(c.ms...) testutil.Ok(t, err) for { eok, rok := c.exp.Next(), res.Next() testutil.Equals(t, eok, rok) if !eok { continue Outer } sexp := c.exp.At() sres := res.At() testutil.Equals(t, sexp.Labels(), sres.Labels()) smplExp, errExp := expandSeriesIterator(sexp.Iterator()) smplRes, errRes := expandSeriesIterator(sres.Iterator()) testutil.Equals(t, errExp, errRes) testutil.Equals(t, smplExp, smplRes) } } } func TestBaseChunkSeries(t *testing.T) { type refdSeries struct { lset labels.Labels chunks []chunks.Meta ref uint64 } cases := []struct { series []refdSeries // Postings should be in the sorted order of the series postings []uint64 expIdxs []int }{ { series: []refdSeries{ { lset: labels.New([]labels.Label{{Name: "a", Value: "a"}}...), chunks: []chunks.Meta{ {Ref: 29}, {Ref: 45}, {Ref: 245}, {Ref: 123}, {Ref: 4232}, {Ref: 5344}, {Ref: 121}, }, ref: 12, }, { lset: labels.New([]labels.Label{{Name: "a", Value: "a"}, {Name: "b", Value: "b"}}...), chunks: []chunks.Meta{ {Ref: 82}, {Ref: 23}, {Ref: 234}, {Ref: 65}, {Ref: 26}, }, ref: 10, }, { lset: labels.New([]labels.Label{{Name: "b", Value: "c"}}...), chunks: []chunks.Meta{{Ref: 8282}}, ref: 1, }, { lset: labels.New([]labels.Label{{Name: "b", Value: "b"}}...), chunks: []chunks.Meta{ {Ref: 829}, {Ref: 239}, {Ref: 2349}, {Ref: 659}, {Ref: 269}, }, ref: 108, }, }, postings: []uint64{12, 13, 10, 108}, // 13 doesn't exist and should just be skipped over. expIdxs: []int{0, 1, 3}, }, { series: []refdSeries{ { lset: labels.New([]labels.Label{{Name: "a", Value: "a"}, {Name: "b", Value: "b"}}...), chunks: []chunks.Meta{ {Ref: 82}, {Ref: 23}, {Ref: 234}, {Ref: 65}, {Ref: 26}, }, ref: 10, }, { lset: labels.New([]labels.Label{{Name: "b", Value: "c"}}...), chunks: []chunks.Meta{{Ref: 8282}}, ref: 3, }, }, postings: []uint64{}, expIdxs: []int{}, }, } for _, tc := range cases { mi := newMockIndex() for _, s := range tc.series { testutil.Ok(t, mi.AddSeries(s.ref, s.lset, s.chunks...)) } bcs := &baseChunkSeries{ p: index.NewListPostings(tc.postings), index: mi, tombstones: tombstones.NewMemTombstones(), } i := 0 for bcs.Next() { lset, chks, _ := bcs.At() idx := tc.expIdxs[i] testutil.Equals(t, tc.series[idx].lset, lset) testutil.Equals(t, tc.series[idx].chunks, chks) i++ } testutil.Equals(t, len(tc.expIdxs), i) testutil.Ok(t, bcs.Err()) } } // TODO: Remove after simpleSeries is merged type itSeries struct { si SeriesIterator } func (s itSeries) Iterator() SeriesIterator { return s.si } func (s itSeries) Labels() labels.Labels { return labels.Labels{} } func TestSeriesIterator(t *testing.T) { itcases := []struct { a, b, c []tsdbutil.Sample exp []tsdbutil.Sample mint, maxt int64 }{ { a: []tsdbutil.Sample{}, b: []tsdbutil.Sample{}, c: []tsdbutil.Sample{}, exp: []tsdbutil.Sample{}, mint: math.MinInt64, maxt: math.MaxInt64, }, { a: []tsdbutil.Sample{ sample{1, 2}, sample{2, 3}, sample{3, 5}, sample{6, 1}, }, b: []tsdbutil.Sample{}, c: []tsdbutil.Sample{ sample{7, 89}, sample{9, 8}, }, exp: []tsdbutil.Sample{ sample{1, 2}, sample{2, 3}, sample{3, 5}, sample{6, 1}, sample{7, 89}, sample{9, 8}, }, mint: math.MinInt64, maxt: math.MaxInt64, }, { a: []tsdbutil.Sample{}, b: []tsdbutil.Sample{ sample{1, 2}, sample{2, 3}, sample{3, 5}, sample{6, 1}, }, c: []tsdbutil.Sample{ sample{7, 89}, sample{9, 8}, }, exp: []tsdbutil.Sample{ sample{1, 2}, sample{2, 3}, sample{3, 5}, sample{6, 1}, sample{7, 89}, sample{9, 8}, }, mint: 2, maxt: 8, }, { a: []tsdbutil.Sample{ sample{1, 2}, sample{2, 3}, sample{3, 5}, sample{6, 1}, }, b: []tsdbutil.Sample{ sample{7, 89}, sample{9, 8}, }, c: []tsdbutil.Sample{ sample{10, 22}, sample{203, 3493}, }, exp: []tsdbutil.Sample{ sample{1, 2}, sample{2, 3}, sample{3, 5}, sample{6, 1}, sample{7, 89}, sample{9, 8}, sample{10, 22}, sample{203, 3493}, }, mint: 6, maxt: 10, }, } seekcases := []struct { a, b, c []tsdbutil.Sample seek int64 success bool exp []tsdbutil.Sample mint, maxt int64 }{ { a: []tsdbutil.Sample{}, b: []tsdbutil.Sample{}, c: []tsdbutil.Sample{}, seek: 0, success: false, exp: nil, }, { a: []tsdbutil.Sample{ sample{2, 3}, }, b: []tsdbutil.Sample{}, c: []tsdbutil.Sample{ sample{7, 89}, sample{9, 8}, }, seek: 10, success: false, exp: nil, mint: math.MinInt64, maxt: math.MaxInt64, }, { a: []tsdbutil.Sample{}, b: []tsdbutil.Sample{ sample{1, 2}, sample{3, 5}, sample{6, 1}, }, c: []tsdbutil.Sample{ sample{7, 89}, sample{9, 8}, }, seek: 2, success: true, exp: []tsdbutil.Sample{ sample{3, 5}, sample{6, 1}, sample{7, 89}, sample{9, 8}, }, mint: 5, maxt: 8, }, { a: []tsdbutil.Sample{ sample{6, 1}, }, b: []tsdbutil.Sample{ sample{9, 8}, }, c: []tsdbutil.Sample{ sample{10, 22}, sample{203, 3493}, }, seek: 10, success: true, exp: []tsdbutil.Sample{ sample{10, 22}, sample{203, 3493}, }, mint: 10, maxt: 203, }, { a: []tsdbutil.Sample{ sample{6, 1}, }, b: []tsdbutil.Sample{ sample{9, 8}, }, c: []tsdbutil.Sample{ sample{10, 22}, sample{203, 3493}, }, seek: 203, success: true, exp: []tsdbutil.Sample{ sample{203, 3493}, }, mint: 7, maxt: 203, }, } t.Run("Chunk", func(t *testing.T) { for _, tc := range itcases { chkMetas := []chunks.Meta{ tsdbutil.ChunkFromSamples(tc.a), tsdbutil.ChunkFromSamples(tc.b), tsdbutil.ChunkFromSamples(tc.c), } res := newChunkSeriesIterator(chkMetas, nil, tc.mint, tc.maxt) smplValid := make([]tsdbutil.Sample, 0) for _, s := range tc.exp { if s.T() >= tc.mint && s.T() <= tc.maxt { smplValid = append(smplValid, tsdbutil.Sample(s)) } } exp := newListSeriesIterator(smplValid) smplExp, errExp := expandSeriesIterator(exp) smplRes, errRes := expandSeriesIterator(res) testutil.Equals(t, errExp, errRes) testutil.Equals(t, smplExp, smplRes) } t.Run("Seek", func(t *testing.T) { extra := []struct { a, b, c []tsdbutil.Sample seek int64 success bool exp []tsdbutil.Sample mint, maxt int64 }{ { a: []tsdbutil.Sample{ sample{6, 1}, }, b: []tsdbutil.Sample{ sample{9, 8}, }, c: []tsdbutil.Sample{ sample{10, 22}, sample{203, 3493}, }, seek: 203, success: false, exp: nil, mint: 2, maxt: 202, }, { a: []tsdbutil.Sample{ sample{6, 1}, }, b: []tsdbutil.Sample{ sample{9, 8}, }, c: []tsdbutil.Sample{ sample{10, 22}, sample{203, 3493}, }, seek: 5, success: true, exp: []tsdbutil.Sample{sample{10, 22}}, mint: 10, maxt: 202, }, } seekcases2 := append(seekcases, extra...) for _, tc := range seekcases2 { chkMetas := []chunks.Meta{ tsdbutil.ChunkFromSamples(tc.a), tsdbutil.ChunkFromSamples(tc.b), tsdbutil.ChunkFromSamples(tc.c), } res := newChunkSeriesIterator(chkMetas, nil, tc.mint, tc.maxt) smplValid := make([]tsdbutil.Sample, 0) for _, s := range tc.exp { if s.T() >= tc.mint && s.T() <= tc.maxt { smplValid = append(smplValid, tsdbutil.Sample(s)) } } exp := newListSeriesIterator(smplValid) testutil.Equals(t, tc.success, res.Seek(tc.seek)) if tc.success { // Init the list and then proceed to check. remaining := exp.Next() testutil.Assert(t, remaining == true, "") for remaining { sExp, eExp := exp.At() sRes, eRes := res.At() testutil.Equals(t, eExp, eRes) testutil.Equals(t, sExp, sRes) remaining = exp.Next() testutil.Equals(t, remaining, res.Next()) } } } }) }) t.Run("Chain", func(t *testing.T) { // Extra cases for overlapping series. itcasesExtra := []struct { a, b, c []tsdbutil.Sample exp []tsdbutil.Sample mint, maxt int64 }{ { a: []tsdbutil.Sample{ sample{1, 2}, sample{2, 3}, sample{3, 5}, sample{6, 1}, }, b: []tsdbutil.Sample{ sample{5, 49}, sample{7, 89}, sample{9, 8}, }, c: []tsdbutil.Sample{ sample{2, 33}, sample{4, 44}, sample{10, 3}, }, exp: []tsdbutil.Sample{ sample{1, 2}, sample{2, 33}, sample{3, 5}, sample{4, 44}, sample{5, 49}, sample{6, 1}, sample{7, 89}, sample{9, 8}, sample{10, 3}, }, mint: math.MinInt64, maxt: math.MaxInt64, }, { a: []tsdbutil.Sample{ sample{1, 2}, sample{2, 3}, sample{9, 5}, sample{13, 1}, }, b: []tsdbutil.Sample{}, c: []tsdbutil.Sample{ sample{1, 23}, sample{2, 342}, sample{3, 25}, sample{6, 11}, }, exp: []tsdbutil.Sample{ sample{1, 23}, sample{2, 342}, sample{3, 25}, sample{6, 11}, sample{9, 5}, sample{13, 1}, }, mint: math.MinInt64, maxt: math.MaxInt64, }, } for _, tc := range itcases { a, b, c := itSeries{newListSeriesIterator(tc.a)}, itSeries{newListSeriesIterator(tc.b)}, itSeries{newListSeriesIterator(tc.c)} res := newChainedSeriesIterator(a, b, c) exp := newListSeriesIterator([]tsdbutil.Sample(tc.exp)) smplExp, errExp := expandSeriesIterator(exp) smplRes, errRes := expandSeriesIterator(res) testutil.Equals(t, errExp, errRes) testutil.Equals(t, smplExp, smplRes) } for _, tc := range append(itcases, itcasesExtra...) { a, b, c := itSeries{newListSeriesIterator(tc.a)}, itSeries{newListSeriesIterator(tc.b)}, itSeries{newListSeriesIterator(tc.c)} res := newVerticalMergeSeriesIterator(a, b, c) exp := newListSeriesIterator([]tsdbutil.Sample(tc.exp)) smplExp, errExp := expandSeriesIterator(exp) smplRes, errRes := expandSeriesIterator(res) testutil.Equals(t, errExp, errRes) testutil.Equals(t, smplExp, smplRes) } t.Run("Seek", func(t *testing.T) { for _, tc := range seekcases { ress := []SeriesIterator{ newChainedSeriesIterator( itSeries{newListSeriesIterator(tc.a)}, itSeries{newListSeriesIterator(tc.b)}, itSeries{newListSeriesIterator(tc.c)}, ), newVerticalMergeSeriesIterator( itSeries{newListSeriesIterator(tc.a)}, itSeries{newListSeriesIterator(tc.b)}, itSeries{newListSeriesIterator(tc.c)}, ), } for _, res := range ress { exp := newListSeriesIterator(tc.exp) testutil.Equals(t, tc.success, res.Seek(tc.seek)) if tc.success { // Init the list and then proceed to check. remaining := exp.Next() testutil.Assert(t, remaining == true, "") for remaining { sExp, eExp := exp.At() sRes, eRes := res.At() testutil.Equals(t, eExp, eRes) testutil.Equals(t, sExp, sRes) remaining = exp.Next() testutil.Equals(t, remaining, res.Next()) } } } } }) }) } // Regression for: https://github.com/prometheus/prometheus/tsdb/pull/97 func TestChunkSeriesIterator_DoubleSeek(t *testing.T) { chkMetas := []chunks.Meta{ tsdbutil.ChunkFromSamples([]tsdbutil.Sample{}), tsdbutil.ChunkFromSamples([]tsdbutil.Sample{sample{1, 1}, sample{2, 2}, sample{3, 3}}), tsdbutil.ChunkFromSamples([]tsdbutil.Sample{sample{4, 4}, sample{5, 5}}), } res := newChunkSeriesIterator(chkMetas, nil, 2, 8) testutil.Assert(t, res.Seek(1) == true, "") testutil.Assert(t, res.Seek(2) == true, "") ts, v := res.At() testutil.Equals(t, int64(2), ts) testutil.Equals(t, float64(2), v) } // Regression when seeked chunks were still found via binary search and we always // skipped to the end when seeking a value in the current chunk. func TestChunkSeriesIterator_SeekInCurrentChunk(t *testing.T) { metas := []chunks.Meta{ tsdbutil.ChunkFromSamples([]tsdbutil.Sample{}), tsdbutil.ChunkFromSamples([]tsdbutil.Sample{sample{1, 2}, sample{3, 4}, sample{5, 6}, sample{7, 8}}), tsdbutil.ChunkFromSamples([]tsdbutil.Sample{}), } it := newChunkSeriesIterator(metas, nil, 1, 7) testutil.Assert(t, it.Next() == true, "") ts, v := it.At() testutil.Equals(t, int64(1), ts) testutil.Equals(t, float64(2), v) testutil.Assert(t, it.Seek(4) == true, "") ts, v = it.At() testutil.Equals(t, int64(5), ts) testutil.Equals(t, float64(6), v) } // Regression when calling Next() with a time bounded to fit within two samples. // Seek gets called and advances beyond the max time, which was just accepted as a valid sample. func TestChunkSeriesIterator_NextWithMinTime(t *testing.T) { metas := []chunks.Meta{ tsdbutil.ChunkFromSamples([]tsdbutil.Sample{sample{1, 6}, sample{5, 6}, sample{7, 8}}), } it := newChunkSeriesIterator(metas, nil, 2, 4) testutil.Assert(t, it.Next() == false, "") } func TestPopulatedCSReturnsValidChunkSlice(t *testing.T) { lbls := []labels.Labels{labels.New(labels.Label{Name: "a", Value: "b"})} chunkMetas := [][]chunks.Meta{ { {MinTime: 1, MaxTime: 2, Ref: 1}, {MinTime: 3, MaxTime: 4, Ref: 2}, {MinTime: 10, MaxTime: 12, Ref: 3}, }, } cr := mockChunkReader( map[uint64]chunkenc.Chunk{ 1: chunkenc.NewXORChunk(), 2: chunkenc.NewXORChunk(), 3: chunkenc.NewXORChunk(), }, ) m := &mockChunkSeriesSet{l: lbls, cm: chunkMetas, i: -1} p := &populatedChunkSeries{ set: m, chunks: cr, mint: 0, maxt: 0, } testutil.Assert(t, p.Next() == false, "") p.mint = 6 p.maxt = 9 testutil.Assert(t, p.Next() == false, "") // Test the case where 1 chunk could cause an unpopulated chunk to be returned. chunkMetas = [][]chunks.Meta{ { {MinTime: 1, MaxTime: 2, Ref: 1}, }, } m = &mockChunkSeriesSet{l: lbls, cm: chunkMetas, i: -1} p = &populatedChunkSeries{ set: m, chunks: cr, mint: 10, maxt: 15, } testutil.Assert(t, p.Next() == false, "") } type mockChunkSeriesSet struct { l []labels.Labels cm [][]chunks.Meta i int } func (m *mockChunkSeriesSet) Next() bool { if len(m.l) != len(m.cm) { return false } m.i++ return m.i < len(m.l) } func (m *mockChunkSeriesSet) At() (labels.Labels, []chunks.Meta, tombstones.Intervals) { return m.l[m.i], m.cm[m.i], nil } func (m *mockChunkSeriesSet) Err() error { return nil } // Test the cost of merging series sets for different number of merged sets and their size. // The subset are all equivalent so this does not capture merging of partial or non-overlapping sets well. func BenchmarkMergedSeriesSet(b *testing.B) { var sel = func(sets []SeriesSet) SeriesSet { return NewMergedSeriesSet(sets) } for _, k := range []int{ 100, 1000, 10000, 20000, } { for _, j := range []int{1, 2, 4, 8, 16, 32} { b.Run(fmt.Sprintf("series=%d,blocks=%d", k, j), func(b *testing.B) { lbls, err := labels.ReadLabels(filepath.Join("testdata", "20kseries.json"), k) testutil.Ok(b, err) sort.Sort(labels.Slice(lbls)) in := make([][]Series, j) for _, l := range lbls { l2 := l for j := range in { in[j] = append(in[j], &mockSeries{labels: func() labels.Labels { return l2 }}) } } b.ResetTimer() for i := 0; i < b.N; i++ { var sets []SeriesSet for _, s := range in { sets = append(sets, newMockSeriesSet(s)) } ms := sel(sets) i := 0 for ms.Next() { i++ } testutil.Ok(b, ms.Err()) testutil.Equals(b, len(lbls), i) } }) } } } type mockChunkReader map[uint64]chunkenc.Chunk func (cr mockChunkReader) Chunk(id uint64) (chunkenc.Chunk, error) { chk, ok := cr[id] if ok { return chk, nil } return nil, errors.New("Chunk with ref not found") } func (cr mockChunkReader) Close() error { return nil } func TestDeletedIterator(t *testing.T) { chk := chunkenc.NewXORChunk() app, err := chk.Appender() testutil.Ok(t, err) // Insert random stuff from (0, 1000). act := make([]sample, 1000) for i := 0; i < 1000; i++ { act[i].t = int64(i) act[i].v = rand.Float64() app.Append(act[i].t, act[i].v) } cases := []struct { r tombstones.Intervals }{ {r: tombstones.Intervals{{Mint: 1, Maxt: 20}}}, {r: tombstones.Intervals{{Mint: 1, Maxt: 10}, {Mint: 12, Maxt: 20}, {Mint: 21, Maxt: 23}, {Mint: 25, Maxt: 30}}}, {r: tombstones.Intervals{{Mint: 1, Maxt: 10}, {Mint: 12, Maxt: 20}, {Mint: 20, Maxt: 30}}}, {r: tombstones.Intervals{{Mint: 1, Maxt: 10}, {Mint: 12, Maxt: 23}, {Mint: 25, Maxt: 30}}}, {r: tombstones.Intervals{{Mint: 1, Maxt: 23}, {Mint: 12, Maxt: 20}, {Mint: 25, Maxt: 30}}}, {r: tombstones.Intervals{{Mint: 1, Maxt: 23}, {Mint: 12, Maxt: 20}, {Mint: 25, Maxt: 3000}}}, {r: tombstones.Intervals{{Mint: 0, Maxt: 2000}}}, {r: tombstones.Intervals{{Mint: 500, Maxt: 2000}}}, {r: tombstones.Intervals{{Mint: 0, Maxt: 200}}}, {r: tombstones.Intervals{{Mint: 1000, Maxt: 20000}}}, } for _, c := range cases { i := int64(-1) it := &deletedIterator{it: chk.Iterator(nil), intervals: c.r[:]} ranges := c.r[:] for it.Next() { i++ for _, tr := range ranges { if tr.InBounds(i) { i = tr.Maxt + 1 ranges = ranges[1:] } } testutil.Assert(t, i < 1000, "") ts, v := it.At() testutil.Equals(t, act[i].t, ts) testutil.Equals(t, act[i].v, v) } // There has been an extra call to Next(). i++ for _, tr := range ranges { if tr.InBounds(i) { i = tr.Maxt + 1 ranges = ranges[1:] } } testutil.Assert(t, i >= 1000, "") testutil.Ok(t, it.Err()) } } type series struct { l labels.Labels chunks []chunks.Meta } type mockIndex struct { series map[uint64]series labelIndex map[string][]string postings map[labels.Label][]uint64 symbols map[string]struct{} } func newMockIndex() mockIndex { ix := mockIndex{ series: make(map[uint64]series), labelIndex: make(map[string][]string), postings: make(map[labels.Label][]uint64), symbols: make(map[string]struct{}), } return ix } func (m mockIndex) Symbols() index.StringIter { l := []string{} for s := range m.symbols { l = append(l, s) } sort.Strings(l) return index.NewStringListIter(l) } func (m *mockIndex) AddSeries(ref uint64, l labels.Labels, chunks ...chunks.Meta) error { if _, ok := m.series[ref]; ok { return errors.Errorf("series with reference %d already added", ref) } for _, lbl := range l { m.symbols[lbl.Name] = struct{}{} m.symbols[lbl.Value] = struct{}{} } s := series{l: l} // Actual chunk data is not stored in the index. for _, c := range chunks { c.Chunk = nil s.chunks = append(s.chunks, c) } m.series[ref] = s return nil } func (m mockIndex) WriteLabelIndex(names []string, values []string) error { // TODO support composite indexes if len(names) != 1 { return errors.New("composite indexes not supported yet") } sort.Strings(values) m.labelIndex[names[0]] = values return nil } func (m mockIndex) WritePostings(name, value string, it index.Postings) error { l := labels.Label{Name: name, Value: value} if _, ok := m.postings[l]; ok { return errors.Errorf("postings for %s already added", l) } ep, err := index.ExpandPostings(it) if err != nil { return err } m.postings[l] = ep return nil } func (m mockIndex) Close() error { return nil } func (m mockIndex) LabelValues(names ...string) (index.StringTuples, error) { // TODO support composite indexes if len(names) != 1 { return nil, errors.New("composite indexes not supported yet") } return index.NewStringTuples(m.labelIndex[names[0]], 1) } func (m mockIndex) Postings(name string, values ...string) (index.Postings, error) { res := make([]index.Postings, 0, len(values)) for _, value := range values { l := labels.Label{Name: name, Value: value} res = append(res, index.NewListPostings(m.postings[l])) } return index.Merge(res...), nil } func (m mockIndex) SortedPostings(p index.Postings) index.Postings { ep, err := index.ExpandPostings(p) if err != nil { return index.ErrPostings(errors.Wrap(err, "expand postings")) } sort.Slice(ep, func(i, j int) bool { return labels.Compare(m.series[ep[i]].l, m.series[ep[j]].l) < 0 }) return index.NewListPostings(ep) } func (m mockIndex) Series(ref uint64, lset *labels.Labels, chks *[]chunks.Meta) error { s, ok := m.series[ref] if !ok { return ErrNotFound } *lset = append((*lset)[:0], s.l...) *chks = append((*chks)[:0], s.chunks...) return nil } func (m mockIndex) LabelNames() ([]string, error) { labelNames := make([]string, 0, len(m.labelIndex)) for name := range m.labelIndex { labelNames = append(labelNames, name) } sort.Strings(labelNames) return labelNames, nil } type mockSeries struct { labels func() labels.Labels iterator func() SeriesIterator } func newSeries(l map[string]string, s []tsdbutil.Sample) Series { return &mockSeries{ labels: func() labels.Labels { return labels.FromMap(l) }, iterator: func() SeriesIterator { return newListSeriesIterator(s) }, } } func (m *mockSeries) Labels() labels.Labels { return m.labels() } func (m *mockSeries) Iterator() SeriesIterator { return m.iterator() } type listSeriesIterator struct { list []tsdbutil.Sample idx int } func newListSeriesIterator(list []tsdbutil.Sample) *listSeriesIterator { return &listSeriesIterator{list: list, idx: -1} } func (it *listSeriesIterator) At() (int64, float64) { s := it.list[it.idx] return s.T(), s.V() } func (it *listSeriesIterator) Next() bool { it.idx++ return it.idx < len(it.list) } func (it *listSeriesIterator) Seek(t int64) bool { if it.idx == -1 { it.idx = 0 } // Do binary search between current position and end. it.idx = sort.Search(len(it.list)-it.idx, func(i int) bool { s := it.list[i+it.idx] return s.T() >= t }) return it.idx < len(it.list) } func (it *listSeriesIterator) Err() error { return nil } func BenchmarkQueryIterator(b *testing.B) { cases := []struct { numBlocks int numSeries int numSamplesPerSeriesPerBlock int overlapPercentages []int // >=0, <=100, this is w.r.t. the previous block. }{ { numBlocks: 20, numSeries: 1000, numSamplesPerSeriesPerBlock: 20000, overlapPercentages: []int{0, 10, 30}, }, } for _, c := range cases { for _, overlapPercentage := range c.overlapPercentages { benchMsg := fmt.Sprintf("nBlocks=%d,nSeries=%d,numSamplesPerSeriesPerBlock=%d,overlap=%d%%", c.numBlocks, c.numSeries, c.numSamplesPerSeriesPerBlock, overlapPercentage) b.Run(benchMsg, func(b *testing.B) { dir, err := ioutil.TempDir("", "bench_query_iterator") testutil.Ok(b, err) defer func() { testutil.Ok(b, os.RemoveAll(dir)) }() var ( blocks []*Block overlapDelta = int64(overlapPercentage * c.numSamplesPerSeriesPerBlock / 100) prefilledLabels []map[string]string generatedSeries []Series ) for i := int64(0); i < int64(c.numBlocks); i++ { offset := i * overlapDelta mint := i*int64(c.numSamplesPerSeriesPerBlock) - offset maxt := mint + int64(c.numSamplesPerSeriesPerBlock) - 1 if len(prefilledLabels) == 0 { generatedSeries = genSeries(c.numSeries, 10, mint, maxt) for _, s := range generatedSeries { prefilledLabels = append(prefilledLabels, s.Labels().Map()) } } else { generatedSeries = populateSeries(prefilledLabels, mint, maxt) } block, err := OpenBlock(nil, createBlock(b, dir, generatedSeries), nil) testutil.Ok(b, err) blocks = append(blocks, block) defer block.Close() } que := &querier{ blocks: make([]Querier, 0, len(blocks)), } for _, blk := range blocks { q, err := NewBlockQuerier(blk, math.MinInt64, math.MaxInt64) testutil.Ok(b, err) que.blocks = append(que.blocks, q) } var sq Querier = que if overlapPercentage > 0 { sq = &verticalQuerier{ querier: *que, } } defer sq.Close() benchQuery(b, c.numSeries, sq, labels.Selector{labels.MustNewMatcher(labels.MatchRegexp, "__name__", ".*")}) }) } } } func BenchmarkQuerySeek(b *testing.B) { cases := []struct { numBlocks int numSeries int numSamplesPerSeriesPerBlock int overlapPercentages []int // >=0, <=100, this is w.r.t. the previous block. }{ { numBlocks: 20, numSeries: 100, numSamplesPerSeriesPerBlock: 2000, overlapPercentages: []int{0, 10, 30, 50}, }, } for _, c := range cases { for _, overlapPercentage := range c.overlapPercentages { benchMsg := fmt.Sprintf("nBlocks=%d,nSeries=%d,numSamplesPerSeriesPerBlock=%d,overlap=%d%%", c.numBlocks, c.numSeries, c.numSamplesPerSeriesPerBlock, overlapPercentage) b.Run(benchMsg, func(b *testing.B) { dir, err := ioutil.TempDir("", "bench_query_iterator") testutil.Ok(b, err) defer func() { testutil.Ok(b, os.RemoveAll(dir)) }() var ( blocks []*Block overlapDelta = int64(overlapPercentage * c.numSamplesPerSeriesPerBlock / 100) prefilledLabels []map[string]string generatedSeries []Series ) for i := int64(0); i < int64(c.numBlocks); i++ { offset := i * overlapDelta mint := i*int64(c.numSamplesPerSeriesPerBlock) - offset maxt := mint + int64(c.numSamplesPerSeriesPerBlock) - 1 if len(prefilledLabels) == 0 { generatedSeries = genSeries(c.numSeries, 10, mint, maxt) for _, s := range generatedSeries { prefilledLabels = append(prefilledLabels, s.Labels().Map()) } } else { generatedSeries = populateSeries(prefilledLabels, mint, maxt) } block, err := OpenBlock(nil, createBlock(b, dir, generatedSeries), nil) testutil.Ok(b, err) blocks = append(blocks, block) defer block.Close() } que := &querier{ blocks: make([]Querier, 0, len(blocks)), } for _, blk := range blocks { q, err := NewBlockQuerier(blk, math.MinInt64, math.MaxInt64) testutil.Ok(b, err) que.blocks = append(que.blocks, q) } var sq Querier = que if overlapPercentage > 0 { sq = &verticalQuerier{ querier: *que, } } defer sq.Close() mint := blocks[0].meta.MinTime maxt := blocks[len(blocks)-1].meta.MaxTime b.ResetTimer() b.ReportAllocs() ss, err := sq.Select(labels.MustNewMatcher(labels.MatchRegexp, "__name__", ".*")) for ss.Next() { it := ss.At().Iterator() for t := mint; t <= maxt; t++ { it.Seek(t) } testutil.Ok(b, it.Err()) } testutil.Ok(b, ss.Err()) testutil.Ok(b, err) }) } } } // Refer to https://github.com/prometheus/prometheus/issues/2651. func BenchmarkSetMatcher(b *testing.B) { cases := []struct { numBlocks int numSeries int numSamplesPerSeriesPerBlock int cardinality int pattern string }{ // The first three cases are to find out whether the set // matcher is always faster than regex matcher. { numBlocks: 1, numSeries: 1, numSamplesPerSeriesPerBlock: 10, cardinality: 100, pattern: "^(?:1|2|3|4|5|6|7|8|9|10)$", }, { numBlocks: 1, numSeries: 15, numSamplesPerSeriesPerBlock: 10, cardinality: 100, pattern: "^(?:1|2|3|4|5|6|7|8|9|10)$", }, { numBlocks: 1, numSeries: 15, numSamplesPerSeriesPerBlock: 10, cardinality: 100, pattern: "^(?:1|2|3)$", }, // Big data sizes benchmarks. { numBlocks: 20, numSeries: 1000, numSamplesPerSeriesPerBlock: 10, cardinality: 100, pattern: "^(?:1|2|3)$", }, { numBlocks: 20, numSeries: 1000, numSamplesPerSeriesPerBlock: 10, cardinality: 100, pattern: "^(?:1|2|3|4|5|6|7|8|9|10)$", }, // Increase cardinality. { numBlocks: 1, numSeries: 100000, numSamplesPerSeriesPerBlock: 10, cardinality: 100000, pattern: "^(?:1|2|3|4|5|6|7|8|9|10)$", }, { numBlocks: 1, numSeries: 500000, numSamplesPerSeriesPerBlock: 10, cardinality: 500000, pattern: "^(?:1|2|3|4|5|6|7|8|9|10)$", }, { numBlocks: 10, numSeries: 500000, numSamplesPerSeriesPerBlock: 10, cardinality: 500000, pattern: "^(?:1|2|3|4|5|6|7|8|9|10)$", }, { numBlocks: 1, numSeries: 1000000, numSamplesPerSeriesPerBlock: 10, cardinality: 1000000, pattern: "^(?:1|2|3|4|5|6|7|8|9|10)$", }, } for _, c := range cases { dir, err := ioutil.TempDir("", "bench_postings_for_matchers") testutil.Ok(b, err) defer func() { testutil.Ok(b, os.RemoveAll(dir)) }() var ( blocks []*Block prefilledLabels []map[string]string generatedSeries []Series ) for i := int64(0); i < int64(c.numBlocks); i++ { mint := i * int64(c.numSamplesPerSeriesPerBlock) maxt := mint + int64(c.numSamplesPerSeriesPerBlock) - 1 if len(prefilledLabels) == 0 { generatedSeries = genSeries(c.numSeries, 10, mint, maxt) for _, s := range generatedSeries { prefilledLabels = append(prefilledLabels, s.Labels().Map()) } } else { generatedSeries = populateSeries(prefilledLabels, mint, maxt) } block, err := OpenBlock(nil, createBlock(b, dir, generatedSeries), nil) testutil.Ok(b, err) blocks = append(blocks, block) defer block.Close() } que := &querier{ blocks: make([]Querier, 0, len(blocks)), } for _, blk := range blocks { q, err := NewBlockQuerier(blk, math.MinInt64, math.MaxInt64) testutil.Ok(b, err) que.blocks = append(que.blocks, q) } defer que.Close() benchMsg := fmt.Sprintf("nSeries=%d,nBlocks=%d,cardinality=%d,pattern=\"%s\"", c.numSeries, c.numBlocks, c.cardinality, c.pattern) b.Run(benchMsg, func(b *testing.B) { b.ResetTimer() b.ReportAllocs() for n := 0; n < b.N; n++ { _, err := que.Select(labels.MustNewMatcher(labels.MatchRegexp, "test", c.pattern)) testutil.Ok(b, err) } }) } } // Refer to https://github.com/prometheus/prometheus/issues/2651. func TestFindSetMatches(t *testing.T) { cases := []struct { pattern string exp []string }{ // Simple sets. { pattern: "^(?:foo|bar|baz)$", exp: []string{ "foo", "bar", "baz", }, }, // Simple sets containing escaped characters. { pattern: "^(?:fo\\.o|bar\\?|\\^baz)$", exp: []string{ "fo.o", "bar?", "^baz", }, }, // Simple sets containing special characters without escaping. { pattern: "^(?:fo.o|bar?|^baz)$", exp: nil, }, // Missing wrapper. { pattern: "foo|bar|baz", exp: nil, }, } for _, c := range cases { matches := findSetMatches(c.pattern) if len(c.exp) == 0 { if len(matches) != 0 { t.Errorf("Evaluating %s, unexpected result %v", c.pattern, matches) } } else { if len(matches) != len(c.exp) { t.Errorf("Evaluating %s, length of result not equal to exp", c.pattern) } else { for i := 0; i < len(c.exp); i++ { if c.exp[i] != matches[i] { t.Errorf("Evaluating %s, unexpected result %s", c.pattern, matches[i]) } } } } } } func TestPostingsForMatchers(t *testing.T) { h, err := NewHead(nil, nil, nil, 1000) testutil.Ok(t, err) defer func() { testutil.Ok(t, h.Close()) }() app := h.Appender() app.Add(labels.FromStrings("n", "1"), 0, 0) app.Add(labels.FromStrings("n", "1", "i", "a"), 0, 0) app.Add(labels.FromStrings("n", "1", "i", "b"), 0, 0) app.Add(labels.FromStrings("n", "2"), 0, 0) app.Add(labels.FromStrings("n", "2.5"), 0, 0) testutil.Ok(t, app.Commit()) cases := []struct { matchers []*labels.Matcher exp []labels.Labels }{ // Simple equals. { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchEqual, "i", "a")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchEqual, "i", "missing")}, exp: []labels.Labels{}, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "missing", "")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), labels.FromStrings("n", "2"), labels.FromStrings("n", "2.5"), }, }, // Not equals. { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchNotEqual, "n", "1")}, exp: []labels.Labels{ labels.FromStrings("n", "2"), labels.FromStrings("n", "2.5"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchNotEqual, "i", "")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchNotEqual, "missing", "")}, exp: []labels.Labels{}, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotEqual, "i", "a")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotEqual, "i", "")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), }, }, // Regex. { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchRegexp, "n", "^1$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchRegexp, "i", "^a$")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchRegexp, "i", "^a?$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "1", "i", "a"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchRegexp, "i", "^$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "2"), labels.FromStrings("n", "2.5"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchRegexp, "i", "^$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchRegexp, "i", "^.*$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchRegexp, "i", "^.+$")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), }, }, // Not regex. { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchNotRegexp, "n", "^1$")}, exp: []labels.Labels{ labels.FromStrings("n", "2"), labels.FromStrings("n", "2.5"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotRegexp, "i", "^a$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotRegexp, "i", "^a?$")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotRegexp, "i", "^$")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotRegexp, "i", "^.*$")}, exp: []labels.Labels{}, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotRegexp, "i", "^.+$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), }, }, // Combinations. { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotEqual, "i", ""), labels.MustNewMatcher(labels.MatchEqual, "i", "a")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, "n", "1"), labels.MustNewMatcher(labels.MatchNotEqual, "i", "b"), labels.MustNewMatcher(labels.MatchRegexp, "i", "^(b|a).*$")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), }, }, // Set optimization for Regex. // Refer to https://github.com/prometheus/prometheus/issues/2651. { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchRegexp, "n", "^(?:1|2)$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), labels.FromStrings("n", "2"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchRegexp, "i", "^(?:a|b)$")}, exp: []labels.Labels{ labels.FromStrings("n", "1", "i", "a"), labels.FromStrings("n", "1", "i", "b"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchRegexp, "n", "^(?:x1|2)$")}, exp: []labels.Labels{ labels.FromStrings("n", "2"), }, }, { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchRegexp, "n", "^(?:2|2\\.5)$")}, exp: []labels.Labels{ labels.FromStrings("n", "2"), labels.FromStrings("n", "2.5"), }, }, // Empty value. { matchers: []*labels.Matcher{labels.MustNewMatcher(labels.MatchRegexp, "i", "^(?:c||d)$")}, exp: []labels.Labels{ labels.FromStrings("n", "1"), labels.FromStrings("n", "2"), labels.FromStrings("n", "2.5"), }, }, } ir, err := h.Index() testutil.Ok(t, err) for _, c := range cases { exp := map[string]struct{}{} for _, l := range c.exp { exp[l.String()] = struct{}{} } p, err := PostingsForMatchers(ir, c.matchers...) testutil.Ok(t, err) for p.Next() { lbls := labels.Labels{} testutil.Ok(t, ir.Series(p.At(), &lbls, &[]chunks.Meta{})) if _, ok := exp[lbls.String()]; !ok { t.Errorf("Evaluating %v, unexpected result %s", c.matchers, lbls.String()) } else { delete(exp, lbls.String()) } } testutil.Ok(t, p.Err()) if len(exp) != 0 { t.Errorf("Evaluating %v, missing results %+v", c.matchers, exp) } } } // TestClose ensures that calling Close more than once doesn't block and doesn't panic. func TestClose(t *testing.T) { dir, err := ioutil.TempDir("", "test_storage") if err != nil { t.Fatalf("Opening test dir failed: %s", err) } defer func() { testutil.Ok(t, os.RemoveAll(dir)) }() createBlock(t, dir, genSeries(1, 1, 0, 10)) createBlock(t, dir, genSeries(1, 1, 10, 20)) db, err := Open(dir, nil, nil, DefaultOptions) if err != nil { t.Fatalf("Opening test storage failed: %s", err) } defer func() { testutil.Ok(t, db.Close()) }() q, err := db.Querier(0, 20) testutil.Ok(t, err) testutil.Ok(t, q.Close()) testutil.NotOk(t, q.Close()) } func BenchmarkQueries(b *testing.B) { cases := map[string]labels.Selector{ "Eq Matcher: Expansion - 1": { labels.MustNewMatcher(labels.MatchEqual, "la", "va"), }, "Eq Matcher: Expansion - 2": { labels.MustNewMatcher(labels.MatchEqual, "la", "va"), labels.MustNewMatcher(labels.MatchEqual, "lb", "vb"), }, "Eq Matcher: Expansion - 3": { labels.MustNewMatcher(labels.MatchEqual, "la", "va"), labels.MustNewMatcher(labels.MatchEqual, "lb", "vb"), labels.MustNewMatcher(labels.MatchEqual, "lc", "vc"), }, "Regex Matcher: Expansion - 1": { labels.MustNewMatcher(labels.MatchRegexp, "la", ".*va"), }, "Regex Matcher: Expansion - 2": { labels.MustNewMatcher(labels.MatchRegexp, "la", ".*va"), labels.MustNewMatcher(labels.MatchRegexp, "lb", ".*vb"), }, "Regex Matcher: Expansion - 3": { labels.MustNewMatcher(labels.MatchRegexp, "la", ".*va"), labels.MustNewMatcher(labels.MatchRegexp, "lb", ".*vb"), labels.MustNewMatcher(labels.MatchRegexp, "lc", ".*vc"), }, } queryTypes := make(map[string]Querier) defer func() { for _, q := range queryTypes { // Can't run a check for error here as some of these will fail as // queryTypes is using the same slice for the different block queriers // and would have been closed in the previous iterration. q.Close() } }() for title, selectors := range cases { for _, nSeries := range []int{10} { for _, nSamples := range []int64{1000, 10000, 100000} { dir, err := ioutil.TempDir("", "test_persisted_query") testutil.Ok(b, err) defer func() { testutil.Ok(b, os.RemoveAll(dir)) }() series := genSeries(nSeries, 5, 1, int64(nSamples)) // Add some common labels to make the matchers select these series. { var commonLbls labels.Labels for _, selector := range selectors { switch selector.Type { case labels.MatchEqual: commonLbls = append(commonLbls, labels.Label{Name: selector.Name, Value: selector.Value}) case labels.MatchRegexp: commonLbls = append(commonLbls, labels.Label{Name: selector.Name, Value: selector.Value}) } } for i := range commonLbls { s := series[i].(*mockSeries) allLabels := append(commonLbls, s.Labels()...) s = &mockSeries{ labels: func() labels.Labels { return allLabels }, iterator: s.iterator, } series[i] = s } } qs := []Querier{} for x := 0; x <= 10; x++ { block, err := OpenBlock(nil, createBlock(b, dir, series), nil) testutil.Ok(b, err) q, err := NewBlockQuerier(block, 1, int64(nSamples)) testutil.Ok(b, err) qs = append(qs, q) } queryTypes["_1-Block"] = &querier{blocks: qs[:1]} queryTypes["_3-Blocks"] = &querier{blocks: qs[0:3]} queryTypes["_10-Blocks"] = &querier{blocks: qs} head := createHead(b, series) qHead, err := NewBlockQuerier(head, 1, int64(nSamples)) testutil.Ok(b, err) queryTypes["_Head"] = qHead for qtype, querier := range queryTypes { b.Run(title+qtype+"_nSeries:"+strconv.Itoa(nSeries)+"_nSamples:"+strconv.Itoa(int(nSamples)), func(b *testing.B) { expExpansions, err := strconv.Atoi(string(title[len(title)-1])) testutil.Ok(b, err) benchQuery(b, expExpansions, querier, selectors) }) } } } } } func benchQuery(b *testing.B, expExpansions int, q Querier, selectors labels.Selector) { b.ResetTimer() b.ReportAllocs() for i := 0; i < b.N; i++ { ss, err := q.Select(selectors...) testutil.Ok(b, err) var actualExpansions int for ss.Next() { s := ss.At() s.Labels() it := s.Iterator() for it.Next() { } actualExpansions++ } testutil.Equals(b, expExpansions, actualExpansions) testutil.Ok(b, ss.Err()) } }