package storage import ( "fmt" "math/rand" "os" "sort" "testing" "time" ) func TestPartitionSearch(t *testing.T) { ptt := timestampFromTime(time.Now()) var ptr TimeRange ptr.fromPartitionTimestamp(ptt) t.Run("SinglePart", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp + 4e3, MaxTimestamp: ptr.MaxTimestamp - 4e3, } testPartitionSearchEx(t, ptt, tr, 1, 10000, 10) }) t.Run("SingleRowPerPart", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp + 4e3, MaxTimestamp: ptr.MaxTimestamp - 4e3, } testPartitionSearchEx(t, ptt, tr, 1000, 1, 10) }) t.Run("SingleTSID", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp + 4e3, MaxTimestamp: ptr.MaxTimestamp - 4e3, } testPartitionSearchEx(t, ptt, tr, 5, 10000, 1) }) t.Run("ManyParts", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp + 4e3, MaxTimestamp: ptr.MaxTimestamp - 4e3, } testPartitionSearchEx(t, ptt, tr, 300, 300, 20) }) t.Run("ManyTSIDs", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp + 4e3, MaxTimestamp: ptr.MaxTimestamp - 4e3, } testPartitionSearchEx(t, ptt, tr, 5, 10000, 1000) }) t.Run("ExactTimeRange", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp, MaxTimestamp: ptr.MaxTimestamp, } testPartitionSearchEx(t, ptt, tr, 5, 1000, 10) }) t.Run("InnerTimeRange", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp + 4e3, MaxTimestamp: ptr.MaxTimestamp - 4e3, } testPartitionSearchEx(t, ptt, tr, 5, 1000, 10) }) t.Run("OuterTimeRange", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp - 1e6, MaxTimestamp: ptr.MaxTimestamp + 1e6, } testPartitionSearchEx(t, ptt, tr, 5, 1000, 10) }) t.Run("LowTimeRange", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp - 2e6, MaxTimestamp: ptr.MinTimestamp - 1e6, } testPartitionSearchEx(t, ptt, tr, 5, 1000, 10) }) t.Run("HighTimeRange", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MaxTimestamp + 1e6, MaxTimestamp: ptr.MaxTimestamp + 2e6, } testPartitionSearchEx(t, ptt, tr, 5, 1000, 10) }) t.Run("LowerEndTimeRange", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp - 1e6, MaxTimestamp: ptr.MaxTimestamp - 4e3, } testPartitionSearchEx(t, ptt, tr, 5, 1000, 10) }) t.Run("HigherEndTimeRange", func(t *testing.T) { tr := TimeRange{ MinTimestamp: ptr.MinTimestamp + 4e3, MaxTimestamp: ptr.MaxTimestamp + 1e6, } testPartitionSearchEx(t, ptt, tr, 5, 1000, 10) }) } func testPartitionSearchEx(t *testing.T, ptt int64, tr TimeRange, partsCount, maxRowsPerPart, tsidsCount int) { t.Helper() rng := rand.New(rand.NewSource(1)) // Generate tsids to search. var tsids []TSID var tsid TSID for i := 0; i < 25; i++ { tsid.MetricID = uint64(rng.Intn(tsidsCount * 2)) tsids = append(tsids, tsid) } sort.Slice(tsids, func(i, j int) bool { return tsids[i].Less(&tsids[j]) }) // Generate the expected blocks. rowsCountExpected := int64(0) rbsExpected := []rawBlock{} var ptr TimeRange ptr.fromPartitionTimestamp(ptt) var rowss [][]rawRow for i := 0; i < partsCount; i++ { var rows []rawRow var r rawRow r.PrecisionBits = 30 timestamp := ptr.MinTimestamp rowsCount := 1 + rng.Intn(maxRowsPerPart) for j := 0; j < rowsCount; j++ { r.TSID.MetricID = uint64(rng.Intn(tsidsCount)) r.Timestamp = timestamp r.Value = float64(int(rng.NormFloat64() * 1e5)) timestamp += int64(rng.Intn(1e4)) if timestamp > ptr.MaxTimestamp { break } rows = append(rows, r) rowsCountExpected++ } rbs := getTestExpectedRawBlocks(rows, tsids, tr) rbsExpected = append(rbsExpected, rbs...) rowss = append(rowss, rows) } sort.Slice(rbsExpected, func(i, j int) bool { a, b := rbsExpected[i], rbsExpected[j] if a.TSID.Less(&b.TSID) { return true } if b.TSID.Less(&a.TSID) { return false } return a.Timestamps[0] < b.Timestamps[0] }) // Create partition from rowss and test search on it. strg := newTestStorage() strg.retentionMsecs = timestampFromTime(time.Now()) - ptr.MinTimestamp + 3600*1000 pt := mustCreatePartition(ptt, "small-table", "big-table", strg) smallPartsPath := pt.smallPartsPath bigPartsPath := pt.bigPartsPath var tmpRows []rawRow for _, rows := range rowss { pt.AddRows(rows) // Flush just added rows to a separate partitions. tmpRows = pt.flushPendingRows(tmpRows[:0], true) } testPartitionSearch(t, pt, tsids, tr, rbsExpected, -1) pt.MustClose() // Open the created partition and test search on it. pt = mustOpenPartition(smallPartsPath, bigPartsPath, strg) testPartitionSearch(t, pt, tsids, tr, rbsExpected, rowsCountExpected) pt.MustClose() stopTestStorage(strg) if err := os.RemoveAll("small-table"); err != nil { t.Fatalf("cannot remove small parts directory: %s", err) } if err := os.RemoveAll("big-table"); err != nil { t.Fatalf("cannot remove big parts directory: %s", err) } } func testPartitionSearch(t *testing.T, pt *partition, tsids []TSID, tr TimeRange, rbsExpected []rawBlock, rowsCountExpected int64) { t.Helper() if err := testPartitionSearchSerial(pt, tsids, tr, rbsExpected, rowsCountExpected); err != nil { t.Fatalf("unexpected error in serial partition search: %s", err) } ch := make(chan error, 5) for i := 0; i < cap(ch); i++ { go func() { ch <- testPartitionSearchSerial(pt, tsids, tr, rbsExpected, rowsCountExpected) }() } for i := 0; i < cap(ch); i++ { select { case err := <-ch: if err != nil { t.Fatalf("unexpected error in concurrent partition search: %s", err) } case <-time.After(time.Second): t.Fatalf("timeout in concurrent partition search") } } } func testPartitionSearchSerial(pt *partition, tsids []TSID, tr TimeRange, rbsExpected []rawBlock, rowsCountExpected int64) error { if rowsCountExpected >= 0 { // Verify rows count only on partition opened from files. // // Online created partition may contain incomplete number of rows // due to the race with raw rows flusher. var m partitionMetrics pt.UpdateMetrics(&m) if rowsCount := m.TotalRowsCount(); rowsCount != uint64(rowsCountExpected) { return fmt.Errorf("unexpected rows count; got %d; want %d", rowsCount, rowsCountExpected) } } bs := []Block{} var pts partitionSearch pts.Init(pt, tsids, tr) for pts.NextBlock() { var b Block pts.BlockRef.MustReadBlock(&b) bs = append(bs, b) } if err := pts.Error(); err != nil { return fmt.Errorf("unexpected error: %w", err) } pts.MustClose() rbs := newTestRawBlocks(bs, tr) if err := testEqualRawBlocks(rbs, rbsExpected); err != nil { return fmt.Errorf("unequal blocks: %w", err) } if rowsCountExpected >= 0 { var m partitionMetrics pt.UpdateMetrics(&m) if rowsCount := m.TotalRowsCount(); rowsCount != uint64(rowsCountExpected) { return fmt.Errorf("unexpected rows count after search; got %d; want %d", rowsCount, rowsCountExpected) } } // verify that empty tsids returns empty result pts.Init(pt, []TSID{}, tr) if pts.NextBlock() { return fmt.Errorf("unexpected block got for an empty tsids list: %+v", pts.BlockRef) } if err := pts.Error(); err != nil { return fmt.Errorf("unexpected error on empty tsids list: %w", err) } pts.MustClose() return nil }