package netstorage import ( "container/heap" "flag" "fmt" "runtime" "sort" "sync" "sync/atomic" "time" "github.com/VictoriaMetrics/VictoriaMetrics/app/vmstorage" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/decimal" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "github.com/VictoriaMetrics/VictoriaMetrics/lib/storage" "github.com/VictoriaMetrics/metrics" ) var ( maxTagKeysPerSearch = flag.Int("search.maxTagKeys", 10e3, "The maximum number of tag keys returned per search") maxTagValuesPerSearch = flag.Int("search.maxTagValues", 10e3, "The maximum number of tag values returned per search") maxMetricsPerSearch = flag.Int("search.maxUniqueTimeseries", 100e3, "The maximum number of unique time series each search can scan") ) // Result is a single timeseries result. // // ProcessSearchQuery returns Result slice. type Result struct { // The name of the metric. MetricName storage.MetricName // Values are sorted by Timestamps. Values []float64 Timestamps []int64 // Marshaled MetricName. Used only for results sorting // in app/vmselect/promql MetricNameMarshaled []byte } func (r *Result) reset() { r.MetricName.Reset() r.Values = r.Values[:0] r.Timestamps = r.Timestamps[:0] r.MetricNameMarshaled = r.MetricNameMarshaled[:0] } // Results holds results returned from ProcessSearchQuery. type Results struct { tr storage.TimeRange deadline Deadline tbf *tmpBlocksFile packedTimeseries []packedTimeseries } // Len returns the number of results in rss. func (rss *Results) Len() int { return len(rss.packedTimeseries) } // Cancel cancels rss work. func (rss *Results) Cancel() { putTmpBlocksFile(rss.tbf) rss.tbf = nil } // RunParallel runs in parallel f for all the results from rss. // // f shouldn't hold references to rs after returning. // // rss becomes unusable after the call to RunParallel. func (rss *Results) RunParallel(f func(rs *Result)) error { defer func() { putTmpBlocksFile(rss.tbf) rss.tbf = nil }() workersCount := 1 + len(rss.packedTimeseries)/32 if workersCount > gomaxprocs { workersCount = gomaxprocs } if workersCount == 0 { logger.Panicf("BUG: workersCount cannot be zero") } workCh := make(chan *packedTimeseries, workersCount) doneCh := make(chan error) // Start workers. for i := 0; i < workersCount; i++ { go func() { rs := getResult() defer putResult(rs) maxWorkersCount := gomaxprocs / workersCount var err error for pts := range workCh { if time.Until(rss.deadline.Deadline) < 0 { err = fmt.Errorf("timeout exceeded during query execution: %s", rss.deadline.Timeout) break } if err = pts.Unpack(rss.tbf, rs, rss.tr, maxWorkersCount); err != nil { break } if len(rs.Timestamps) == 0 { // Skip empty blocks. continue } f(rs) } // Drain the remaining work for range workCh { } doneCh <- err }() } // Feed workers with work. for i := range rss.packedTimeseries { workCh <- &rss.packedTimeseries[i] } rss.packedTimeseries = rss.packedTimeseries[:0] close(workCh) // Wait until workers finish. var errors []error for i := 0; i < workersCount; i++ { if err := <-doneCh; err != nil { errors = append(errors, err) } } if len(errors) > 0 { // Return just the first error, since other errors // is likely duplicate the first error. return errors[0] } return nil } var gomaxprocs = runtime.GOMAXPROCS(-1) type packedTimeseries struct { metricName string addrs []tmpBlockAddr } // Unpack unpacks pts to dst. func (pts *packedTimeseries) Unpack(tbf *tmpBlocksFile, dst *Result, tr storage.TimeRange, maxWorkersCount int) error { dst.reset() if err := dst.MetricName.Unmarshal(bytesutil.ToUnsafeBytes(pts.metricName)); err != nil { return fmt.Errorf("cannot unmarshal metricName %q: %s", pts.metricName, err) } workersCount := 1 + len(pts.addrs)/32 if workersCount > maxWorkersCount { workersCount = maxWorkersCount } if workersCount == 0 { logger.Panicf("BUG: workersCount cannot be zero") } sbs := make([]*sortBlock, 0, len(pts.addrs)) var sbsLock sync.Mutex workCh := make(chan tmpBlockAddr, workersCount) doneCh := make(chan error) // Start workers for i := 0; i < workersCount; i++ { go func() { var err error for addr := range workCh { sb := getSortBlock() if err = sb.unpackFrom(tbf, addr, tr); err != nil { break } sbsLock.Lock() sbs = append(sbs, sb) sbsLock.Unlock() } // Drain the remaining work for range workCh { } doneCh <- err }() } // Feed workers with work for _, addr := range pts.addrs { workCh <- addr } pts.addrs = pts.addrs[:0] close(workCh) // Wait until workers finish var errors []error for i := 0; i < workersCount; i++ { if err := <-doneCh; err != nil { errors = append(errors, err) } } if len(errors) > 0 { // Return the first error only, since other errors are likely the same. return errors[0] } // Merge blocks mergeSortBlocks(dst, sbs) return nil } func getSortBlock() *sortBlock { v := sbPool.Get() if v == nil { return &sortBlock{} } return v.(*sortBlock) } func putSortBlock(sb *sortBlock) { sb.reset() sbPool.Put(sb) } var sbPool sync.Pool var metricRowsSkipped = metrics.NewCounter(`vm_metric_rows_skipped_total{name="vmselect"}`) func mergeSortBlocks(dst *Result, sbh sortBlocksHeap) { // Skip empty sort blocks, since they cannot be passed to heap.Init. src := sbh sbh = sbh[:0] for _, sb := range src { if len(sb.Timestamps) == 0 { putSortBlock(sb) continue } sbh = append(sbh, sb) } if len(sbh) == 0 { return } heap.Init(&sbh) for { top := sbh[0] heap.Pop(&sbh) if len(sbh) == 0 { dst.Timestamps = append(dst.Timestamps, top.Timestamps[top.NextIdx:]...) dst.Values = append(dst.Values, top.Values[top.NextIdx:]...) putSortBlock(top) return } sbNext := sbh[0] tsNext := sbNext.Timestamps[sbNext.NextIdx] idxNext := len(top.Timestamps) if top.Timestamps[idxNext-1] > tsNext { idxNext = top.NextIdx for top.Timestamps[idxNext] <= tsNext { idxNext++ } } dst.Timestamps = append(dst.Timestamps, top.Timestamps[top.NextIdx:idxNext]...) dst.Values = append(dst.Values, top.Values[top.NextIdx:idxNext]...) if idxNext < len(top.Timestamps) { top.NextIdx = idxNext heap.Push(&sbh, top) } else { // Return top to the pool. putSortBlock(top) } } } type sortBlock struct { // b is used as a temporary storage for unpacked rows before they // go to Timestamps and Values. b storage.Block Timestamps []int64 Values []float64 NextIdx int } func (sb *sortBlock) reset() { sb.b.Reset() sb.Timestamps = sb.Timestamps[:0] sb.Values = sb.Values[:0] sb.NextIdx = 0 } func (sb *sortBlock) unpackFrom(tbf *tmpBlocksFile, addr tmpBlockAddr, tr storage.TimeRange) error { tbf.MustReadBlockAt(&sb.b, addr) if err := sb.b.UnmarshalData(); err != nil { return fmt.Errorf("cannot unmarshal block: %s", err) } timestamps := sb.b.Timestamps() // Skip timestamps smaller than tr.MinTimestamp. i := 0 for i < len(timestamps) && timestamps[i] < tr.MinTimestamp { i++ } // Skip timestamps bigger than tr.MaxTimestamp. j := len(timestamps) for j > i && timestamps[j-1] > tr.MaxTimestamp { j-- } skippedRows := sb.b.RowsCount() - (j - i) metricRowsSkipped.Add(skippedRows) // Copy the remaining values. if i == j { return nil } values := sb.b.Values() sb.Timestamps = append(sb.Timestamps, timestamps[i:j]...) sb.Values = decimal.AppendDecimalToFloat(sb.Values, values[i:j], sb.b.Scale()) return nil } type sortBlocksHeap []*sortBlock func (sbh sortBlocksHeap) Len() int { return len(sbh) } func (sbh sortBlocksHeap) Less(i, j int) bool { a := sbh[i] b := sbh[j] return a.Timestamps[a.NextIdx] < b.Timestamps[b.NextIdx] } func (sbh sortBlocksHeap) Swap(i, j int) { sbh[i], sbh[j] = sbh[j], sbh[i] } func (sbh *sortBlocksHeap) Push(x interface{}) { *sbh = append(*sbh, x.(*sortBlock)) } func (sbh *sortBlocksHeap) Pop() interface{} { a := *sbh v := a[len(a)-1] *sbh = a[:len(a)-1] return v } // DeleteSeries deletes time series matching the given tagFilterss. func DeleteSeries(sq *storage.SearchQuery) (int, error) { tfss, err := setupTfss(sq.TagFilterss) if err != nil { return 0, err } return vmstorage.DeleteMetrics(tfss) } // GetLabels returns labels until the given deadline. func GetLabels(deadline Deadline) ([]string, error) { labels, err := vmstorage.SearchTagKeys(*maxTagKeysPerSearch) if err != nil { return nil, fmt.Errorf("error during labels search: %s", err) } // Substitute "" with "__name__" for i := range labels { if labels[i] == "" { labels[i] = "__name__" } } // Sort labels like Prometheus does sort.Strings(labels) return labels, nil } // GetLabelValues returns label values for the given labelName // until the given deadline. func GetLabelValues(labelName string, deadline Deadline) ([]string, error) { if labelName == "__name__" { labelName = "" } // Search for tag values labelValues, err := vmstorage.SearchTagValues([]byte(labelName), *maxTagValuesPerSearch) if err != nil { return nil, fmt.Errorf("error during label values search for labelName=%q: %s", labelName, err) } // Sort labelValues like Prometheus does sort.Strings(labelValues) return labelValues, nil } // GetLabelEntries returns all the label entries until the given deadline. func GetLabelEntries(deadline Deadline) ([]storage.TagEntry, error) { labelEntries, err := vmstorage.SearchTagEntries(*maxTagKeysPerSearch, *maxTagValuesPerSearch) if err != nil { return nil, fmt.Errorf("error during label entries request: %s", err) } // Substitute "" with "__name__" for i := range labelEntries { e := &labelEntries[i] if e.Key == "" { e.Key = "__name__" } } // Sort labelEntries by the number of label values in each entry. sort.Slice(labelEntries, func(i, j int) bool { a, b := labelEntries[i].Values, labelEntries[j].Values if len(a) < len(b) { return true } if len(a) > len(b) { return false } return labelEntries[i].Key < labelEntries[j].Key }) return labelEntries, nil } // GetSeriesCount returns the number of unique series. func GetSeriesCount(deadline Deadline) (uint64, error) { n, err := vmstorage.GetSeriesCount() if err != nil { return 0, fmt.Errorf("error during series count request: %s", err) } return n, nil } func getStorageSearch() *storage.Search { v := ssPool.Get() if v == nil { return &storage.Search{} } return v.(*storage.Search) } func putStorageSearch(sr *storage.Search) { n := atomic.LoadUint64(&sr.MissingMetricNamesForMetricID) missingMetricNamesForMetricID.Add(int(n)) sr.MustClose() ssPool.Put(sr) } var ssPool sync.Pool var missingMetricNamesForMetricID = metrics.NewCounter(`vm_missing_metric_names_for_metric_id_total`) // ProcessSearchQuery performs sq on storage nodes until the given deadline. func ProcessSearchQuery(sq *storage.SearchQuery, deadline Deadline) (*Results, error) { // Setup search. tfss, err := setupTfss(sq.TagFilterss) if err != nil { return nil, err } tr := storage.TimeRange{ MinTimestamp: sq.MinTimestamp, MaxTimestamp: sq.MaxTimestamp, } vmstorage.WG.Add(1) defer vmstorage.WG.Done() sr := getStorageSearch() defer putStorageSearch(sr) sr.Init(vmstorage.Storage, tfss, tr, *maxMetricsPerSearch) tbf := getTmpBlocksFile() m := make(map[string][]tmpBlockAddr) for sr.NextMetricBlock() { addr, err := tbf.WriteBlock(sr.MetricBlock.Block) if err != nil { putTmpBlocksFile(tbf) return nil, fmt.Errorf("cannot write data to temporary blocks file: %s", err) } if time.Until(deadline.Deadline) < 0 { putTmpBlocksFile(tbf) return nil, fmt.Errorf("timeout exceeded while fetching data from storage: %s", deadline.Timeout) } metricName := sr.MetricBlock.MetricName m[string(metricName)] = append(m[string(metricName)], addr) } if err := sr.Error(); err != nil { putTmpBlocksFile(tbf) return nil, fmt.Errorf("search error: %s", err) } if err := tbf.Finalize(); err != nil { putTmpBlocksFile(tbf) return nil, fmt.Errorf("cannot finalize temporary blocks file: %s", err) } var rss Results rss.packedTimeseries = make([]packedTimeseries, len(m)) rss.tr = tr rss.deadline = deadline rss.tbf = tbf i := 0 for metricName, addrs := range m { pts := &rss.packedTimeseries[i] i++ pts.metricName = metricName pts.addrs = addrs } return &rss, nil } func getResult() *Result { v := rsPool.Get() if v == nil { return &Result{} } return v.(*Result) } func putResult(rs *Result) { if len(rs.Values) > 8192 { // Do not pool big results, since they may occupy too much memory. return } rs.reset() rsPool.Put(rs) } var rsPool sync.Pool func setupTfss(tagFilterss [][]storage.TagFilter) ([]*storage.TagFilters, error) { tfss := make([]*storage.TagFilters, 0, len(tagFilterss)) for _, tagFilters := range tagFilterss { tfs := storage.NewTagFilters() for i := range tagFilters { tf := &tagFilters[i] if err := tfs.Add(tf.Key, tf.Value, tf.IsNegative, tf.IsRegexp); err != nil { return nil, fmt.Errorf("cannot parse tag filter %s: %s", tf, err) } } tfss = append(tfss, tfs) } return tfss, nil } // Deadline contains deadline with the corresponding timeout for pretty error messages. type Deadline struct { Deadline time.Time Timeout time.Duration } // NewDeadline returns deadline for the given timeout. func NewDeadline(timeout time.Duration) Deadline { return Deadline{ Deadline: time.Now().Add(timeout), Timeout: timeout, } }