package common import ( "fmt" "net/http" "github.com/VictoriaMetrics/VictoriaMetrics/app/vminsert/relabel" "github.com/VictoriaMetrics/VictoriaMetrics/app/vmstorage" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/httpserver" "github.com/VictoriaMetrics/VictoriaMetrics/lib/prompb" "github.com/VictoriaMetrics/VictoriaMetrics/lib/storage" ) // InsertCtx contains common bits for data points insertion. type InsertCtx struct { Labels sortedLabels mrs []storage.MetricRow metricNamesBuf []byte relabelCtx relabel.Ctx streamAggrCtx streamAggrCtx skipStreamAggr bool } // Reset resets ctx for future fill with rowsLen rows. func (ctx *InsertCtx) Reset(rowsLen int) { for i := range ctx.Labels { label := &ctx.Labels[i] label.Name = nil label.Value = nil } ctx.Labels = ctx.Labels[:0] mrs := ctx.mrs for i := range mrs { cleanMetricRow(&mrs[i]) } ctx.mrs = mrs[:0] if n := rowsLen - cap(ctx.mrs); n > 0 { ctx.mrs = append(ctx.mrs[:cap(ctx.mrs)], make([]storage.MetricRow, n)...) } ctx.mrs = ctx.mrs[:0] ctx.metricNamesBuf = ctx.metricNamesBuf[:0] ctx.relabelCtx.Reset() ctx.streamAggrCtx.Reset() ctx.skipStreamAggr = false } func cleanMetricRow(mr *storage.MetricRow) { mr.MetricNameRaw = nil } func (ctx *InsertCtx) marshalMetricNameRaw(prefix []byte, labels []prompb.Label) []byte { start := len(ctx.metricNamesBuf) ctx.metricNamesBuf = append(ctx.metricNamesBuf, prefix...) ctx.metricNamesBuf = storage.MarshalMetricNameRaw(ctx.metricNamesBuf, labels) metricNameRaw := ctx.metricNamesBuf[start:] return metricNameRaw[:len(metricNameRaw):len(metricNameRaw)] } // WriteDataPoint writes (timestamp, value) with the given prefix and labels into ctx buffer. func (ctx *InsertCtx) WriteDataPoint(prefix []byte, labels []prompb.Label, timestamp int64, value float64) error { metricNameRaw := ctx.marshalMetricNameRaw(prefix, labels) return ctx.addRow(metricNameRaw, timestamp, value) } // WriteDataPointExt writes (timestamp, value) with the given metricNameRaw and labels into ctx buffer. // // It returns metricNameRaw for the given labels if len(metricNameRaw) == 0. func (ctx *InsertCtx) WriteDataPointExt(metricNameRaw []byte, labels []prompb.Label, timestamp int64, value float64) ([]byte, error) { if len(metricNameRaw) == 0 { metricNameRaw = ctx.marshalMetricNameRaw(nil, labels) } err := ctx.addRow(metricNameRaw, timestamp, value) return metricNameRaw, err } func (ctx *InsertCtx) addRow(metricNameRaw []byte, timestamp int64, value float64) error { mrs := ctx.mrs if cap(mrs) > len(mrs) { mrs = mrs[:len(mrs)+1] } else { mrs = append(mrs, storage.MetricRow{}) } mr := &mrs[len(mrs)-1] ctx.mrs = mrs mr.MetricNameRaw = metricNameRaw mr.Timestamp = timestamp mr.Value = value if len(ctx.metricNamesBuf) > 16*1024*1024 { if err := ctx.FlushBufs(); err != nil { return err } } return nil } // AddLabelBytes adds (name, value) label to ctx.Labels. // // name and value must exist until ctx.Labels is used. func (ctx *InsertCtx) AddLabelBytes(name, value []byte) { if len(value) == 0 { // Skip labels without values, since they have no sense. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/600 // Do not skip labels with empty name, since they are equal to __name__. return } ctx.Labels = append(ctx.Labels, prompb.Label{ // Do not copy name and value contents for performance reasons. // This reduces GC overhead on the number of objects and allocations. Name: name, Value: value, }) } // AddLabel adds (name, value) label to ctx.Labels. // // name and value must exist until ctx.Labels is used. func (ctx *InsertCtx) AddLabel(name, value string) { if len(value) == 0 { // Skip labels without values, since they have no sense. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/600 // Do not skip labels with empty name, since they are equal to __name__. return } ctx.Labels = append(ctx.Labels, prompb.Label{ // Do not copy name and value contents for performance reasons. // This reduces GC overhead on the number of objects and allocations. Name: bytesutil.ToUnsafeBytes(name), Value: bytesutil.ToUnsafeBytes(value), }) } // ApplyRelabeling applies relabeling to ic.Labels. func (ctx *InsertCtx) ApplyRelabeling() { ctx.Labels = ctx.relabelCtx.ApplyRelabeling(ctx.Labels) } // FlushBufs flushes buffered rows to the underlying storage. func (ctx *InsertCtx) FlushBufs() error { sas := sasGlobal.Load() if sas != nil && !ctx.skipStreamAggr { matchIdxs := matchIdxsPool.Get() matchIdxs.B = ctx.streamAggrCtx.push(ctx.mrs, matchIdxs.B) if !*streamAggrKeepInput { // Remove aggregated rows from ctx.mrs ctx.dropAggregatedRows(matchIdxs.B) } matchIdxsPool.Put(matchIdxs) } // There is no need in limiting the number of concurrent calls to vmstorage.AddRows() here, // since the number of concurrent FlushBufs() calls should be already limited via writeconcurrencylimiter // used at every stream.Parse() call under lib/protoparser/* err := vmstorage.AddRows(ctx.mrs) ctx.Reset(0) if err == nil { return nil } return &httpserver.ErrorWithStatusCode{ Err: fmt.Errorf("cannot store metrics: %w", err), StatusCode: http.StatusServiceUnavailable, } } func (ctx *InsertCtx) dropAggregatedRows(matchIdxs []byte) { dst := ctx.mrs[:0] src := ctx.mrs if !*streamAggrDropInput { for idx, match := range matchIdxs { if match != 0 { continue } dst = append(dst, src[idx]) } } tail := src[len(dst):] for i := range tail { cleanMetricRow(&tail[i]) } ctx.mrs = dst } var matchIdxsPool bytesutil.ByteBufferPool