package storage import ( "bytes" "fmt" "runtime" "sort" "strconv" "strings" "sync" "sync/atomic" "time" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "github.com/VictoriaMetrics/VictoriaMetrics/lib/prompb" ) const ( escapeChar = 0 tagSeparatorChar = 1 kvSeparatorChar = 2 ) // Tag represents a (key, value) tag for metric. type Tag struct { Key []byte Value []byte } // Reset resets the tag. func (tag *Tag) Reset() { tag.Key = tag.Key[:0] tag.Value = tag.Value[:0] } // Equal returns true if tag equals t func (tag *Tag) Equal(t *Tag) bool { return string(tag.Key) == string(t.Key) && string(tag.Value) == string(t.Value) } // Marshal appends marshaled tag to dst and returns the result. func (tag *Tag) Marshal(dst []byte) []byte { dst = marshalTagValue(dst, tag.Key) dst = marshalTagValue(dst, tag.Value) return dst } // Unmarshal unmarshals tag from src and returns the remaining data from src. func (tag *Tag) Unmarshal(src []byte) ([]byte, error) { var err error src, tag.Key, err = unmarshalTagValue(tag.Key[:0], src) if err != nil { return src, fmt.Errorf("cannot unmarshal key: %w", err) } src, tag.Value, err = unmarshalTagValue(tag.Value[:0], src) if err != nil { return src, fmt.Errorf("cannot unmarshal value: %w", err) } return src, nil } func (tag *Tag) copyFrom(src *Tag) { tag.Key = append(tag.Key[:0], src.Key...) tag.Value = append(tag.Value[:0], src.Value...) } func marshalTagValueNoTrailingTagSeparator(dst []byte, src string) []byte { dst = marshalTagValue(dst, bytesutil.ToUnsafeBytes(src)) // Remove trailing tagSeparatorChar return dst[:len(dst)-1] } func marshalTagValue(dst, src []byte) []byte { n1 := bytes.IndexByte(src, escapeChar) n2 := bytes.IndexByte(src, tagSeparatorChar) n3 := bytes.IndexByte(src, kvSeparatorChar) if n1 < 0 && n2 < 0 && n3 < 0 { // Fast path. dst = append(dst, src...) dst = append(dst, tagSeparatorChar) return dst } // Slow path. for _, ch := range src { switch ch { case escapeChar: dst = append(dst, escapeChar, '0') case tagSeparatorChar: dst = append(dst, escapeChar, '1') case kvSeparatorChar: dst = append(dst, escapeChar, '2') default: dst = append(dst, ch) } } dst = append(dst, tagSeparatorChar) return dst } func unmarshalTagValue(dst, src []byte) ([]byte, []byte, error) { n := bytes.IndexByte(src, tagSeparatorChar) if n < 0 { return src, dst, fmt.Errorf("cannot find the end of tag value") } b := src[:n] src = src[n+1:] for { n := bytes.IndexByte(b, escapeChar) if n < 0 { dst = append(dst, b...) return src, dst, nil } dst = append(dst, b[:n]...) b = b[n+1:] if len(b) == 0 { return src, dst, fmt.Errorf("missing escaped char") } switch b[0] { case '0': dst = append(dst, escapeChar) case '1': dst = append(dst, tagSeparatorChar) case '2': dst = append(dst, kvSeparatorChar) default: return src, dst, fmt.Errorf("unsupported escaped char: %c", b[0]) } b = b[1:] } } // MetricName reperesents a metric name. type MetricName struct { AccountID uint32 ProjectID uint32 MetricGroup []byte // Tags are optional. They must be sorted by tag Key for canonical view. // Use sortTags method. Tags []Tag } // GetMetricName returns a MetricName from pool. func GetMetricName() *MetricName { v := mnPool.Get() if v == nil { return &MetricName{} } return v.(*MetricName) } // PutMetricName returns mn to the pool. func PutMetricName(mn *MetricName) { mn.Reset() mnPool.Put(mn) } var mnPool sync.Pool // Reset resets the mn. func (mn *MetricName) Reset() { mn.AccountID = 0 mn.ProjectID = 0 mn.MetricGroup = mn.MetricGroup[:0] mn.Tags = mn.Tags[:0] } // MoveFrom moves src to mn. // // The src is reset after the call. func (mn *MetricName) MoveFrom(src *MetricName) { *mn = *src *src = MetricName{} } // CopyFrom copies src to mn. func (mn *MetricName) CopyFrom(src *MetricName) { mn.AccountID = src.AccountID mn.ProjectID = src.ProjectID if cap(mn.MetricGroup) > 0 { mn.MetricGroup = append(mn.MetricGroup[:0], src.MetricGroup...) mn.Tags = copyTags(mn.Tags[:0], src.Tags) return } // Pre-allocate a single byte slice for MetricGroup + all the tags. // This reduces the number of memory allocations for zero mn. size := len(src.MetricGroup) for i := range src.Tags { tag := &src.Tags[i] size += len(tag.Key) size += len(tag.Value) } b := make([]byte, 0, size) b = append(b, src.MetricGroup...) mn.MetricGroup = b[:len(b):len(b)] mn.Tags = make([]Tag, len(src.Tags)) for i := range src.Tags { st := &src.Tags[i] dt := &mn.Tags[i] b = append(b, st.Key...) dt.Key = b[len(b)-len(st.Key) : len(b) : len(b)] b = append(b, st.Value...) dt.Value = b[len(b)-len(st.Value) : len(b) : len(b)] } } // AddTag adds new tag to mn with the given key and value. func (mn *MetricName) AddTag(key, value string) { if key == string(metricGroupTagKey) { mn.MetricGroup = append(mn.MetricGroup, value...) return } tag := mn.addNextTag() tag.Key = append(tag.Key[:0], key...) tag.Value = append(tag.Value[:0], value...) } // AddTagBytes adds new tag to mn with the given key and value. func (mn *MetricName) AddTagBytes(key, value []byte) { if string(key) == string(metricGroupTagKey) { mn.MetricGroup = append(mn.MetricGroup, value...) return } tag := mn.addNextTag() tag.Key = append(tag.Key[:0], key...) tag.Value = append(tag.Value[:0], value...) } func (mn *MetricName) addNextTag() *Tag { if len(mn.Tags) < cap(mn.Tags) { mn.Tags = mn.Tags[:len(mn.Tags)+1] } else { mn.Tags = append(mn.Tags, Tag{}) } return &mn.Tags[len(mn.Tags)-1] } // ResetMetricGroup resets mn.MetricGroup func (mn *MetricName) ResetMetricGroup() { mn.MetricGroup = mn.MetricGroup[:0] } var metricGroupTagKey = []byte("__name__") // RemoveTagsOn removes all the tags not included to onTags. func (mn *MetricName) RemoveTagsOn(onTags []string) { if !hasTag(onTags, metricGroupTagKey) { mn.ResetMetricGroup() } tags := mn.Tags mn.Tags = mn.Tags[:0] if len(onTags) == 0 { return } for i := range tags { tag := &tags[i] if hasTag(onTags, tag.Key) { mn.AddTagBytes(tag.Key, tag.Value) } } } // RemoveTag removes a tag with the given tagKey func (mn *MetricName) RemoveTag(tagKey string) { if tagKey == "__name__" { mn.ResetMetricGroup() return } tags := mn.Tags mn.Tags = mn.Tags[:0] for i := range tags { tag := &tags[i] if string(tag.Key) != tagKey { mn.AddTagBytes(tag.Key, tag.Value) } } } // RemoveTagsIgnoring removes all the tags included in ignoringTags. func (mn *MetricName) RemoveTagsIgnoring(ignoringTags []string) { if len(ignoringTags) == 0 { return } if hasTag(ignoringTags, metricGroupTagKey) { mn.ResetMetricGroup() } tags := mn.Tags mn.Tags = mn.Tags[:0] for i := range tags { tag := &tags[i] if !hasTag(ignoringTags, tag.Key) { mn.AddTagBytes(tag.Key, tag.Value) } } } // GetTagValue returns tag value for the given tagKey. func (mn *MetricName) GetTagValue(tagKey string) []byte { if tagKey == "__name__" { return mn.MetricGroup } tags := mn.Tags for i := range tags { tag := &tags[i] if string(tag.Key) == tagKey { return tag.Value } } return nil } // SetTags sets tags from src with keys matching addTags. // // It adds prefix to copied label names. // skipTags contains a list of tags, which must be skipped. func (mn *MetricName) SetTags(addTags []string, prefix string, skipTags []string, src *MetricName) { if len(addTags) == 1 && addTags[0] == "*" { // Special case for copying all the tags except of skipTags from src to mn. mn.setAllTags(prefix, skipTags, src) return } bb := bbPool.Get() for _, tagName := range addTags { if containsString(skipTags, tagName) { continue } if tagName == string(metricGroupTagKey) { mn.MetricGroup = append(mn.MetricGroup[:0], src.MetricGroup...) continue } var srcTag *Tag for i := range src.Tags { t := &src.Tags[i] if string(t.Key) == tagName { srcTag = t break } } if srcTag == nil { mn.RemoveTag(tagName) continue } bb.B = append(bb.B[:0], prefix...) bb.B = append(bb.B, tagName...) mn.SetTagBytes(bb.B, srcTag.Value) } bbPool.Put(bb) } var bbPool bytesutil.ByteBufferPool // SetTagBytes sets tag with the given key to the given value. func (mn *MetricName) SetTagBytes(key, value []byte) { for i := range mn.Tags { t := &mn.Tags[i] if string(t.Key) == string(key) { t.Value = append(t.Value[:0], value...) return } } mn.AddTagBytes(key, value) } func (mn *MetricName) setAllTags(prefix string, skipTags []string, src *MetricName) { bb := bbPool.Get() for _, tag := range src.Tags { if containsString(skipTags, bytesutil.ToUnsafeString(tag.Key)) { continue } bb.B = append(bb.B[:0], prefix...) bb.B = append(bb.B, tag.Key...) mn.SetTagBytes(bb.B, tag.Value) } bbPool.Put(bb) } func containsString(a []string, s string) bool { for _, x := range a { if x == s { return true } } return false } func hasTag(tags []string, key []byte) bool { for _, t := range tags { if t == string(key) { return true } } return false } // String returns user-readable representation of the metric name. func (mn *MetricName) String() string { var mnCopy MetricName mnCopy.CopyFrom(mn) mnCopy.sortTags() var tags []string for i := range mnCopy.Tags { t := &mnCopy.Tags[i] tags = append(tags, fmt.Sprintf("%s=%q", t.Key, t.Value)) } tagsStr := strings.Join(tags, ",") return fmt.Sprintf("AccountID=%d, ProjectID=%d, %s{%s}", mnCopy.AccountID, mnCopy.ProjectID, mnCopy.MetricGroup, tagsStr) } // Marshal appends marshaled mn to dst and returns the result. // // mn.sortTags must be called before calling this function // in order to sort and de-duplcate tags. func (mn *MetricName) Marshal(dst []byte) []byte { // Calculate the required size and pre-allocate space in dst dstLen := len(dst) requiredSize := 8 + len(mn.MetricGroup) + 1 for i := range mn.Tags { tag := &mn.Tags[i] requiredSize += len(tag.Key) + len(tag.Value) + 2 } dst = bytesutil.ResizeWithCopyMayOverallocate(dst, requiredSize)[:dstLen] dst = encoding.MarshalUint32(dst, mn.AccountID) dst = encoding.MarshalUint32(dst, mn.ProjectID) dst = marshalTagValue(dst, mn.MetricGroup) // Marshal tags. tags := mn.Tags for i := range tags { t := &tags[i] dst = t.Marshal(dst) } return dst } // UnmarshalString unmarshals mn from s func (mn *MetricName) UnmarshalString(s string) error { b := bytesutil.ToUnsafeBytes(s) err := mn.Unmarshal(b) runtime.KeepAlive(s) return err } // Unmarshal unmarshals mn from src. func (mn *MetricName) Unmarshal(src []byte) error { if len(src) < 8 { return fmt.Errorf("too short src: %d bytes; must be at least 8 bytes", len(src)) } mn.AccountID = encoding.UnmarshalUint32(src) mn.ProjectID = encoding.UnmarshalUint32(src[4:]) src = src[8:] // Unmarshal MetricGroup. var err error src, mn.MetricGroup, err = unmarshalTagValue(mn.MetricGroup[:0], src) if err != nil { return fmt.Errorf("cannot unmarshal MetricGroup: %w", err) } mn.Tags = mn.Tags[:0] for len(src) > 0 { tag := mn.addNextTag() var err error src, err = tag.Unmarshal(src) if err != nil { return fmt.Errorf("cannot unmarshal tag: %w", err) } } // There is no need in verifying for identical tag keys, // since they must be handled by MetricName.sortTags before calling MetricName.Marshal. return nil } // MarshalNoAccountIDProjectID appends marshaled mn without AccountID and ProjectID // to dst and returns the result. // // The result must be unmarshaled with UnmarshalNoAccountIDProjectID. // // It is expected that mn.Tags are already sorted and de-duplicated with mn.sortTags. func (mn *MetricName) MarshalNoAccountIDProjectID(dst []byte) []byte { // Calculate the required size and pre-allocate space in dst dstLen := len(dst) requiredSize := len(mn.MetricGroup) + 1 for i := range mn.Tags { tag := &mn.Tags[i] requiredSize += len(tag.Key) + len(tag.Value) + 2 } dst = bytesutil.ResizeWithCopyMayOverallocate(dst, requiredSize)[:dstLen] dst = marshalTagValue(dst, mn.MetricGroup) tags := mn.Tags for i := range tags { t := &tags[i] dst = t.Marshal(dst) } return dst } // UnmarshalNoAccountIDProjectID unmarshals mn, which has been marshaled with MarshalNoAccountIDProjectID func (mn *MetricName) UnmarshalNoAccountIDProjectID(src []byte) error { mn.AccountID = 0 mn.ProjectID = 0 // Unmarshal MetricGroup. var err error src, mn.MetricGroup, err = unmarshalTagValue(mn.MetricGroup[:0], src) if err != nil { return fmt.Errorf("cannot unmarshal MetricGroup: %w", err) } mn.Tags = mn.Tags[:0] for len(src) > 0 { tag := mn.addNextTag() var err error src, err = tag.Unmarshal(src) if err != nil { return fmt.Errorf("cannot unmarshal tag: %w", err) } } // There is no need in verifying for identical tag keys, // since they must be handled by the caller (/api/v1/import/native) return nil } // The maximum length of label name. // // Longer names are truncated. const maxLabelNameLen = 256 // The maximum length of label value. // // Longer values are truncated. var maxLabelValueLen = 16 * 1024 // SetMaxLabelValueLen sets the limit on the label value length. // // This function can be called before using the storage package. // // Label values with longer length are truncated. func SetMaxLabelValueLen(n int) { if n > 0 { maxLabelValueLen = n } } // The maximum number of labels per each timeseries. var maxLabelsPerTimeseries = 30 // SetMaxLabelsPerTimeseries sets the limit on the number of labels // per each time series. // // This function can be called before using the storage package. // // Superfluous labels are dropped. func SetMaxLabelsPerTimeseries(maxLabels int) { if maxLabels > 0 { maxLabelsPerTimeseries = maxLabels } } // MarshalMetricNameRaw marshals labels to dst and returns the result. // // The result must be unmarshaled with MetricName.UnmarshalRaw func MarshalMetricNameRaw(dst []byte, accountID, projectID uint32, labels []prompb.Label) []byte { // Calculate the required space for dst. dstLen := len(dst) dstSize := dstLen + 8 for i := range labels { if i >= maxLabelsPerTimeseries { trackDroppedLabels(labels, labels[i:], accountID, projectID) break } label := &labels[i] if len(label.Name) > maxLabelNameLen { atomic.AddUint64(&TooLongLabelNames, 1) label.Name = label.Name[:maxLabelNameLen] } if len(label.Value) > maxLabelValueLen { trackTruncatedLabels(labels, label, accountID, projectID) label.Value = label.Value[:maxLabelValueLen] } if len(label.Value) == 0 { // Skip labels without values, since they have no sense in prometheus. continue } if string(label.Name) == "__name__" { label.Name = label.Name[:0] } dstSize += len(label.Name) dstSize += len(label.Value) dstSize += 4 } dst = bytesutil.ResizeWithCopyMayOverallocate(dst, dstSize)[:dstLen] // Marshal labels to dst. dst = encoding.MarshalUint32(dst, accountID) dst = encoding.MarshalUint32(dst, projectID) for i := range labels { if i >= maxLabelsPerTimeseries { break } label := &labels[i] if len(label.Value) == 0 { // Skip labels without values, since they have no sense in prometheus. continue } dst = marshalStringFast(dst, label.Name) dst = marshalStringFast(dst, label.Value) } return dst } var ( // MetricsWithDroppedLabels is the number of metrics with at least a single dropped label MetricsWithDroppedLabels uint64 // TooLongLabelNames is the number of too long label names TooLongLabelNames uint64 // TooLongLabelValues is the number of too long label values TooLongLabelValues uint64 ) func trackDroppedLabels(labels, droppedLabels []prompb.Label, accountID, projectID uint32) { atomic.AddUint64(&MetricsWithDroppedLabels, 1) select { case <-droppedLabelsLogTicker.C: // Do not call logger.WithThrottler() here, since this will result in increased CPU usage // because labelsToString() will be called with each trackDroppedLabels call. logger.Warnf("dropping %d labels for %s; dropped labels: %s; tenant: %d:%d; either reduce the number of labels for this metric "+ "or increase -maxLabelsPerTimeseries=%d command-line flag value", len(droppedLabels), labelsToString(labels), labelsToString(droppedLabels), accountID, projectID, maxLabelsPerTimeseries) default: } } func trackTruncatedLabels(labels []prompb.Label, truncated *prompb.Label, accountID, projectID uint32) { atomic.AddUint64(&TooLongLabelValues, 1) select { case <-truncatedLabelsLogTicker.C: // Do not call logger.WithThrottler() here, since this will result in increased CPU usage // because labelsToString() will be called with each trackTruncatedLabels call. logger.Warnf("truncate value for label %s because its length=%d exceeds -maxLabelValueLen=%d; "+ "original labels: %s; tenant: %d:%d; either reduce the label value length or increase -maxLabelValueLen command-line flag value", truncated.Name, len(truncated.Value), maxLabelValueLen, labelsToString(labels), accountID, projectID) default: } } var droppedLabelsLogTicker = time.NewTicker(5 * time.Second) var truncatedLabelsLogTicker = time.NewTicker(5 * time.Second) func labelsToString(labels []prompb.Label) string { labelsCopy := append([]prompb.Label{}, labels...) sort.Slice(labelsCopy, func(i, j int) bool { return string(labelsCopy[i].Name) < string(labelsCopy[j].Name) }) var b []byte b = append(b, '{') for i, label := range labelsCopy { if len(label.Name) == 0 { b = append(b, "__name__"...) } else { b = append(b, label.Name...) } b = append(b, '=') b = strconv.AppendQuote(b, string(label.Value)) if i < len(labels)-1 { b = append(b, ',') } } b = append(b, '}') return string(b) } // MarshalMetricLabelRaw marshals label to dst. func MarshalMetricLabelRaw(dst []byte, label *prompb.Label) []byte { dst = marshalStringFast(dst, label.Name) dst = marshalStringFast(dst, label.Value) return dst } // marshalRaw marshals mn to dst and returns the result. // // The results may be unmarshaled with MetricName.UnmarshalRaw. // // This function is for testing purposes. MarshalMetricNameRaw must be used // in prod instead. func (mn *MetricName) marshalRaw(dst []byte) []byte { dst = encoding.MarshalUint32(dst, mn.AccountID) dst = encoding.MarshalUint32(dst, mn.ProjectID) dst = marshalBytesFast(dst, nil) dst = marshalBytesFast(dst, mn.MetricGroup) mn.sortTags() for i := range mn.Tags { tag := &mn.Tags[i] dst = marshalBytesFast(dst, tag.Key) dst = marshalBytesFast(dst, tag.Value) } return dst } // UnmarshalRaw unmarshals mn encoded with MarshalMetricNameRaw. func (mn *MetricName) UnmarshalRaw(src []byte) error { mn.Reset() if len(src) < 4 { return fmt.Errorf("not enough data for decoding accountID; got %d bytes; %X; want at least 4 bytes", len(src), src) } mn.AccountID = encoding.UnmarshalUint32(src) src = src[4:] if len(src) < 4 { return fmt.Errorf("not enough data for decoding projectID; got %d bytes; %X; want at least 4 bytes", len(src), src) } mn.ProjectID = encoding.UnmarshalUint32(src) src = src[4:] for len(src) > 0 { tail, key, err := unmarshalBytesFast(src) if err != nil { return fmt.Errorf("cannot decode key: %w", err) } src = tail tail, value, err := unmarshalBytesFast(src) if err != nil { return fmt.Errorf("cannot decode value: %w", err) } src = tail if len(key) == 0 { mn.MetricGroup = append(mn.MetricGroup[:0], value...) } else { mn.AddTagBytes(key, value) } } return nil } func marshalStringFast(dst []byte, s string) []byte { dst = encoding.MarshalUint16(dst, uint16(len(s))) dst = append(dst, s...) return dst } func marshalBytesFast(dst []byte, s []byte) []byte { dst = encoding.MarshalUint16(dst, uint16(len(s))) dst = append(dst, s...) return dst } func unmarshalBytesFast(src []byte) ([]byte, []byte, error) { if len(src) < 2 { return src, nil, fmt.Errorf("cannot decode size form src=%X; it must be at least 2 bytes", src) } n := encoding.UnmarshalUint16(src) src = src[2:] if len(src) < int(n) { return src, nil, fmt.Errorf("too short src=%X; it must be at least %d bytes", src, n) } return src[n:], src[:n], nil } // sortTags sorts tags in mn to canonical form needed for storing in the index. // // The sortTags tries moving job-like tag to mn.Tags[0], while instance-like tag to mn.Tags[1]. // See commonTagKeys list for job-like and instance-like tags. // This guarantees that indexdb entries for the same (job, instance) are located // close to each other on disk. This reduces disk seeks and disk read IO when metrics // for a particular job and/or instance are read from the disk. // // The function also de-duplicates tags with identical keys in mn. The last tag value // for duplicate tags wins. // // Tags sorting is quite slow, so try avoiding it by caching mn // with sorted tags. func (mn *MetricName) sortTags() { if len(mn.Tags) == 0 { return } cts := getCanonicalTags() if n := len(mn.Tags) - cap(cts.tags); n > 0 { cts.tags = append(cts.tags[:cap(cts.tags)], make([]canonicalTag, n)...) } dst := cts.tags[:len(mn.Tags)] for i := range mn.Tags { tag := &mn.Tags[i] ct := &dst[i] ct.key = normalizeTagKey(tag.Key) ct.tag.copyFrom(tag) } cts.tags = dst // Use sort.Stable instead of sort.Sort in order to preserve the order of tags with duplicate keys. // The last tag value wins for tags with duplicate keys. // Use sort.Stable instead of sort.SliceStable, since sort.SliceStable allocates a lot. sort.Stable(&cts.tags) j := 0 var prevKey []byte for i := range cts.tags { tag := &cts.tags[i].tag if j > 0 && bytes.Equal(tag.Key, prevKey) { // Overwrite the previous tag with duplicate key. j-- } else { prevKey = tag.Key } mn.Tags[j].copyFrom(tag) j++ } mn.Tags = mn.Tags[:j] putCanonicalTags(cts) } func getCanonicalTags() *canonicalTags { v := canonicalTagsPool.Get() if v == nil { return &canonicalTags{} } return v.(*canonicalTags) } func putCanonicalTags(cts *canonicalTags) { cts.tags = cts.tags[:0] canonicalTagsPool.Put(cts) } var canonicalTagsPool sync.Pool type canonicalTags struct { tags canonicalTagsSort } type canonicalTag struct { key []byte tag Tag } type canonicalTagsSort []canonicalTag func (ts *canonicalTagsSort) Len() int { return len(*ts) } func (ts *canonicalTagsSort) Less(i, j int) bool { x := *ts return string(x[i].key) < string(x[j].key) } func (ts *canonicalTagsSort) Swap(i, j int) { x := *ts x[i], x[j] = x[j], x[i] } func copyTags(dst, src []Tag) []Tag { dstLen := len(dst) if n := dstLen + len(src) - cap(dst); n > 0 { dst = append(dst[:cap(dst)], make([]Tag, n)...) } dst = dst[:dstLen+len(src)] for i := range src { dst[dstLen+i].copyFrom(&src[i]) } return dst } var commonTagKeys = func() map[string][]byte { lcm := map[string][]byte{ // job-like tags must go first in MetricName.Tags. // This should improve data locality. // They start with \x00\x00. // Do not change values! // // TODO: add more job-like tags. "namespace": []byte("\x00\x00\x00"), "ns": []byte("\x00\x00\x01"), "datacenter": []byte("\x00\x00\x08"), "dc": []byte("\x00\x00\x09"), "environment": []byte("\x00\x00\x0c"), "env": []byte("\x00\x00\x0d"), "cluster": []byte("\x00\x00\x10"), "service": []byte("\x00\x00\x18"), "job": []byte("\x00\x00\x20"), "model": []byte("\x00\x00\x28"), "type": []byte("\x00\x00\x30"), "sensor_type": []byte("\x00\x00\x38"), "SensorType": []byte("\x00\x00\x38"), "db": []byte("\x00\x00\x40"), // instance-like tags must go second in MetricName.Tags. // This should improve data locality. // They start with \x00\x01. // Do not change values! // // TODO: add more instance-like tags. "instance": []byte("\x00\x01\x00"), "host": []byte("\x00\x01\x08"), "server": []byte("\x00\x01\x10"), "pod": []byte("\x00\x01\x18"), "node": []byte("\x00\x01\x20"), "device": []byte("\x00\x01\x28"), "tenant": []byte("\x00\x01\x30"), "client": []byte("\x00\x01\x38"), "name": []byte("\x00\x01\x40"), "measurement": []byte("\x00\x01\x48"), } // Generate Upper-case variants of lc m := make(map[string][]byte, len(lcm)*2) for k, v := range lcm { s := strings.ToUpper(k[:1]) + k[1:] m[k] = v m[s] = v } return m }() func normalizeTagKey(key []byte) []byte { tagKey := commonTagKeys[string(key)] if tagKey == nil { return key } return tagKey }