// Copyright 2014 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 model import ( "bytes" "hash" "hash/fnv" "sort" "sync" ) // SeparatorByte is a byte that cannot occur in valid UTF-8 sequences and is // used to separate label names, label values, and other strings from each other // when calculating their combined hash value (aka signature aka fingerprint). const SeparatorByte byte = 255 var ( // cache the signature of an empty label set. emptyLabelSignature = fnv.New64a().Sum64() hashAndBufPool sync.Pool ) type hashAndBuf struct { h hash.Hash64 b bytes.Buffer } func getHashAndBuf() *hashAndBuf { hb := hashAndBufPool.Get() if hb == nil { return &hashAndBuf{h: fnv.New64a()} } return hb.(*hashAndBuf) } func putHashAndBuf(hb *hashAndBuf) { hb.h.Reset() hb.b.Reset() hashAndBufPool.Put(hb) } // LabelsToSignature returns a quasi-unique signature (i.e., fingerprint) for a // given label set. (Collisions are possible but unlikely if the number of label // sets the function is applied to is small.) func LabelsToSignature(labels map[string]string) uint64 { if len(labels) == 0 { return emptyLabelSignature } labelNames := make([]string, 0, len(labels)) for labelName := range labels { labelNames = append(labelNames, labelName) } sort.Strings(labelNames) hb := getHashAndBuf() defer putHashAndBuf(hb) for _, labelName := range labelNames { hb.b.WriteString(labelName) hb.b.WriteByte(SeparatorByte) hb.b.WriteString(labels[labelName]) hb.b.WriteByte(SeparatorByte) hb.h.Write(hb.b.Bytes()) hb.b.Reset() } return hb.h.Sum64() } // labelSetToFingerprint works exactly as LabelsToSignature but takes a LabelSet as // parameter (rather than a label map) and returns a Fingerprint. func labelSetToFingerprint(ls LabelSet) Fingerprint { if len(ls) == 0 { return Fingerprint(emptyLabelSignature) } labelNames := make(LabelNames, 0, len(ls)) for labelName := range ls { labelNames = append(labelNames, labelName) } sort.Sort(labelNames) hb := getHashAndBuf() defer putHashAndBuf(hb) for _, labelName := range labelNames { hb.b.WriteString(string(labelName)) hb.b.WriteByte(SeparatorByte) hb.b.WriteString(string(ls[labelName])) hb.b.WriteByte(SeparatorByte) hb.h.Write(hb.b.Bytes()) hb.b.Reset() } return Fingerprint(hb.h.Sum64()) } // labelSetToFastFingerprint works similar to labelSetToFingerprint but uses a // faster and less allocation-heavy hash function, which is more susceptible to // create hash collisions. Therefore, collision detection should be applied. func labelSetToFastFingerprint(ls LabelSet) Fingerprint { if len(ls) == 0 { return Fingerprint(emptyLabelSignature) } var result uint64 hb := getHashAndBuf() defer putHashAndBuf(hb) for labelName, labelValue := range ls { hb.b.WriteString(string(labelName)) hb.b.WriteByte(SeparatorByte) hb.b.WriteString(string(labelValue)) hb.h.Write(hb.b.Bytes()) result ^= hb.h.Sum64() hb.h.Reset() hb.b.Reset() } return Fingerprint(result) } // SignatureForLabels works like LabelsToSignature but takes a Metric as // parameter (rather than a label map) and only includes the labels with the // specified LabelNames into the signature calculation. The labels passed in // will be sorted by this function. func SignatureForLabels(m Metric, labels ...LabelName) uint64 { if len(m) == 0 || len(labels) == 0 { return emptyLabelSignature } sort.Sort(LabelNames(labels)) hb := getHashAndBuf() defer putHashAndBuf(hb) for _, label := range labels { hb.b.WriteString(string(label)) hb.b.WriteByte(SeparatorByte) hb.b.WriteString(string(m[label])) hb.b.WriteByte(SeparatorByte) hb.h.Write(hb.b.Bytes()) hb.b.Reset() } return hb.h.Sum64() } // SignatureWithoutLabels works like LabelsToSignature but takes a Metric as // parameter (rather than a label map) and excludes the labels with any of the // specified LabelNames from the signature calculation. func SignatureWithoutLabels(m Metric, labels map[LabelName]struct{}) uint64 { if len(m) == 0 { return emptyLabelSignature } labelNames := make(LabelNames, 0, len(m)) for labelName := range m { if _, exclude := labels[labelName]; !exclude { labelNames = append(labelNames, labelName) } } if len(labelNames) == 0 { return emptyLabelSignature } sort.Sort(labelNames) hb := getHashAndBuf() defer putHashAndBuf(hb) for _, labelName := range labelNames { hb.b.WriteString(string(labelName)) hb.b.WriteByte(SeparatorByte) hb.b.WriteString(string(m[labelName])) hb.b.WriteByte(SeparatorByte) hb.h.Write(hb.b.Bytes()) hb.b.Reset() } return hb.h.Sum64() }