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818 lines
23 KiB
818 lines
23 KiB
// Copyright 2024 The Prometheus Authors
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//go:build dedupelabels
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package labels
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import (
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"bytes"
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"slices"
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"strings"
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"sync"
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"github.com/cespare/xxhash/v2"
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)
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// Labels is implemented by a SymbolTable and string holding name/value
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// pairs encoded as indexes into the table in varint encoding.
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// Names are in alphabetical order.
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type Labels struct {
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syms *nameTable
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data string
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}
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// Split SymbolTable into the part used by Labels and the part used by Builder. Only the latter needs the map.
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// This part is used by Labels. All fields are immutable after construction.
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type nameTable struct {
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byNum []string // This slice header is never changed, even while we are building the symbol table.
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symbolTable *SymbolTable // If we need to use it in a Builder.
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}
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// SymbolTable is used to map strings into numbers so they can be packed together.
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type SymbolTable struct {
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mx sync.Mutex
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*nameTable
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nextNum int
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byName map[string]int
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}
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const defaultSymbolTableSize = 1024
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func NewSymbolTable() *SymbolTable {
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t := &SymbolTable{
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nameTable: &nameTable{byNum: make([]string, defaultSymbolTableSize)},
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byName: make(map[string]int, defaultSymbolTableSize),
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}
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t.nameTable.symbolTable = t
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return t
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}
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func (t *SymbolTable) Len() int {
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t.mx.Lock()
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defer t.mx.Unlock()
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return len(t.byName)
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}
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// ToNum maps a string to an integer, adding the string to the table if it is not already there.
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// Note: copies the string before adding, in case the caller passed part of
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// a buffer that should not be kept alive by this SymbolTable.
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func (t *SymbolTable) ToNum(name string) int {
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t.mx.Lock()
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defer t.mx.Unlock()
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return t.toNumUnlocked(name)
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}
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func (t *SymbolTable) toNumUnlocked(name string) int {
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if i, found := t.byName[name]; found {
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return i
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}
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i := t.nextNum
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if t.nextNum == cap(t.byNum) {
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// Name table is full; copy to a new one. Don't touch the existing slice, as nameTable is immutable after construction.
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newSlice := make([]string, cap(t.byNum)*2)
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copy(newSlice, t.byNum)
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t.nameTable = &nameTable{byNum: newSlice, symbolTable: t}
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}
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name = strings.Clone(name)
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t.byNum[i] = name
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t.byName[name] = i
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t.nextNum++
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return i
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}
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func (t *SymbolTable) checkNum(name string) (int, bool) {
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t.mx.Lock()
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defer t.mx.Unlock()
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i, bool := t.byName[name]
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return i, bool
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}
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// ToName maps an integer to a string.
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func (t *nameTable) ToName(num int) string {
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return t.byNum[num]
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}
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// "Varint" in this file is non-standard: we encode small numbers (up to 32767) in 2 bytes,
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// because we expect most Prometheus to have more than 127 unique strings.
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// And we don't encode numbers larger than 4 bytes because we don't expect more than 536,870,912 unique strings.
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func decodeVarint(data string, index int) (int, int) {
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b := int(data[index]) + int(data[index+1])<<8
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index += 2
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if b < 0x8000 {
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return b, index
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}
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return decodeVarintRest(b, data, index)
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}
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func decodeVarintRest(b int, data string, index int) (int, int) {
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value := int(b & 0x7FFF)
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b = int(data[index])
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index++
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if b < 0x80 {
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return value | (b << 15), index
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}
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value |= (b & 0x7f) << 15
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b = int(data[index])
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index++
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return value | (b << 22), index
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}
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func decodeString(t *nameTable, data string, index int) (string, int) {
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// Copy decodeVarint here, because the Go compiler says it's too big to inline.
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num := int(data[index]) + int(data[index+1])<<8
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index += 2
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if num >= 0x8000 {
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num, index = decodeVarintRest(num, data, index)
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}
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return t.ToName(num), index
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}
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// Bytes returns ls as a byte slice.
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// It uses non-printing characters and so should not be used for printing.
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func (ls Labels) Bytes(buf []byte) []byte {
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b := bytes.NewBuffer(buf[:0])
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for i := 0; i < len(ls.data); {
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if i > 0 {
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b.WriteByte(seps[0])
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}
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var name, value string
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name, i = decodeString(ls.syms, ls.data, i)
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value, i = decodeString(ls.syms, ls.data, i)
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b.WriteString(name)
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b.WriteByte(seps[0])
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b.WriteString(value)
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}
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return b.Bytes()
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}
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// IsZero implements yaml.IsZeroer - if we don't have this then 'omitempty' fields are always omitted.
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func (ls Labels) IsZero() bool {
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return len(ls.data) == 0
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}
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// MatchLabels returns a subset of Labels that matches/does not match with the provided label names based on the 'on' boolean.
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// If on is set to true, it returns the subset of labels that match with the provided label names and its inverse when 'on' is set to false.
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// TODO: This is only used in printing an error message
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func (ls Labels) MatchLabels(on bool, names ...string) Labels {
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b := NewBuilder(ls)
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if on {
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b.Keep(names...)
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} else {
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b.Del(MetricName)
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b.Del(names...)
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}
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return b.Labels()
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}
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// Hash returns a hash value for the label set.
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// Note: the result is not guaranteed to be consistent across different runs of Prometheus.
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func (ls Labels) Hash() uint64 {
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// Use xxhash.Sum64(b) for fast path as it's faster.
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b := make([]byte, 0, 1024)
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for pos := 0; pos < len(ls.data); {
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name, newPos := decodeString(ls.syms, ls.data, pos)
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value, newPos := decodeString(ls.syms, ls.data, newPos)
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if len(b)+len(name)+len(value)+2 >= cap(b) {
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// If labels entry is 1KB+, hash the rest of them via Write().
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h := xxhash.New()
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_, _ = h.Write(b)
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for pos < len(ls.data) {
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name, pos = decodeString(ls.syms, ls.data, pos)
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value, pos = decodeString(ls.syms, ls.data, pos)
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_, _ = h.WriteString(name)
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_, _ = h.Write(seps)
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_, _ = h.WriteString(value)
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_, _ = h.Write(seps)
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}
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return h.Sum64()
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}
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b = append(b, name...)
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b = append(b, seps[0])
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b = append(b, value...)
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b = append(b, seps[0])
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pos = newPos
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}
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return xxhash.Sum64(b)
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}
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// HashForLabels returns a hash value for the labels matching the provided names.
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// 'names' have to be sorted in ascending order.
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func (ls Labels) HashForLabels(b []byte, names ...string) (uint64, []byte) {
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b = b[:0]
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j := 0
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for i := 0; i < len(ls.data); {
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var name, value string
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name, i = decodeString(ls.syms, ls.data, i)
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value, i = decodeString(ls.syms, ls.data, i)
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for j < len(names) && names[j] < name {
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j++
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}
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if j == len(names) {
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break
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}
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if name == names[j] {
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b = append(b, name...)
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b = append(b, seps[0])
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b = append(b, value...)
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b = append(b, seps[0])
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}
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}
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return xxhash.Sum64(b), b
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}
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// HashWithoutLabels returns a hash value for all labels except those matching
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// the provided names.
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// 'names' have to be sorted in ascending order.
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func (ls Labels) HashWithoutLabels(b []byte, names ...string) (uint64, []byte) {
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b = b[:0]
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j := 0
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for i := 0; i < len(ls.data); {
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var name, value string
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name, i = decodeString(ls.syms, ls.data, i)
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value, i = decodeString(ls.syms, ls.data, i)
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for j < len(names) && names[j] < name {
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j++
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}
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if name == MetricName || (j < len(names) && name == names[j]) {
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continue
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}
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b = append(b, name...)
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b = append(b, seps[0])
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b = append(b, value...)
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b = append(b, seps[0])
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}
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return xxhash.Sum64(b), b
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}
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// BytesWithLabels is just as Bytes(), but only for labels matching names.
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// 'names' have to be sorted in ascending order.
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func (ls Labels) BytesWithLabels(buf []byte, names ...string) []byte {
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b := bytes.NewBuffer(buf[:0])
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j := 0
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for pos := 0; pos < len(ls.data); {
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lName, newPos := decodeString(ls.syms, ls.data, pos)
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lValue, newPos := decodeString(ls.syms, ls.data, newPos)
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for j < len(names) && names[j] < lName {
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j++
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}
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if j == len(names) {
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break
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}
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if lName == names[j] {
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if b.Len() > 1 {
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b.WriteByte(seps[0])
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}
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b.WriteString(lName)
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b.WriteByte(seps[0])
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b.WriteString(lValue)
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}
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pos = newPos
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}
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return b.Bytes()
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}
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// BytesWithoutLabels is just as Bytes(), but only for labels not matching names.
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// 'names' have to be sorted in ascending order.
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func (ls Labels) BytesWithoutLabels(buf []byte, names ...string) []byte {
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b := bytes.NewBuffer(buf[:0])
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j := 0
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for pos := 0; pos < len(ls.data); {
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lName, newPos := decodeString(ls.syms, ls.data, pos)
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lValue, newPos := decodeString(ls.syms, ls.data, newPos)
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for j < len(names) && names[j] < lName {
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j++
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}
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if j == len(names) || lName != names[j] {
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if b.Len() > 1 {
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b.WriteByte(seps[0])
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}
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b.WriteString(lName)
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b.WriteByte(seps[0])
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b.WriteString(lValue)
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}
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pos = newPos
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}
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return b.Bytes()
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}
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// Copy returns a copy of the labels.
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func (ls Labels) Copy() Labels {
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return Labels{syms: ls.syms, data: strings.Clone(ls.data)}
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}
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// Get returns the value for the label with the given name.
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// Returns an empty string if the label doesn't exist.
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func (ls Labels) Get(name string) string {
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if name == "" { // Avoid crash in loop if someone asks for "".
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return "" // Prometheus does not store blank label names.
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}
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for i := 0; i < len(ls.data); {
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var lName, lValue string
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lName, i = decodeString(ls.syms, ls.data, i)
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if lName == name {
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lValue, _ = decodeString(ls.syms, ls.data, i)
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return lValue
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} else if lName[0] > name[0] { // Stop looking if we've gone past.
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break
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}
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// Copy decodeVarint here, because the Go compiler says it's too big to inline.
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num := int(ls.data[i]) + int(ls.data[i+1])<<8
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i += 2
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if num >= 0x8000 {
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_, i = decodeVarintRest(num, ls.data, i)
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}
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}
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return ""
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}
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// Has returns true if the label with the given name is present.
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func (ls Labels) Has(name string) bool {
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if name == "" { // Avoid crash in loop if someone asks for "".
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return false // Prometheus does not store blank label names.
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}
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for i := 0; i < len(ls.data); {
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var lName string
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lName, i = decodeString(ls.syms, ls.data, i)
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if lName == name {
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return true
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} else if lName[0] > name[0] { // Stop looking if we've gone past.
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break
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}
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// Copy decodeVarint here, because the Go compiler says it's too big to inline.
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num := int(ls.data[i]) + int(ls.data[i+1])<<8
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i += 2
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if num >= 0x8000 {
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_, i = decodeVarintRest(num, ls.data, i)
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}
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}
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return false
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}
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// HasDuplicateLabelNames returns whether ls has duplicate label names.
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// It assumes that the labelset is sorted.
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func (ls Labels) HasDuplicateLabelNames() (string, bool) {
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prevNum := -1
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for i := 0; i < len(ls.data); {
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var lNum int
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lNum, i = decodeVarint(ls.data, i)
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_, i = decodeVarint(ls.data, i)
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if lNum == prevNum {
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return ls.syms.ToName(lNum), true
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}
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prevNum = lNum
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}
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return "", false
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}
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// WithoutEmpty returns the labelset without empty labels.
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// May return the same labelset.
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func (ls Labels) WithoutEmpty() Labels {
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if ls.IsEmpty() {
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return ls
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}
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// Idea: have a constant symbol for blank, then we don't have to look it up.
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blank, ok := ls.syms.symbolTable.checkNum("")
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if !ok { // Symbol table has no entry for blank - none of the values can be blank.
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return ls
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}
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for pos := 0; pos < len(ls.data); {
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_, newPos := decodeVarint(ls.data, pos)
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lValue, newPos := decodeVarint(ls.data, newPos)
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if lValue != blank {
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pos = newPos
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continue
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}
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// Do not copy the slice until it's necessary.
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// TODO: could optimise the case where all blanks are at the end.
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// Note: we size the new buffer on the assumption there is exactly one blank value.
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buf := make([]byte, pos, pos+(len(ls.data)-newPos))
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copy(buf, ls.data[:pos]) // copy the initial non-blank labels
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pos = newPos // move past the first blank value
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for pos < len(ls.data) {
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var newPos int
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_, newPos = decodeVarint(ls.data, pos)
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lValue, newPos = decodeVarint(ls.data, newPos)
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if lValue != blank {
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buf = append(buf, ls.data[pos:newPos]...)
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}
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pos = newPos
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}
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return Labels{syms: ls.syms, data: yoloString(buf)}
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}
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return ls
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}
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// Equal returns whether the two label sets are equal.
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func Equal(a, b Labels) bool {
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if a.syms == b.syms {
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return a.data == b.data
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}
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la, lb := len(a.data), len(b.data)
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ia, ib := 0, 0
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for ia < la && ib < lb {
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var aValue, bValue string
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aValue, ia = decodeString(a.syms, a.data, ia)
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bValue, ib = decodeString(b.syms, b.data, ib)
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if aValue != bValue {
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return false
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}
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}
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if ia != la || ib != lb {
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return false
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}
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return true
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}
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// EmptyLabels returns an empty Labels value, for convenience.
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func EmptyLabels() Labels {
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return Labels{}
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}
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// New returns a sorted Labels from the given labels.
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// The caller has to guarantee that all label names are unique.
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// Note this function is not efficient; should not be used in performance-critical places.
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func New(ls ...Label) Labels {
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slices.SortFunc(ls, func(a, b Label) int { return strings.Compare(a.Name, b.Name) })
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syms := NewSymbolTable()
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var stackSpace [16]int
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size, nums := mapLabelsToNumbers(syms, ls, stackSpace[:])
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buf := make([]byte, size)
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marshalNumbersToSizedBuffer(nums, buf)
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return Labels{syms: syms.nameTable, data: yoloString(buf)}
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}
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// FromStrings creates new labels from pairs of strings.
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func FromStrings(ss ...string) Labels {
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if len(ss)%2 != 0 {
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panic("invalid number of strings")
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}
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ls := make([]Label, 0, len(ss)/2)
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for i := 0; i < len(ss); i += 2 {
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ls = append(ls, Label{Name: ss[i], Value: ss[i+1]})
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}
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return New(ls...)
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}
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// Compare compares the two label sets.
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// The result will be 0 if a==b, <0 if a < b, and >0 if a > b.
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func Compare(a, b Labels) int {
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la, lb := len(a.data), len(b.data)
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ia, ib := 0, 0
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for ia < la && ib < lb {
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var aName, bName string
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aName, ia = decodeString(a.syms, a.data, ia)
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bName, ib = decodeString(b.syms, b.data, ib)
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if aName != bName {
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if aName < bName {
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return -1
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}
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return 1
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}
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var aValue, bValue string
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aValue, ia = decodeString(a.syms, a.data, ia)
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bValue, ib = decodeString(b.syms, b.data, ib)
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if aValue != bValue {
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if aValue < bValue {
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return -1
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}
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return 1
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}
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}
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// If all labels so far were in common, the set with fewer labels comes first.
|
|
return (la - ia) - (lb - ib)
|
|
}
|
|
|
|
// Copy labels from b on top of whatever was in ls previously, reusing memory or expanding if needed.
|
|
func (ls *Labels) CopyFrom(b Labels) {
|
|
*ls = b // Straightforward memberwise copy is all we need.
|
|
}
|
|
|
|
// IsEmpty returns true if ls represents an empty set of labels.
|
|
func (ls Labels) IsEmpty() bool {
|
|
return len(ls.data) == 0
|
|
}
|
|
|
|
// Len returns the number of labels; it is relatively slow.
|
|
func (ls Labels) Len() int {
|
|
count := 0
|
|
for i := 0; i < len(ls.data); {
|
|
_, i = decodeVarint(ls.data, i)
|
|
_, i = decodeVarint(ls.data, i)
|
|
count++
|
|
}
|
|
return count
|
|
}
|
|
|
|
// Range calls f on each label.
|
|
func (ls Labels) Range(f func(l Label)) {
|
|
for i := 0; i < len(ls.data); {
|
|
var lName, lValue string
|
|
lName, i = decodeString(ls.syms, ls.data, i)
|
|
lValue, i = decodeString(ls.syms, ls.data, i)
|
|
f(Label{Name: lName, Value: lValue})
|
|
}
|
|
}
|
|
|
|
// Validate calls f on each label. If f returns a non-nil error, then it returns that error cancelling the iteration.
|
|
func (ls Labels) Validate(f func(l Label) error) error {
|
|
for i := 0; i < len(ls.data); {
|
|
var lName, lValue string
|
|
lName, i = decodeString(ls.syms, ls.data, i)
|
|
lValue, i = decodeString(ls.syms, ls.data, i)
|
|
err := f(Label{Name: lName, Value: lValue})
|
|
if err != nil {
|
|
return err
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// InternStrings calls intern on every string value inside ls, replacing them with what it returns.
|
|
func (ls *Labels) InternStrings(intern func(string) string) {
|
|
// TODO: remove these calls as there is nothing to do.
|
|
}
|
|
|
|
// ReleaseStrings calls release on every string value inside ls.
|
|
func (ls Labels) ReleaseStrings(release func(string)) {
|
|
// TODO: remove these calls as there is nothing to do.
|
|
}
|
|
|
|
// DropMetricName returns Labels with "__name__" removed.
|
|
func (ls Labels) DropMetricName() Labels {
|
|
for i := 0; i < len(ls.data); {
|
|
lName, i2 := decodeString(ls.syms, ls.data, i)
|
|
_, i2 = decodeVarint(ls.data, i2)
|
|
if lName == MetricName {
|
|
if i == 0 { // Make common case fast with no allocations.
|
|
ls.data = ls.data[i2:]
|
|
} else {
|
|
ls.data = ls.data[:i] + ls.data[i2:]
|
|
}
|
|
break
|
|
} else if lName[0] > MetricName[0] { // Stop looking if we've gone past.
|
|
break
|
|
}
|
|
i = i2
|
|
}
|
|
return ls
|
|
}
|
|
|
|
// Builder allows modifying Labels.
|
|
type Builder struct {
|
|
syms *SymbolTable
|
|
nums []int
|
|
base Labels
|
|
del []string
|
|
add []Label
|
|
}
|
|
|
|
// NewBuilderWithSymbolTable returns a new LabelsBuilder not based on any labels, but with the SymbolTable.
|
|
func NewBuilderWithSymbolTable(s *SymbolTable) *Builder {
|
|
return &Builder{
|
|
syms: s,
|
|
}
|
|
}
|
|
|
|
// Reset clears all current state for the builder.
|
|
func (b *Builder) Reset(base Labels) {
|
|
if base.syms != nil { // If base has a symbol table, use that.
|
|
b.syms = base.syms.symbolTable
|
|
} else if b.syms == nil { // Or continue using previous symbol table in builder.
|
|
b.syms = NewSymbolTable() // Don't do this in performance-sensitive code.
|
|
}
|
|
|
|
b.base = base
|
|
b.del = b.del[:0]
|
|
b.add = b.add[:0]
|
|
base.Range(func(l Label) {
|
|
if l.Value == "" {
|
|
b.del = append(b.del, l.Name)
|
|
}
|
|
})
|
|
}
|
|
|
|
// Labels returns the labels from the builder.
|
|
// If no modifications were made, the original labels are returned.
|
|
func (b *Builder) Labels() Labels {
|
|
if len(b.del) == 0 && len(b.add) == 0 {
|
|
return b.base
|
|
}
|
|
|
|
slices.SortFunc(b.add, func(a, b Label) int { return strings.Compare(a.Name, b.Name) })
|
|
slices.Sort(b.del)
|
|
a, d, newSize := 0, 0, 0
|
|
|
|
newSize, b.nums = mapLabelsToNumbers(b.syms, b.add, b.nums)
|
|
bufSize := len(b.base.data) + newSize
|
|
buf := make([]byte, 0, bufSize)
|
|
for pos := 0; pos < len(b.base.data); {
|
|
oldPos := pos
|
|
var lName string
|
|
lName, pos = decodeString(b.base.syms, b.base.data, pos)
|
|
_, pos = decodeVarint(b.base.data, pos)
|
|
for d < len(b.del) && b.del[d] < lName {
|
|
d++
|
|
}
|
|
if d < len(b.del) && b.del[d] == lName {
|
|
continue // This label has been deleted.
|
|
}
|
|
for ; a < len(b.add) && b.add[a].Name < lName; a++ {
|
|
buf = appendLabelTo(b.nums[a*2], b.nums[a*2+1], buf) // Insert label that was not in the base set.
|
|
}
|
|
if a < len(b.add) && b.add[a].Name == lName {
|
|
buf = appendLabelTo(b.nums[a*2], b.nums[a*2+1], buf)
|
|
a++
|
|
continue // This label has been replaced.
|
|
}
|
|
buf = append(buf, b.base.data[oldPos:pos]...) // If base had a symbol-table we are using it, so we don't need to look up these symbols.
|
|
}
|
|
// We have come to the end of the base set; add any remaining labels.
|
|
for ; a < len(b.add); a++ {
|
|
buf = appendLabelTo(b.nums[a*2], b.nums[a*2+1], buf)
|
|
}
|
|
return Labels{syms: b.syms.nameTable, data: yoloString(buf)}
|
|
}
|
|
|
|
func marshalNumbersToSizedBuffer(nums []int, data []byte) int {
|
|
i := len(data)
|
|
for index := len(nums) - 1; index >= 0; index-- {
|
|
i = encodeVarint(data, i, nums[index])
|
|
}
|
|
return len(data) - i
|
|
}
|
|
|
|
func sizeVarint(x uint64) (n int) {
|
|
// Most common case first
|
|
if x < 1<<15 {
|
|
return 2
|
|
}
|
|
if x < 1<<22 {
|
|
return 3
|
|
}
|
|
if x >= 1<<29 {
|
|
panic("Number too large to represent")
|
|
}
|
|
return 4
|
|
}
|
|
|
|
func encodeVarintSlow(data []byte, offset int, v uint64) int {
|
|
offset -= sizeVarint(v)
|
|
base := offset
|
|
data[offset] = uint8(v)
|
|
v >>= 8
|
|
offset++
|
|
for v >= 1<<7 {
|
|
data[offset] = uint8(v&0x7f | 0x80)
|
|
v >>= 7
|
|
offset++
|
|
}
|
|
data[offset] = uint8(v)
|
|
return base
|
|
}
|
|
|
|
// Special code for the common case that a value is less than 32768
|
|
func encodeVarint(data []byte, offset, v int) int {
|
|
if v < 1<<15 {
|
|
offset -= 2
|
|
data[offset] = uint8(v)
|
|
data[offset+1] = uint8(v >> 8)
|
|
return offset
|
|
}
|
|
return encodeVarintSlow(data, offset, uint64(v))
|
|
}
|
|
|
|
// Map all the strings in lbls to the symbol table; return the total size required to hold them and all the individual mappings.
|
|
func mapLabelsToNumbers(t *SymbolTable, lbls []Label, buf []int) (totalSize int, nums []int) {
|
|
nums = buf[:0]
|
|
t.mx.Lock()
|
|
defer t.mx.Unlock()
|
|
// we just encode name/value/name/value, without any extra tags or length bytes
|
|
for _, m := range lbls {
|
|
// strings are encoded as a single varint, the index into the symbol table.
|
|
i := t.toNumUnlocked(m.Name)
|
|
nums = append(nums, i)
|
|
totalSize += sizeVarint(uint64(i))
|
|
i = t.toNumUnlocked(m.Value)
|
|
nums = append(nums, i)
|
|
totalSize += sizeVarint(uint64(i))
|
|
}
|
|
return totalSize, nums
|
|
}
|
|
|
|
func appendLabelTo(nameNum, valueNum int, buf []byte) []byte {
|
|
size := sizeVarint(uint64(nameNum)) + sizeVarint(uint64(valueNum))
|
|
sizeRequired := len(buf) + size
|
|
if cap(buf) >= sizeRequired {
|
|
buf = buf[:sizeRequired]
|
|
} else {
|
|
bufSize := cap(buf)
|
|
// Double size of buffer each time it needs to grow, to amortise copying cost.
|
|
for bufSize < sizeRequired {
|
|
bufSize = bufSize*2 + 1
|
|
}
|
|
newBuf := make([]byte, sizeRequired, bufSize)
|
|
copy(newBuf, buf)
|
|
buf = newBuf
|
|
}
|
|
i := sizeRequired
|
|
i = encodeVarint(buf, i, valueNum)
|
|
i = encodeVarint(buf, i, nameNum)
|
|
return buf
|
|
}
|
|
|
|
// ScratchBuilder allows efficient construction of a Labels from scratch.
|
|
type ScratchBuilder struct {
|
|
syms *SymbolTable
|
|
nums []int
|
|
add []Label
|
|
output Labels
|
|
overwriteBuffer []byte
|
|
}
|
|
|
|
// NewScratchBuilder creates a ScratchBuilder initialized for Labels with n entries.
|
|
// Warning: expensive; don't call in tight loops.
|
|
func NewScratchBuilder(n int) ScratchBuilder {
|
|
return ScratchBuilder{syms: NewSymbolTable(), add: make([]Label, 0, n)}
|
|
}
|
|
|
|
// NewScratchBuilderWithSymbolTable creates a ScratchBuilder initialized for Labels with n entries.
|
|
func NewScratchBuilderWithSymbolTable(s *SymbolTable, n int) ScratchBuilder {
|
|
return ScratchBuilder{syms: s, add: make([]Label, 0, n)}
|
|
}
|
|
|
|
func (b *ScratchBuilder) SetSymbolTable(s *SymbolTable) {
|
|
b.syms = s
|
|
}
|
|
|
|
func (b *ScratchBuilder) Reset() {
|
|
b.add = b.add[:0]
|
|
b.output = EmptyLabels()
|
|
}
|
|
|
|
// Add a name/value pair.
|
|
// Note if you Add the same name twice you will get a duplicate label, which is invalid.
|
|
func (b *ScratchBuilder) Add(name, value string) {
|
|
b.add = append(b.add, Label{Name: name, Value: value})
|
|
}
|
|
|
|
// Add a name/value pair, using []byte instead of string to reduce memory allocations.
|
|
// The values must remain live until Labels() is called.
|
|
func (b *ScratchBuilder) UnsafeAddBytes(name, value []byte) {
|
|
b.add = append(b.add, Label{Name: yoloString(name), Value: yoloString(value)})
|
|
}
|
|
|
|
// Sort the labels added so far by name.
|
|
func (b *ScratchBuilder) Sort() {
|
|
slices.SortFunc(b.add, func(a, b Label) int { return strings.Compare(a.Name, b.Name) })
|
|
}
|
|
|
|
// Assign is for when you already have a Labels which you want this ScratchBuilder to return.
|
|
func (b *ScratchBuilder) Assign(l Labels) {
|
|
b.output = l
|
|
}
|
|
|
|
// Labels returns the name/value pairs added as a Labels object. Calling Add() after Labels() has no effect.
|
|
// Note: if you want them sorted, call Sort() first.
|
|
func (b *ScratchBuilder) Labels() Labels {
|
|
if b.output.IsEmpty() {
|
|
var size int
|
|
size, b.nums = mapLabelsToNumbers(b.syms, b.add, b.nums)
|
|
buf := make([]byte, size)
|
|
marshalNumbersToSizedBuffer(b.nums, buf)
|
|
b.output = Labels{syms: b.syms.nameTable, data: yoloString(buf)}
|
|
}
|
|
return b.output
|
|
}
|
|
|
|
// Write the newly-built Labels out to ls, reusing an internal buffer.
|
|
// Callers must ensure that there are no other references to ls, or any strings fetched from it.
|
|
func (b *ScratchBuilder) Overwrite(ls *Labels) {
|
|
var size int
|
|
size, b.nums = mapLabelsToNumbers(b.syms, b.add, b.nums)
|
|
if size <= cap(b.overwriteBuffer) {
|
|
b.overwriteBuffer = b.overwriteBuffer[:size]
|
|
} else {
|
|
b.overwriteBuffer = make([]byte, size)
|
|
}
|
|
marshalNumbersToSizedBuffer(b.nums, b.overwriteBuffer)
|
|
ls.syms = b.syms.nameTable
|
|
ls.data = yoloString(b.overwriteBuffer)
|
|
}
|