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284 lines
7.7 KiB
Go
284 lines
7.7 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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package metrics
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import (
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"expvar"
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"fmt"
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"io"
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"reflect"
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"sort"
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"strings"
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"sync"
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)
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// MultiLabelMap is a struct-value-to-Var map variable that satisfies the
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// [expvar.Var] interface but also allows for multiple Prometheus labels to be
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// associated with each value.
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//
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// T must be a struct type with scalar fields. The struct field names
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// (lowercased) are used as the labels, unless a "prom" struct tag is present.
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// The struct fields must all be strings, and the string values must be valid
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// Prometheus label values without requiring quoting.
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type MultiLabelMap[T comparable] struct {
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Type string // optional Prometheus type ("counter", "gauge")
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Help string // optional Prometheus help string
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m sync.Map // map[T]expvar.Var
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mu sync.RWMutex
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sorted []labelsAndValue[T] // by labels string, to match expvar.Map + for aesthetics in output
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}
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// NewMultiLabelMap creates and publishes (via expvar.Publish) a new
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// MultiLabelMap[T] variable with the given name and returns it.
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func NewMultiLabelMap[T comparable](name string, promType, helpText string) *MultiLabelMap[T] {
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m := &MultiLabelMap[T]{
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Type: promType,
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Help: helpText,
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}
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var zero T
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_ = LabelString(zero) // panic early if T is invalid
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expvar.Publish(name, m)
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return m
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}
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type labelsAndValue[T comparable] struct {
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key T
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labels string // Prometheus-formatted {label="value",label="value"} string
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val expvar.Var
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}
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// LabelString returns a Prometheus-formatted label string for the given key.
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// k must be a struct type with scalar fields, as required by MultiLabelMap,
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// if k is not a struct, it will panic.
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func LabelString(k any) string {
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rv := reflect.ValueOf(k)
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t := rv.Type()
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if t.Kind() != reflect.Struct {
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panic(fmt.Sprintf("MultiLabelMap must use keys of type struct; got %v", t))
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}
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var sb strings.Builder
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sb.WriteString("{")
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for i := range t.NumField() {
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if i > 0 {
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sb.WriteString(",")
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}
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ft := t.Field(i)
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label := ft.Tag.Get("prom")
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if label == "" {
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label = strings.ToLower(ft.Name)
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}
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fv := rv.Field(i)
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switch fv.Kind() {
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case reflect.String:
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fmt.Fprintf(&sb, "%s=%q", label, fv.String())
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case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
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fmt.Fprintf(&sb, "%s=\"%d\"", label, fv.Int())
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case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
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fmt.Fprintf(&sb, "%s=\"%d\"", label, fv.Uint())
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case reflect.Bool:
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fmt.Fprintf(&sb, "%s=\"%v\"", label, fv.Bool())
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default:
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panic(fmt.Sprintf("MultiLabelMap key field %q has unsupported type %v", ft.Name, fv.Type()))
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}
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}
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sb.WriteString("}")
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return sb.String()
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}
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// KeyValue represents a single entry in a [MultiLabelMap].
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type KeyValue[T comparable] struct {
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Key T
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Value expvar.Var
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}
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func (v *MultiLabelMap[T]) String() string {
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return `"MultiLabelMap"`
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}
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// WritePrometheus writes v to w in Prometheus exposition format.
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// The name argument is the metric name.
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func (v *MultiLabelMap[T]) WritePrometheus(w io.Writer, name string) {
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if v.Type != "" {
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io.WriteString(w, "# TYPE ")
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io.WriteString(w, name)
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io.WriteString(w, " ")
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io.WriteString(w, v.Type)
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io.WriteString(w, "\n")
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}
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if v.Help != "" {
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io.WriteString(w, "# HELP ")
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io.WriteString(w, name)
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io.WriteString(w, " ")
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io.WriteString(w, v.Help)
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io.WriteString(w, "\n")
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}
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v.mu.RLock()
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defer v.mu.RUnlock()
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for _, kv := range v.sorted {
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io.WriteString(w, name)
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io.WriteString(w, kv.labels)
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switch v := kv.val.(type) {
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case *expvar.Int:
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fmt.Fprintf(w, " %d\n", v.Value())
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case *expvar.Float:
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fmt.Fprintf(w, " %v\n", v.Value())
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default:
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fmt.Fprintf(w, " %s\n", kv.val)
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}
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}
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}
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// Init removes all keys from the map.
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//
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// Think of it as "Reset", but it's named Init to match expvar.Map.Init.
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func (v *MultiLabelMap[T]) Init() *MultiLabelMap[T] {
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v.mu.Lock()
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defer v.mu.Unlock()
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v.sorted = nil
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v.m.Range(func(k, _ any) bool {
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v.m.Delete(k)
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return true
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})
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return v
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}
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// addKeyLocked updates the sorted list of keys in v.keys.
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//
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// v.mu must be held.
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func (v *MultiLabelMap[T]) addKeyLocked(key T, val expvar.Var) {
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ls := LabelString(key)
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ent := labelsAndValue[T]{key, ls, val}
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// Using insertion sort to place key into the already-sorted v.keys.
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i := sort.Search(len(v.sorted), func(i int) bool {
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return v.sorted[i].labels >= ls
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})
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if i >= len(v.sorted) {
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v.sorted = append(v.sorted, ent)
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} else if v.sorted[i].key == key {
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v.sorted[i].val = val
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} else {
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var zero labelsAndValue[T]
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v.sorted = append(v.sorted, zero)
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copy(v.sorted[i+1:], v.sorted[i:])
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v.sorted[i] = ent
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}
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}
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// Get returns the expvar for the given key, or nil if it doesn't exist.
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func (v *MultiLabelMap[T]) Get(key T) expvar.Var {
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i, _ := v.m.Load(key)
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av, _ := i.(expvar.Var)
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return av
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}
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func newInt() expvar.Var { return new(expvar.Int) }
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func newFloat() expvar.Var { return new(expvar.Float) }
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// getOrFill returns the expvar.Var for the given key, atomically creating it
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// once (for all callers) with fill if it doesn't exist.
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func (v *MultiLabelMap[T]) getOrFill(key T, fill func() expvar.Var) expvar.Var {
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if v := v.Get(key); v != nil {
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return v
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}
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v.mu.Lock()
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defer v.mu.Unlock()
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if v := v.Get(key); v != nil {
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return v
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}
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nv := fill()
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v.addKeyLocked(key, nv)
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v.m.Store(key, nv)
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return nv
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}
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// Set sets key to val.
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//
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// This is not optimized for highly concurrent usage; it's presumed to only be
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// used rarely, at startup.
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func (v *MultiLabelMap[T]) Set(key T, val expvar.Var) {
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v.mu.Lock()
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defer v.mu.Unlock()
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v.addKeyLocked(key, val)
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v.m.Store(key, val)
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}
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// SetInt sets val to the *[expvar.Int] value stored under the given map key,
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// creating it if it doesn't exist yet.
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// It does nothing if key exists but is of the wrong type.
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func (v *MultiLabelMap[T]) SetInt(key T, val int64) {
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// Set to Int; ignore otherwise.
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if iv, ok := v.getOrFill(key, newInt).(*expvar.Int); ok {
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iv.Set(val)
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}
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}
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// SetFloat sets val to the *[expvar.Float] value stored under the given map key,
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// creating it if it doesn't exist yet.
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// It does nothing if key exists but is of the wrong type.
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func (v *MultiLabelMap[T]) SetFloat(key T, val float64) {
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// Set to Float; ignore otherwise.
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if iv, ok := v.getOrFill(key, newFloat).(*expvar.Float); ok {
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iv.Set(val)
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}
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}
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// Add adds delta to the *[expvar.Int] value stored under the given map key,
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// creating it if it doesn't exist yet.
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// It does nothing if key exists but is of the wrong type.
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func (v *MultiLabelMap[T]) Add(key T, delta int64) {
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// Add to Int; ignore otherwise.
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if iv, ok := v.getOrFill(key, newInt).(*expvar.Int); ok {
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iv.Add(delta)
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}
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}
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// Add adds delta to the *[expvar.Float] value stored under the given map key,
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// creating it if it doesn't exist yet.
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// It does nothing if key exists but is of the wrong type.
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func (v *MultiLabelMap[T]) AddFloat(key T, delta float64) {
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// Add to Float; ignore otherwise.
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if iv, ok := v.getOrFill(key, newFloat).(*expvar.Float); ok {
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iv.Add(delta)
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}
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}
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// Delete deletes the given key from the map.
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//
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// This is not optimized for highly concurrent usage; it's presumed to only be
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// used rarely, at startup.
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func (v *MultiLabelMap[T]) Delete(key T) {
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ls := LabelString(key)
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v.mu.Lock()
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defer v.mu.Unlock()
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// Using insertion sort to place key into the already-sorted v.keys.
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i := sort.Search(len(v.sorted), func(i int) bool {
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return v.sorted[i].labels >= ls
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})
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if i < len(v.sorted) && v.sorted[i].key == key {
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v.sorted = append(v.sorted[:i], v.sorted[i+1:]...)
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v.m.Delete(key)
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}
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}
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// Do calls f for each entry in the map.
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// The map is locked during the iteration,
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// but existing entries may be concurrently updated.
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func (v *MultiLabelMap[T]) Do(f func(KeyValue[T])) {
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v.mu.RLock()
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defer v.mu.RUnlock()
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for _, e := range v.sorted {
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f(KeyValue[T]{e.key, e.val})
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}
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}
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