// Copyright 2016 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package pprof import ( "context" "fmt" "slices" "strings" ) type label struct { key string value string } // LabelSet is a set of labels. type LabelSet struct { list []label } // labelContextKey is the type of contextKeys used for profiler labels. type labelContextKey struct{} func labelValue(ctx context.Context) labelMap { labels, _ := ctx.Value(labelContextKey{}).(*labelMap) if labels == nil { return labelMap(nil) } return *labels } // labelMap is the representation of the label set held in the context type. // This is an initial implementation, but it will be replaced with something // that admits incremental immutable modification more efficiently. type labelMap map[string]string // String satisfies Stringer and returns key, value pairs in a consistent // order. func (l *labelMap) String() string { if l == nil { return "" } keyVals := make([]string, 0, len(*l)) for k, v := range *l { keyVals = append(keyVals, fmt.Sprintf("%q:%q", k, v)) } slices.Sort(keyVals) return "{" + strings.Join(keyVals, ", ") + "}" } // WithLabels returns a new [context.Context] with the given labels added. // A label overwrites a prior label with the same key. func WithLabels(ctx context.Context, labels LabelSet) context.Context { parentLabels := labelValue(ctx) childLabels := make(labelMap, len(parentLabels)) // TODO(matloob): replace the map implementation with something // more efficient so creating a child context WithLabels doesn't need // to clone the map. for k, v := range parentLabels { childLabels[k] = v } for _, label := range labels.list { childLabels[label.key] = label.value } return context.WithValue(ctx, labelContextKey{}, &childLabels) } // Labels takes an even number of strings representing key-value pairs // and makes a [LabelSet] containing them. // A label overwrites a prior label with the same key. // Currently only the CPU and goroutine profiles utilize any labels // information. // See https://golang.org/issue/23458 for details. func Labels(args ...string) LabelSet { if len(args)%2 != 0 { panic("uneven number of arguments to pprof.Labels") } list := make([]label, 0, len(args)/2) for i := 0; i+1 < len(args); i += 2 { list = append(list, label{key: args[i], value: args[i+1]}) } return LabelSet{list: list} } // Label returns the value of the label with the given key on ctx, and a boolean indicating // whether that label exists. func Label(ctx context.Context, key string) (string, bool) { ctxLabels := labelValue(ctx) v, ok := ctxLabels[key] return v, ok } // ForLabels invokes f with each label set on the context. // The function f should return true to continue iteration or false to stop iteration early. func ForLabels(ctx context.Context, f func(key, value string) bool) { ctxLabels := labelValue(ctx) for k, v := range ctxLabels { if !f(k, v) { break } } }