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Stongly typed labels: promsafe feature introduced
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amberpixels committed Aug 28, 2024
1 parent dbf72fc commit c064fc4
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307 changes: 307 additions & 0 deletions prometheus/promsafe/safe.go
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// Copyright 2024 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 promsafe provides safe labeling - strongly typed labels in prometheus metrics.
// Enjoy promsafe as you wish!
package promsafe

import (
"fmt"
"reflect"
"strings"

"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/client_golang/prometheus/promauto"
)

//
// promsafe configuration: promauto-compatibility, etc
//

// factory stands for a global promauto.Factory to be used (if any)
var factory *promauto.Factory

// SetupGlobalPromauto sets a global promauto.Factory to be used for all promsafe metrics.
// This means that each promsafe.New* call will use this promauto.Factory.
func SetupGlobalPromauto(factoryArg ...promauto.Factory) {
if len(factoryArg) == 0 {
f := promauto.With(prometheus.DefaultRegisterer)
factory = &f
} else {
f := factoryArg[0]
factory = &f
}
}

// promsafeTag is the tag name used for promsafe labels inside structs.
// The tag is optional, as if not present, field is used with snake_cased FieldName.
// It's useful to use a tag when you want to override the default naming or exclude a field from the metric.
var promsafeTag = "promsafe"

// SetPromsafeTag sets the tag name used for promsafe labels inside structs.
func SetPromsafeTag(tag string) {
promsafeTag = tag
}

// labelProviderMarker is a marker interface for enforcing type-safety.
// With its help we can force our label-related functions to only accept SingleLabelProvider or StructLabelProvider.
type labelProviderMarker interface {
marker()
}

// SingleLabelProvider is a type used for declaring a single label.
// When used as labelProviderMarker it provides just a label name.
// It's meant to be used with single-label metrics only!
// Use StructLabelProvider for multi-label metrics.
type SingleLabelProvider string

var _ labelProviderMarker = SingleLabelProvider("")

func (s SingleLabelProvider) marker() {
panic("marker interface method should never be called")
}

// StructLabelProvider should be embedded in any struct that serves as a label provider.
type StructLabelProvider struct{}

var _ labelProviderMarker = (*StructLabelProvider)(nil)

func (s StructLabelProvider) marker() {
panic("marker interface method should never be called")
}

// handler is a helper struct that helps us to handle type-safe labels
// It holds a label name in case if it's the only label (when SingleLabelProvider is used).
type handler[T labelProviderMarker] struct {
theOnlyLabelName string
}

func newHandler[T labelProviderMarker](labelProvider T) handler[T] {
var h handler[T]
if s, ok := any(labelProvider).(SingleLabelProvider); ok {
h.theOnlyLabelName = string(s)
}
return h
}

// extractLabelsWithValues extracts labels names+values from a given labelProviderMarker (SingleLabelProvider or StructLabelProvider)
func (h handler[T]) extractLabels(labelProvider T) []string {
if any(labelProvider) == nil {
return nil
}
if s, ok := any(labelProvider).(SingleLabelProvider); ok {
return []string{string(s)}
}

// Here, then, it can be only a struct, that is a parent of StructLabelProvider
labels := extractLabelFromStruct(labelProvider)
labelNames := make([]string, 0, len(labels))
for k := range labels {
labelNames = append(labelNames, k)
}
return labelNames
}

// extractLabelsWithValues extracts labels names+values from a given labelProviderMarker (SingleLabelProvider or StructLabelProvider)
func (h handler[T]) extractLabelsWithValues(labelProvider T) prometheus.Labels {
if any(labelProvider) == nil {
return nil
}

// TODO: let's handle defaults as well, why not?

if s, ok := any(labelProvider).(SingleLabelProvider); ok {
return prometheus.Labels{h.theOnlyLabelName: string(s)}
}

// Here, then, it can be only a struct, that is a parent of StructLabelProvider
return extractLabelFromStruct(labelProvider)
}

// extractLabelValues extracts label string values from a given labelProviderMarker (SingleLabelProvider or StructLabelProvider)
func (h handler[T]) extractLabelValues(labelProvider T) []string {
m := h.extractLabelsWithValues(labelProvider)

labelValues := make([]string, 0, len(m))
for _, v := range m {
labelValues = append(labelValues, v)
}
return labelValues
}

// NewCounterVecT creates a new CounterVecT with type-safe labels.
func NewCounterVecT[T labelProviderMarker](opts prometheus.CounterOpts, labels T) *CounterVecT[T] {
h := newHandler(labels)

var inner *prometheus.CounterVec

if factory != nil {
inner = factory.NewCounterVec(opts, h.extractLabels(labels))
} else {
inner = prometheus.NewCounterVec(opts, h.extractLabels(labels))
}

return &CounterVecT[T]{
handler: h,
inner: inner,
}
}

// CounterVecT is a wrapper around prometheus.CounterVecT that allows type-safe labels.
type CounterVecT[T labelProviderMarker] struct {
handler[T]
inner *prometheus.CounterVec
}

// GetMetricWithLabelValues behaves like prometheus.CounterVec.GetMetricWithLabelValues but with type-safe labels.
func (c *CounterVecT[T]) GetMetricWithLabelValues(labels T) (prometheus.Counter, error) {
return c.inner.GetMetricWithLabelValues(c.handler.extractLabelValues(labels)...)
}

// GetMetricWith behaves like prometheus.CounterVec.GetMetricWith but with type-safe labels.
func (c *CounterVecT[T]) GetMetricWith(labels T) (prometheus.Counter, error) {
return c.inner.GetMetricWith(c.handler.extractLabelsWithValues(labels))
}

// WithLabelValues behaves like prometheus.CounterVec.WithLabelValues but with type-safe labels.
func (c *CounterVecT[T]) WithLabelValues(labels T) prometheus.Counter {
return c.inner.WithLabelValues(c.handler.extractLabelValues(labels)...)
}

// With behaves like prometheus.CounterVec.With but with type-safe labels.
func (c *CounterVecT[T]) With(labels T) prometheus.Counter {
return c.inner.With(c.handler.extractLabelsWithValues(labels))
}

// CurryWith behaves like prometheus.CounterVec.CurryWith but with type-safe labels.
// It still returns a CounterVecT, but it's inner prometheus.CounterVec is curried.
func (c *CounterVecT[T]) CurryWith(labels T) (*CounterVecT[T], error) {
curriedInner, err := c.inner.CurryWith(c.handler.extractLabelsWithValues(labels))
if err != nil {
return nil, err
}
c.inner = curriedInner
return c, nil
}

// MustCurryWith behaves like prometheus.CounterVec.MustCurryWith but with type-safe labels.
// It still returns a CounterVecT, but it's inner prometheus.CounterVec is curried.
func (c *CounterVecT[T]) MustCurryWith(labels T) *CounterVecT[T] {
c.inner = c.inner.MustCurryWith(c.handler.extractLabelsWithValues(labels))
return c
}

// Unsafe returns the underlying prometheus.CounterVec
// it's used to call any other method of prometheus.CounterVec that doesn't require type-safe labels
func (c *CounterVecT[T]) Unsafe() *prometheus.CounterVec {
return c.inner
}

// NewCounterT simply creates a new prometheus.Counter.
// As it doesn't have any labels, it's already type-safe.
// We keep this method just for consistency and interface fulfillment.
func NewCounterT(opts prometheus.CounterOpts) prometheus.Counter {
return prometheus.NewCounter(opts)
}

// NewCounterFuncT simply creates a new prometheus.CounterFunc.
// As it doesn't have any labels, it's already type-safe.
// We keep this method just for consistency and interface fulfillment.
func NewCounterFuncT(opts prometheus.CounterOpts, function func() float64) prometheus.CounterFunc {
return prometheus.NewCounterFunc(opts, function)
}

//
// Promauto compatibility
//

// Factory is a promauto-like factory that allows type-safe labels.
// We have to duplicate promauto.Factory logic here, because promauto.Factory's registry is private.
type Factory[T labelProviderMarker] struct {
r prometheus.Registerer
}

// WithAuto is a helper function that allows to use promauto.With with promsafe.With
func WithAuto(r prometheus.Registerer) Factory[labelProviderMarker] {
return Factory[labelProviderMarker]{r: r}
}

// NewCounterVecT works like promauto.NewCounterVec but with type-safe labels
func (f Factory[T]) NewCounterVecT(opts prometheus.CounterOpts, labels T) *CounterVecT[T] {
c := NewCounterVecT(opts, labels)
if f.r != nil {
f.r.MustRegister(c.inner)
}
return c
}

// NewCounterT wraps promauto.NewCounter.
// As it doesn't require any labels, it's already type-safe, and we keep it for consistency.
func (f Factory[T]) NewCounterT(opts prometheus.CounterOpts) prometheus.Counter {
return promauto.With(f.r).NewCounter(opts)
}

// NewCounterFuncT wraps promauto.NewCounterFunc.
// As it doesn't require any labels, it's already type-safe, and we keep it for consistency.
func (f Factory[T]) NewCounterFuncT(opts prometheus.CounterOpts, function func() float64) prometheus.CounterFunc {
return promauto.With(f.r).NewCounterFunc(opts, function)
}

//
// Helpers
//

// extractLabelFromStruct extracts labels names+values from a given StructLabelProvider
func extractLabelFromStruct(structWithLabels any) prometheus.Labels {
labels := prometheus.Labels{}

val := reflect.Indirect(reflect.ValueOf(structWithLabels))
typ := val.Type()

for i := 0; i < typ.NumField(); i++ {
field := typ.Field(i)
if field.Anonymous {
continue
}

var labelName string
if ourTag := field.Tag.Get(promsafeTag); ourTag != "" {
if ourTag == "-" { // tag="-" means "skip this field"
continue
}
labelName = ourTag
} else {
labelName = toSnakeCase(field.Name)
}

// Note: we don't handle defaults values for now
// so it can have "nil" values, if you had *string fields, etc
fieldVal := fmt.Sprintf("%v", val.Field(i).Interface())

labels[labelName] = fieldVal
}
return labels
}

// Convert struct field names to snake_case for Prometheus label compliance.
func toSnakeCase(s string) string {
s = strings.TrimSpace(s)
var result []rune
for i, r := range s {
if i > 0 && r >= 'A' && r <= 'Z' {
result = append(result, '_')
}
result = append(result, r)
}
return strings.ToLower(string(result))
}
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