prometheus/util/promlint/promlint.go

226 lines
5.3 KiB
Go
Raw Normal View History

// Copyright 2017 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 promlint provides a linter for Prometheus metrics.
package promlint
import (
"fmt"
"io"
"sort"
"strings"
dto "github.com/prometheus/client_model/go"
"github.com/prometheus/common/expfmt"
)
// A Linter is a Prometheus metrics linter. It identifies issues with metric
// names, types, and metadata, and reports them to the caller.
type Linter struct {
r io.Reader
}
// A Problem is an issue detected by a Linter.
type Problem struct {
// The name of the metric indicated by this Problem.
Metric string
// A description of the issue for this Problem.
Text string
}
// problems is a slice of Problems with a helper method to easily append
// additional Problems to the slice.
type problems []Problem
// Add appends a new Problem to the slice for the specified metric, with
// the specified issue text.
func (p *problems) Add(mf dto.MetricFamily, text string) {
*p = append(*p, Problem{
Metric: mf.GetName(),
Text: text,
})
}
// New creates a new Linter that reads an input stream of Prometheus metrics.
// Only the text exposition format is supported.
func New(r io.Reader) *Linter {
return &Linter{
r: r,
}
}
// Lint performs a linting pass, returning a slice of Problems indicating any
// issues found in the metrics stream. The slice is sorted by metric name
// and issue description.
func (l *Linter) Lint() ([]Problem, error) {
// TODO(mdlayher): support for protobuf exposition format?
d := expfmt.NewDecoder(l.r, expfmt.FmtText)
var problems []Problem
var mf dto.MetricFamily
for {
if err := d.Decode(&mf); err != nil {
if err == io.EOF {
break
}
return nil, err
}
problems = append(problems, lint(mf)...)
}
// Ensure deterministic output.
sort.SliceStable(problems, func(i, j int) bool {
if problems[i].Metric < problems[j].Metric {
return true
}
return problems[i].Text < problems[j].Text
})
return problems, nil
}
// lint is the entry point for linting a single metric.
func lint(mf dto.MetricFamily) []Problem {
fns := []func(mf dto.MetricFamily) []Problem{
lintHelp,
lintMetricUnits,
lintCounter,
}
var problems []Problem
for _, fn := range fns {
problems = append(problems, fn(mf)...)
}
// TODO(mdlayher): lint rules for specific metrics types.
return problems
}
// lintHelp detects issues related to the help text for a metric.
func lintHelp(mf dto.MetricFamily) []Problem {
var problems problems
// Expect all metrics to have help text available.
if mf.Help == nil {
problems.Add(mf, "no help text")
}
return problems
}
// lintMetricUnits detects issues with metric unit names.
func lintMetricUnits(mf dto.MetricFamily) []Problem {
var problems problems
unit, base, ok := metricUnits(*mf.Name)
if !ok {
// No known units detected.
return nil
}
// Unit is already a base unit.
if unit == base {
return nil
}
problems.Add(mf, fmt.Sprintf("use base unit %q instead of %q", base, unit))
return problems
}
// lintCounter detects issues specific to counters, as well as patterns that should
// only be used with counters.
func lintCounter(mf dto.MetricFamily) []Problem {
var problems problems
isCounter := mf.GetType() == dto.MetricType_COUNTER
isUntyped := mf.GetType() == dto.MetricType_UNTYPED
hasTotalSuffix := strings.HasSuffix(mf.GetName(), "_total")
switch {
case isCounter && !hasTotalSuffix:
problems.Add(mf, `counter metrics should have "_total" suffix`)
case !isUntyped && !isCounter && hasTotalSuffix:
problems.Add(mf, `non-counter metrics should not have "_total" suffix`)
}
return problems
}
// metricUnits attempts to detect known unit types used as part of a metric name,
// e.g. "foo_bytes_total" or "bar_baz_milligrams".
func metricUnits(m string) (unit string, base string, ok bool) {
ss := strings.Split(m, "_")
for _, u := range baseUnits {
// Also check for "no prefix".
for _, p := range append(unitPrefixes, "") {
for _, s := range ss {
// Attempt to explicitly match a known unit with a known prefix,
// as some words may look like "units" when matching suffix.
//
// As an example, "thermometers" should not match "meters", but
// "kilometers" should.
if s == p+u {
return p + u, u, true
}
}
}
}
return "", "", false
}
// Units and their possible prefixes recognized by this library. More can be
// added over time as needed.
var (
baseUnits = []string{
"amperes",
"bytes",
"candela",
"grams",
"kelvin", // Both plural and non-plural form allowed.
"kelvins",
"meters", // Both American and international spelling permitted.
"metres",
"moles",
"seconds",
}
unitPrefixes = []string{
"pico",
"nano",
"micro",
"milli",
"centi",
"deci",
"deca",
"hecto",
"kilo",
"kibi",
"mega",
"mibi",
"giga",
"gibi",
"tera",
"tebi",
"peta",
"pebi",
}
)