prometheus/cmd/promtool/unittest.go
Rens Groothuijsen 122f9506e9
Set test group interval default to evaluation interval (#13011)
Signed-off-by: Rens Groothuijsen <l.groothuijsen@alumni.maastrichtuniversity.nl>
2023-10-20 21:32:46 +11:00

582 lines
17 KiB
Go

// Copyright 2018 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 main
import (
"context"
"errors"
"fmt"
"os"
"path/filepath"
"reflect"
"sort"
"strconv"
"strings"
"time"
"github.com/go-kit/log"
"github.com/prometheus/common/model"
"gopkg.in/yaml.v2"
"github.com/prometheus/prometheus/model/histogram"
"github.com/prometheus/prometheus/model/labels"
"github.com/prometheus/prometheus/promql"
"github.com/prometheus/prometheus/promql/parser"
"github.com/prometheus/prometheus/rules"
"github.com/prometheus/prometheus/storage"
)
// RulesUnitTest does unit testing of rules based on the unit testing files provided.
// More info about the file format can be found in the docs.
func RulesUnitTest(queryOpts promql.LazyLoaderOpts, files ...string) int {
failed := false
for _, f := range files {
if errs := ruleUnitTest(f, queryOpts); errs != nil {
fmt.Fprintln(os.Stderr, " FAILED:")
for _, e := range errs {
fmt.Fprintln(os.Stderr, e.Error())
fmt.Println()
}
failed = true
} else {
fmt.Println(" SUCCESS")
}
fmt.Println()
}
if failed {
return failureExitCode
}
return successExitCode
}
func ruleUnitTest(filename string, queryOpts promql.LazyLoaderOpts) []error {
fmt.Println("Unit Testing: ", filename)
b, err := os.ReadFile(filename)
if err != nil {
return []error{err}
}
var unitTestInp unitTestFile
if err := yaml.UnmarshalStrict(b, &unitTestInp); err != nil {
return []error{err}
}
if err := resolveAndGlobFilepaths(filepath.Dir(filename), &unitTestInp); err != nil {
return []error{err}
}
if unitTestInp.EvaluationInterval == 0 {
unitTestInp.EvaluationInterval = model.Duration(1 * time.Minute)
}
evalInterval := time.Duration(unitTestInp.EvaluationInterval)
// Giving number for groups mentioned in the file for ordering.
// Lower number group should be evaluated before higher number group.
groupOrderMap := make(map[string]int)
for i, gn := range unitTestInp.GroupEvalOrder {
if _, ok := groupOrderMap[gn]; ok {
return []error{fmt.Errorf("group name repeated in evaluation order: %s", gn)}
}
groupOrderMap[gn] = i
}
// Testing.
var errs []error
for _, t := range unitTestInp.Tests {
if t.Interval == 0 {
t.Interval = unitTestInp.EvaluationInterval
}
ers := t.test(evalInterval, groupOrderMap, queryOpts, unitTestInp.RuleFiles...)
if ers != nil {
errs = append(errs, ers...)
}
}
if len(errs) > 0 {
return errs
}
return nil
}
// unitTestFile holds the contents of a single unit test file.
type unitTestFile struct {
RuleFiles []string `yaml:"rule_files"`
EvaluationInterval model.Duration `yaml:"evaluation_interval,omitempty"`
GroupEvalOrder []string `yaml:"group_eval_order"`
Tests []testGroup `yaml:"tests"`
}
// resolveAndGlobFilepaths joins all relative paths in a configuration
// with a given base directory and replaces all globs with matching files.
func resolveAndGlobFilepaths(baseDir string, utf *unitTestFile) error {
for i, rf := range utf.RuleFiles {
if rf != "" && !filepath.IsAbs(rf) {
utf.RuleFiles[i] = filepath.Join(baseDir, rf)
}
}
var globbedFiles []string
for _, rf := range utf.RuleFiles {
m, err := filepath.Glob(rf)
if err != nil {
return err
}
if len(m) == 0 {
fmt.Fprintln(os.Stderr, " WARNING: no file match pattern", rf)
}
globbedFiles = append(globbedFiles, m...)
}
utf.RuleFiles = globbedFiles
return nil
}
// testGroup is a group of input series and tests associated with it.
type testGroup struct {
Interval model.Duration `yaml:"interval"`
InputSeries []series `yaml:"input_series"`
AlertRuleTests []alertTestCase `yaml:"alert_rule_test,omitempty"`
PromqlExprTests []promqlTestCase `yaml:"promql_expr_test,omitempty"`
ExternalLabels labels.Labels `yaml:"external_labels,omitempty"`
ExternalURL string `yaml:"external_url,omitempty"`
TestGroupName string `yaml:"name,omitempty"`
}
// test performs the unit tests.
func (tg *testGroup) test(evalInterval time.Duration, groupOrderMap map[string]int, queryOpts promql.LazyLoaderOpts, ruleFiles ...string) []error {
// Setup testing suite.
suite, err := promql.NewLazyLoader(nil, tg.seriesLoadingString(), queryOpts)
if err != nil {
return []error{err}
}
defer suite.Close()
suite.SubqueryInterval = evalInterval
// Load the rule files.
opts := &rules.ManagerOptions{
QueryFunc: rules.EngineQueryFunc(suite.QueryEngine(), suite.Storage()),
Appendable: suite.Storage(),
Context: context.Background(),
NotifyFunc: func(ctx context.Context, expr string, alerts ...*rules.Alert) {},
Logger: log.NewNopLogger(),
}
m := rules.NewManager(opts)
groupsMap, ers := m.LoadGroups(time.Duration(tg.Interval), tg.ExternalLabels, tg.ExternalURL, nil, ruleFiles...)
if ers != nil {
return ers
}
groups := orderedGroups(groupsMap, groupOrderMap)
// Bounds for evaluating the rules.
mint := time.Unix(0, 0).UTC()
maxt := mint.Add(tg.maxEvalTime())
// Pre-processing some data for testing alerts.
// All this preparation is so that we can test alerts as we evaluate the rules.
// This avoids storing them in memory, as the number of evals might be high.
// All the `eval_time` for which we have unit tests for alerts.
alertEvalTimesMap := map[model.Duration]struct{}{}
// Map of all the eval_time+alertname combination present in the unit tests.
alertsInTest := make(map[model.Duration]map[string]struct{})
// Map of all the unit tests for given eval_time.
alertTests := make(map[model.Duration][]alertTestCase)
for _, alert := range tg.AlertRuleTests {
if alert.Alertname == "" {
var testGroupLog string
if tg.TestGroupName != "" {
testGroupLog = fmt.Sprintf(" (in TestGroup %s)", tg.TestGroupName)
}
return []error{fmt.Errorf("an item under alert_rule_test misses required attribute alertname at eval_time %v%s", alert.EvalTime, testGroupLog)}
}
alertEvalTimesMap[alert.EvalTime] = struct{}{}
if _, ok := alertsInTest[alert.EvalTime]; !ok {
alertsInTest[alert.EvalTime] = make(map[string]struct{})
}
alertsInTest[alert.EvalTime][alert.Alertname] = struct{}{}
alertTests[alert.EvalTime] = append(alertTests[alert.EvalTime], alert)
}
alertEvalTimes := make([]model.Duration, 0, len(alertEvalTimesMap))
for k := range alertEvalTimesMap {
alertEvalTimes = append(alertEvalTimes, k)
}
sort.Slice(alertEvalTimes, func(i, j int) bool {
return alertEvalTimes[i] < alertEvalTimes[j]
})
// Current index in alertEvalTimes what we are looking at.
curr := 0
for _, g := range groups {
for _, r := range g.Rules() {
if alertRule, ok := r.(*rules.AlertingRule); ok {
// Mark alerting rules as restored, to ensure the ALERTS timeseries is
// created when they run.
alertRule.SetRestored(true)
}
}
}
var errs []error
for ts := mint; ts.Before(maxt) || ts.Equal(maxt); ts = ts.Add(evalInterval) {
// Collects the alerts asked for unit testing.
var evalErrs []error
suite.WithSamplesTill(ts, func(err error) {
if err != nil {
errs = append(errs, err)
return
}
for _, g := range groups {
g.Eval(suite.Context(), ts)
for _, r := range g.Rules() {
if r.LastError() != nil {
evalErrs = append(evalErrs, fmt.Errorf(" rule: %s, time: %s, err: %w",
r.Name(), ts.Sub(time.Unix(0, 0).UTC()), r.LastError()))
}
}
}
})
errs = append(errs, evalErrs...)
// Only end testing at this point if errors occurred evaluating above,
// rather than any test failures already collected in errs.
if len(evalErrs) > 0 {
return errs
}
for {
if !(curr < len(alertEvalTimes) && ts.Sub(mint) <= time.Duration(alertEvalTimes[curr]) &&
time.Duration(alertEvalTimes[curr]) < ts.Add(evalInterval).Sub(mint)) {
break
}
// We need to check alerts for this time.
// If 'ts <= `eval_time=alertEvalTimes[curr]` < ts+evalInterval'
// then we compare alerts with the Eval at `ts`.
t := alertEvalTimes[curr]
presentAlerts := alertsInTest[t]
got := make(map[string]labelsAndAnnotations)
// Same Alert name can be present in multiple groups.
// Hence we collect them all to check against expected alerts.
for _, g := range groups {
grules := g.Rules()
for _, r := range grules {
ar, ok := r.(*rules.AlertingRule)
if !ok {
continue
}
if _, ok := presentAlerts[ar.Name()]; !ok {
continue
}
var alerts labelsAndAnnotations
for _, a := range ar.ActiveAlerts() {
if a.State == rules.StateFiring {
alerts = append(alerts, labelAndAnnotation{
Labels: a.Labels.Copy(),
Annotations: a.Annotations.Copy(),
})
}
}
got[ar.Name()] = append(got[ar.Name()], alerts...)
}
}
for _, testcase := range alertTests[t] {
// Checking alerts.
gotAlerts := got[testcase.Alertname]
var expAlerts labelsAndAnnotations
for _, a := range testcase.ExpAlerts {
// User gives only the labels from alerting rule, which doesn't
// include this label (added by Prometheus during Eval).
if a.ExpLabels == nil {
a.ExpLabels = make(map[string]string)
}
a.ExpLabels[labels.AlertName] = testcase.Alertname
expAlerts = append(expAlerts, labelAndAnnotation{
Labels: labels.FromMap(a.ExpLabels),
Annotations: labels.FromMap(a.ExpAnnotations),
})
}
sort.Sort(gotAlerts)
sort.Sort(expAlerts)
if !reflect.DeepEqual(expAlerts, gotAlerts) {
var testName string
if tg.TestGroupName != "" {
testName = fmt.Sprintf(" name: %s,\n", tg.TestGroupName)
}
expString := indentLines(expAlerts.String(), " ")
gotString := indentLines(gotAlerts.String(), " ")
errs = append(errs, fmt.Errorf("%s alertname: %s, time: %s, \n exp:%v, \n got:%v",
testName, testcase.Alertname, testcase.EvalTime.String(), expString, gotString))
}
}
curr++
}
}
// Checking promql expressions.
Outer:
for _, testCase := range tg.PromqlExprTests {
got, err := query(suite.Context(), testCase.Expr, mint.Add(time.Duration(testCase.EvalTime)),
suite.QueryEngine(), suite.Queryable())
if err != nil {
errs = append(errs, fmt.Errorf(" expr: %q, time: %s, err: %s", testCase.Expr,
testCase.EvalTime.String(), err.Error()))
continue
}
var gotSamples []parsedSample
for _, s := range got {
gotSamples = append(gotSamples, parsedSample{
Labels: s.Metric.Copy(),
Value: s.F,
Histogram: promql.HistogramTestExpression(s.H),
})
}
var expSamples []parsedSample
for _, s := range testCase.ExpSamples {
lb, err := parser.ParseMetric(s.Labels)
var hist *histogram.FloatHistogram
if err == nil && s.Histogram != "" {
_, values, parseErr := parser.ParseSeriesDesc("{} " + s.Histogram)
switch {
case parseErr != nil:
err = parseErr
case len(values) != 1:
err = fmt.Errorf("expected 1 value, got %d", len(values))
case values[0].Histogram == nil:
err = fmt.Errorf("expected histogram, got %v", values[0])
default:
hist = values[0].Histogram
}
}
if err != nil {
err = fmt.Errorf("labels %q: %w", s.Labels, err)
errs = append(errs, fmt.Errorf(" expr: %q, time: %s, err: %w", testCase.Expr,
testCase.EvalTime.String(), err))
continue Outer
}
expSamples = append(expSamples, parsedSample{
Labels: lb,
Value: s.Value,
Histogram: promql.HistogramTestExpression(hist),
})
}
sort.Slice(expSamples, func(i, j int) bool {
return labels.Compare(expSamples[i].Labels, expSamples[j].Labels) <= 0
})
sort.Slice(gotSamples, func(i, j int) bool {
return labels.Compare(gotSamples[i].Labels, gotSamples[j].Labels) <= 0
})
if !reflect.DeepEqual(expSamples, gotSamples) {
errs = append(errs, fmt.Errorf(" expr: %q, time: %s,\n exp: %v\n got: %v", testCase.Expr,
testCase.EvalTime.String(), parsedSamplesString(expSamples), parsedSamplesString(gotSamples)))
}
}
if len(errs) > 0 {
return errs
}
return nil
}
// seriesLoadingString returns the input series in PromQL notation.
func (tg *testGroup) seriesLoadingString() string {
result := fmt.Sprintf("load %v\n", shortDuration(tg.Interval))
for _, is := range tg.InputSeries {
result += fmt.Sprintf(" %v %v\n", is.Series, is.Values)
}
return result
}
func shortDuration(d model.Duration) string {
s := d.String()
if strings.HasSuffix(s, "m0s") {
s = s[:len(s)-2]
}
if strings.HasSuffix(s, "h0m") {
s = s[:len(s)-2]
}
return s
}
// orderedGroups returns a slice of `*rules.Group` from `groupsMap` which follows the order
// mentioned by `groupOrderMap`. NOTE: This is partial ordering.
func orderedGroups(groupsMap map[string]*rules.Group, groupOrderMap map[string]int) []*rules.Group {
groups := make([]*rules.Group, 0, len(groupsMap))
for _, g := range groupsMap {
groups = append(groups, g)
}
sort.Slice(groups, func(i, j int) bool {
return groupOrderMap[groups[i].Name()] < groupOrderMap[groups[j].Name()]
})
return groups
}
// maxEvalTime returns the max eval time among all alert and promql unit tests.
func (tg *testGroup) maxEvalTime() time.Duration {
var maxd model.Duration
for _, alert := range tg.AlertRuleTests {
if alert.EvalTime > maxd {
maxd = alert.EvalTime
}
}
for _, pet := range tg.PromqlExprTests {
if pet.EvalTime > maxd {
maxd = pet.EvalTime
}
}
return time.Duration(maxd)
}
func query(ctx context.Context, qs string, t time.Time, engine *promql.Engine, qu storage.Queryable) (promql.Vector, error) {
q, err := engine.NewInstantQuery(ctx, qu, nil, qs, t)
if err != nil {
return nil, err
}
res := q.Exec(ctx)
if res.Err != nil {
return nil, res.Err
}
switch v := res.Value.(type) {
case promql.Vector:
return v, nil
case promql.Scalar:
return promql.Vector{promql.Sample{
T: v.T,
F: v.V,
Metric: labels.Labels{},
}}, nil
default:
return nil, errors.New("rule result is not a vector or scalar")
}
}
// indentLines prefixes each line in the supplied string with the given "indent"
// string.
func indentLines(lines, indent string) string {
sb := strings.Builder{}
n := strings.Split(lines, "\n")
for i, l := range n {
if i > 0 {
sb.WriteString(indent)
}
sb.WriteString(l)
if i != len(n)-1 {
sb.WriteRune('\n')
}
}
return sb.String()
}
type labelsAndAnnotations []labelAndAnnotation
func (la labelsAndAnnotations) Len() int { return len(la) }
func (la labelsAndAnnotations) Swap(i, j int) { la[i], la[j] = la[j], la[i] }
func (la labelsAndAnnotations) Less(i, j int) bool {
diff := labels.Compare(la[i].Labels, la[j].Labels)
if diff != 0 {
return diff < 0
}
return labels.Compare(la[i].Annotations, la[j].Annotations) < 0
}
func (la labelsAndAnnotations) String() string {
if len(la) == 0 {
return "[]"
}
s := "[\n0:" + indentLines("\n"+la[0].String(), " ")
for i, l := range la[1:] {
s += ",\n" + fmt.Sprintf("%d", i+1) + ":" + indentLines("\n"+l.String(), " ")
}
s += "\n]"
return s
}
type labelAndAnnotation struct {
Labels labels.Labels
Annotations labels.Labels
}
func (la *labelAndAnnotation) String() string {
return "Labels:" + la.Labels.String() + "\nAnnotations:" + la.Annotations.String()
}
type series struct {
Series string `yaml:"series"`
Values string `yaml:"values"`
}
type alertTestCase struct {
EvalTime model.Duration `yaml:"eval_time"`
Alertname string `yaml:"alertname"`
ExpAlerts []alert `yaml:"exp_alerts"`
}
type alert struct {
ExpLabels map[string]string `yaml:"exp_labels"`
ExpAnnotations map[string]string `yaml:"exp_annotations"`
}
type promqlTestCase struct {
Expr string `yaml:"expr"`
EvalTime model.Duration `yaml:"eval_time"`
ExpSamples []sample `yaml:"exp_samples"`
}
type sample struct {
Labels string `yaml:"labels"`
Value float64 `yaml:"value"`
Histogram string `yaml:"histogram"` // A non-empty string means Value is ignored.
}
// parsedSample is a sample with parsed Labels.
type parsedSample struct {
Labels labels.Labels
Value float64
Histogram string // TestExpression() of histogram.FloatHistogram
}
func parsedSamplesString(pss []parsedSample) string {
if len(pss) == 0 {
return "nil"
}
s := pss[0].String()
for _, ps := range pss[1:] {
s += ", " + ps.String()
}
return s
}
func (ps *parsedSample) String() string {
if ps.Histogram != "" {
return ps.Labels.String() + " " + ps.Histogram
}
return ps.Labels.String() + " " + strconv.FormatFloat(ps.Value, 'E', -1, 64)
}