traefik/metrics/prometheus_test.go

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package metrics
import (
"fmt"
"net/http"
"strconv"
"testing"
"time"
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th "github.com/containous/traefik/testhelpers"
"github.com/containous/traefik/types"
"github.com/prometheus/client_golang/prometheus"
dto "github.com/prometheus/client_model/go"
"github.com/stretchr/testify/assert"
)
func TestRegisterPromState(t *testing.T) {
// Reset state of global promState.
defer promState.reset()
testCases := []struct {
desc string
prometheusSlice []*types.Prometheus
initPromState bool
unregisterPromState bool
expectedNbRegistries int
}{
{
desc: "Register once",
prometheusSlice: []*types.Prometheus{{}},
expectedNbRegistries: 1,
initPromState: true,
},
{
desc: "Register once with no promState init",
prometheusSlice: []*types.Prometheus{{}},
expectedNbRegistries: 0,
},
{
desc: "Register twice",
prometheusSlice: []*types.Prometheus{{}, {}},
expectedNbRegistries: 2,
initPromState: true,
},
{
desc: "Register twice with no promstate init",
prometheusSlice: []*types.Prometheus{{}, {}},
expectedNbRegistries: 0,
},
{
desc: "Register twice with unregister",
prometheusSlice: []*types.Prometheus{{}, {}},
unregisterPromState: true,
expectedNbRegistries: 2,
initPromState: true,
},
{
desc: "Register twice with unregister but no promstate init",
prometheusSlice: []*types.Prometheus{{}, {}},
unregisterPromState: true,
expectedNbRegistries: 0,
},
}
for _, test := range testCases {
actualNbRegistries := 0
for _, prom := range test.prometheusSlice {
if test.initPromState {
initStandardRegistry(prom)
}
promReg := registerPromState()
if promReg != false {
actualNbRegistries++
}
if test.unregisterPromState {
prometheus.Unregister(promState)
}
promState.reset()
}
prometheus.Unregister(promState)
assert.Equal(t, test.expectedNbRegistries, actualNbRegistries)
}
}
func TestPrometheus(t *testing.T) {
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// Reset state of global promState.
defer promState.reset()
prometheusRegistry := RegisterPrometheus(&types.Prometheus{})
defer prometheus.Unregister(promState)
if !prometheusRegistry.IsEnabled() {
t.Errorf("PrometheusRegistry should return true for IsEnabled()")
}
prometheusRegistry.ConfigReloadsCounter().Add(1)
prometheusRegistry.ConfigReloadsFailureCounter().Add(1)
prometheusRegistry.LastConfigReloadSuccessGauge().Set(float64(time.Now().Unix()))
prometheusRegistry.LastConfigReloadFailureGauge().Set(float64(time.Now().Unix()))
prometheusRegistry.
EntrypointReqsCounter().
With("code", strconv.Itoa(http.StatusOK), "method", http.MethodGet, "protocol", "http", "entrypoint", "http").
Add(1)
prometheusRegistry.
EntrypointReqDurationHistogram().
With("code", strconv.Itoa(http.StatusOK), "method", http.MethodGet, "protocol", "http", "entrypoint", "http").
Observe(1)
prometheusRegistry.
EntrypointOpenConnsGauge().
With("method", http.MethodGet, "protocol", "http", "entrypoint", "http").
Set(1)
prometheusRegistry.
BackendReqsCounter().
With("backend", "backend1", "code", strconv.Itoa(http.StatusOK), "method", http.MethodGet, "protocol", "http").
Add(1)
prometheusRegistry.
BackendReqDurationHistogram().
With("backend", "backend1", "code", strconv.Itoa(http.StatusOK), "method", http.MethodGet, "protocol", "http").
Observe(10000)
prometheusRegistry.
BackendOpenConnsGauge().
With("backend", "backend1", "method", http.MethodGet, "protocol", "http").
Set(1)
prometheusRegistry.
BackendRetriesCounter().
With("backend", "backend1").
Add(1)
prometheusRegistry.
BackendServerUpGauge().
With("backend", "backend1", "url", "http://127.0.0.10:80").
Set(1)
delayForTrackingCompletion()
metricsFamilies := mustScrape()
tests := []struct {
name string
labels map[string]string
assert func(*dto.MetricFamily)
}{
{
name: configReloadsTotalName,
assert: buildCounterAssert(t, configReloadsTotalName, 1),
},
{
name: configReloadsFailuresTotalName,
assert: buildCounterAssert(t, configReloadsFailuresTotalName, 1),
},
{
name: configLastReloadSuccessName,
assert: buildTimestampAssert(t, configLastReloadSuccessName),
},
{
name: configLastReloadFailureName,
assert: buildTimestampAssert(t, configLastReloadFailureName),
},
{
name: entrypointReqsTotalName,
labels: map[string]string{
"code": "200",
"method": http.MethodGet,
"protocol": "http",
"entrypoint": "http",
},
assert: buildCounterAssert(t, entrypointReqsTotalName, 1),
},
{
name: entrypointReqDurationName,
labels: map[string]string{
"code": "200",
"method": http.MethodGet,
"protocol": "http",
"entrypoint": "http",
},
assert: buildHistogramAssert(t, entrypointReqDurationName, 1),
},
{
name: entrypointOpenConnsName,
labels: map[string]string{
"method": http.MethodGet,
"protocol": "http",
"entrypoint": "http",
},
assert: buildGaugeAssert(t, entrypointOpenConnsName, 1),
},
{
name: backendReqsTotalName,
labels: map[string]string{
"code": "200",
"method": http.MethodGet,
"protocol": "http",
"backend": "backend1",
},
assert: buildCounterAssert(t, backendReqsTotalName, 1),
},
{
name: backendReqDurationName,
labels: map[string]string{
"code": "200",
"method": http.MethodGet,
"protocol": "http",
"backend": "backend1",
},
assert: buildHistogramAssert(t, backendReqDurationName, 1),
},
{
name: backendOpenConnsName,
labels: map[string]string{
"method": http.MethodGet,
"protocol": "http",
"backend": "backend1",
},
assert: buildGaugeAssert(t, backendOpenConnsName, 1),
},
{
name: backendRetriesTotalName,
labels: map[string]string{
"backend": "backend1",
},
assert: buildGreaterThanCounterAssert(t, backendRetriesTotalName, 1),
},
{
name: backendServerUpName,
labels: map[string]string{
"backend": "backend1",
"url": "http://127.0.0.10:80",
},
assert: buildGaugeAssert(t, backendServerUpName, 1),
},
}
for _, test := range tests {
family := findMetricFamily(test.name, metricsFamilies)
if family == nil {
t.Errorf("gathered metrics do not contain %q", test.name)
continue
}
for _, label := range family.Metric[0].Label {
val, ok := test.labels[*label.Name]
if !ok {
t.Errorf("%q metric contains unexpected label %q", test.name, *label.Name)
} else if val != *label.Value {
t.Errorf("label %q in metric %q has wrong value %q, expected %q", *label.Name, test.name, *label.Value, val)
}
}
test.assert(family)
}
}
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func TestPrometheusMetricRemoval(t *testing.T) {
// Reset state of global promState.
defer promState.reset()
prometheusRegistry := RegisterPrometheus(&types.Prometheus{})
defer prometheus.Unregister(promState)
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configurations := make(types.Configurations)
configurations["providerName"] = th.BuildConfiguration(
th.WithFrontends(
th.WithFrontend("backend1", th.WithEntryPoints("entrypoint1")),
),
th.WithBackends(
th.WithBackendNew("backend1", th.WithServersNew(th.WithServerNew("http://localhost:9000"))),
),
)
OnConfigurationUpdate(configurations)
// Register some metrics manually that are not part of the active configuration.
// Those metrics should be part of the /metrics output on the first scrape but
// should be removed after that scrape.
prometheusRegistry.
EntrypointReqsCounter().
With("entrypoint", "entrypoint2", "code", strconv.Itoa(http.StatusOK), "method", http.MethodGet, "protocol", "http").
Add(1)
prometheusRegistry.
BackendReqsCounter().
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With("backend", "backend2", "code", strconv.Itoa(http.StatusOK), "method", http.MethodGet, "protocol", "http").
Add(1)
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prometheusRegistry.
BackendServerUpGauge().
With("backend", "backend1", "url", "http://localhost:9999").
Set(1)
delayForTrackingCompletion()
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assertMetricsExist(t, mustScrape(), entrypointReqsTotalName, backendReqsTotalName, backendServerUpName)
assertMetricsAbsent(t, mustScrape(), entrypointReqsTotalName, backendReqsTotalName, backendServerUpName)
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// To verify that metrics belonging to active configurations are not removed
// here the counter examples.
prometheusRegistry.
EntrypointReqsCounter().
With("entrypoint", "entrypoint1", "code", strconv.Itoa(http.StatusOK), "method", http.MethodGet, "protocol", "http").
Add(1)
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delayForTrackingCompletion()
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assertMetricsExist(t, mustScrape(), entrypointReqsTotalName)
assertMetricsExist(t, mustScrape(), entrypointReqsTotalName)
}
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func TestPrometheusRemovedMetricsReset(t *testing.T) {
// Reset state of global promState.
defer promState.reset()
prometheusRegistry := RegisterPrometheus(&types.Prometheus{})
defer prometheus.Unregister(promState)
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labelNamesValues := []string{
"backend", "backend",
"code", strconv.Itoa(http.StatusOK),
"method", http.MethodGet,
"protocol", "http",
}
prometheusRegistry.
BackendReqsCounter().
With(labelNamesValues...).
Add(3)
delayForTrackingCompletion()
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metricsFamilies := mustScrape()
assertCounterValue(t, 3, findMetricFamily(backendReqsTotalName, metricsFamilies), labelNamesValues...)
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// There is no dynamic configuration and so this metric will be deleted
// after the first scrape.
assertMetricsAbsent(t, mustScrape(), backendReqsTotalName)
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prometheusRegistry.
BackendReqsCounter().
With(labelNamesValues...).
Add(1)
delayForTrackingCompletion()
metricsFamilies = mustScrape()
assertCounterValue(t, 1, findMetricFamily(backendReqsTotalName, metricsFamilies), labelNamesValues...)
}
// Tracking and gathering the metrics happens concurrently.
// In practice this is no problem, because in case a tracked metric would miss
// the current scrape, it would just be there in the next one.
// That we can test reliably the tracking of all metrics here, we sleep
// for a short amount of time, to make sure the metric will be present
// in the next scrape.
func delayForTrackingCompletion() {
time.Sleep(250 * time.Millisecond)
}
func mustScrape() []*dto.MetricFamily {
families, err := prometheus.DefaultGatherer.Gather()
if err != nil {
panic(fmt.Sprintf("could not gather metrics families: %s", err))
}
return families
}
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func assertMetricsExist(t *testing.T, families []*dto.MetricFamily, metricNames ...string) {
t.Helper()
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for _, metricName := range metricNames {
if findMetricFamily(metricName, families) == nil {
t.Errorf("gathered metrics should contain %q", metricName)
}
}
}
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func assertMetricsAbsent(t *testing.T, families []*dto.MetricFamily, metricNames ...string) {
t.Helper()
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for _, metricName := range metricNames {
if findMetricFamily(metricName, families) != nil {
t.Errorf("gathered metrics should not contain %q", metricName)
}
}
}
func findMetricFamily(name string, families []*dto.MetricFamily) *dto.MetricFamily {
for _, family := range families {
if family.GetName() == name {
return family
}
}
return nil
}
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func findMetricByLabelNamesValues(family *dto.MetricFamily, labelNamesValues ...string) *dto.Metric {
if family == nil {
return nil
}
for _, metric := range family.Metric {
if hasMetricAllLabelPairs(metric, labelNamesValues...) {
return metric
}
}
return nil
}
func hasMetricAllLabelPairs(metric *dto.Metric, labelNamesValues ...string) bool {
for i := 0; i < len(labelNamesValues); i += 2 {
name, val := labelNamesValues[i], labelNamesValues[i+1]
if !hasMetricLabelPair(metric, name, val) {
return false
}
}
return true
}
func hasMetricLabelPair(metric *dto.Metric, labelName, labelValue string) bool {
for _, labelPair := range metric.Label {
if labelPair.GetName() == labelName && labelPair.GetValue() == labelValue {
return true
}
}
return false
}
func assertCounterValue(t *testing.T, want float64, family *dto.MetricFamily, labelNamesValues ...string) {
t.Helper()
metric := findMetricByLabelNamesValues(family, labelNamesValues...)
if metric == nil {
t.Error("metric must not be nil")
return
}
if metric.Counter == nil {
t.Errorf("metric %s must be a counter", family.GetName())
return
}
if cv := metric.Counter.GetValue(); cv != want {
t.Errorf("metric %s has value %v, want %v", family.GetName(), cv, want)
}
}
func buildCounterAssert(t *testing.T, metricName string, expectedValue int) func(family *dto.MetricFamily) {
return func(family *dto.MetricFamily) {
if cv := int(family.Metric[0].Counter.GetValue()); cv != expectedValue {
t.Errorf("metric %s has value %d, want %d", metricName, cv, expectedValue)
}
}
}
func buildGreaterThanCounterAssert(t *testing.T, metricName string, expectedMinValue int) func(family *dto.MetricFamily) {
return func(family *dto.MetricFamily) {
if cv := int(family.Metric[0].Counter.GetValue()); cv < expectedMinValue {
t.Errorf("metric %s has value %d, want at least %d", metricName, cv, expectedMinValue)
}
}
}
func buildHistogramAssert(t *testing.T, metricName string, expectedSampleCount int) func(family *dto.MetricFamily) {
return func(family *dto.MetricFamily) {
if sc := int(family.Metric[0].Histogram.GetSampleCount()); sc != expectedSampleCount {
t.Errorf("metric %s has sample count value %d, want %d", metricName, sc, expectedSampleCount)
}
}
}
func buildGaugeAssert(t *testing.T, metricName string, expectedValue int) func(family *dto.MetricFamily) {
return func(family *dto.MetricFamily) {
if gv := int(family.Metric[0].Gauge.GetValue()); gv != expectedValue {
t.Errorf("metric %s has value %d, want %d", metricName, gv, expectedValue)
}
}
}
func buildTimestampAssert(t *testing.T, metricName string) func(family *dto.MetricFamily) {
return func(family *dto.MetricFamily) {
if ts := time.Unix(int64(family.Metric[0].Gauge.GetValue()), 0); time.Since(ts) > time.Minute {
t.Errorf("metric %s has wrong timestamp %v", metricName, ts)
}
}
}