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Code Issues Actions 8 Packages Projects Releases Wiki Activity
45cec4728c
VictoriaMetrics/app/vmalert/alerting_test.go
Roman Khavronenko 6fd10e8871
vmalert: speed up state restore procedure on start (#3758) 
* vmalert: speed up state restore procedure on start

Alerts state restore procedure has been changed to become asynchronous.
It doesn't block groups start anymore which significantly improves vmalert's startup time.
Instead, state restore is called by each group in their goroutines after the first rules
evaluation.

While previously state restore attempt was made for all loaded alerting rules,
now it is called only for alerts which became active after the first evaluation.
This reduces the amount of API calls to the configured remote read URL.

This also means that `remoteRead.ignoreRestoreErrors` command-line flag becomes deprecated now
and will have no effect if configured.

See relevant issue https://github.com/VictoriaMetrics/VictoriaMetrics/issues/2608

Signed-off-by: hagen1778 <roman@victoriametrics.com>

* make lint happy

Signed-off-by: hagen1778 <roman@victoriametrics.com>

* Apply suggestions from code review

---------

Signed-off-by: hagen1778 <roman@victoriametrics.com>
Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
2023-02-03 19:46:13 -08:00

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package main
import (
"context"
"errors"
"reflect"
"sort"
"strings"
"sync"
"testing"
"time"
"github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/config"
"github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/datasource"
"github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/notifier"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/prompbmarshal"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/promutils"
)
func TestAlertingRule_ToTimeSeries(t *testing.T) {
timestamp := time.Now()
testCases := []struct {
rule *AlertingRule
alert *notifier.Alert
expTS []prompbmarshal.TimeSeries
}{
{
newTestAlertingRule("instant", 0),
&notifier.Alert{State: notifier.StateFiring},
[]prompbmarshal.TimeSeries{
newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{
"__name__": alertMetricName,
alertStateLabel: notifier.StateFiring.String(),
}),
},
},
{
newTestAlertingRule("instant extra labels", 0),
&notifier.Alert{State: notifier.StateFiring, Labels: map[string]string{
"job": "foo",
"instance": "bar",
}},
[]prompbmarshal.TimeSeries{
newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{
"__name__": alertMetricName,
alertStateLabel: notifier.StateFiring.String(),
"job": "foo",
"instance": "bar",
}),
},
},
{
newTestAlertingRule("instant labels override", 0),
&notifier.Alert{State: notifier.StateFiring, Labels: map[string]string{
alertStateLabel: "foo",
"__name__": "bar",
}},
[]prompbmarshal.TimeSeries{
newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{
"__name__": alertMetricName,
alertStateLabel: notifier.StateFiring.String(),
}),
},
},
{
newTestAlertingRule("for", time.Second),
&notifier.Alert{State: notifier.StateFiring, ActiveAt: timestamp.Add(time.Second)},
[]prompbmarshal.TimeSeries{
newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{
"__name__": alertMetricName,
alertStateLabel: notifier.StateFiring.String(),
}),
newTimeSeries([]float64{float64(timestamp.Add(time.Second).Unix())},
[]int64{timestamp.UnixNano()},
map[string]string{
"__name__": alertForStateMetricName,
}),
},
},
{
newTestAlertingRule("for pending", 10*time.Second),
&notifier.Alert{State: notifier.StatePending, ActiveAt: timestamp.Add(time.Second)},
[]prompbmarshal.TimeSeries{
newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{
"__name__": alertMetricName,
alertStateLabel: notifier.StatePending.String(),
}),
newTimeSeries([]float64{float64(timestamp.Add(time.Second).Unix())},
[]int64{timestamp.UnixNano()},
map[string]string{
"__name__": alertForStateMetricName,
}),
},
},
}
for _, tc := range testCases {
t.Run(tc.rule.Name, func(t *testing.T) {
tc.rule.alerts[tc.alert.ID] = tc.alert
tss := tc.rule.toTimeSeries(timestamp.Unix())
if err := compareTimeSeries(t, tc.expTS, tss); err != nil {
t.Fatalf("timeseries missmatch: %s", err)
}
})
}
}
func TestAlertingRule_Exec(t *testing.T) {
const defaultStep = 5 * time.Millisecond
type testAlert struct {
labels []string
alert *notifier.Alert
}
testCases := []struct {
rule *AlertingRule
steps [][]datasource.Metric
expAlerts []testAlert
}{
{
newTestAlertingRule("empty", 0),
[][]datasource.Metric{},
nil,
},
{
newTestAlertingRule("empty labels", 0),
[][]datasource.Metric{
{datasource.Metric{Values: []float64{1}, Timestamps: []int64{1}}},
},
[]testAlert{
{alert: &notifier.Alert{State: notifier.StateFiring}},
},
},
{
newTestAlertingRule("single-firing", 0),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateFiring}},
},
},
{
newTestAlertingRule("single-firing=>inactive", 0),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateInactive}},
},
},
{
newTestAlertingRule("single-firing=>inactive=>firing", 0),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{},
{metricWithLabels(t, "name", "foo")},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateFiring}},
},
},
{
newTestAlertingRule("single-firing=>inactive=>firing=>inactive", 0),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{},
{metricWithLabels(t, "name", "foo")},
{},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateInactive}},
},
},
{
newTestAlertingRule("single-firing=>inactive=>firing=>inactive=>inactive", 0),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{},
{metricWithLabels(t, "name", "foo")},
{},
{},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateInactive}},
},
},
{
newTestAlertingRule("single-firing=>inactive=>firing=>inactive=>empty=>firing", 0),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{},
{metricWithLabels(t, "name", "foo")},
{},
{},
{metricWithLabels(t, "name", "foo")},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateFiring}},
},
},
{
newTestAlertingRule("multiple-firing", 0),
[][]datasource.Metric{
{
metricWithLabels(t, "name", "foo"),
metricWithLabels(t, "name", "foo1"),
metricWithLabels(t, "name", "foo2"),
},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateFiring}},
{labels: []string{"name", "foo1"}, alert: &notifier.Alert{State: notifier.StateFiring}},
{labels: []string{"name", "foo2"}, alert: &notifier.Alert{State: notifier.StateFiring}},
},
},
{
newTestAlertingRule("multiple-steps-firing", 0),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{metricWithLabels(t, "name", "foo1")},
{metricWithLabels(t, "name", "foo2")},
},
// 1: fire first alert
// 2: fire second alert, set first inactive
// 3: fire third alert, set second inactive
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateInactive}},
{labels: []string{"name", "foo1"}, alert: &notifier.Alert{State: notifier.StateInactive}},
{labels: []string{"name", "foo2"}, alert: &notifier.Alert{State: notifier.StateFiring}},
},
},
{
newTestAlertingRule("for-pending", time.Minute),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StatePending}},
},
},
{
newTestAlertingRule("for-fired", defaultStep),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{metricWithLabels(t, "name", "foo")},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateFiring}},
},
},
{
newTestAlertingRule("for-pending=>empty", time.Second),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{metricWithLabels(t, "name", "foo")},
// empty step to reset and delete pending alerts
{},
},
nil,
},
{
newTestAlertingRule("for-pending=>firing=>inactive", defaultStep),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{metricWithLabels(t, "name", "foo")},
// empty step to reset pending alerts
{},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateInactive}},
},
},
{
newTestAlertingRule("for-pending=>firing=>inactive=>pending", defaultStep),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{metricWithLabels(t, "name", "foo")},
// empty step to reset pending alerts
{},
{metricWithLabels(t, "name", "foo")},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StatePending}},
},
},
{
newTestAlertingRule("for-pending=>firing=>inactive=>pending=>firing", defaultStep),
[][]datasource.Metric{
{metricWithLabels(t, "name", "foo")},
{metricWithLabels(t, "name", "foo")},
// empty step to reset pending alerts
{},
{metricWithLabels(t, "name", "foo")},
{metricWithLabels(t, "name", "foo")},
},
[]testAlert{
{labels: []string{"name", "foo"}, alert: &notifier.Alert{State: notifier.StateFiring}},
},
},
}
fakeGroup := Group{Name: "TestRule_Exec"}
for _, tc := range testCases {
t.Run(tc.rule.Name, func(t *testing.T) {
fq := &fakeQuerier{}
tc.rule.q = fq
tc.rule.GroupID = fakeGroup.ID()
for _, step := range tc.steps {
fq.reset()
fq.add(step...)
if _, err := tc.rule.Exec(context.TODO(), time.Now(), 0); err != nil {
t.Fatalf("unexpected err: %s", err)
}
// artificial delay between applying steps
time.Sleep(defaultStep)
}
if len(tc.rule.alerts) != len(tc.expAlerts) {
t.Fatalf("expected %d alerts; got %d", len(tc.expAlerts), len(tc.rule.alerts))
}
expAlerts := make(map[uint64]*notifier.Alert)
for _, ta := range tc.expAlerts {
labels := make(map[string]string)
for i := 0; i < len(ta.labels); i += 2 {
k, v := ta.labels[i], ta.labels[i+1]
labels[k] = v
}
labels[alertNameLabel] = tc.rule.Name
h := hash(labels)
expAlerts[h] = ta.alert
}
for key, exp := range expAlerts {
got, ok := tc.rule.alerts[key]
if !ok {
t.Fatalf("expected to have key %d", key)
}
if got.State != exp.State {
t.Fatalf("expected state %d; got %d", exp.State, got.State)
}
}
})
}
}
func TestAlertingRule_ExecRange(t *testing.T) {
testCases := []struct {
rule *AlertingRule
data []datasource.Metric
expAlerts []*notifier.Alert
}{
{
newTestAlertingRule("empty", 0),
[]datasource.Metric{},
nil,
},
{
newTestAlertingRule("empty labels", 0),
[]datasource.Metric{
{Values: []float64{1}, Timestamps: []int64{1}},
},
[]*notifier.Alert{
{State: notifier.StateFiring},
},
},
{
newTestAlertingRule("single-firing", 0),
[]datasource.Metric{
metricWithLabels(t, "name", "foo"),
},
[]*notifier.Alert{
{
Labels: map[string]string{"name": "foo"},
State: notifier.StateFiring,
},
},
},
{
newTestAlertingRule("single-firing-on-range", 0),
[]datasource.Metric{
{Values: []float64{1, 1, 1}, Timestamps: []int64{1e3, 2e3, 3e3}},
},
[]*notifier.Alert{
{State: notifier.StateFiring},
{State: notifier.StateFiring},
{State: notifier.StateFiring},
},
},
{
newTestAlertingRule("for-pending", time.Second),
[]datasource.Metric{
{Values: []float64{1, 1, 1}, Timestamps: []int64{1, 3, 5}},
},
[]*notifier.Alert{
{State: notifier.StatePending, ActiveAt: time.Unix(1, 0)},
{State: notifier.StatePending, ActiveAt: time.Unix(3, 0)},
{State: notifier.StatePending, ActiveAt: time.Unix(5, 0)},
},
},
{
newTestAlertingRule("for-firing", 3*time.Second),
[]datasource.Metric{
{Values: []float64{1, 1, 1}, Timestamps: []int64{1, 3, 5}},
},
[]*notifier.Alert{
{State: notifier.StatePending, ActiveAt: time.Unix(1, 0)},
{State: notifier.StatePending, ActiveAt: time.Unix(1, 0)},
{State: notifier.StateFiring, ActiveAt: time.Unix(1, 0)},
},
},
{
newTestAlertingRule("for=>pending=>firing=>pending=>firing=>pending", time.Second),
[]datasource.Metric{
{Values: []float64{1, 1, 1, 1, 1}, Timestamps: []int64{1, 2, 5, 6, 20}},
},
[]*notifier.Alert{
{State: notifier.StatePending, ActiveAt: time.Unix(1, 0)},
{State: notifier.StateFiring, ActiveAt: time.Unix(1, 0)},
{State: notifier.StatePending, ActiveAt: time.Unix(5, 0)},
{State: notifier.StateFiring, ActiveAt: time.Unix(5, 0)},
{State: notifier.StatePending, ActiveAt: time.Unix(20, 0)},
},
},
{
newTestAlertingRule("multi-series-for=>pending=>pending=>firing", 3*time.Second),
[]datasource.Metric{
{Values: []float64{1, 1, 1}, Timestamps: []int64{1, 3, 5}},
{Values: []float64{1, 1}, Timestamps: []int64{1, 5},
Labels: []datasource.Label{{Name: "foo", Value: "bar"}},
},
},
[]*notifier.Alert{
{State: notifier.StatePending, ActiveAt: time.Unix(1, 0)},
{State: notifier.StatePending, ActiveAt: time.Unix(1, 0)},
{State: notifier.StateFiring, ActiveAt: time.Unix(1, 0)},
//
{State: notifier.StatePending, ActiveAt: time.Unix(1, 0),
Labels: map[string]string{
"foo": "bar",
}},
{State: notifier.StatePending, ActiveAt: time.Unix(5, 0),
Labels: map[string]string{
"foo": "bar",
}},
},
},
{
newTestRuleWithLabels("multi-series-firing", "source", "vm"),
[]datasource.Metric{
{Values: []float64{1, 1}, Timestamps: []int64{1, 100}},
{Values: []float64{1, 1}, Timestamps: []int64{1, 5},
Labels: []datasource.Label{{Name: "foo", Value: "bar"}},
},
},
[]*notifier.Alert{
{State: notifier.StateFiring, Labels: map[string]string{
"source": "vm",
}},
{State: notifier.StateFiring, Labels: map[string]string{
"source": "vm",
}},
//
{State: notifier.StateFiring, Labels: map[string]string{
"foo": "bar",
"source": "vm",
}},
{State: notifier.StateFiring, Labels: map[string]string{
"foo": "bar",
"source": "vm",
}},
},
},
}
fakeGroup := Group{Name: "TestRule_ExecRange"}
for _, tc := range testCases {
t.Run(tc.rule.Name, func(t *testing.T) {
fq := &fakeQuerier{}
tc.rule.q = fq
tc.rule.GroupID = fakeGroup.ID()
fq.add(tc.data...)
gotTS, err := tc.rule.ExecRange(context.TODO(), time.Now(), time.Now())
if err != nil {
t.Fatalf("unexpected err: %s", err)
}
var expTS []prompbmarshal.TimeSeries
var j int
for _, series := range tc.data {
for _, timestamp := range series.Timestamps {
a := tc.expAlerts[j]
if a.Labels == nil {
a.Labels = make(map[string]string)
}
a.Labels[alertNameLabel] = tc.rule.Name
expTS = append(expTS, tc.rule.alertToTimeSeries(a, timestamp)...)
j++
}
}
if len(gotTS) != len(expTS) {
t.Fatalf("expected %d time series; got %d", len(expTS), len(gotTS))
}
for i := range expTS {
got, exp := gotTS[i], expTS[i]
if !reflect.DeepEqual(got, exp) {
t.Fatalf("%d: expected \n%v but got \n%v", i, exp, got)
}
}
})
}
}
func TestGroup_Restore(t *testing.T) {
defaultTS := time.Now()
fqr := &fakeQuerierWithRegistry{}
fn := func(rules []config.Rule, expAlerts map[uint64]*notifier.Alert) {
t.Helper()
defer fqr.reset()
for _, r := range rules {
fqr.set(r.Expr, metricWithValueAndLabels(t, 0, "__name__", r.Alert))
}
fg := newGroup(config.Group{Name: "TestRestore", Rules: rules}, fqr, time.Second, nil)
wg := sync.WaitGroup{}
wg.Add(1)
go func() {
nts := func() []notifier.Notifier { return []notifier.Notifier{&fakeNotifier{}} }
fg.start(context.Background(), nts, nil, fqr)
wg.Done()
}()
fg.close()
wg.Wait()
gotAlerts := make(map[uint64]*notifier.Alert)
for _, rs := range fg.Rules {
alerts := rs.(*AlertingRule).alerts
for k, v := range alerts {
if !v.Restored {
// set not restored alerts to predictable timestamp
v.ActiveAt = defaultTS
}
gotAlerts[k] = v
}
}
if len(gotAlerts) != len(expAlerts) {
t.Fatalf("expected %d alerts; got %d", len(expAlerts), len(gotAlerts))
}
for key, exp := range expAlerts {
got, ok := gotAlerts[key]
if !ok {
t.Fatalf("expected to have key %d", key)
}
if got.State != notifier.StatePending {
t.Fatalf("expected state %d; got %d", notifier.StatePending, got.State)
}
if got.ActiveAt != exp.ActiveAt {
t.Fatalf("expected ActiveAt %v; got %v", exp.ActiveAt, got.ActiveAt)
}
}
}
stateMetric := func(name string, value time.Time, labels ...string) datasource.Metric {
labels = append(labels, "__name__", alertForStateMetricName)
labels = append(labels, alertNameLabel, name)
labels = append(labels, alertGroupNameLabel, "TestRestore")
return metricWithValueAndLabels(t, float64(value.Unix()), labels...)
}
// one active alert, no previous state
fn(
[]config.Rule{{Alert: "foo", Expr: "foo", For: promutils.NewDuration(time.Second)}},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "foo", alertGroupNameLabel: "TestRestore"}): {
ActiveAt: defaultTS,
},
})
fqr.reset()
// one active alert with state restore
ts := time.Now().Truncate(time.Hour)
fqr.set(`last_over_time(ALERTS_FOR_STATE{alertgroup="TestRestore",alertname="foo"}[3600s])`,
stateMetric("foo", ts))
fn(
[]config.Rule{{Alert: "foo", Expr: "foo", For: promutils.NewDuration(time.Second)}},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "foo", alertGroupNameLabel: "TestRestore"}): {
ActiveAt: ts},
})
// two rules, two active alerts, one with state restored
ts = time.Now().Truncate(time.Hour)
fqr.set(`last_over_time(ALERTS_FOR_STATE{alertgroup="TestRestore",alertname="bar"}[3600s])`,
stateMetric("foo", ts))
fn(
[]config.Rule{
{Alert: "foo", Expr: "foo", For: promutils.NewDuration(time.Second)},
{Alert: "bar", Expr: "bar", For: promutils.NewDuration(time.Second)},
},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "foo", alertGroupNameLabel: "TestRestore"}): {
ActiveAt: defaultTS,
},
hash(map[string]string{alertNameLabel: "bar", alertGroupNameLabel: "TestRestore"}): {
ActiveAt: ts},
})
// two rules, two active alerts, two with state restored
ts = time.Now().Truncate(time.Hour)
fqr.set(`last_over_time(ALERTS_FOR_STATE{alertgroup="TestRestore",alertname="foo"}[3600s])`,
stateMetric("foo", ts))
fqr.set(`last_over_time(ALERTS_FOR_STATE{alertgroup="TestRestore",alertname="bar"}[3600s])`,
stateMetric("bar", ts))
fn(
[]config.Rule{
{Alert: "foo", Expr: "foo", For: promutils.NewDuration(time.Second)},
{Alert: "bar", Expr: "bar", For: promutils.NewDuration(time.Second)},
},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "foo", alertGroupNameLabel: "TestRestore"}): {
ActiveAt: ts,
},
hash(map[string]string{alertNameLabel: "bar", alertGroupNameLabel: "TestRestore"}): {
ActiveAt: ts},
})
// one active alert but wrong state restore
ts = time.Now().Truncate(time.Hour)
fqr.set(`last_over_time(ALERTS_FOR_STATE{alertname="bar",alertgroup="TestRestore"}[3600s])`,
stateMetric("wrong alert", ts))
fn(
[]config.Rule{{Alert: "foo", Expr: "foo", For: promutils.NewDuration(time.Second)}},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "foo", alertGroupNameLabel: "TestRestore"}): {
ActiveAt: defaultTS,
},
})
// one active alert with labels
ts = time.Now().Truncate(time.Hour)
fqr.set(`last_over_time(ALERTS_FOR_STATE{alertgroup="TestRestore",alertname="foo",env="dev"}[3600s])`,
stateMetric("foo", ts, "env", "dev"))
fn(
[]config.Rule{{Alert: "foo", Expr: "foo", Labels: map[string]string{"env": "dev"}, For: promutils.NewDuration(time.Second)}},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "foo", alertGroupNameLabel: "TestRestore", "env": "dev"}): {
ActiveAt: ts,
},
})
// one active alert with restore labels missmatch
ts = time.Now().Truncate(time.Hour)
fqr.set(`last_over_time(ALERTS_FOR_STATE{alertgroup="TestRestore",alertname="foo",env="dev"}[3600s])`,
stateMetric("foo", ts, "env", "dev", "team", "foo"))
fn(
[]config.Rule{{Alert: "foo", Expr: "foo", Labels: map[string]string{"env": "dev"}, For: promutils.NewDuration(time.Second)}},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "foo", alertGroupNameLabel: "TestRestore", "env": "dev"}): {
ActiveAt: defaultTS,
},
})
}
func TestAlertingRule_Exec_Negative(t *testing.T) {
fq := &fakeQuerier{}
ar := newTestAlertingRule("test", 0)
ar.Labels = map[string]string{"job": "test"}
ar.q = fq
// successful attempt
fq.add(metricWithValueAndLabels(t, 1, "__name__", "foo", "job", "bar"))
_, err := ar.Exec(context.TODO(), time.Now(), 0)
if err != nil {
t.Fatal(err)
}
// label `job` will collide with rule extra label and will make both time series equal
fq.add(metricWithValueAndLabels(t, 1, "__name__", "foo", "job", "baz"))
_, err = ar.Exec(context.TODO(), time.Now(), 0)
if !errors.Is(err, errDuplicate) {
t.Fatalf("expected to have %s error; got %s", errDuplicate, err)
}
fq.reset()
expErr := "connection reset by peer"
fq.setErr(errors.New(expErr))
_, err = ar.Exec(context.TODO(), time.Now(), 0)
if err == nil {
t.Fatalf("expected to get err; got nil")
}
if !strings.Contains(err.Error(), expErr) {
t.Fatalf("expected to get err %q; got %q insterad", expErr, err)
}
}
func TestAlertingRuleLimit(t *testing.T) {
fq := &fakeQuerier{}
ar := newTestAlertingRule("test", 0)
ar.Labels = map[string]string{"job": "test"}
ar.q = fq
ar.For = time.Minute
testCases := []struct {
limit int
err string
tssNum int
}{
{
limit: 0,
tssNum: 4,
},
{
limit: -1,
tssNum: 4,
},
{
limit: 1,
err: "exec exceeded limit of 1 with 2 alerts",
tssNum: 0,
},
{
limit: 4,
tssNum: 4,
},
}
var (
err error
timestamp = time.Now()
)
fq.add(metricWithValueAndLabels(t, 1, "__name__", "foo", "job", "bar"))
fq.add(metricWithValueAndLabels(t, 1, "__name__", "foo", "bar", "job"))
for _, testCase := range testCases {
_, err = ar.Exec(context.TODO(), timestamp, testCase.limit)
if err != nil && !strings.EqualFold(err.Error(), testCase.err) {
t.Fatal(err)
}
}
fq.reset()
}
func TestAlertingRule_Template(t *testing.T) {
testCases := []struct {
rule *AlertingRule
metrics []datasource.Metric
expAlerts map[uint64]*notifier.Alert
}{
{
&AlertingRule{
Name: "common",
Labels: map[string]string{
"region": "east",
},
Annotations: map[string]string{
"summary": `{{ $labels.alertname }}: Too high connection number for "{{ $labels.instance }}"`,
},
alerts: make(map[uint64]*notifier.Alert),
},
[]datasource.Metric{
metricWithValueAndLabels(t, 1, "instance", "foo"),
metricWithValueAndLabels(t, 1, "instance", "bar"),
},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "common", "region": "east", "instance": "foo"}): {
Annotations: map[string]string{
"summary": `common: Too high connection number for "foo"`,
},
Labels: map[string]string{
alertNameLabel: "common",
"region": "east",
"instance": "foo",
},
},
hash(map[string]string{alertNameLabel: "common", "region": "east", "instance": "bar"}): {
Annotations: map[string]string{
"summary": `common: Too high connection number for "bar"`,
},
Labels: map[string]string{
alertNameLabel: "common",
"region": "east",
"instance": "bar",
},
},
},
},
{
&AlertingRule{
Name: "override label",
Labels: map[string]string{
"instance": "{{ $labels.instance }}",
},
Annotations: map[string]string{
"summary": `{{ $labels.__name__ }}: Too high connection number for "{{ $labels.instance }}"`,
"description": `{{ $labels.alertname}}: It is {{ $value }} connections for "{{ $labels.instance }}"`,
},
alerts: make(map[uint64]*notifier.Alert),
},
[]datasource.Metric{
metricWithValueAndLabels(t, 2, "__name__", "first", "instance", "foo", alertNameLabel, "override"),
metricWithValueAndLabels(t, 10, "__name__", "second", "instance", "bar", alertNameLabel, "override"),
},
map[uint64]*notifier.Alert{
hash(map[string]string{alertNameLabel: "override label", "instance": "foo"}): {
Labels: map[string]string{
alertNameLabel: "override label",
"instance": "foo",
},
Annotations: map[string]string{
"summary": `first: Too high connection number for "foo"`,
"description": `override: It is 2 connections for "foo"`,
},
},
hash(map[string]string{alertNameLabel: "override label", "instance": "bar"}): {
Labels: map[string]string{
alertNameLabel: "override label",
"instance": "bar",
},
Annotations: map[string]string{
"summary": `second: Too high connection number for "bar"`,
"description": `override: It is 10 connections for "bar"`,
},
},
},
},
{
&AlertingRule{
Name: "OriginLabels",
GroupName: "Testing",
Labels: map[string]string{
"instance": "{{ $labels.instance }}",
},
Annotations: map[string]string{
"summary": `Alert "{{ $labels.alertname }}({{ $labels.alertgroup }})" for instance {{ $labels.instance }}`,
},
alerts: make(map[uint64]*notifier.Alert),
},
[]datasource.Metric{
metricWithValueAndLabels(t, 1,
alertNameLabel, "originAlertname",
alertGroupNameLabel, "originGroupname",
"instance", "foo"),
},
map[uint64]*notifier.Alert{
hash(map[string]string{
alertNameLabel: "OriginLabels",
alertGroupNameLabel: "Testing",
"instance": "foo"}): {
Labels: map[string]string{
alertNameLabel: "OriginLabels",
alertGroupNameLabel: "Testing",
"instance": "foo",
},
Annotations: map[string]string{
"summary": `Alert "originAlertname(originGroupname)" for instance foo`,
},
},
},
},
}
fakeGroup := Group{Name: "TestRule_Exec"}
for _, tc := range testCases {
t.Run(tc.rule.Name, func(t *testing.T) {
fq := &fakeQuerier{}
tc.rule.GroupID = fakeGroup.ID()
tc.rule.q = fq
tc.rule.state = newRuleState(10)
fq.add(tc.metrics...)
if _, err := tc.rule.Exec(context.TODO(), time.Now(), 0); err != nil {
t.Fatalf("unexpected err: %s", err)
}
for hash, expAlert := range tc.expAlerts {
gotAlert := tc.rule.alerts[hash]
if gotAlert == nil {
t.Fatalf("alert %d is missing; labels: %v; annotations: %v",
hash, expAlert.Labels, expAlert.Annotations)
}
if !reflect.DeepEqual(expAlert.Annotations, gotAlert.Annotations) {
t.Fatalf("expected to have annotations %#v; got %#v", expAlert.Annotations, gotAlert.Annotations)
}
if !reflect.DeepEqual(expAlert.Labels, gotAlert.Labels) {
t.Fatalf("expected to have labels %#v; got %#v", expAlert.Labels, gotAlert.Labels)
}
}
})
}
}
func TestAlertsToSend(t *testing.T) {
ts := time.Now()
f := func(alerts, expAlerts []*notifier.Alert, resolveDuration, resendDelay time.Duration) {
t.Helper()
ar := &AlertingRule{alerts: make(map[uint64]*notifier.Alert)}
for i, a := range alerts {
ar.alerts[uint64(i)] = a
}
gotAlerts := ar.alertsToSend(ts, resolveDuration, resendDelay)
if gotAlerts == nil && expAlerts == nil {
return
}
if len(gotAlerts) != len(expAlerts) {
t.Fatalf("expected to get %d alerts; got %d instead",
len(expAlerts), len(gotAlerts))
}
sort.Slice(expAlerts, func(i, j int) bool {
return expAlerts[i].Name < expAlerts[j].Name
})
sort.Slice(gotAlerts, func(i, j int) bool {
return gotAlerts[i].Name < gotAlerts[j].Name
})
for i, exp := range expAlerts {
got := gotAlerts[i]
if got.LastSent != exp.LastSent {
t.Fatalf("expected LastSent to be %v; got %v", exp.LastSent, got.LastSent)
}
if got.End != exp.End {
t.Fatalf("expected End to be %v; got %v", exp.End, got.End)
}
}
}
f( // send firing alert with custom resolve time
[]*notifier.Alert{{State: notifier.StateFiring}},
[]*notifier.Alert{{LastSent: ts, End: ts.Add(5 * time.Minute)}},
5*time.Minute, time.Minute,
)
f( // resolve inactive alert at the current timestamp
[]*notifier.Alert{{State: notifier.StateInactive, ResolvedAt: ts}},
[]*notifier.Alert{{LastSent: ts, End: ts}},
time.Minute, time.Minute,
)
f( // mixed case of firing and resolved alerts. Names are added for deterministic sorting
[]*notifier.Alert{{Name: "a", State: notifier.StateFiring}, {Name: "b", State: notifier.StateInactive, ResolvedAt: ts}},
[]*notifier.Alert{{Name: "a", LastSent: ts, End: ts.Add(5 * time.Minute)}, {Name: "b", LastSent: ts, End: ts}},
5*time.Minute, time.Minute,
)
f( // mixed case of pending and resolved alerts. Names are added for deterministic sorting
[]*notifier.Alert{{Name: "a", State: notifier.StatePending}, {Name: "b", State: notifier.StateInactive, ResolvedAt: ts}},
[]*notifier.Alert{{Name: "b", LastSent: ts, End: ts}},
5*time.Minute, time.Minute,
)
f( // attempt to send alert that was already sent in the resendDelay interval
[]*notifier.Alert{{State: notifier.StateFiring, LastSent: ts.Add(-time.Second)}},
nil,
time.Minute, time.Minute,
)
f( // attempt to send alert that was sent out of the resendDelay interval
[]*notifier.Alert{{State: notifier.StateFiring, LastSent: ts.Add(-2 * time.Minute)}},
[]*notifier.Alert{{LastSent: ts, End: ts.Add(time.Minute)}},
time.Minute, time.Minute,
)
f( // alert must be sent even if resendDelay interval is 0
[]*notifier.Alert{{State: notifier.StateFiring, LastSent: ts.Add(-time.Second)}},
[]*notifier.Alert{{LastSent: ts, End: ts.Add(time.Minute)}},
time.Minute, 0,
)
f( // inactive alert which has been sent already
[]*notifier.Alert{{State: notifier.StateInactive, LastSent: ts.Add(-time.Second), ResolvedAt: ts.Add(-2 * time.Second)}},
nil,
time.Minute, time.Minute,
)
f( // inactive alert which has been resolved after last send
[]*notifier.Alert{{State: notifier.StateInactive, LastSent: ts.Add(-time.Second), ResolvedAt: ts}},
[]*notifier.Alert{{LastSent: ts, End: ts}},
time.Minute, time.Minute,
)
}
func newTestRuleWithLabels(name string, labels ...string) *AlertingRule {
r := newTestAlertingRule(name, 0)
r.Labels = make(map[string]string)
for i := 0; i < len(labels); i += 2 {
r.Labels[labels[i]] = labels[i+1]
}
return r
}
func newTestAlertingRule(name string, waitFor time.Duration) *AlertingRule {
return &AlertingRule{
Name: name,
For: waitFor,
EvalInterval: waitFor,
alerts: make(map[uint64]*notifier.Alert),
state: newRuleState(10),
}
}
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