VictoriaMetrics/app/vmalert/alerting.go
Roman Khavronenko 3c09d25039
vmalert: followup for 76f05f8670 (#2706)
Signed-off-by: hagen1778 <roman@victoriametrics.com>
2022-06-09 13:15:35 +03:00

626 lines
18 KiB
Go

package main
import (
"context"
"fmt"
"hash/fnv"
"sort"
"strconv"
"sync"
"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/app/vmalert/templates"
"github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/utils"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/prompbmarshal"
)
// AlertingRule is basic alert entity
type AlertingRule struct {
Type datasource.Type
RuleID uint64
Name string
Expr string
For time.Duration
Labels map[string]string
Annotations map[string]string
GroupID uint64
GroupName string
EvalInterval time.Duration
q datasource.Querier
// guard status fields
mu sync.RWMutex
// stores list of active alerts
alerts map[uint64]*notifier.Alert
// stores last moment of time Exec was called
lastExecTime time.Time
// stores the duration of the last Exec call
lastExecDuration time.Duration
// stores last error that happened in Exec func
// resets on every successful Exec
// may be used as Health state
lastExecError error
// stores the number of samples returned during
// the last evaluation
lastExecSamples int
metrics *alertingRuleMetrics
}
type alertingRuleMetrics struct {
errors *utils.Gauge
pending *utils.Gauge
active *utils.Gauge
samples *utils.Gauge
}
func newAlertingRule(qb datasource.QuerierBuilder, group *Group, cfg config.Rule) *AlertingRule {
ar := &AlertingRule{
Type: group.Type,
RuleID: cfg.ID,
Name: cfg.Alert,
Expr: cfg.Expr,
For: cfg.For.Duration(),
Labels: cfg.Labels,
Annotations: cfg.Annotations,
GroupID: group.ID(),
GroupName: group.Name,
EvalInterval: group.Interval,
q: qb.BuildWithParams(datasource.QuerierParams{
DataSourceType: &group.Type,
EvaluationInterval: group.Interval,
QueryParams: group.Params,
}),
alerts: make(map[uint64]*notifier.Alert),
metrics: &alertingRuleMetrics{},
}
labels := fmt.Sprintf(`alertname=%q, group=%q, id="%d"`, ar.Name, group.Name, ar.ID())
ar.metrics.pending = utils.GetOrCreateGauge(fmt.Sprintf(`vmalert_alerts_pending{%s}`, labels),
func() float64 {
ar.mu.RLock()
defer ar.mu.RUnlock()
var num int
for _, a := range ar.alerts {
if a.State == notifier.StatePending {
num++
}
}
return float64(num)
})
ar.metrics.active = utils.GetOrCreateGauge(fmt.Sprintf(`vmalert_alerts_firing{%s}`, labels),
func() float64 {
ar.mu.RLock()
defer ar.mu.RUnlock()
var num int
for _, a := range ar.alerts {
if a.State == notifier.StateFiring {
num++
}
}
return float64(num)
})
ar.metrics.errors = utils.GetOrCreateGauge(fmt.Sprintf(`vmalert_alerting_rules_error{%s}`, labels),
func() float64 {
ar.mu.RLock()
defer ar.mu.RUnlock()
if ar.lastExecError == nil {
return 0
}
return 1
})
ar.metrics.samples = utils.GetOrCreateGauge(fmt.Sprintf(`vmalert_alerting_rules_last_evaluation_samples{%s}`, labels),
func() float64 {
ar.mu.RLock()
defer ar.mu.RUnlock()
return float64(ar.lastExecSamples)
})
return ar
}
// Close unregisters rule metrics
func (ar *AlertingRule) Close() {
ar.metrics.active.Unregister()
ar.metrics.pending.Unregister()
ar.metrics.errors.Unregister()
ar.metrics.samples.Unregister()
}
// String implements Stringer interface
func (ar *AlertingRule) String() string {
return ar.Name
}
// ID returns unique Rule ID
// within the parent Group.
func (ar *AlertingRule) ID() uint64 {
return ar.RuleID
}
type labelSet struct {
// origin labels from series
// used for templating
origin map[string]string
// processed labels with additional data
// used as Alert labels
processed map[string]string
}
// toLabels converts labels from given Metric
// to labelSet which contains original and processed labels.
func (ar *AlertingRule) toLabels(m datasource.Metric, qFn templates.QueryFn) (*labelSet, error) {
ls := &labelSet{
origin: make(map[string]string, len(m.Labels)),
processed: make(map[string]string),
}
for _, l := range m.Labels {
// drop __name__ to be consistent with Prometheus alerting
if l.Name == "__name__" {
continue
}
ls.origin[l.Name] = l.Value
ls.processed[l.Name] = l.Value
}
extraLabels, err := notifier.ExecTemplate(qFn, ar.Labels, notifier.AlertTplData{
Labels: ls.origin,
Value: m.Values[0],
Expr: ar.Expr,
})
if err != nil {
return nil, fmt.Errorf("failed to expand labels: %s", err)
}
for k, v := range extraLabels {
ls.processed[k] = v
}
// set additional labels to identify group and rule name
if ar.Name != "" {
ls.processed[alertNameLabel] = ar.Name
}
if !*disableAlertGroupLabel && ar.GroupName != "" {
ls.processed[alertGroupNameLabel] = ar.GroupName
}
return ls, nil
}
// ExecRange executes alerting rule on the given time range similarly to Exec.
// It doesn't update internal states of the Rule and meant to be used just
// to get time series for backfilling.
// It returns ALERT and ALERT_FOR_STATE time series as result.
func (ar *AlertingRule) ExecRange(ctx context.Context, start, end time.Time) ([]prompbmarshal.TimeSeries, error) {
series, err := ar.q.QueryRange(ctx, ar.Expr, start, end)
if err != nil {
return nil, err
}
var result []prompbmarshal.TimeSeries
qFn := func(query string) ([]datasource.Metric, error) {
return nil, fmt.Errorf("`query` template isn't supported in replay mode")
}
for _, s := range series {
a, err := ar.newAlert(s, nil, time.Time{}, qFn) // initial alert
if err != nil {
return nil, fmt.Errorf("failed to create alert: %s", err)
}
if ar.For == 0 { // if alert is instant
a.State = notifier.StateFiring
for i := range s.Values {
result = append(result, ar.alertToTimeSeries(a, s.Timestamps[i])...)
}
continue
}
// if alert with For > 0
prevT := time.Time{}
for i := range s.Values {
at := time.Unix(s.Timestamps[i], 0)
if at.Sub(prevT) > ar.EvalInterval {
// reset to Pending if there are gaps > EvalInterval between DPs
a.State = notifier.StatePending
a.ActiveAt = at
} else if at.Sub(a.ActiveAt) >= ar.For {
a.State = notifier.StateFiring
a.Start = at
}
prevT = at
result = append(result, ar.alertToTimeSeries(a, s.Timestamps[i])...)
}
}
return result, nil
}
// resolvedRetention is the duration for which a resolved alert instance
// is kept in memory state and consequently repeatedly sent to the AlertManager.
const resolvedRetention = 15 * time.Minute
// Exec executes AlertingRule expression via the given Querier.
// Based on the Querier results AlertingRule maintains notifier.Alerts
func (ar *AlertingRule) Exec(ctx context.Context, ts time.Time, limit int) ([]prompbmarshal.TimeSeries, error) {
start := time.Now()
qMetrics, err := ar.q.Query(ctx, ar.Expr, ts)
ar.mu.Lock()
defer ar.mu.Unlock()
ar.lastExecTime = start
ar.lastExecDuration = time.Since(start)
ar.lastExecError = err
ar.lastExecSamples = len(qMetrics)
if err != nil {
return nil, fmt.Errorf("failed to execute query %q: %w", ar.Expr, err)
}
for h, a := range ar.alerts {
// cleanup inactive alerts from previous Exec
if a.State == notifier.StateInactive && ts.Sub(a.ResolvedAt) > resolvedRetention {
delete(ar.alerts, h)
}
}
qFn := func(query string) ([]datasource.Metric, error) { return ar.q.Query(ctx, query, ts) }
updated := make(map[uint64]struct{})
// update list of active alerts
for _, m := range qMetrics {
ls, err := ar.toLabels(m, qFn)
if err != nil {
return nil, fmt.Errorf("failed to expand labels: %s", err)
}
h := hash(ls.processed)
if _, ok := updated[h]; ok {
// duplicate may be caused by extra labels
// conflicting with the metric labels
ar.lastExecError = fmt.Errorf("labels %v: %w", ls.processed, errDuplicate)
return nil, ar.lastExecError
}
updated[h] = struct{}{}
if a, ok := ar.alerts[h]; ok {
if a.State == notifier.StateInactive {
// alert could be in inactive state for resolvedRetention
// so when we again receive metrics for it - we switch it
// back to notifier.StatePending
a.State = notifier.StatePending
a.ActiveAt = ts
}
if a.Value != m.Values[0] {
// update Value field with latest value
a.Value = m.Values[0]
// and re-exec template since Value can be used
// in annotations
a.Annotations, err = a.ExecTemplate(qFn, ls.origin, ar.Annotations)
if err != nil {
return nil, err
}
}
continue
}
a, err := ar.newAlert(m, ls, ar.lastExecTime, qFn)
if err != nil {
ar.lastExecError = err
return nil, fmt.Errorf("failed to create alert: %w", err)
}
a.ID = h
a.State = notifier.StatePending
a.ActiveAt = ts
ar.alerts[h] = a
}
var numActivePending int
for h, a := range ar.alerts {
// if alert wasn't updated in this iteration
// means it is resolved already
if _, ok := updated[h]; !ok {
if a.State == notifier.StatePending {
// alert was in Pending state - it is not
// active anymore
delete(ar.alerts, h)
continue
}
if a.State == notifier.StateFiring {
a.State = notifier.StateInactive
a.ResolvedAt = ts
}
continue
}
numActivePending++
if a.State == notifier.StatePending && ts.Sub(a.ActiveAt) >= ar.For {
a.State = notifier.StateFiring
a.Start = ts
alertsFired.Inc()
}
}
if limit > 0 && numActivePending > limit {
ar.alerts = map[uint64]*notifier.Alert{}
return nil, fmt.Errorf("exec exceeded limit of %d with %d alerts", limit, numActivePending)
}
return ar.toTimeSeries(ts.Unix()), nil
}
func (ar *AlertingRule) toTimeSeries(timestamp int64) []prompbmarshal.TimeSeries {
var tss []prompbmarshal.TimeSeries
for _, a := range ar.alerts {
if a.State == notifier.StateInactive {
continue
}
ts := ar.alertToTimeSeries(a, timestamp)
tss = append(tss, ts...)
}
return tss
}
// UpdateWith copies all significant fields.
// alerts state isn't copied since
// it should be updated in next 2 Execs
func (ar *AlertingRule) UpdateWith(r Rule) error {
nr, ok := r.(*AlertingRule)
if !ok {
return fmt.Errorf("BUG: attempt to update alerting rule with wrong type %#v", r)
}
ar.Expr = nr.Expr
ar.For = nr.For
ar.Labels = nr.Labels
ar.Annotations = nr.Annotations
ar.EvalInterval = nr.EvalInterval
ar.q = nr.q
return nil
}
// TODO: consider hashing algorithm in VM
func hash(labels map[string]string) uint64 {
hash := fnv.New64a()
keys := make([]string, 0, len(labels))
for k := range labels {
keys = append(keys, k)
}
sort.Strings(keys)
for _, k := range keys {
// drop __name__ to be consistent with Prometheus alerting
if k == "__name__" {
continue
}
name, value := k, labels[k]
hash.Write([]byte(name))
hash.Write([]byte(value))
hash.Write([]byte("\xff"))
}
return hash.Sum64()
}
func (ar *AlertingRule) newAlert(m datasource.Metric, ls *labelSet, start time.Time, qFn templates.QueryFn) (*notifier.Alert, error) {
var err error
if ls == nil {
ls, err = ar.toLabels(m, qFn)
if err != nil {
return nil, fmt.Errorf("failed to expand labels: %s", err)
}
}
a := &notifier.Alert{
GroupID: ar.GroupID,
Name: ar.Name,
Labels: ls.processed,
Value: m.Values[0],
ActiveAt: start,
Expr: ar.Expr,
}
a.Annotations, err = a.ExecTemplate(qFn, ls.origin, ar.Annotations)
return a, err
}
// AlertAPI generates APIAlert object from alert by its id(hash)
func (ar *AlertingRule) AlertAPI(id uint64) *APIAlert {
ar.mu.RLock()
defer ar.mu.RUnlock()
a, ok := ar.alerts[id]
if !ok {
return nil
}
return ar.newAlertAPI(*a)
}
// ToAPI returns Rule representation in form
// of APIRule
func (ar *AlertingRule) ToAPI() APIRule {
r := APIRule{
Type: "alerting",
DatasourceType: ar.Type.String(),
Name: ar.Name,
Query: ar.Expr,
Duration: ar.For.Seconds(),
Labels: ar.Labels,
Annotations: ar.Annotations,
LastEvaluation: ar.lastExecTime,
EvaluationTime: ar.lastExecDuration.Seconds(),
Health: "ok",
State: "inactive",
Alerts: ar.AlertsToAPI(),
LastSamples: ar.lastExecSamples,
// encode as strings to avoid rounding in JSON
ID: fmt.Sprintf("%d", ar.ID()),
GroupID: fmt.Sprintf("%d", ar.GroupID),
}
if ar.lastExecError != nil {
r.LastError = ar.lastExecError.Error()
r.Health = "err"
}
// satisfy APIRule.State logic
if len(r.Alerts) > 0 {
r.State = notifier.StatePending.String()
stateFiring := notifier.StateFiring.String()
for _, a := range r.Alerts {
if a.State == stateFiring {
r.State = stateFiring
break
}
}
}
return r
}
// AlertsToAPI generates list of APIAlert objects from existing alerts
func (ar *AlertingRule) AlertsToAPI() []*APIAlert {
var alerts []*APIAlert
ar.mu.RLock()
for _, a := range ar.alerts {
if a.State == notifier.StateInactive {
continue
}
alerts = append(alerts, ar.newAlertAPI(*a))
}
ar.mu.RUnlock()
return alerts
}
func (ar *AlertingRule) newAlertAPI(a notifier.Alert) *APIAlert {
aa := &APIAlert{
// encode as strings to avoid rounding
ID: fmt.Sprintf("%d", a.ID),
GroupID: fmt.Sprintf("%d", a.GroupID),
RuleID: fmt.Sprintf("%d", ar.RuleID),
Name: a.Name,
Expression: ar.Expr,
Labels: a.Labels,
Annotations: a.Annotations,
State: a.State.String(),
ActiveAt: a.ActiveAt,
Restored: a.Restored,
Value: strconv.FormatFloat(a.Value, 'f', -1, 32),
}
if alertURLGeneratorFn != nil {
aa.SourceLink = alertURLGeneratorFn(a)
}
return aa
}
const (
// alertMetricName is the metric name for synthetic alert timeseries.
alertMetricName = "ALERTS"
// alertForStateMetricName is the metric name for 'for' state of alert.
alertForStateMetricName = "ALERTS_FOR_STATE"
// alertNameLabel is the label name indicating the name of an alert.
alertNameLabel = "alertname"
// alertStateLabel is the label name indicating the state of an alert.
alertStateLabel = "alertstate"
// alertGroupNameLabel defines the label name attached for generated time series.
// attaching this label may be disabled via `-disableAlertgroupLabel` flag.
alertGroupNameLabel = "alertgroup"
)
// alertToTimeSeries converts the given alert with the given timestamp to time series
func (ar *AlertingRule) alertToTimeSeries(a *notifier.Alert, timestamp int64) []prompbmarshal.TimeSeries {
var tss []prompbmarshal.TimeSeries
tss = append(tss, alertToTimeSeries(a, timestamp))
if ar.For > 0 {
tss = append(tss, alertForToTimeSeries(a, timestamp))
}
return tss
}
func alertToTimeSeries(a *notifier.Alert, timestamp int64) prompbmarshal.TimeSeries {
labels := make(map[string]string)
for k, v := range a.Labels {
labels[k] = v
}
labels["__name__"] = alertMetricName
labels[alertStateLabel] = a.State.String()
return newTimeSeries([]float64{1}, []int64{timestamp}, labels)
}
// alertForToTimeSeries returns a timeseries that represents
// state of active alerts, where value is time when alert become active
func alertForToTimeSeries(a *notifier.Alert, timestamp int64) prompbmarshal.TimeSeries {
labels := make(map[string]string)
for k, v := range a.Labels {
labels[k] = v
}
labels["__name__"] = alertForStateMetricName
return newTimeSeries([]float64{float64(a.ActiveAt.Unix())}, []int64{timestamp}, labels)
}
// Restore restores the state of active alerts basing on previously written time series.
// Restore restores only ActiveAt field. Field State will be always Pending and supposed
// to be updated on next Exec, as well as Value field.
// Only rules with For > 0 will be restored.
func (ar *AlertingRule) Restore(ctx context.Context, q datasource.Querier, lookback time.Duration, labels map[string]string) error {
if q == nil {
return fmt.Errorf("querier is nil")
}
ts := time.Now()
qFn := func(query string) ([]datasource.Metric, error) { return ar.q.Query(ctx, query, ts) }
// account for external labels in filter
var labelsFilter string
for k, v := range labels {
labelsFilter += fmt.Sprintf(",%s=%q", k, v)
}
// Get the last data point in range via MetricsQL `last_over_time`.
// We don't use plain PromQL since Prometheus doesn't support
// remote write protocol which is used for state persistence in vmalert.
expr := fmt.Sprintf("last_over_time(%s{alertname=%q%s}[%ds])",
alertForStateMetricName, ar.Name, labelsFilter, int(lookback.Seconds()))
qMetrics, err := q.Query(ctx, expr, ts)
if err != nil {
return err
}
for _, m := range qMetrics {
ls := &labelSet{
origin: make(map[string]string, len(m.Labels)),
processed: make(map[string]string, len(m.Labels)),
}
for _, l := range m.Labels {
if l.Name == "__name__" {
continue
}
ls.origin[l.Name] = l.Value
ls.processed[l.Name] = l.Value
}
a, err := ar.newAlert(m, ls, time.Unix(int64(m.Values[0]), 0), qFn)
if err != nil {
return fmt.Errorf("failed to create alert: %w", err)
}
a.ID = hash(ls.processed)
a.State = notifier.StatePending
a.Restored = true
ar.alerts[a.ID] = a
logger.Infof("alert %q (%d) restored to state at %v", a.Name, a.ID, a.ActiveAt)
}
return nil
}
// alertsToSend walks through the current alerts of AlertingRule
// and returns only those which should be sent to notifier.
// Isn't concurrent safe.
func (ar *AlertingRule) alertsToSend(ts time.Time, resolveDuration, resendDelay time.Duration) []notifier.Alert {
needsSending := func(a *notifier.Alert) bool {
if a.State == notifier.StatePending {
return false
}
if a.ResolvedAt.After(a.LastSent) {
return true
}
return a.LastSent.Add(resendDelay).Before(ts)
}
var alerts []notifier.Alert
for _, a := range ar.alerts {
if !needsSending(a) {
continue
}
a.End = ts.Add(resolveDuration)
if a.State == notifier.StateInactive {
a.End = a.ResolvedAt
}
a.LastSent = ts
alerts = append(alerts, *a)
}
return alerts
}