// Copyright 2013 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 rules import ( "context" "fmt" "net/url" "strings" "sync" "time" "github.com/go-kit/log" "github.com/go-kit/log/level" "github.com/prometheus/common/model" "go.uber.org/atomic" "gopkg.in/yaml.v2" "github.com/prometheus/prometheus/model/labels" "github.com/prometheus/prometheus/model/rulefmt" "github.com/prometheus/prometheus/model/timestamp" "github.com/prometheus/prometheus/promql" "github.com/prometheus/prometheus/promql/parser" "github.com/prometheus/prometheus/storage" "github.com/prometheus/prometheus/template" ) 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" // AlertStateLabel is the label name indicating the state of an alert. alertStateLabel = "alertstate" ) // AlertState denotes the state of an active alert. type AlertState int const ( // StateInactive is the state of an alert that is neither firing nor pending. StateInactive AlertState = iota // StatePending is the state of an alert that has been active for less than // the configured threshold duration. StatePending // StateFiring is the state of an alert that has been active for longer than // the configured threshold duration. StateFiring ) func (s AlertState) String() string { switch s { case StateInactive: return "inactive" case StatePending: return "pending" case StateFiring: return "firing" } panic(fmt.Errorf("unknown alert state: %d", s)) } // Alert is the user-level representation of a single instance of an alerting rule. type Alert struct { State AlertState Labels labels.Labels Annotations labels.Labels // The value at the last evaluation of the alerting expression. Value float64 // The interval during which the condition of this alert held true. // ResolvedAt will be 0 to indicate a still active alert. ActiveAt time.Time FiredAt time.Time ResolvedAt time.Time LastSentAt time.Time ValidUntil time.Time KeepFiringSince time.Time } func (a *Alert) needsSending(ts time.Time, resendDelay time.Duration) bool { if a.State == StatePending { return false } // if an alert has been resolved since the last send, resend it if a.ResolvedAt.After(a.LastSentAt) { return true } return a.LastSentAt.Add(resendDelay).Before(ts) } // An AlertingRule generates alerts from its vector expression. type AlertingRule struct { // The name of the alert. name string // The vector expression from which to generate alerts. vector parser.Expr // The duration for which a labelset needs to persist in the expression // output vector before an alert transitions from Pending to Firing state. holdDuration time.Duration // The amount of time that the alert should remain firing after the // resolution. keepFiringFor time.Duration // Extra labels to attach to the resulting alert sample vectors. labels labels.Labels // Non-identifying key/value pairs. annotations labels.Labels // External labels from the global config. externalLabels map[string]string // The external URL from the --web.external-url flag. externalURL string // true if old state has been restored. We start persisting samples for ALERT_FOR_STATE // only after the restoration. restored *atomic.Bool // Time in seconds taken to evaluate rule. evaluationDuration *atomic.Duration // Timestamp of last evaluation of rule. evaluationTimestamp *atomic.Time // The health of the alerting rule. health *atomic.String // The last error seen by the alerting rule. lastError *atomic.Error // activeMtx Protects the `active` map. activeMtx sync.Mutex // A map of alerts which are currently active (Pending or Firing), keyed by // the fingerprint of the labelset they correspond to. active map[uint64]*Alert logger log.Logger noDependentRules *atomic.Bool noDependencyRules *atomic.Bool } // NewAlertingRule constructs a new AlertingRule. func NewAlertingRule( name string, vec parser.Expr, hold, keepFiringFor time.Duration, labels, annotations, externalLabels labels.Labels, externalURL string, restored bool, logger log.Logger, ) *AlertingRule { el := externalLabels.Map() return &AlertingRule{ name: name, vector: vec, holdDuration: hold, keepFiringFor: keepFiringFor, labels: labels, annotations: annotations, externalLabels: el, externalURL: externalURL, active: map[uint64]*Alert{}, logger: logger, restored: atomic.NewBool(restored), health: atomic.NewString(string(HealthUnknown)), evaluationTimestamp: atomic.NewTime(time.Time{}), evaluationDuration: atomic.NewDuration(0), lastError: atomic.NewError(nil), noDependentRules: atomic.NewBool(false), noDependencyRules: atomic.NewBool(false), } } // Name returns the name of the alerting rule. func (r *AlertingRule) Name() string { return r.name } // SetLastError sets the current error seen by the alerting rule. func (r *AlertingRule) SetLastError(err error) { r.lastError.Store(err) } // LastError returns the last error seen by the alerting rule. func (r *AlertingRule) LastError() error { return r.lastError.Load() } // SetHealth sets the current health of the alerting rule. func (r *AlertingRule) SetHealth(health RuleHealth) { r.health.Store(string(health)) } // Health returns the current health of the alerting rule. func (r *AlertingRule) Health() RuleHealth { return RuleHealth(r.health.String()) } // Query returns the query expression of the alerting rule. func (r *AlertingRule) Query() parser.Expr { return r.vector } // HoldDuration returns the hold duration of the alerting rule. func (r *AlertingRule) HoldDuration() time.Duration { return r.holdDuration } // KeepFiringFor returns the duration an alerting rule should keep firing for // after resolution. func (r *AlertingRule) KeepFiringFor() time.Duration { return r.keepFiringFor } // Labels returns the labels of the alerting rule. func (r *AlertingRule) Labels() labels.Labels { return r.labels } // Annotations returns the annotations of the alerting rule. func (r *AlertingRule) Annotations() labels.Labels { return r.annotations } func (r *AlertingRule) sample(alert *Alert, ts time.Time) promql.Sample { lb := labels.NewBuilder(r.labels) alert.Labels.Range(func(l labels.Label) { lb.Set(l.Name, l.Value) }) lb.Set(labels.MetricName, alertMetricName) lb.Set(labels.AlertName, r.name) lb.Set(alertStateLabel, alert.State.String()) s := promql.Sample{ Metric: lb.Labels(), T: timestamp.FromTime(ts), F: 1, } return s } // forStateSample returns a promql.Sample with the rule labels, `ALERTS_FOR_STATE` as the metric name and the rule name as the `alertname` label. // Optionally, if an alert is provided it'll copy the labels of the alert into the sample labels. func (r *AlertingRule) forStateSample(alert *Alert, ts time.Time, v float64) promql.Sample { lb := labels.NewBuilder(r.labels) if alert != nil { alert.Labels.Range(func(l labels.Label) { lb.Set(l.Name, l.Value) }) } lb.Set(labels.MetricName, alertForStateMetricName) lb.Set(labels.AlertName, r.name) s := promql.Sample{ Metric: lb.Labels(), T: timestamp.FromTime(ts), F: v, } return s } // QueryForStateSeries returns the series for ALERTS_FOR_STATE of the alert rule. func (r *AlertingRule) QueryForStateSeries(ctx context.Context, q storage.Querier) (storage.SeriesSet, error) { // We use a sample to ease the building of matchers. // Don't provide an alert as we want matchers that match all series for the alert rule. smpl := r.forStateSample(nil, time.Now(), 0) var matchers []*labels.Matcher smpl.Metric.Range(func(l labels.Label) { mt, err := labels.NewMatcher(labels.MatchEqual, l.Name, l.Value) if err != nil { panic(err) } matchers = append(matchers, mt) }) sset := q.Select(ctx, false, nil, matchers...) return sset, sset.Err() } // SetEvaluationDuration updates evaluationDuration to the duration it took to evaluate the rule on its last evaluation. func (r *AlertingRule) SetEvaluationDuration(dur time.Duration) { r.evaluationDuration.Store(dur) } // GetEvaluationDuration returns the time in seconds it took to evaluate the alerting rule. func (r *AlertingRule) GetEvaluationDuration() time.Duration { return r.evaluationDuration.Load() } // SetEvaluationTimestamp updates evaluationTimestamp to the timestamp of when the rule was last evaluated. func (r *AlertingRule) SetEvaluationTimestamp(ts time.Time) { r.evaluationTimestamp.Store(ts) } // GetEvaluationTimestamp returns the time the evaluation took place. func (r *AlertingRule) GetEvaluationTimestamp() time.Time { return r.evaluationTimestamp.Load() } // SetRestored updates the restoration state of the alerting rule. func (r *AlertingRule) SetRestored(restored bool) { r.restored.Store(restored) } // Restored returns the restoration state of the alerting rule. func (r *AlertingRule) Restored() bool { return r.restored.Load() } func (r *AlertingRule) SetNoDependentRules(noDependentRules bool) { r.noDependentRules.Store(noDependentRules) } func (r *AlertingRule) NoDependentRules() bool { return r.noDependentRules.Load() } func (r *AlertingRule) SetNoDependencyRules(noDependencyRules bool) { r.noDependencyRules.Store(noDependencyRules) } func (r *AlertingRule) NoDependencyRules() bool { return r.noDependencyRules.Load() } // 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 // Eval evaluates the rule expression and then creates pending alerts and fires // or removes previously pending alerts accordingly. func (r *AlertingRule) Eval(ctx context.Context, ts time.Time, query QueryFunc, externalURL *url.URL, limit int) (promql.Vector, error) { ctx = NewOriginContext(ctx, NewRuleDetail(r)) res, err := query(ctx, r.vector.String(), ts) if err != nil { return nil, err } // Create pending alerts for any new vector elements in the alert expression // or update the expression value for existing elements. resultFPs := map[uint64]struct{}{} lb := labels.NewBuilder(labels.EmptyLabels()) sb := labels.NewScratchBuilder(0) var vec promql.Vector alerts := make(map[uint64]*Alert, len(res)) for _, smpl := range res { // Provide the alert information to the template. l := smpl.Metric.Map() tmplData := template.AlertTemplateData(l, r.externalLabels, r.externalURL, smpl) // Inject some convenience variables that are easier to remember for users // who are not used to Go's templating system. defs := []string{ "{{$labels := .Labels}}", "{{$externalLabels := .ExternalLabels}}", "{{$externalURL := .ExternalURL}}", "{{$value := .Value}}", } expand := func(text string) string { tmpl := template.NewTemplateExpander( ctx, strings.Join(append(defs, text), ""), "__alert_"+r.Name(), tmplData, model.Time(timestamp.FromTime(ts)), template.QueryFunc(query), externalURL, nil, ) result, err := tmpl.Expand() if err != nil { result = fmt.Sprintf("", err) level.Warn(r.logger).Log("msg", "Expanding alert template failed", "err", err, "data", tmplData) } return result } lb.Reset(smpl.Metric) lb.Del(labels.MetricName) r.labels.Range(func(l labels.Label) { lb.Set(l.Name, expand(l.Value)) }) lb.Set(labels.AlertName, r.Name()) sb.Reset() r.annotations.Range(func(a labels.Label) { sb.Add(a.Name, expand(a.Value)) }) annotations := sb.Labels() lbs := lb.Labels() h := lbs.Hash() resultFPs[h] = struct{}{} if _, ok := alerts[h]; ok { return nil, fmt.Errorf("vector contains metrics with the same labelset after applying alert labels") } alerts[h] = &Alert{ Labels: lbs, Annotations: annotations, ActiveAt: ts, State: StatePending, Value: smpl.F, } } r.activeMtx.Lock() defer r.activeMtx.Unlock() for h, a := range alerts { // Check whether we already have alerting state for the identifying label set. // Update the last value and annotations if so, create a new alert entry otherwise. if alert, ok := r.active[h]; ok && alert.State != StateInactive { alert.Value = a.Value alert.Annotations = a.Annotations continue } r.active[h] = a } var numActivePending int // Check if any pending alerts should be removed or fire now. Write out alert timeseries. for fp, a := range r.active { if _, ok := resultFPs[fp]; !ok { // There is no firing alerts for this fingerprint. The alert is no // longer firing. // Use keepFiringFor value to determine if the alert should keep // firing. var keepFiring bool if a.State == StateFiring && r.keepFiringFor > 0 { if a.KeepFiringSince.IsZero() { a.KeepFiringSince = ts } if ts.Sub(a.KeepFiringSince) < r.keepFiringFor { keepFiring = true } } // If the alert was previously firing, keep it around for a given // retention time so it is reported as resolved to the AlertManager. if a.State == StatePending || (!a.ResolvedAt.IsZero() && ts.Sub(a.ResolvedAt) > resolvedRetention) { delete(r.active, fp) } if a.State != StateInactive && !keepFiring { a.State = StateInactive a.ResolvedAt = ts } if !keepFiring { continue } } else { // The alert is firing, reset keepFiringSince. a.KeepFiringSince = time.Time{} } numActivePending++ if a.State == StatePending && ts.Sub(a.ActiveAt) >= r.holdDuration { a.State = StateFiring a.FiredAt = ts } if r.restored.Load() { vec = append(vec, r.sample(a, ts)) vec = append(vec, r.forStateSample(a, ts, float64(a.ActiveAt.Unix()))) } } if limit > 0 && numActivePending > limit { r.active = map[uint64]*Alert{} return nil, fmt.Errorf("exceeded limit of %d with %d alerts", limit, numActivePending) } return vec, nil } // State returns the maximum state of alert instances for this rule. // StateFiring > StatePending > StateInactive. func (r *AlertingRule) State() AlertState { r.activeMtx.Lock() defer r.activeMtx.Unlock() maxState := StateInactive for _, a := range r.active { if a.State > maxState { maxState = a.State } } return maxState } // ActiveAlerts returns a slice of active alerts. func (r *AlertingRule) ActiveAlerts() []*Alert { var res []*Alert for _, a := range r.currentAlerts() { if a.ResolvedAt.IsZero() { res = append(res, a) } } return res } // currentAlerts returns all instances of alerts for this rule. This may include // inactive alerts that were previously firing. func (r *AlertingRule) currentAlerts() []*Alert { r.activeMtx.Lock() defer r.activeMtx.Unlock() alerts := make([]*Alert, 0, len(r.active)) for _, a := range r.active { anew := *a alerts = append(alerts, &anew) } return alerts } // ForEachActiveAlert runs the given function on each alert. // This should be used when you want to use the actual alerts from the AlertingRule // and not on its copy. // If you want to run on a copy of alerts then don't use this, get the alerts from 'ActiveAlerts()'. func (r *AlertingRule) ForEachActiveAlert(f func(*Alert)) { r.activeMtx.Lock() defer r.activeMtx.Unlock() for _, a := range r.active { f(a) } } func (r *AlertingRule) ActiveAlertsCount() int { r.activeMtx.Lock() defer r.activeMtx.Unlock() return len(r.active) } func (r *AlertingRule) sendAlerts(ctx context.Context, ts time.Time, resendDelay, interval time.Duration, notifyFunc NotifyFunc) { alerts := []*Alert{} r.ForEachActiveAlert(func(alert *Alert) { if alert.needsSending(ts, resendDelay) { alert.LastSentAt = ts // Allow for two Eval or Alertmanager send failures. delta := resendDelay if interval > resendDelay { delta = interval } alert.ValidUntil = ts.Add(4 * delta) anew := *alert // The notifier re-uses the labels slice, hence make a copy. anew.Labels = alert.Labels.Copy() alerts = append(alerts, &anew) } }) notifyFunc(ctx, r.vector.String(), alerts...) } func (r *AlertingRule) String() string { ar := rulefmt.Rule{ Alert: r.name, Expr: r.vector.String(), For: model.Duration(r.holdDuration), KeepFiringFor: model.Duration(r.keepFiringFor), Labels: r.labels.Map(), Annotations: r.annotations.Map(), } byt, err := yaml.Marshal(ar) if err != nil { return fmt.Sprintf("error marshaling alerting rule: %s", err.Error()) } return string(byt) }