mirror of https://github.com/prometheus/prometheus
523 lines
15 KiB
Go
523 lines
15 KiB
Go
// Copyright 2013 The Prometheus Authors
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package rules
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import (
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"context"
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"errors"
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"fmt"
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"log/slog"
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"net/url"
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"slices"
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"strings"
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"sync"
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"time"
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"github.com/prometheus/client_golang/prometheus"
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"github.com/prometheus/common/promslog"
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"golang.org/x/sync/semaphore"
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"github.com/prometheus/prometheus/model/labels"
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"github.com/prometheus/prometheus/model/rulefmt"
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"github.com/prometheus/prometheus/notifier"
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"github.com/prometheus/prometheus/promql"
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"github.com/prometheus/prometheus/promql/parser"
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"github.com/prometheus/prometheus/storage"
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"github.com/prometheus/prometheus/util/strutil"
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)
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// QueryFunc processes PromQL queries.
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type QueryFunc func(ctx context.Context, q string, t time.Time) (promql.Vector, error)
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// EngineQueryFunc returns a new query function that executes instant queries against
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// the given engine.
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// It converts scalar into vector results.
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func EngineQueryFunc(engine promql.QueryEngine, q storage.Queryable) QueryFunc {
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return func(ctx context.Context, qs string, t time.Time) (promql.Vector, error) {
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q, err := engine.NewInstantQuery(ctx, q, nil, qs, t)
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if err != nil {
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return nil, err
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}
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res := q.Exec(ctx)
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if res.Err != nil {
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return nil, res.Err
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}
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switch v := res.Value.(type) {
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case promql.Vector:
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return v, nil
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case promql.Scalar:
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return promql.Vector{promql.Sample{
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T: v.T,
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F: v.V,
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Metric: labels.Labels{},
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}}, nil
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default:
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return nil, errors.New("rule result is not a vector or scalar")
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}
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}
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}
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// DefaultEvalIterationFunc is the default implementation of
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// GroupEvalIterationFunc that is periodically invoked to evaluate the rules
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// in a group at a given point in time and updates Group state and metrics
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// accordingly. Custom GroupEvalIterationFunc implementations are recommended
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// to invoke this function as well, to ensure correct Group state and metrics
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// are maintained.
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func DefaultEvalIterationFunc(ctx context.Context, g *Group, evalTimestamp time.Time) {
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g.metrics.IterationsScheduled.WithLabelValues(GroupKey(g.file, g.name)).Inc()
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start := time.Now()
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g.Eval(ctx, evalTimestamp)
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timeSinceStart := time.Since(start)
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g.metrics.IterationDuration.Observe(timeSinceStart.Seconds())
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g.setEvaluationTime(timeSinceStart)
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g.setLastEvaluation(start)
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g.setLastEvalTimestamp(evalTimestamp)
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}
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// The Manager manages recording and alerting rules.
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type Manager struct {
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opts *ManagerOptions
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groups map[string]*Group
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mtx sync.RWMutex
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block chan struct{}
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done chan struct{}
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restored bool
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logger *slog.Logger
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}
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// NotifyFunc sends notifications about a set of alerts generated by the given expression.
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type NotifyFunc func(ctx context.Context, expr string, alerts ...*Alert)
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// ManagerOptions bundles options for the Manager.
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type ManagerOptions struct {
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ExternalURL *url.URL
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QueryFunc QueryFunc
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NotifyFunc NotifyFunc
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Context context.Context
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Appendable storage.Appendable
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Queryable storage.Queryable
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Logger *slog.Logger
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Registerer prometheus.Registerer
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OutageTolerance time.Duration
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ForGracePeriod time.Duration
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ResendDelay time.Duration
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GroupLoader GroupLoader
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DefaultRuleQueryOffset func() time.Duration
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MaxConcurrentEvals int64
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ConcurrentEvalsEnabled bool
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RuleConcurrencyController RuleConcurrencyController
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RuleDependencyController RuleDependencyController
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Metrics *Metrics
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}
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// NewManager returns an implementation of Manager, ready to be started
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// by calling the Run method.
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func NewManager(o *ManagerOptions) *Manager {
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if o.Metrics == nil {
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o.Metrics = NewGroupMetrics(o.Registerer)
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}
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if o.GroupLoader == nil {
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o.GroupLoader = FileLoader{}
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}
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if o.RuleConcurrencyController == nil {
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if o.ConcurrentEvalsEnabled {
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o.RuleConcurrencyController = newRuleConcurrencyController(o.MaxConcurrentEvals)
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} else {
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o.RuleConcurrencyController = sequentialRuleEvalController{}
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}
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}
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if o.RuleDependencyController == nil {
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o.RuleDependencyController = ruleDependencyController{}
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}
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if o.Logger == nil {
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o.Logger = promslog.NewNopLogger()
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}
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m := &Manager{
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groups: map[string]*Group{},
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opts: o,
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block: make(chan struct{}),
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done: make(chan struct{}),
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logger: o.Logger,
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}
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return m
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}
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// Run starts processing of the rule manager. It is blocking.
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func (m *Manager) Run() {
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m.logger.Info("Starting rule manager...")
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m.start()
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<-m.done
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}
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func (m *Manager) start() {
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close(m.block)
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}
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// Stop the rule manager's rule evaluation cycles.
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func (m *Manager) Stop() {
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m.mtx.Lock()
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defer m.mtx.Unlock()
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m.logger.Info("Stopping rule manager...")
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for _, eg := range m.groups {
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eg.stop()
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}
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// Shut down the groups waiting multiple evaluation intervals to write
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// staleness markers.
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close(m.done)
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m.logger.Info("Rule manager stopped")
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}
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// Update the rule manager's state as the config requires. If
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// loading the new rules failed the old rule set is restored.
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// This method will no-op in case the manager is already stopped.
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func (m *Manager) Update(interval time.Duration, files []string, externalLabels labels.Labels, externalURL string, groupEvalIterationFunc GroupEvalIterationFunc) error {
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m.mtx.Lock()
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defer m.mtx.Unlock()
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// We cannot update a stopped manager
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select {
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case <-m.done:
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return nil
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default:
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}
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groups, errs := m.LoadGroups(interval, externalLabels, externalURL, groupEvalIterationFunc, files...)
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if errs != nil {
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for _, e := range errs {
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m.logger.Error("loading groups failed", "err", e)
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}
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return errors.New("error loading rules, previous rule set restored")
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}
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m.restored = true
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var wg sync.WaitGroup
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for _, newg := range groups {
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// If there is an old group with the same identifier,
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// check if new group equals with the old group, if yes then skip it.
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// If not equals, stop it and wait for it to finish the current iteration.
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// Then copy it into the new group.
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gn := GroupKey(newg.file, newg.name)
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oldg, ok := m.groups[gn]
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delete(m.groups, gn)
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if ok && oldg.Equals(newg) {
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groups[gn] = oldg
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continue
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}
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wg.Add(1)
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go func(newg *Group) {
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if ok {
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oldg.stop()
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newg.CopyState(oldg)
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}
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wg.Done()
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// Wait with starting evaluation until the rule manager
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// is told to run. This is necessary to avoid running
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// queries against a bootstrapping storage.
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<-m.block
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newg.run(m.opts.Context)
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}(newg)
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}
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// Stop remaining old groups.
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wg.Add(len(m.groups))
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for n, oldg := range m.groups {
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go func(n string, g *Group) {
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g.markStale = true
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g.stop()
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if m := g.metrics; m != nil {
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m.IterationsMissed.DeleteLabelValues(n)
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m.IterationsScheduled.DeleteLabelValues(n)
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m.EvalTotal.DeleteLabelValues(n)
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m.EvalFailures.DeleteLabelValues(n)
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m.GroupInterval.DeleteLabelValues(n)
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m.GroupLastEvalTime.DeleteLabelValues(n)
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m.GroupLastDuration.DeleteLabelValues(n)
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m.GroupRules.DeleteLabelValues(n)
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m.GroupSamples.DeleteLabelValues((n))
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}
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wg.Done()
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}(n, oldg)
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}
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wg.Wait()
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m.groups = groups
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return nil
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}
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// GroupLoader is responsible for loading rule groups from arbitrary sources and parsing them.
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type GroupLoader interface {
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Load(identifier string) (*rulefmt.RuleGroups, []error)
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Parse(query string) (parser.Expr, error)
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}
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// FileLoader is the default GroupLoader implementation. It defers to rulefmt.ParseFile
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// and parser.ParseExpr.
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type FileLoader struct{}
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func (FileLoader) Load(identifier string) (*rulefmt.RuleGroups, []error) {
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return rulefmt.ParseFile(identifier)
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}
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func (FileLoader) Parse(query string) (parser.Expr, error) { return parser.ParseExpr(query) }
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// LoadGroups reads groups from a list of files.
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func (m *Manager) LoadGroups(
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interval time.Duration, externalLabels labels.Labels, externalURL string, groupEvalIterationFunc GroupEvalIterationFunc, filenames ...string,
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) (map[string]*Group, []error) {
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groups := make(map[string]*Group)
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shouldRestore := !m.restored
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for _, fn := range filenames {
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rgs, errs := m.opts.GroupLoader.Load(fn)
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if errs != nil {
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return nil, errs
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}
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for _, rg := range rgs.Groups {
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itv := interval
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if rg.Interval != 0 {
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itv = time.Duration(rg.Interval)
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}
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rules := make([]Rule, 0, len(rg.Rules))
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for _, r := range rg.Rules {
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expr, err := m.opts.GroupLoader.Parse(r.Expr.Value)
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if err != nil {
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return nil, []error{fmt.Errorf("%s: %w", fn, err)}
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}
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mLabels := FromMaps(rg.Labels, r.Labels)
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if r.Alert.Value != "" {
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rules = append(rules, NewAlertingRule(
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r.Alert.Value,
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expr,
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time.Duration(r.For),
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time.Duration(r.KeepFiringFor),
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mLabels,
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labels.FromMap(r.Annotations),
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externalLabels,
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externalURL,
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m.restored,
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m.logger.With("alert", r.Alert),
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))
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continue
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}
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rules = append(rules, NewRecordingRule(
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r.Record.Value,
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expr,
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mLabels,
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))
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}
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// Check dependencies between rules and store it on the Rule itself.
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m.opts.RuleDependencyController.AnalyseRules(rules)
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groups[GroupKey(fn, rg.Name)] = NewGroup(GroupOptions{
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Name: rg.Name,
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File: fn,
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Interval: itv,
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Limit: rg.Limit,
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Rules: rules,
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ShouldRestore: shouldRestore,
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Opts: m.opts,
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QueryOffset: (*time.Duration)(rg.QueryOffset),
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done: m.done,
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EvalIterationFunc: groupEvalIterationFunc,
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})
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}
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}
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return groups, nil
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}
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// RuleGroups returns the list of manager's rule groups.
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func (m *Manager) RuleGroups() []*Group {
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m.mtx.RLock()
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defer m.mtx.RUnlock()
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rgs := make([]*Group, 0, len(m.groups))
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for _, g := range m.groups {
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rgs = append(rgs, g)
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}
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slices.SortFunc(rgs, func(a, b *Group) int {
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fileCompare := strings.Compare(a.file, b.file)
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// If its 0, then the file names are the same.
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// Lets look at the group names in that case.
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if fileCompare != 0 {
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return fileCompare
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}
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return strings.Compare(a.name, b.name)
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})
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return rgs
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}
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// Rules returns the list of the manager's rules.
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func (m *Manager) Rules(matcherSets ...[]*labels.Matcher) []Rule {
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m.mtx.RLock()
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defer m.mtx.RUnlock()
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var rules []Rule
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for _, g := range m.groups {
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rules = append(rules, g.Rules(matcherSets...)...)
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}
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return rules
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}
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// AlertingRules returns the list of the manager's alerting rules.
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func (m *Manager) AlertingRules() []*AlertingRule {
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alerts := []*AlertingRule{}
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for _, rule := range m.Rules() {
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if alertingRule, ok := rule.(*AlertingRule); ok {
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alerts = append(alerts, alertingRule)
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}
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}
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return alerts
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}
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type Sender interface {
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Send(alerts ...*notifier.Alert)
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}
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// SendAlerts implements the rules.NotifyFunc for a Notifier.
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func SendAlerts(s Sender, externalURL string) NotifyFunc {
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return func(ctx context.Context, expr string, alerts ...*Alert) {
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var res []*notifier.Alert
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for _, alert := range alerts {
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a := ¬ifier.Alert{
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StartsAt: alert.FiredAt,
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Labels: alert.Labels,
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Annotations: alert.Annotations,
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GeneratorURL: externalURL + strutil.TableLinkForExpression(expr),
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}
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if !alert.ResolvedAt.IsZero() {
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a.EndsAt = alert.ResolvedAt
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} else {
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a.EndsAt = alert.ValidUntil
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}
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res = append(res, a)
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}
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if len(alerts) > 0 {
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s.Send(res...)
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}
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}
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}
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// RuleDependencyController controls whether a set of rules have dependencies between each other.
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type RuleDependencyController interface {
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// AnalyseRules analyses dependencies between the input rules. For each rule that it's guaranteed
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// not having any dependants and/or dependency, this function should call Rule.SetNoDependentRules(true)
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// and/or Rule.SetNoDependencyRules(true).
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AnalyseRules(rules []Rule)
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}
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type ruleDependencyController struct{}
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// AnalyseRules implements RuleDependencyController.
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func (c ruleDependencyController) AnalyseRules(rules []Rule) {
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depMap := buildDependencyMap(rules)
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for _, r := range rules {
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r.SetNoDependentRules(depMap.dependents(r) == 0)
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r.SetNoDependencyRules(depMap.dependencies(r) == 0)
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}
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}
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// RuleConcurrencyController controls concurrency for rules that are safe to be evaluated concurrently.
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// Its purpose is to bound the amount of concurrency in rule evaluations to avoid overwhelming the Prometheus
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// server with additional query load. Concurrency is controlled globally, not on a per-group basis.
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type RuleConcurrencyController interface {
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// Allow determines if the given rule is allowed to be evaluated concurrently.
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// If Allow() returns true, then Done() must be called to release the acquired slot and corresponding cleanup is done.
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// It is important that both *Group and Rule are not retained and only be used for the duration of the call.
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Allow(ctx context.Context, group *Group, rule Rule) bool
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// Done releases a concurrent evaluation slot.
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Done(ctx context.Context)
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}
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// concurrentRuleEvalController holds a weighted semaphore which controls the concurrent evaluation of rules.
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type concurrentRuleEvalController struct {
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sema *semaphore.Weighted
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}
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func newRuleConcurrencyController(maxConcurrency int64) RuleConcurrencyController {
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return &concurrentRuleEvalController{
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sema: semaphore.NewWeighted(maxConcurrency),
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}
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}
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func (c *concurrentRuleEvalController) Allow(_ context.Context, _ *Group, rule Rule) bool {
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// To allow a rule to be executed concurrently, we need 3 conditions:
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// 1. The rule must not have any rules that depend on it.
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// 2. The rule itself must not depend on any other rules.
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// 3. If 1 & 2 are true, then and only then we should try to acquire the concurrency slot.
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if rule.NoDependentRules() && rule.NoDependencyRules() {
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return c.sema.TryAcquire(1)
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}
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return false
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}
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func (c *concurrentRuleEvalController) Done(_ context.Context) {
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c.sema.Release(1)
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}
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// sequentialRuleEvalController is a RuleConcurrencyController that runs every rule sequentially.
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type sequentialRuleEvalController struct{}
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func (c sequentialRuleEvalController) Allow(_ context.Context, _ *Group, _ Rule) bool {
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return false
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}
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func (c sequentialRuleEvalController) Done(_ context.Context) {}
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// FromMaps returns new sorted Labels from the given maps, overriding each other in order.
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func FromMaps(maps ...map[string]string) labels.Labels {
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mLables := make(map[string]string)
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for _, m := range maps {
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for k, v := range m {
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mLables[k] = v
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}
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}
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return labels.FromMap(mLables)
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}
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