package main import ( "fmt" "sync" "time" "github.com/prometheus/common/model" "github.com/prometheus/log" "golang.org/x/net/context" "github.com/prometheus/alertmanager/config" "github.com/prometheus/alertmanager/provider" "github.com/prometheus/alertmanager/types" ) const ResolveTimeout = 30 * time.Second // Dispatcher sorts incoming alerts into aggregation groups and // assigns the correct notifiers to each. type Dispatcher struct { routes Routes alerts provider.Alerts aggrGroups map[model.Fingerprint]*aggrGroup notifiers map[string]Notifier mtx sync.RWMutex done chan struct{} ctx context.Context cancel func() } // NewDispatcher returns a new Dispatcher. func NewDispatcher(ap provider.Alerts) *Dispatcher { return &Dispatcher{alerts: ap} } // ApplyConfig updates the dispatcher to match the new configuration. func (d *Dispatcher) ApplyConfig(conf *config.Config) { d.mtx.Lock() defer d.mtx.Unlock() // If a cancelation function is set, the dispatcher is running. if d.cancel != nil { d.Stop() defer func() { go d.Run() }() } d.routes = NewRoutes(conf.Routes) d.notifiers = map[string]Notifier{} // TODO(fabxc): build correct notifiers from new conf.NotificationConfigs. for _, ncfg := range conf.NotificationConfigs { d.notifiers[ncfg.Name] = &LogNotifier{ncfg.Name} } } // Run starts dispatching alerts incoming via the updates channel. func (d *Dispatcher) Run() { d.done = make(chan struct{}) d.aggrGroups = map[model.Fingerprint]*aggrGroup{} d.ctx, d.cancel = context.WithCancel(context.Background()) updates := d.alerts.IterActive() defer updates.Close() d.run(updates.Next()) } func (d *Dispatcher) run(updates <-chan *types.Alert) { cleanup := time.NewTicker(15 * time.Second) defer cleanup.Stop() for { fmt.Println("run") select { case alert := <-updates: fmt.Println("update", alert) d.mtx.RLock() routes := d.routes.Match(alert.Labels) d.mtx.RUnlock() for _, r := range routes { d.processAlert(alert, r) } case <-cleanup.C: fmt.Println("cleanup") for _, ag := range d.aggrGroups { if ag.empty() { ag.stop() delete(d.aggrGroups, ag.fingerprint()) } } case <-d.ctx.Done(): return } } } // Stop the dispatcher. func (d *Dispatcher) Stop() { d.cancel() d.cancel = nil <-d.done } // notifyFunc is a function that performs notifcation for the alert // with the given fingerprint. It aborts on context cancelation. // It returns whether the alert has successfully been communiated as // resolved. type notifyFunc func(context.Context, ...*types.Alert) bool // notifyFunc returns a function which performs a notification // as required by the routing options. func (d *Dispatcher) notifyFunc(dest string) notifyFunc { d.mtx.Lock() defer d.mtx.Unlock() notifier := d.notifiers[dest] return func(ctx context.Context, alerts ...*types.Alert) bool { if err := notifier.Notify(ctx, alerts...); err != nil { log.Errorf("Notify for %d alerts failed: %s", len(alerts), err) return false } return true } } // processAlert determins in which aggregation group the alert falls // and insert it. func (d *Dispatcher) processAlert(alert *types.Alert, opts *RouteOpts) { group := model.LabelSet{} fmt.Println("processing", alert) defer fmt.Println("proecssing done", alert) for ln, lv := range alert.Labels { if _, ok := opts.GroupBy[ln]; ok { group[ln] = lv } } fp := group.Fingerprint() // If the group does not exist, create it. ag, ok := d.aggrGroups[fp] if !ok { ag = newAggrGroup(d.ctx, group, opts) go ag.run(d.notifyFunc(opts.SendTo)) d.aggrGroups[fp] = ag } ag.insert(alert) } // aggrGroup aggregates alert fingerprints into groups to which a // common set of routing options applies. // It emits notifications in the specified intervals. type aggrGroup struct { labels model.LabelSet opts *RouteOpts ctx context.Context cancel func() done chan struct{} next *time.Timer mtx sync.RWMutex alerts map[model.Fingerprint]*types.Alert hasSent bool } // newAggrGroup returns a new aggregation group. func newAggrGroup(ctx context.Context, labels model.LabelSet, opts *RouteOpts) *aggrGroup { ag := &aggrGroup{ labels: labels, opts: opts, alerts: map[model.Fingerprint]*types.Alert{}, } ag.ctx, ag.cancel = context.WithCancel(ctx) return ag } func (ag *aggrGroup) run(notify notifyFunc) { ag.done = make(chan struct{}) // Set an initial one-time wait before flushing // the first batch of notifications. ag.next = time.NewTimer(ag.opts.GroupWait) defer close(ag.done) defer ag.next.Stop() for { select { case <-ag.next.C: // Give the notifcations 2/3 the time of the repeat interval // to finish before terminating them. ctx, _ := context.WithTimeout(ag.ctx, ag.opts.RepeatInterval*2/3) // Wait the configured interval before calling flush again. ag.next.Reset(ag.opts.RepeatInterval) ag.flush(func(alerts ...*types.Alert) bool { return notify(ctx, alerts...) }) case <-ag.ctx.Done(): return } } } func (ag *aggrGroup) stop() { // Calling cancel will terminate all in-process notifications // and the run() loop. ag.cancel() <-ag.done } func (ag *aggrGroup) fingerprint() model.Fingerprint { return ag.labels.Fingerprint() } // insert the alert into the aggregation group. If the aggregation group // is empty afterwards, true is returned. func (ag *aggrGroup) insert(alert *types.Alert) { ag.mtx.Lock() defer ag.mtx.Unlock() ag.alerts[alert.Fingerprint()] = alert // Immediately trigger a flush if the wait duration for this // alert is already over. if !ag.hasSent && alert.Timestamp.Add(ag.opts.GroupWait).Before(time.Now()) { ag.next.Reset(0) } } func (ag *aggrGroup) empty() bool { ag.mtx.RLock() defer ag.mtx.RUnlock() return len(ag.alerts) == 0 } // flush sends notifications for all new alerts. func (ag *aggrGroup) flush(notify func(...*types.Alert) bool) { ag.mtx.Lock() fmt.Println("flushing", ag) var ( alerts = make(map[model.Fingerprint]*types.Alert, len(ag.alerts)) alertsSlice = make([]*types.Alert, 0, len(ag.alerts)) ) for fp, alert := range ag.alerts { alerts[fp] = alert alertsSlice = append(alertsSlice, alert) } ag.mtx.Unlock() if notify(alertsSlice...) { ag.mtx.Lock() for fp, a := range alerts { // Only delete if the fingerprint has not been inserted // again since we notified about it. if a.Resolved() && ag.alerts[fp] == a { delete(alerts, fp) } } ag.mtx.Unlock() } ag.hasSent = true }