// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package event import ( "context" "fmt" "runtime" "strings" "sync" "sync/atomic" "github.com/minio/minio/internal/logger" "github.com/minio/minio/internal/store" "github.com/minio/pkg/workers" ) const ( // The maximum allowed number of concurrent Send() calls to all configured notifications targets maxConcurrentAsyncSend = 50000 ) // Target - event target interface type Target interface { ID() TargetID IsActive() (bool, error) Save(Event) error SendFromStore(store.Key) error Close() error Store() TargetStore } // TargetStore is a shallow version of a target.Store type TargetStore interface { Len() int } // TargetStats is a collection of stats for multiple targets. type TargetStats struct { // CurrentSendCalls is the number of concurrent async Send calls to all targets CurrentSendCalls int64 TotalEvents int64 EventsSkipped int64 CurrentQueuedCalls int64 TargetStats map[string]TargetStat } // TargetStat is the stats of a single target. type TargetStat struct { ID TargetID CurrentQueue int // Populated if target has a store. } // TargetList - holds list of targets indexed by target ID. type TargetList struct { // The number of concurrent async Send calls to all targets currentSendCalls atomic.Int64 totalEvents atomic.Int64 eventsSkipped atomic.Int64 sync.RWMutex targets map[TargetID]Target queue chan asyncEvent ctx context.Context } type asyncEvent struct { ev Event targetSet TargetIDSet } // Add - adds unique target to target list. func (list *TargetList) Add(targets ...Target) error { list.Lock() defer list.Unlock() for _, target := range targets { if _, ok := list.targets[target.ID()]; ok { return fmt.Errorf("target %v already exists", target.ID()) } list.targets[target.ID()] = target } return nil } // Exists - checks whether target by target ID exists or not. func (list *TargetList) Exists(id TargetID) bool { list.RLock() defer list.RUnlock() _, found := list.targets[id] return found } // TargetIDResult returns result of Remove/Send operation, sets err if // any for the associated TargetID type TargetIDResult struct { // ID where the remove or send were initiated. ID TargetID // Stores any error while removing a target or while sending an event. Err error } // Remove - closes and removes targets by given target IDs. func (list *TargetList) Remove(targetIDSet TargetIDSet) { list.Lock() defer list.Unlock() for id := range targetIDSet { target, ok := list.targets[id] if ok { target.Close() delete(list.targets, id) } } } // Targets - list all targets func (list *TargetList) Targets() []Target { if list == nil { return []Target{} } list.RLock() defer list.RUnlock() targets := []Target{} for _, tgt := range list.targets { targets = append(targets, tgt) } return targets } // List - returns available target IDs. func (list *TargetList) List() []TargetID { list.RLock() defer list.RUnlock() keys := []TargetID{} for k := range list.targets { keys = append(keys, k) } return keys } func (list *TargetList) get(id TargetID) (Target, bool) { list.RLock() defer list.RUnlock() target, ok := list.targets[id] return target, ok } // TargetMap - returns available targets. func (list *TargetList) TargetMap() map[TargetID]Target { list.RLock() defer list.RUnlock() ntargets := make(map[TargetID]Target, len(list.targets)) for k, v := range list.targets { ntargets[k] = v } return ntargets } // Send - sends events to targets identified by target IDs. func (list *TargetList) Send(event Event, targetIDset TargetIDSet, sync bool) { if sync { list.sendSync(event, targetIDset) } else { list.sendAsync(event, targetIDset) } } func (list *TargetList) sendSync(event Event, targetIDset TargetIDSet) { var wg sync.WaitGroup for id := range targetIDset { target, ok := list.get(id) if !ok { continue } wg.Add(1) go func(id TargetID, target Target) { list.currentSendCalls.Add(1) defer list.currentSendCalls.Add(-1) defer wg.Done() if err := target.Save(event); err != nil { reqInfo := &logger.ReqInfo{} reqInfo.AppendTags("targetID", id.String()) logger.LogOnceIf(logger.SetReqInfo(context.Background(), reqInfo), err, id.String()) } }(id, target) } wg.Wait() list.totalEvents.Add(1) } func (list *TargetList) sendAsync(event Event, targetIDset TargetIDSet) { select { case list.queue <- asyncEvent{ ev: event, targetSet: targetIDset.Clone(), }: case <-list.ctx.Done(): list.eventsSkipped.Add(int64(len(list.queue))) return default: list.eventsSkipped.Add(1) err := fmt.Errorf("concurrent target notifications exceeded %d, notification endpoint is too slow to accept events on incoming requests", maxConcurrentAsyncSend) for id := range targetIDset { reqInfo := &logger.ReqInfo{} reqInfo.AppendTags("targetID", id.String()) logger.LogOnceIf(logger.SetReqInfo(context.Background(), reqInfo), err, id.String()) } return } } // Stats returns stats for targets. func (list *TargetList) Stats() TargetStats { t := TargetStats{} if list == nil { return t } t.CurrentSendCalls = list.currentSendCalls.Load() t.EventsSkipped = list.eventsSkipped.Load() t.TotalEvents = list.totalEvents.Load() t.CurrentQueuedCalls = int64(len(list.queue)) list.RLock() defer list.RUnlock() t.TargetStats = make(map[string]TargetStat, len(list.targets)) for id, target := range list.targets { ts := TargetStat{ID: id} if st := target.Store(); st != nil { ts.CurrentQueue = st.Len() } t.TargetStats[strings.ReplaceAll(id.String(), ":", "_")] = ts } return t } func (list *TargetList) startSendWorkers(workerCount int) { if workerCount == 0 { workerCount = runtime.GOMAXPROCS(0) } wk, err := workers.New(workerCount) if err != nil { panic(err) } for i := 0; i < workerCount; i++ { wk.Take() go func() { defer wk.Give() for { select { case av := <-list.queue: list.sendSync(av.ev, av.targetSet) case <-list.ctx.Done(): return } } }() } wk.Wait() } var startOnce sync.Once // Init initialize target send workers. func (list *TargetList) Init(workers int) *TargetList { startOnce.Do(func() { go list.startSendWorkers(workers) }) return list } // NewTargetList - creates TargetList. func NewTargetList(ctx context.Context) *TargetList { list := &TargetList{ targets: make(map[TargetID]Target), queue: make(chan asyncEvent, maxConcurrentAsyncSend), ctx: ctx, } return list }