package blossomsub import ( "context" "fmt" "math/rand" "sync" "time" "github.com/libp2p/go-libp2p/core/peer" ) const ( MinBackoffDelay = 100 * time.Millisecond MaxBackoffDelay = 10 * time.Second TimeToLive = 10 * time.Minute BackoffCleanupInterval = 1 * time.Minute BackoffMultiplier = 2 MaxBackoffJitterCoff = 100 MaxBackoffAttempts = 4 ) type backoffHistory struct { duration time.Duration lastTried time.Time attempts int } type backoff struct { mu sync.Mutex info map[peer.ID]*backoffHistory ct int // size threshold that kicks off the cleaner ci time.Duration // cleanup intervals maxAttempts int // maximum backoff attempts prior to ejection } func newBackoff(ctx context.Context, sizeThreshold int, cleanupInterval time.Duration, maxAttempts int) *backoff { b := &backoff{ mu: sync.Mutex{}, ct: sizeThreshold, ci: cleanupInterval, maxAttempts: maxAttempts, info: make(map[peer.ID]*backoffHistory), } rand.Seed(time.Now().UnixNano()) // used for jitter go b.cleanupLoop(ctx) return b } func (b *backoff) updateAndGet(id peer.ID) (time.Duration, error) { b.mu.Lock() h, ok := b.info[id] switch { case !ok || time.Since(h.lastTried) > TimeToLive: // first request goes immediately. h = &backoffHistory{ duration: time.Duration(0), attempts: 0, } case h.attempts >= b.maxAttempts: b.mu.Unlock() return 0, fmt.Errorf("peer %s has reached its maximum backoff attempts", id) case h.duration < MinBackoffDelay: h.duration = MinBackoffDelay case h.duration < MaxBackoffDelay: jitter := rand.Intn(MaxBackoffJitterCoff) h.duration = (BackoffMultiplier * h.duration) + time.Duration(jitter)*time.Millisecond if h.duration > MaxBackoffDelay || h.duration < 0 { h.duration = MaxBackoffDelay } } h.attempts += 1 h.lastTried = time.Now() b.info[id] = h b.mu.Unlock() return h.duration, nil } func (b *backoff) cleanup() { b.mu.Lock() for id, h := range b.info { if time.Since(h.lastTried) > TimeToLive { delete(b.info, id) } } b.mu.Unlock() } func (b *backoff) cleanupLoop(ctx context.Context) { ticker := time.NewTicker(b.ci) for { select { case <-ctx.Done(): ticker.Stop() return // pubsub shutting down case <-ticker.C: b.cleanup() } } }