/* Copyright 2015 The Kubernetes 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 flowcontrol import ( "sync" "time" "k8s.io/client-go/1.5/pkg/util/clock" "k8s.io/client-go/1.5/pkg/util/integer" ) type backoffEntry struct { backoff time.Duration lastUpdate time.Time } type Backoff struct { sync.Mutex Clock clock.Clock defaultDuration time.Duration maxDuration time.Duration perItemBackoff map[string]*backoffEntry } func NewFakeBackOff(initial, max time.Duration, tc *clock.FakeClock) *Backoff { return &Backoff{ perItemBackoff: map[string]*backoffEntry{}, Clock: tc, defaultDuration: initial, maxDuration: max, } } func NewBackOff(initial, max time.Duration) *Backoff { return &Backoff{ perItemBackoff: map[string]*backoffEntry{}, Clock: clock.RealClock{}, defaultDuration: initial, maxDuration: max, } } // Get the current backoff Duration func (p *Backoff) Get(id string) time.Duration { p.Lock() defer p.Unlock() var delay time.Duration entry, ok := p.perItemBackoff[id] if ok { delay = entry.backoff } return delay } // move backoff to the next mark, capping at maxDuration func (p *Backoff) Next(id string, eventTime time.Time) { p.Lock() defer p.Unlock() entry, ok := p.perItemBackoff[id] if !ok || hasExpired(eventTime, entry.lastUpdate, p.maxDuration) { entry = p.initEntryUnsafe(id) } else { delay := entry.backoff * 2 // exponential entry.backoff = time.Duration(integer.Int64Min(int64(delay), int64(p.maxDuration))) } entry.lastUpdate = p.Clock.Now() } // Reset forces clearing of all backoff data for a given key. func (p *Backoff) Reset(id string) { p.Lock() defer p.Unlock() delete(p.perItemBackoff, id) } // Returns True if the elapsed time since eventTime is smaller than the current backoff window func (p *Backoff) IsInBackOffSince(id string, eventTime time.Time) bool { p.Lock() defer p.Unlock() entry, ok := p.perItemBackoff[id] if !ok { return false } if hasExpired(eventTime, entry.lastUpdate, p.maxDuration) { return false } return p.Clock.Now().Sub(eventTime) < entry.backoff } // Returns True if time since lastupdate is less than the current backoff window. func (p *Backoff) IsInBackOffSinceUpdate(id string, eventTime time.Time) bool { p.Lock() defer p.Unlock() entry, ok := p.perItemBackoff[id] if !ok { return false } if hasExpired(eventTime, entry.lastUpdate, p.maxDuration) { return false } return eventTime.Sub(entry.lastUpdate) < entry.backoff } // Garbage collect records that have aged past maxDuration. Backoff users are expected // to invoke this periodically. func (p *Backoff) GC() { p.Lock() defer p.Unlock() now := p.Clock.Now() for id, entry := range p.perItemBackoff { if now.Sub(entry.lastUpdate) > p.maxDuration*2 { // GC when entry has not been updated for 2*maxDuration delete(p.perItemBackoff, id) } } } func (p *Backoff) DeleteEntry(id string) { p.Lock() defer p.Unlock() delete(p.perItemBackoff, id) } // Take a lock on *Backoff, before calling initEntryUnsafe func (p *Backoff) initEntryUnsafe(id string) *backoffEntry { entry := &backoffEntry{backoff: p.defaultDuration} p.perItemBackoff[id] = entry return entry } // After 2*maxDuration we restart the backoff factor to the beginning func hasExpired(eventTime time.Time, lastUpdate time.Time, maxDuration time.Duration) bool { return eventTime.Sub(lastUpdate) > maxDuration*2 // consider stable if it's ok for twice the maxDuration }