package ccache import ( "sync" "time" ) type layeredBucket struct { sync.RWMutex buckets map[string]*bucket } func (b *layeredBucket) itemCount() int { count := 0 b.RLock() defer b.RUnlock() for _, b := range b.buckets { count += b.itemCount() } return count } func (b *layeredBucket) get(primary, secondary string) *Item { bucket := b.getSecondaryBucket(primary) if bucket == nil { return nil } return bucket.get(secondary) } func (b *layeredBucket) getSecondaryBucket(primary string) *bucket { b.RLock() bucket, exists := b.buckets[primary] b.RUnlock() if exists == false { return nil } return bucket } func (b *layeredBucket) set(primary, secondary string, value interface{}, duration time.Duration) (*Item, *Item) { b.Lock() bkt, exists := b.buckets[primary] if exists == false { bkt = &bucket{lookup: make(map[string]*Item)} b.buckets[primary] = bkt } b.Unlock() item, existing := bkt.set(secondary, value, duration) item.group = primary return item, existing } func (b *layeredBucket) delete(primary, secondary string) *Item { b.RLock() bucket, exists := b.buckets[primary] b.RUnlock() if exists == false { return nil } return bucket.delete(secondary) } func (b *layeredBucket) deleteAll(primary string, deletables chan *Item) bool { b.RLock() bucket, exists := b.buckets[primary] b.RUnlock() if exists == false { return false } bucket.Lock() defer bucket.Unlock() if l := len(bucket.lookup); l == 0 { return false } for key, item := range bucket.lookup { delete(bucket.lookup, key) deletables <- item } return true } func (b *layeredBucket) clear() { b.Lock() defer b.Unlock() for _, bucket := range b.buckets { bucket.clear() } b.buckets = make(map[string]*bucket) }