package cache // Modified by https://github.com/die-net/lrucache import ( "container/list" "sync" "time" ) // Option is part of Functional Options Pattern type Option func(*LruCache) // WithUpdateAgeOnGet update expires when Get element func WithUpdateAgeOnGet() Option { return func(l *LruCache) { l.updateAgeOnGet = true } } // WithAge defined element max age (second) func WithAge(maxAge int64) Option { return func(l *LruCache) { l.maxAge = maxAge } } // WithSize defined max length of LruCache func WithSize(maxSize int) Option { return func(l *LruCache) { l.maxSize = maxSize } } // LruCache is a thread-safe, in-memory lru-cache that evicts the // least recently used entries from memory when (if set) the entries are // older than maxAge (in seconds). Use the New constructor to create one. type LruCache struct { maxAge int64 maxSize int mu sync.Mutex cache map[interface{}]*list.Element lru *list.List // Front is least-recent updateAgeOnGet bool } // NewLRUCache creates an LruCache func NewLRUCache(options ...Option) *LruCache { lc := &LruCache{ lru: list.New(), cache: make(map[interface{}]*list.Element), } for _, option := range options { option(lc) } return lc } // Get returns the interface{} representation of a cached response and a bool // set to true if the key was found. func (c *LruCache) Get(key interface{}) (interface{}, bool) { c.mu.Lock() defer c.mu.Unlock() le, ok := c.cache[key] if !ok { return nil, false } if c.maxAge > 0 && le.Value.(*entry).expires <= time.Now().Unix() { c.deleteElement(le) c.maybeDeleteOldest() return nil, false } c.lru.MoveToBack(le) entry := le.Value.(*entry) if c.maxAge > 0 && c.updateAgeOnGet { entry.expires = time.Now().Unix() + c.maxAge } value := entry.value return value, true } // Exist returns if key exist in cache but not put item to the head of linked list func (c *LruCache) Exist(key interface{}) bool { c.mu.Lock() defer c.mu.Unlock() _, ok := c.cache[key] return ok } // Set stores the interface{} representation of a response for a given key. func (c *LruCache) Set(key interface{}, value interface{}) { c.mu.Lock() defer c.mu.Unlock() expires := int64(0) if c.maxAge > 0 { expires = time.Now().Unix() + c.maxAge } if le, ok := c.cache[key]; ok { c.lru.MoveToBack(le) e := le.Value.(*entry) e.value = value e.expires = expires } else { e := &entry{key: key, value: value, expires: expires} c.cache[key] = c.lru.PushBack(e) if c.maxSize > 0 { if len := c.lru.Len(); len > c.maxSize { c.deleteElement(c.lru.Front()) } } } c.maybeDeleteOldest() } // Delete removes the value associated with a key. func (c *LruCache) Delete(key string) { c.mu.Lock() if le, ok := c.cache[key]; ok { c.deleteElement(le) } c.mu.Unlock() } func (c *LruCache) maybeDeleteOldest() { if c.maxAge > 0 { now := time.Now().Unix() for le := c.lru.Front(); le != nil && le.Value.(*entry).expires <= now; le = c.lru.Front() { c.deleteElement(le) } } } func (c *LruCache) deleteElement(le *list.Element) { c.lru.Remove(le) e := le.Value.(*entry) delete(c.cache, e.key) } type entry struct { key interface{} value interface{} expires int64 }