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gotosocial/vendor/github.com/ReneKroon/ttlcache/cache.go

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package ttlcache
import (
"sync"
"time"
)
// CheckExpireCallback is used as a callback for an external check on item expiration
type checkExpireCallback func(key string, value interface{}) bool
// ExpireCallback is used as a callback on item expiration or when notifying of an item new to the cache
type expireCallback func(key string, value interface{})
// Cache is a synchronized map of items that can auto-expire once stale
type Cache struct {
mutex sync.Mutex
ttl time.Duration
items map[string]*item
expireCallback expireCallback
checkExpireCallback checkExpireCallback
newItemCallback expireCallback
priorityQueue *priorityQueue
expirationNotification chan bool
expirationTime time.Time
skipTTLExtension bool
shutdownSignal chan (chan struct{})
isShutDown bool
}
func (cache *Cache) getItem(key string) (*item, bool, bool) {
item, exists := cache.items[key]
if !exists || item.expired() {
return nil, false, false
}
if item.ttl >= 0 && (item.ttl > 0 || cache.ttl > 0) {
if cache.ttl > 0 && item.ttl == 0 {
item.ttl = cache.ttl
}
if !cache.skipTTLExtension {
item.touch()
}
cache.priorityQueue.update(item)
}
expirationNotification := false
if cache.expirationTime.After(time.Now().Add(item.ttl)) {
expirationNotification = true
}
return item, exists, expirationNotification
}
func (cache *Cache) startExpirationProcessing() {
timer := time.NewTimer(time.Hour)
for {
var sleepTime time.Duration
cache.mutex.Lock()
if cache.priorityQueue.Len() > 0 {
sleepTime = time.Until(cache.priorityQueue.items[0].expireAt)
if sleepTime < 0 && cache.priorityQueue.items[0].expireAt.IsZero() {
sleepTime = time.Hour
} else if sleepTime < 0 {
sleepTime = time.Microsecond
}
if cache.ttl > 0 {
sleepTime = min(sleepTime, cache.ttl)
}
} else if cache.ttl > 0 {
sleepTime = cache.ttl
} else {
sleepTime = time.Hour
}
cache.expirationTime = time.Now().Add(sleepTime)
cache.mutex.Unlock()
timer.Reset(sleepTime)
select {
case shutdownFeedback := <-cache.shutdownSignal:
timer.Stop()
cache.mutex.Lock()
if cache.priorityQueue.Len() > 0 {
cache.evictjob()
}
cache.mutex.Unlock()
shutdownFeedback <- struct{}{}
return
case <-timer.C:
timer.Stop()
cache.mutex.Lock()
if cache.priorityQueue.Len() == 0 {
cache.mutex.Unlock()
continue
}
cache.cleanjob()
cache.mutex.Unlock()
case <-cache.expirationNotification:
timer.Stop()
continue
}
}
}
func (cache *Cache) evictjob() {
// index will only be advanced if the current entry will not be evicted
i := 0
for item := cache.priorityQueue.items[i]; ; item = cache.priorityQueue.items[i] {
cache.priorityQueue.remove(item)
delete(cache.items, item.key)
if cache.expireCallback != nil {
go cache.expireCallback(item.key, item.data)
}
if cache.priorityQueue.Len() == 0 {
return
}
}
}
func (cache *Cache) cleanjob() {
// index will only be advanced if the current entry will not be evicted
i := 0
for item := cache.priorityQueue.items[i]; item.expired(); item = cache.priorityQueue.items[i] {
if cache.checkExpireCallback != nil {
if !cache.checkExpireCallback(item.key, item.data) {
item.touch()
cache.priorityQueue.update(item)
i++
if i == cache.priorityQueue.Len() {
break
}
continue
}
}
cache.priorityQueue.remove(item)
delete(cache.items, item.key)
if cache.expireCallback != nil {
go cache.expireCallback(item.key, item.data)
}
if cache.priorityQueue.Len() == 0 {
return
}
}
}
// Close calls Purge, and then stops the goroutine that does ttl checking, for a clean shutdown.
// The cache is no longer cleaning up after the first call to Close, repeated calls are safe though.
func (cache *Cache) Close() {
cache.mutex.Lock()
if !cache.isShutDown {
cache.isShutDown = true
cache.mutex.Unlock()
feedback := make(chan struct{})
cache.shutdownSignal <- feedback
<-feedback
close(cache.shutdownSignal)
} else {
cache.mutex.Unlock()
}
cache.Purge()
}
// Set is a thread-safe way to add new items to the map
func (cache *Cache) Set(key string, data interface{}) {
cache.SetWithTTL(key, data, ItemExpireWithGlobalTTL)
}
// SetWithTTL is a thread-safe way to add new items to the map with individual ttl
func (cache *Cache) SetWithTTL(key string, data interface{}, ttl time.Duration) {
cache.mutex.Lock()
item, exists, _ := cache.getItem(key)
if exists {
item.data = data
item.ttl = ttl
} else {
item = newItem(key, data, ttl)
cache.items[key] = item
}
if item.ttl >= 0 && (item.ttl > 0 || cache.ttl > 0) {
if cache.ttl > 0 && item.ttl == 0 {
item.ttl = cache.ttl
}
item.touch()
}
if exists {
cache.priorityQueue.update(item)
} else {
cache.priorityQueue.push(item)
}
cache.mutex.Unlock()
if !exists && cache.newItemCallback != nil {
cache.newItemCallback(key, data)
}
cache.expirationNotification <- true
}
// Get is a thread-safe way to lookup items
// Every lookup, also touches the item, hence extending it's life
func (cache *Cache) Get(key string) (interface{}, bool) {
cache.mutex.Lock()
item, exists, triggerExpirationNotification := cache.getItem(key)
var dataToReturn interface{}
if exists {
dataToReturn = item.data
}
cache.mutex.Unlock()
if triggerExpirationNotification {
cache.expirationNotification <- true
}
return dataToReturn, exists
}
func (cache *Cache) Remove(key string) bool {
cache.mutex.Lock()
object, exists := cache.items[key]
if !exists {
cache.mutex.Unlock()
return false
}
delete(cache.items, object.key)
cache.priorityQueue.remove(object)
cache.mutex.Unlock()
return true
}
// Count returns the number of items in the cache
func (cache *Cache) Count() int {
cache.mutex.Lock()
length := len(cache.items)
cache.mutex.Unlock()
return length
}
func (cache *Cache) SetTTL(ttl time.Duration) {
cache.mutex.Lock()
cache.ttl = ttl
cache.mutex.Unlock()
cache.expirationNotification <- true
}
// SetExpirationCallback sets a callback that will be called when an item expires
func (cache *Cache) SetExpirationCallback(callback expireCallback) {
cache.expireCallback = callback
}
// SetCheckExpirationCallback sets a callback that will be called when an item is about to expire
// in order to allow external code to decide whether the item expires or remains for another TTL cycle
func (cache *Cache) SetCheckExpirationCallback(callback checkExpireCallback) {
cache.checkExpireCallback = callback
}
// SetNewItemCallback sets a callback that will be called when a new item is added to the cache
func (cache *Cache) SetNewItemCallback(callback expireCallback) {
cache.newItemCallback = callback
}
// SkipTtlExtensionOnHit allows the user to change the cache behaviour. When this flag is set to true it will
// no longer extend TTL of items when they are retrieved using Get, or when their expiration condition is evaluated
// using SetCheckExpirationCallback.
func (cache *Cache) SkipTtlExtensionOnHit(value bool) {
cache.skipTTLExtension = value
}
// Purge will remove all entries
func (cache *Cache) Purge() {
cache.mutex.Lock()
cache.items = make(map[string]*item)
cache.priorityQueue = newPriorityQueue()
cache.mutex.Unlock()
}
// NewCache is a helper to create instance of the Cache struct
func NewCache() *Cache {
shutdownChan := make(chan chan struct{})
cache := &Cache{
items: make(map[string]*item),
priorityQueue: newPriorityQueue(),
expirationNotification: make(chan bool),
expirationTime: time.Now(),
shutdownSignal: shutdownChan,
isShutDown: false,
}
go cache.startExpirationProcessing()
return cache
}
func min(duration time.Duration, second time.Duration) time.Duration {
if duration < second {
return duration
}
return second
}