Provides an in-memory cache with expiration and an ExpirationHeap that order the items using a TTL value
ttl.Cache is a simple key/value cache in golang with the following functions:
- Expiration of items based on time, or custom function
- Loader function to retrieve missing keys can be provided. Additional
Getcalls on the same key block while fetching is in progress (groupcache style). - Individual expiring time or global expiring time, you can choose
- Auto-Extending expiration on
Get-or- DNS style TTL, seeSkipTTLExtensionOnHit(bool) - Can trigger callback on key expiration
- Cleanup resources by calling
Close()at end of lifecycle. - Thread-safe with comprehensive testing suite. This code is in production at bol.com on critical systems.
Note (issue #25): by default, due to historic reasons, the TTL will be reset on each cache hit and you need to explicitly configure the cache to use a TTL that will not get extended.
ttl.ExpirationHeap is a heap priority queue implementation but using an expiration time as the priority, this means that
the entries in the queue are ordered using a TTL value.
A NotifyCh es used to know when the first element in the queue is updated.
go get github.com/asgarciap/ttl/v3
You can copy it as a full standalone demo program. The first snippet is basic usage, where the second exploits more options in the cache.
Basic:
package main
import (
"fmt"
"time"
"github.com/asgarciap/ttl/v3"
)
var notFound = ttl.ErrNotFound
func main() {
var cache ttl.SimpleCache = ttl.NewCache()
cache.SetTTL(time.Duration(10 * time.Second))
cache.Set("MyKey", "MyValue")
cache.Set("MyNumber", 1000)
if val, err := cache.Get("MyKey"); err != notFound {
fmt.Printf("Got it: %s\n", val)
}
cache.Remove("MyNumber")
cache.Purge()
cache.Close()
}Advanced:
package main
import (
"fmt"
"time"
"github.com/asgarciap/ttl/v3"
)
var (
notFound = ttl.ErrNotFound
isClosed = ttl.ErrClosed
)
func main() {
newItemCallback := func(key string, value interface{}) {
fmt.Printf("New key(%s) added\n", key)
}
checkExpirationCallback := func(key string, value interface{}) bool {
if key == "key1" {
// if the key equals "key1", the value
// will not be allowed to expire
return false
}
// all other values are allowed to expire
return true
}
expirationCallback := func(key string, reason ttlcache.EvictionReason, value interface{}) {
fmt.Printf("This key(%s) has expired because of %s\n", key, reason)
}
loaderFunction := func(key string) (data interface{}, ttl time.Duration, err error) {
ttl = time.Second * 300
data, err = getFromNetwork(key)
return data, ttl, err
}
cache := ttl.NewCache()
cache.SetTTL(time.Duration(10 * time.Second))
cache.SetExpirationReasonCallback(expirationCallback)
cache.SetLoaderFunction(loaderFunction)
cache.SetNewItemCallback(newItemCallback)
cache.SetCheckExpirationCallback(checkExpirationCallback)
cache.SetCacheSizeLimit(2)
cache.Set("key", "value")
cache.SetWithTTL("keyWithTTL", "value", 10*time.Second)
if value, exists := cache.Get("key"); exists == nil {
fmt.Printf("Got value: %v\n", value)
}
if v, ttl, e := cache.GetWithTTL("key"); e == nil {
fmt.Printf("Got value: %v which still have a ttl of: %v\n", v, ttl)
}
count := cache.Count()
if result := cache.Remove("keyNNN"); result == notFound {
fmt.Printf("Not found, %d items left\n", count)
}
cache.Set("key6", "value")
cache.Set("key7", "value")
metrics := cache.GetMetrics()
fmt.Printf("Total inserted: %d\n", metrics.Inserted)
cache.Close()
}
func getFromNetwork(key string) (string, error) {
time.Sleep(time.Millisecond * 30)
return "value", nil
}Any struct can be used as the heap entry as long the ExpirationHeapEntry interface is implemented.
package main
import (
"fmt"
"time"
"github.com/asgarciap/ttl/v3"
)
type struct MyStruct {
data string
index int
validUntil time.Time
}
func (m *MyStruct) SetIndex(index int) {
m.index = index
}
func (m *MyStruct) GetIndex() int {
return m.index
}
func (m *MyStruct) ExpiresAt() {
return m.validUntil
}
func main() {
heap := ttl.NewExpirationHeap()
//Just start a simple goroutine to check when the first position is updated
go func() {
for {
<-heap.NotifyCh
fmt.Printf("Heap first element was updated")
}
}()
entry := &MyStruct{
data: "MyValue",
validUntil: time.Now().Add(10*time.Second),
}
heap.Add(entry)
entry2 := &MyStruct{
data: "MyValue_2",
validUntil: time.Now().Add(5*time.Second),
}
//Get the first element without removing it from the heap
v := heap.Peek()
//This should print: Got it MyValue_2
fmt.Printf("Got it: %v":,v.(*MyStruct).value)
//after updating the TTL, the item should be moved to the first position
entry.validUntil = time.Now().Add(1*time.Second)
heap.Update(entry)
//Get the first position and remove it from the heap
v = heap.First()
//This should print: Got it: MyValue
fmt.Printf("Got it: %v":,v.(*MyStruct).value)
}- The complexity of the current cache is already quite high. Therefore not all requests can be implemented in a straight-forward manner.
- The locking should be done only in the exported functions and
startExpirationProcessingof the Cache struct. Else data races can occur or recursive locks are needed, which are both unwanted. - I prefer correct functionality over fast tests. It's ok for new tests to take seconds to proof something.
TTLCache was forked from ReneKroon/ttlcache which in turn is a fork from wunderlist/ttlcache to add extra functions not avaiable in the original scope.
The main differences that ReneKroon/ttlcache has from the original project are:
- A item can store any kind of object, previously, only strings could be saved
- Optionally, you can add callbacks too: check if a value should expire, be notified if a value expires, and be notified when new values are added to the cache
- The expiration can be either global or per item
- Items can exist without expiration time (
time.Zero) - Expirations and callbacks are realtime. Don't have a pooling time to check anymore, now it's done with a heap.
- A cache count limiter
This fork differs in the following aspects:
- We add a new
GetWithTTLfunction to get the available TTL (astime.Duration) that an item has when recovering from the cache - We rename the
priority_queue.gofile/struct toExpirationHeapand expose it so we can use it independently - Metrics for eviction are more detailed (
EvictedFull,EvictedClosed,EvictedExpired) - 100% test coverage
- Build checks are now done with github actions