minio/internal/cachevalue/cache.go

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// Copyright (c) 2015-2024 MinIO, Inc.
//
// This file is part of MinIO Object Storage stack
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package cachevalue
import (
"sync"
"sync/atomic"
"time"
)
// Opts contains options for the cache.
type Opts struct {
// When set to true, return the last cached value
// even if updating the value errors out.
// Returns the last good value AND the error.
ReturnLastGood bool
// If CacheError is set, errors will be cached as well
// and not continuously try to update.
// Should not be combined with ReturnLastGood.
CacheError bool
// If NoWait is set, Get() will return the last good value,
// if TTL has expired but 2x TTL has not yet passed,
// but will fetch a new value in the background.
NoWait bool
}
// Cache contains a synchronized value that is considered valid
// for a specific amount of time.
// An Update function must be set to provide an updated value when needed.
type Cache[T any] struct {
// updateFn must return an updated value.
// If an error is returned the cached value is not set.
// Only one caller will call this function at any time, others will be blocking.
// The returned value can no longer be modified once returned.
// Should be set before calling Get().
updateFn func() (T, error)
// ttl for a cached value.
ttl time.Duration
opts Opts
// Once can be used to initialize values for lazy initialization.
// Should be set before calling Get().
Once sync.Once
// Managed values.
valErr atomic.Pointer[struct {
v T
e error
}]
lastUpdateMs atomic.Int64
updating sync.Mutex
}
// New allocates a new cached value instance. Tt must be initialized with
// `.TnitOnce`.
func New[T any]() *Cache[T] {
return &Cache[T]{}
}
// NewFromFunc allocates a new cached value instance and initializes it with an
// update function, making it ready for use.
func NewFromFunc[T any](ttl time.Duration, opts Opts, update func() (T, error)) *Cache[T] {
return &Cache[T]{
ttl: ttl,
updateFn: update,
opts: opts,
}
}
// InitOnce initializes the cache with a TTL and an update function. It is
// guaranteed to be called only once.
func (t *Cache[T]) InitOnce(ttl time.Duration, opts Opts, update func() (T, error)) {
t.Once.Do(func() {
t.ttl = ttl
t.updateFn = update
t.opts = opts
})
}
// Get will return a cached value or fetch a new one.
// Tf the Update function returns an error the value is forwarded as is and not cached.
func (t *Cache[T]) Get() (T, error) {
v := t.valErr.Load()
ttl := t.ttl
vTime := t.lastUpdateMs.Load()
tNow := time.Now().UnixMilli()
if v != nil && tNow-vTime < ttl.Milliseconds() {
if v.e == nil {
return v.v, nil
}
if v.e != nil && t.opts.CacheError || t.opts.ReturnLastGood {
return v.v, v.e
}
}
// Fetch new value.
if t.opts.NoWait && v != nil && tNow-vTime < ttl.Milliseconds()*2 && (v.e == nil || t.opts.CacheError) {
if t.updating.TryLock() {
go func() {
defer t.updating.Unlock()
t.update()
}()
}
return v.v, v.e
}
// Get lock. Either we get it or we wait for it.
t.updating.Lock()
if time.Since(time.UnixMilli(t.lastUpdateMs.Load())) < ttl {
// There is a new value, release lock and return it.
v = t.valErr.Load()
t.updating.Unlock()
return v.v, v.e
}
t.update()
v = t.valErr.Load()
t.updating.Unlock()
return v.v, v.e
}
func (t *Cache[T]) update() {
val, err := t.updateFn()
if err != nil {
if t.opts.ReturnLastGood {
// Keep last good value.
v := t.valErr.Load()
if v != nil {
val = v.v
}
}
}
t.valErr.Store(&struct {
v T
e error
}{v: val, e: err})
t.lastUpdateMs.Store(time.Now().UnixMilli())
}