gf/os/gcache/gcache_adapter_memory.go
2021-09-27 21:27:24 +08:00

478 lines
16 KiB
Go

// Copyright GoFrame Author(https://goframe.org). All Rights Reserved.
//
// This Source Code Form is subject to the terms of the MIT License.
// If a copy of the MIT was not distributed with this file,
// You can obtain one at https://github.com/gogf/gf.
package gcache
import (
"context"
"github.com/gogf/gf/container/gvar"
"math"
"time"
"github.com/gogf/gf/container/glist"
"github.com/gogf/gf/container/gset"
"github.com/gogf/gf/container/gtype"
"github.com/gogf/gf/os/gtime"
"github.com/gogf/gf/os/gtimer"
)
// AdapterMemory is an adapter implements using memory.
type AdapterMemory struct {
// cap limits the size of the cache pool.
// If the size of the cache exceeds the cap,
// the cache expiration process performs according to the LRU algorithm.
// It is 0 in default which means no limits.
cap int
data *adapterMemoryData // data is the underlying cache data which is stored in a hash table.
expireTimes *adapterMemoryExpireTimes // expireTimes is the expiring key to its timestamp mapping, which is used for quick indexing and deleting.
expireSets *adapterMemoryExpireSets // expireSets is the expiring timestamp to its key set mapping, which is used for quick indexing and deleting.
lru *adapterMemoryLru // lru is the LRU manager, which is enabled when attribute cap > 0.
lruGetList *glist.List // lruGetList is the LRU history according to Get function.
eventList *glist.List // eventList is the asynchronous event list for internal data synchronization.
closed *gtype.Bool // closed controls the cache closed or not.
}
// Internal cache item.
type adapterMemoryItem struct {
v interface{} // Value.
e int64 // Expire timestamp in milliseconds.
}
// Internal event item.
type adapterMemoryEvent struct {
k interface{} // Key.
e int64 // Expire time in milliseconds.
}
const (
// defaultMaxExpire is the default expire time for no expiring items.
// It equals to math.MaxInt64/1000000.
defaultMaxExpire = 9223372036854
)
// NewAdapterMemory creates and returns a new memory cache object.
func NewAdapterMemory(lruCap ...int) *AdapterMemory {
c := &AdapterMemory{
data: newAdapterMemoryData(),
lruGetList: glist.New(true),
expireTimes: newAdapterMemoryExpireTimes(),
expireSets: newAdapterMemoryExpireSets(),
eventList: glist.New(true),
closed: gtype.NewBool(),
}
if len(lruCap) > 0 {
c.cap = lruCap[0]
c.lru = newMemCacheLru(c)
}
return c
}
// Set sets cache with `key`-`value` pair, which is expired after `duration`.
//
// It does not expire if `duration` == 0.
// It deletes the keys of `data` if `duration` < 0 or given `value` is nil.
func (c *AdapterMemory) Set(ctx context.Context, key interface{}, value interface{}, duration time.Duration) error {
expireTime := c.getInternalExpire(duration)
c.data.Set(key, adapterMemoryItem{
v: value,
e: expireTime,
})
c.eventList.PushBack(&adapterMemoryEvent{
k: key,
e: expireTime,
})
return nil
}
// SetMap batch sets cache with key-value pairs by `data` map, which is expired after `duration`.
//
// It does not expire if `duration` == 0.
// It deletes the keys of `data` if `duration` < 0 or given `value` is nil.
func (c *AdapterMemory) SetMap(ctx context.Context, data map[interface{}]interface{}, duration time.Duration) error {
var (
expireTime = c.getInternalExpire(duration)
err = c.data.SetMap(data, expireTime)
)
if err != nil {
return err
}
for k, _ := range data {
c.eventList.PushBack(&adapterMemoryEvent{
k: k,
e: expireTime,
})
}
return nil
}
// SetIfNotExist sets cache with `key`-`value` pair which is expired after `duration`
// if `key` does not exist in the cache. It returns true the `key` does not exist in the
// cache, and it sets `value` successfully to the cache, or else it returns false.
//
// It does not expire if `duration` == 0.
// It deletes the `key` if `duration` < 0 or given `value` is nil.
func (c *AdapterMemory) SetIfNotExist(ctx context.Context, key interface{}, value interface{}, duration time.Duration) (bool, error) {
isContained, err := c.Contains(ctx, key)
if err != nil {
return false, err
}
if !isContained {
if _, err = c.doSetWithLockCheck(key, value, duration); err != nil {
return false, err
}
return true, nil
}
return false, nil
}
// SetIfNotExistFunc sets `key` with result of function `f` and returns true
// if `key` does not exist in the cache, or else it does nothing and returns false if `key` already exists.
//
// The parameter `value` can be type of `func() interface{}`, but it does nothing if its
// result is nil.
//
// It does not expire if `duration` == 0.
// It deletes the `key` if `duration` < 0 or given `value` is nil.
func (c *AdapterMemory) SetIfNotExistFunc(ctx context.Context, key interface{}, f func() (interface{}, error), duration time.Duration) (bool, error) {
isContained, err := c.Contains(ctx, key)
if err != nil {
return false, err
}
if !isContained {
value, err := f()
if err != nil {
return false, err
}
if _, err = c.doSetWithLockCheck(key, value, duration); err != nil {
return false, err
}
return true, nil
}
return false, nil
}
// SetIfNotExistFuncLock sets `key` with result of function `f` and returns true
// if `key` does not exist in the cache, or else it does nothing and returns false if `key` already exists.
//
// It does not expire if `duration` == 0.
// It deletes the `key` if `duration` < 0 or given `value` is nil.
//
// Note that it differs from function `SetIfNotExistFunc` is that the function `f` is executed within
// writing mutex lock for concurrent safety purpose.
func (c *AdapterMemory) SetIfNotExistFuncLock(ctx context.Context, key interface{}, f func() (interface{}, error), duration time.Duration) (bool, error) {
isContained, err := c.Contains(ctx, key)
if err != nil {
return false, err
}
if !isContained {
if _, err = c.doSetWithLockCheck(key, f, duration); err != nil {
return false, err
}
return true, nil
}
return false, nil
}
// Get retrieves and returns the associated value of given `key`.
// It returns nil if it does not exist, or its value is nil, or it's expired.
// If you would like to check if the `key` exists in the cache, it's better using function Contains.
func (c *AdapterMemory) Get(ctx context.Context, key interface{}) (*gvar.Var, error) {
item, ok := c.data.Get(key)
if ok && !item.IsExpired() {
// Adding to LRU history if LRU feature is enabled.
if c.cap > 0 {
c.lruGetList.PushBack(key)
}
return gvar.New(item.v), nil
}
return nil, nil
}
// GetOrSet retrieves and returns the value of `key`, or sets `key`-`value` pair and
// returns `value` if `key` does not exist in the cache. The key-value pair expires
// after `duration`.
//
// It does not expire if `duration` == 0.
// It deletes the `key` if `duration` < 0 or given `value` is nil, but it does nothing
// if `value` is a function and the function result is nil.
func (c *AdapterMemory) GetOrSet(ctx context.Context, key interface{}, value interface{}, duration time.Duration) (*gvar.Var, error) {
v, err := c.Get(ctx, key)
if err != nil {
return nil, err
}
if v == nil {
return c.doSetWithLockCheck(key, value, duration)
} else {
return v, nil
}
}
// GetOrSetFunc retrieves and returns the value of `key`, or sets `key` with result of
// function `f` and returns its result if `key` does not exist in the cache. The key-value
// pair expires after `duration`.
//
// It does not expire if `duration` == 0.
// It deletes the `key` if `duration` < 0 or given `value` is nil, but it does nothing
// if `value` is a function and the function result is nil.
func (c *AdapterMemory) GetOrSetFunc(ctx context.Context, key interface{}, f func() (interface{}, error), duration time.Duration) (*gvar.Var, error) {
v, err := c.Get(ctx, key)
if err != nil {
return nil, err
}
if v == nil {
value, err := f()
if err != nil {
return nil, err
}
if value == nil {
return nil, nil
}
return c.doSetWithLockCheck(key, value, duration)
} else {
return v, nil
}
}
// GetOrSetFuncLock retrieves and returns the value of `key`, or sets `key` with result of
// function `f` and returns its result if `key` does not exist in the cache. The key-value
// pair expires after `duration`.
//
// It does not expire if `duration` == 0.
// It deletes the `key` if `duration` < 0 or given `value` is nil, but it does nothing
// if `value` is a function and the function result is nil.
//
// Note that it differs from function `GetOrSetFunc` is that the function `f` is executed within
// writing mutex lock for concurrent safety purpose.
func (c *AdapterMemory) GetOrSetFuncLock(ctx context.Context, key interface{}, f func() (interface{}, error), duration time.Duration) (*gvar.Var, error) {
v, err := c.Get(ctx, key)
if err != nil {
return nil, err
}
if v == nil {
return c.doSetWithLockCheck(key, f, duration)
} else {
return v, nil
}
}
// Contains checks and returns true if `key` exists in the cache, or else returns false.
func (c *AdapterMemory) Contains(ctx context.Context, key interface{}) (bool, error) {
v, err := c.Get(ctx, key)
if err != nil {
return false, err
}
return v != nil, nil
}
// GetExpire retrieves and returns the expiration of `key` in the cache.
//
// Note that,
// It returns 0 if the `key` does not expire.
// It returns -1 if the `key` does not exist in the cache.
func (c *AdapterMemory) GetExpire(ctx context.Context, key interface{}) (time.Duration, error) {
if item, ok := c.data.Get(key); ok {
return time.Duration(item.e-gtime.TimestampMilli()) * time.Millisecond, nil
}
return -1, nil
}
// Remove deletes one or more keys from cache, and returns its value.
// If multiple keys are given, it returns the value of the last deleted item.
func (c *AdapterMemory) Remove(ctx context.Context, keys ...interface{}) (*gvar.Var, error) {
var removedKeys []interface{}
removedKeys, value, err := c.data.Remove(keys...)
if err != nil {
return nil, err
}
for _, key := range removedKeys {
c.eventList.PushBack(&adapterMemoryEvent{
k: key,
e: gtime.TimestampMilli() - 1000000,
})
}
return gvar.New(value), nil
}
// Update updates the value of `key` without changing its expiration and returns the old value.
// The returned value `exist` is false if the `key` does not exist in the cache.
//
// It deletes the `key` if given `value` is nil.
// It does nothing if `key` does not exist in the cache.
func (c *AdapterMemory) Update(ctx context.Context, key interface{}, value interface{}) (oldValue *gvar.Var, exist bool, err error) {
v, exist, err := c.data.Update(key, value)
return gvar.New(v), exist, err
}
// UpdateExpire updates the expiration of `key` and returns the old expiration duration value.
//
// It returns -1 and does nothing if the `key` does not exist in the cache.
// It deletes the `key` if `duration` < 0.
func (c *AdapterMemory) UpdateExpire(ctx context.Context, key interface{}, duration time.Duration) (oldDuration time.Duration, err error) {
newExpireTime := c.getInternalExpire(duration)
oldDuration, err = c.data.UpdateExpire(key, newExpireTime)
if err != nil {
return
}
if oldDuration != -1 {
c.eventList.PushBack(&adapterMemoryEvent{
k: key,
e: newExpireTime,
})
}
return
}
// Size returns the size of the cache.
func (c *AdapterMemory) Size(ctx context.Context) (size int, err error) {
return c.data.Size()
}
// Data returns a copy of all key-value pairs in the cache as map type.
func (c *AdapterMemory) Data(ctx context.Context) (map[interface{}]interface{}, error) {
return c.data.Data()
}
// Keys returns all keys in the cache as slice.
func (c *AdapterMemory) Keys(ctx context.Context) ([]interface{}, error) {
return c.data.Keys()
}
// Values returns all values in the cache as slice.
func (c *AdapterMemory) Values(ctx context.Context) ([]interface{}, error) {
return c.data.Values()
}
// Clear clears all data of the cache.
// Note that this function is sensitive and should be carefully used.
func (c *AdapterMemory) Clear(ctx context.Context) error {
return c.data.Clear()
}
// Close closes the cache.
func (c *AdapterMemory) Close(ctx context.Context) error {
if c.cap > 0 {
c.lru.Close()
}
c.closed.Set(true)
return nil
}
// doSetWithLockCheck sets cache with `key`-`value` pair if `key` does not exist in the
// cache, which is expired after `duration`.
//
// It does not expire if `duration` == 0.
// The parameter `value` can be type of <func() interface{}>, but it does nothing if the
// function result is nil.
//
// It doubly checks the `key` whether exists in the cache using mutex writing lock
// before setting it to the cache.
func (c *AdapterMemory) doSetWithLockCheck(key interface{}, value interface{}, duration time.Duration) (result *gvar.Var, err error) {
expireTimestamp := c.getInternalExpire(duration)
v, err := c.data.SetWithLock(key, value, expireTimestamp)
c.eventList.PushBack(&adapterMemoryEvent{k: key, e: expireTimestamp})
return gvar.New(v), err
}
// getInternalExpire converts and returns the expiration time with given expired duration in milliseconds.
func (c *AdapterMemory) getInternalExpire(duration time.Duration) int64 {
if duration == 0 {
return defaultMaxExpire
} else {
return gtime.TimestampMilli() + duration.Nanoseconds()/1000000
}
}
// makeExpireKey groups the `expire` in milliseconds to its according seconds.
func (c *AdapterMemory) makeExpireKey(expire int64) int64 {
return int64(math.Ceil(float64(expire/1000)+1) * 1000)
}
// syncEventAndClearExpired does the asynchronous task loop:
// 1. Asynchronously process the data in the event list,
// and synchronize the results to the `expireTimes` and `expireSets` properties.
// 2. Clean up the expired key-value pair data.
func (c *AdapterMemory) syncEventAndClearExpired() {
if c.closed.Val() {
gtimer.Exit()
return
}
var (
event *adapterMemoryEvent
oldExpireTime int64
newExpireTime int64
)
// ========================
// Data Synchronization.
// ========================
for {
v := c.eventList.PopFront()
if v == nil {
break
}
event = v.(*adapterMemoryEvent)
// Fetching the old expire set.
oldExpireTime = c.expireTimes.Get(event.k)
// Calculating the new expiration time set.
newExpireTime = c.makeExpireKey(event.e)
if newExpireTime != oldExpireTime {
c.expireSets.GetOrNew(newExpireTime).Add(event.k)
if oldExpireTime != 0 {
c.expireSets.GetOrNew(oldExpireTime).Remove(event.k)
}
// Updating the expired time for <event.k>.
c.expireTimes.Set(event.k, newExpireTime)
}
// Adding the key the LRU history by writing operations.
if c.cap > 0 {
c.lru.Push(event.k)
}
}
// Processing expired keys from LRU.
if c.cap > 0 && c.lruGetList.Len() > 0 {
for {
if v := c.lruGetList.PopFront(); v != nil {
c.lru.Push(v)
} else {
break
}
}
}
// ========================
// Data Cleaning up.
// ========================
var (
expireSet *gset.Set
ek = c.makeExpireKey(gtime.TimestampMilli())
eks = []int64{ek - 1000, ek - 2000, ek - 3000, ek - 4000, ek - 5000}
)
for _, expireTime := range eks {
if expireSet = c.expireSets.Get(expireTime); expireSet != nil {
// Iterating the set to delete all keys in it.
expireSet.Iterator(func(key interface{}) bool {
c.clearByKey(key)
return true
})
// Deleting the set after all of its keys are deleted.
c.expireSets.Delete(expireTime)
}
}
}
// clearByKey deletes the key-value pair with given `key`.
// The parameter `force` specifies whether doing this deleting forcibly.
func (c *AdapterMemory) clearByKey(key interface{}, force ...bool) {
// Doubly check before really deleting it from cache.
c.data.DeleteWithDoubleCheck(key, force...)
// Deleting its expiration time from `expireTimes`.
c.expireTimes.Delete(key)
// Deleting it from LRU.
if c.cap > 0 {
c.lru.Remove(key)
}
}