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sess_mem.go
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sess_mem.go
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// Beego (http://beego.me/)
// @description beego is an open-source, high-performance web framework for the Go programming language.
// @link http://github.com/astaxie/beego for the canonical source repository
// @license http://github.com/astaxie/beego/blob/master/LICENSE
// @authors astaxie
package session
import (
"container/list"
"net/http"
"sync"
"time"
)
var mempder = &MemProvider{list: list.New(), sessions: make(map[string]*list.Element)}
// memory session store.
// it saved sessions in a map in memory.
type MemSessionStore struct {
sid string //session id
timeAccessed time.Time //last access time
value map[interface{}]interface{} //session store
lock sync.RWMutex
}
// set value to memory session
func (st *MemSessionStore) Set(key, value interface{}) error {
st.lock.Lock()
defer st.lock.Unlock()
st.value[key] = value
return nil
}
// get value from memory session by key
func (st *MemSessionStore) Get(key interface{}) interface{} {
st.lock.RLock()
defer st.lock.RUnlock()
if v, ok := st.value[key]; ok {
return v
} else {
return nil
}
}
// delete in memory session by key
func (st *MemSessionStore) Delete(key interface{}) error {
st.lock.Lock()
defer st.lock.Unlock()
delete(st.value, key)
return nil
}
// clear all values in memory session
func (st *MemSessionStore) Flush() error {
st.lock.Lock()
defer st.lock.Unlock()
st.value = make(map[interface{}]interface{})
return nil
}
// get this id of memory session store
func (st *MemSessionStore) SessionID() string {
return st.sid
}
// Implement method, no used.
func (st *MemSessionStore) SessionRelease(w http.ResponseWriter) {
}
type MemProvider struct {
lock sync.RWMutex // locker
sessions map[string]*list.Element // map in memory
list *list.List // for gc
maxlifetime int64
savePath string
}
// init memory session
func (pder *MemProvider) SessionInit(maxlifetime int64, savePath string) error {
pder.maxlifetime = maxlifetime
pder.savePath = savePath
return nil
}
// get memory session store by sid
func (pder *MemProvider) SessionRead(sid string) (SessionStore, error) {
pder.lock.RLock()
if element, ok := pder.sessions[sid]; ok {
go pder.SessionUpdate(sid)
pder.lock.RUnlock()
return element.Value.(*MemSessionStore), nil
} else {
pder.lock.RUnlock()
pder.lock.Lock()
newsess := &MemSessionStore{sid: sid, timeAccessed: time.Now(), value: make(map[interface{}]interface{})}
element := pder.list.PushBack(newsess)
pder.sessions[sid] = element
pder.lock.Unlock()
return newsess, nil
}
}
// check session store exist in memory session by sid
func (pder *MemProvider) SessionExist(sid string) bool {
pder.lock.RLock()
defer pder.lock.RUnlock()
if _, ok := pder.sessions[sid]; ok {
return true
} else {
return false
}
}
// generate new sid for session store in memory session
func (pder *MemProvider) SessionRegenerate(oldsid, sid string) (SessionStore, error) {
pder.lock.RLock()
if element, ok := pder.sessions[oldsid]; ok {
go pder.SessionUpdate(oldsid)
pder.lock.RUnlock()
pder.lock.Lock()
element.Value.(*MemSessionStore).sid = sid
pder.sessions[sid] = element
delete(pder.sessions, oldsid)
pder.lock.Unlock()
return element.Value.(*MemSessionStore), nil
} else {
pder.lock.RUnlock()
pder.lock.Lock()
newsess := &MemSessionStore{sid: sid, timeAccessed: time.Now(), value: make(map[interface{}]interface{})}
element := pder.list.PushBack(newsess)
pder.sessions[sid] = element
pder.lock.Unlock()
return newsess, nil
}
}
// delete session store in memory session by id
func (pder *MemProvider) SessionDestroy(sid string) error {
pder.lock.Lock()
defer pder.lock.Unlock()
if element, ok := pder.sessions[sid]; ok {
delete(pder.sessions, sid)
pder.list.Remove(element)
return nil
}
return nil
}
// clean expired session stores in memory session
func (pder *MemProvider) SessionGC() {
pder.lock.RLock()
for {
element := pder.list.Back()
if element == nil {
break
}
if (element.Value.(*MemSessionStore).timeAccessed.Unix() + pder.maxlifetime) < time.Now().Unix() {
pder.lock.RUnlock()
pder.lock.Lock()
pder.list.Remove(element)
delete(pder.sessions, element.Value.(*MemSessionStore).sid)
pder.lock.Unlock()
pder.lock.RLock()
} else {
break
}
}
pder.lock.RUnlock()
}
// get count number of memory session
func (pder *MemProvider) SessionAll() int {
return pder.list.Len()
}
// expand time of session store by id in memory session
func (pder *MemProvider) SessionUpdate(sid string) error {
pder.lock.Lock()
defer pder.lock.Unlock()
if element, ok := pder.sessions[sid]; ok {
element.Value.(*MemSessionStore).timeAccessed = time.Now()
pder.list.MoveToFront(element)
return nil
}
return nil
}
func init() {
Register("memory", mempder)
}