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nyx/vendor/github.com/icza/session/inmem_store.go

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/*
An in-memory session store implementation.
*/
package session
import (
"log"
"sync"
"time"
)
// In-memory session Store implementation.
type inMemStore struct {
sessions map[string]Session // Map of sessions (mapped from ID)
mux *sync.RWMutex // mutex to synchronize access to sessions
ticker *time.Ticker // Ticker for the session cleaner
closeTicker chan struct{} // Channel to signal close for the session cleaner
}
// InMemStoreOptions defines options that may be passed when creating a new in-memory Store.
// All fields are optional; default value will be used for any field that has the zero value.
type InMemStoreOptions struct {
// Session cleaner check interval, default is 10 seconds.
SessCleanerInterval time.Duration
}
// Pointer to zero value of InMemStoreOptions to be reused for efficiency.
var zeroInMemStoreOptions = new(InMemStoreOptions)
// NewInMemStore returns a new, in-memory session Store with the default options.
// Default values of options are listed in the InMemStoreOptions type.
// The returned Store has an automatic session cleaner which runs
// in its own goroutine.
func NewInMemStore() Store {
return NewInMemStoreOptions(zeroInMemStoreOptions)
}
// NewInMemStoreOptions returns a new, in-memory session Store with the specified options.
// The returned Store has an automatic session cleaner which runs
// in its own goroutine.
func NewInMemStoreOptions(o *InMemStoreOptions) Store {
s := &inMemStore{
sessions: make(map[string]Session),
mux: &sync.RWMutex{},
closeTicker: make(chan struct{}),
}
interval := o.SessCleanerInterval
if interval == 0 {
interval = 10 * time.Second
}
go s.sessCleaner(interval)
return s
}
// sessCleaner periodically checks whether sessions have timed out
// in an endless loop. If a session has timed out, removes it.
// This method is to be started as a new goroutine.
func (s *inMemStore) sessCleaner(interval time.Duration) {
ticker := time.NewTicker(interval)
for {
select {
case <-s.closeTicker:
// We are being shut down...
ticker.Stop()
return
case now := <-ticker.C:
// Do a sweep.
// Remove is very rare compared to the number of checks, so:
// "Quick" check with read-lock to see if there's anything to remove:
// Note: Session.Access() is called with s.mux, the same mutex we use
// when looking for timed-out sessions, so we're good.
needRemove := func() bool {
s.mux.RLock() // Read lock is enough
defer s.mux.RUnlock()
for _, sess := range s.sessions {
if now.Sub(sess.Accessed()) > sess.Timeout() {
return true
}
}
return false
}()
if !needRemove {
continue
}
// Remove required:
func() {
s.mux.Lock() // Read-write lock required
defer s.mux.Unlock()
for _, sess := range s.sessions {
if now.Sub(sess.Accessed()) > sess.Timeout() {
log.Println("Session timed out:", sess.ID())
delete(s.sessions, sess.ID())
}
}
}()
}
}
}
// Get is to implement Store.Get().
func (s *inMemStore) Get(id string) Session {
s.mux.RLock()
defer s.mux.RUnlock()
sess := s.sessions[id]
if sess == nil {
return nil
}
sess.Access()
return sess
}
// Add is to implement Store.Add().
func (s *inMemStore) Add(sess Session) {
s.mux.Lock()
defer s.mux.Unlock()
log.Println("Session added:", sess.ID())
s.sessions[sess.ID()] = sess
}
// Remove is to implement Store.Remove().
func (s *inMemStore) Remove(sess Session) {
s.mux.Lock()
defer s.mux.Unlock()
log.Println("Session removed:", sess.ID())
delete(s.sessions, sess.ID())
}
// Close is to implement Store.Close().
func (s *inMemStore) Close() {
close(s.closeTicker)
}