// Copyright (C) 2014 The Syncthing Authors. // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this file, // You can obtain one at http://mozilla.org/MPL/2.0/. // Package events provides event subscription and polling functionality. package events import ( "errors" stdsync "sync" "time" "github.com/syncthing/syncthing/internal/sync" ) type EventType int const ( Ping EventType = 1 << iota Starting StartupComplete DeviceDiscovered DeviceConnected DeviceDisconnected DeviceRejected LocalIndexUpdated RemoteIndexUpdated ItemStarted ItemFinished StateChanged FolderRejected ConfigSaved DownloadProgress FolderSummary FolderCompletion AllEvents = (1 << iota) - 1 ) func (t EventType) String() string { switch t { case Ping: return "Ping" case Starting: return "Starting" case StartupComplete: return "StartupComplete" case DeviceDiscovered: return "DeviceDiscovered" case DeviceConnected: return "DeviceConnected" case DeviceDisconnected: return "DeviceDisconnected" case DeviceRejected: return "DeviceRejected" case LocalIndexUpdated: return "LocalIndexUpdated" case RemoteIndexUpdated: return "RemoteIndexUpdated" case ItemStarted: return "ItemStarted" case ItemFinished: return "ItemFinished" case StateChanged: return "StateChanged" case FolderRejected: return "FolderRejected" case ConfigSaved: return "ConfigSaved" case DownloadProgress: return "DownloadProgress" case FolderSummary: return "FolderSummary" case FolderCompletion: return "FolderCompletion" default: return "Unknown" } } func (t EventType) MarshalText() ([]byte, error) { return []byte(t.String()), nil } const BufferSize = 64 type Logger struct { subs map[int]*Subscription nextID int mutex sync.Mutex } type Event struct { ID int `json:"id"` Time time.Time `json:"time"` Type EventType `json:"type"` Data interface{} `json:"data"` } type Subscription struct { mask EventType id int events chan Event mutex sync.Mutex } var Default = NewLogger() var ( ErrTimeout = errors.New("timeout") ErrClosed = errors.New("closed") ) func NewLogger() *Logger { return &Logger{ subs: make(map[int]*Subscription), mutex: sync.NewMutex(), } } func (l *Logger) Log(t EventType, data interface{}) { l.mutex.Lock() if debug { dl.Debugln("log", l.nextID, t.String(), data) } e := Event{ ID: l.nextID, Time: time.Now(), Type: t, Data: data, } l.nextID++ for _, s := range l.subs { if s.mask&t != 0 { select { case s.events <- e: default: // if s.events is not ready, drop the event } } } l.mutex.Unlock() } func (l *Logger) Subscribe(mask EventType) *Subscription { l.mutex.Lock() if debug { dl.Debugln("subscribe", mask) } s := &Subscription{ mask: mask, id: l.nextID, events: make(chan Event, BufferSize), mutex: sync.NewMutex(), } l.nextID++ l.subs[s.id] = s l.mutex.Unlock() return s } func (l *Logger) Unsubscribe(s *Subscription) { l.mutex.Lock() if debug { dl.Debugln("unsubscribe") } delete(l.subs, s.id) close(s.events) l.mutex.Unlock() } func (s *Subscription) Poll(timeout time.Duration) (Event, error) { s.mutex.Lock() defer s.mutex.Unlock() if debug { dl.Debugln("poll", timeout) } to := time.After(timeout) select { case e, ok := <-s.events: if !ok { return e, ErrClosed } return e, nil case <-to: return Event{}, ErrTimeout } } func (s *Subscription) C() <-chan Event { return s.events } type BufferedSubscription struct { sub *Subscription buf []Event next int cur int mut sync.Mutex cond *stdsync.Cond } func NewBufferedSubscription(s *Subscription, size int) *BufferedSubscription { bs := &BufferedSubscription{ sub: s, buf: make([]Event, size), mut: sync.NewMutex(), } bs.cond = stdsync.NewCond(bs.mut) go bs.pollingLoop() return bs } func (s *BufferedSubscription) pollingLoop() { for { ev, err := s.sub.Poll(60 * time.Second) if err == ErrTimeout { continue } if err == ErrClosed { return } if err != nil { panic("unexpected error: " + err.Error()) } s.mut.Lock() s.buf[s.next] = ev s.next = (s.next + 1) % len(s.buf) s.cur = ev.ID s.cond.Broadcast() s.mut.Unlock() } } func (s *BufferedSubscription) Since(id int, into []Event) []Event { s.mut.Lock() defer s.mut.Unlock() for id >= s.cur { s.cond.Wait() } for i := s.next; i < len(s.buf); i++ { if s.buf[i].ID > id { into = append(into, s.buf[i]) } } for i := 0; i < s.next; i++ { if s.buf[i].ID > id { into = append(into, s.buf[i]) } } return into }