package events import ( "encoding/json" "sync" "time" "github.com/docker/docker/engine" "github.com/docker/docker/pkg/parsers/filters" "github.com/docker/docker/utils" ) const eventsLimit = 64 type listener chan<- *utils.JSONMessage type Events struct { mu sync.RWMutex events []*utils.JSONMessage subscribers []listener } func New() *Events { return &Events{ events: make([]*utils.JSONMessage, 0, eventsLimit), } } // Install installs events public api in docker engine func (e *Events) Install(eng *engine.Engine) error { // Here you should describe public interface jobs := map[string]engine.Handler{ "events": e.Get, "log": e.Log, "subscribers_count": e.SubscribersCount, } for name, job := range jobs { if err := eng.Register(name, job); err != nil { return err } } return nil } func (e *Events) Get(job *engine.Job) engine.Status { var ( since = job.GetenvInt64("since") until = job.GetenvInt64("until") timeout = time.NewTimer(time.Unix(until, 0).Sub(time.Now())) ) eventFilters, err := filters.FromParam(job.Getenv("filters")) if err != nil { return job.Error(err) } // If no until, disable timeout if until == 0 { timeout.Stop() } listener := make(chan *utils.JSONMessage) e.subscribe(listener) defer e.unsubscribe(listener) job.Stdout.Write(nil) // Resend every event in the [since, until] time interval. if since != 0 { if err := e.writeCurrent(job, since, until, eventFilters); err != nil { return job.Error(err) } } for { select { case event, ok := <-listener: if !ok { return engine.StatusOK } if err := writeEvent(job, event, eventFilters); err != nil { return job.Error(err) } case <-timeout.C: return engine.StatusOK } } } func (e *Events) Log(job *engine.Job) engine.Status { if len(job.Args) != 3 { return job.Errorf("usage: %s ACTION ID FROM", job.Name) } // not waiting for receivers go e.log(job.Args[0], job.Args[1], job.Args[2]) return engine.StatusOK } func (e *Events) SubscribersCount(job *engine.Job) engine.Status { ret := &engine.Env{} ret.SetInt("count", e.subscribersCount()) ret.WriteTo(job.Stdout) return engine.StatusOK } func writeEvent(job *engine.Job, event *utils.JSONMessage, eventFilters filters.Args) error { isFiltered := func(field string, filter []string) bool { if len(filter) == 0 { return false } for _, v := range filter { if v == field { return false } } return true } if isFiltered(event.Status, eventFilters["event"]) || isFiltered(event.From, eventFilters["image"]) || isFiltered(event.ID, eventFilters["container"]) { return nil } // When sending an event JSON serialization errors are ignored, but all // other errors lead to the eviction of the listener. if b, err := json.Marshal(event); err == nil { if _, err = job.Stdout.Write(b); err != nil { return err } } return nil } func (e *Events) writeCurrent(job *engine.Job, since, until int64, eventFilters filters.Args) error { e.mu.RLock() for _, event := range e.events { if event.Time >= since && (event.Time <= until || until == 0) { if err := writeEvent(job, event, eventFilters); err != nil { e.mu.RUnlock() return err } } } e.mu.RUnlock() return nil } func (e *Events) subscribersCount() int { e.mu.RLock() c := len(e.subscribers) e.mu.RUnlock() return c } func (e *Events) log(action, id, from string) { e.mu.Lock() now := time.Now().UTC().Unix() jm := &utils.JSONMessage{Status: action, ID: id, From: from, Time: now} if len(e.events) == cap(e.events) { // discard oldest event copy(e.events, e.events[1:]) e.events[len(e.events)-1] = jm } else { e.events = append(e.events, jm) } for _, s := range e.subscribers { // We give each subscriber a 100ms time window to receive the event, // after which we move to the next. select { case s <- jm: case <-time.After(100 * time.Millisecond): } } e.mu.Unlock() } func (e *Events) subscribe(l listener) { e.mu.Lock() e.subscribers = append(e.subscribers, l) e.mu.Unlock() } // unsubscribe closes and removes the specified listener from the list of // previously registed ones. // It returns a boolean value indicating if the listener was successfully // found, closed and unregistered. func (e *Events) unsubscribe(l listener) bool { e.mu.Lock() for i, subscriber := range e.subscribers { if subscriber == l { close(l) e.subscribers = append(e.subscribers[:i], e.subscribers[i+1:]...) e.mu.Unlock() return true } } e.mu.Unlock() return false }