package memory import ( "encoding/json" "fmt" "sync" "time" "github.com/google/uuid" "github.com/unistack-org/micro/v3/events" "github.com/unistack-org/micro/v3/logger" "github.com/unistack-org/micro/v3/store" "github.com/unistack-org/micro/v3/store/memory" "github.com/pkg/errors" ) // NewStream returns an initialized memory stream func NewStream(opts ...Option) (events.Stream, error) { // parse the options var options Options for _, o := range opts { o(&options) } if options.Store == nil { options.Store = memory.NewStore() } return &mem{store: options.Store}, nil } type subscriber struct { Queue string Topic string Channel chan events.Event } type mem struct { store store.Store subs []*subscriber sync.RWMutex } func (m *mem) Publish(topic string, msg interface{}, opts ...events.PublishOption) error { // validate the topic if len(topic) == 0 { return events.ErrMissingTopic } // parse the options options := events.PublishOptions{ Timestamp: time.Now(), } for _, o := range opts { o(&options) } // encode the message if it's not already encoded var payload []byte if p, ok := msg.([]byte); ok { payload = p } else { p, err := json.Marshal(msg) if err != nil { return events.ErrEncodingMessage } payload = p } // construct the event event := &events.Event{ ID: uuid.New().String(), Topic: topic, Timestamp: options.Timestamp, Metadata: options.Metadata, Payload: payload, } // serialize the event to bytes bytes, err := json.Marshal(event) if err != nil { return errors.Wrap(err, "Error encoding event") } // write to the store key := fmt.Sprintf("%v/%v", event.Topic, event.ID) if err := m.store.Write(&store.Record{Key: key, Value: bytes}); err != nil { return errors.Wrap(err, "Error writing event to store") } // send to the subscribers async go m.handleEvent(event) return nil } func (m *mem) Subscribe(topic string, opts ...events.SubscribeOption) (<-chan events.Event, error) { // validate the topic if len(topic) == 0 { return nil, events.ErrMissingTopic } // parse the options options := events.SubscribeOptions{ Queue: uuid.New().String(), } for _, o := range opts { o(&options) } // setup the subscriber sub := &subscriber{ Channel: make(chan events.Event), Topic: topic, Queue: options.Queue, } // register the subscriber m.Lock() m.subs = append(m.subs, sub) m.Unlock() // lookup previous events if the start time option was passed if options.StartAtTime.Unix() > 0 { go m.lookupPreviousEvents(sub, options.StartAtTime) } // return the channel return sub.Channel, nil } // lookupPreviousEvents finds events for a subscriber which occured before a given time and sends // them into the subscribers channel func (m *mem) lookupPreviousEvents(sub *subscriber, startTime time.Time) { // lookup all events which match the topic (a blank topic will return all results) recs, err := m.store.Read(sub.Topic+"/", store.ReadPrefix()) if err != nil && logger.V(logger.ErrorLevel, logger.DefaultLogger) { logger.Errorf("Error looking up previous events: %v", err) return } else if err != nil { return } // loop through the records and send it to the channel if it matches for _, r := range recs { var ev events.Event if err := json.Unmarshal(r.Value, &ev); err != nil { continue } if ev.Timestamp.Unix() < startTime.Unix() { continue } sub.Channel <- ev } } // handleEvents sends the event to any registered subscribers. func (m *mem) handleEvent(ev *events.Event) { m.RLock() subs := m.subs m.RUnlock() // filteredSubs is a KV map of the queue name and subscribers. This is used to prevent a message // being sent to two subscribers with the same queue. filteredSubs := map[string]*subscriber{} // filter down to subscribers who are interested in this topic for _, sub := range subs { if len(sub.Topic) == 0 || sub.Topic == ev.Topic { filteredSubs[sub.Queue] = sub } } // send the message to each channel async (since one channel might be blocked) for _, sub := range subs { go func(s *subscriber) { s.Channel <- *ev }(sub) } }