func (rpsi *RedisPubSubInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) error { var ( dRunner pipeline.DecoderRunner decoder pipeline.Decoder pack *pipeline.PipelinePack e error ok bool ) // Get the InputRunner's chan to receive empty PipelinePacks packSupply := ir.InChan() if rpsi.conf.DecoderName != "" { if dRunner, ok = h.DecoderRunner(rpsi.conf.DecoderName, fmt.Sprintf("%s-%s", ir.Name(), rpsi.conf.DecoderName)); !ok { return fmt.Errorf("Decoder not found: %s", rpsi.conf.DecoderName) } decoder = dRunner.Decoder() } //Connect to the channel psc := redis.PubSubConn{Conn: rpsi.conn} psc.PSubscribe(rpsi.conf.Channel) for { switch n := psc.Receive().(type) { case redis.PMessage: // Grab an empty PipelinePack from the InputRunner pack = <-packSupply pack.Message.SetType("redis_pub_sub") pack.Message.SetLogger(n.Channel) pack.Message.SetPayload(string(n.Data)) pack.Message.SetTimestamp(time.Now().UnixNano()) var packs []*pipeline.PipelinePack if decoder == nil { packs = []*pipeline.PipelinePack{pack} } else { packs, e = decoder.Decode(pack) } if packs != nil { for _, p := range packs { ir.Inject(p) } } else { if e != nil { ir.LogError(fmt.Errorf("Couldn't parse Redis message: %s", n.Data)) } pack.Recycle(nil) } case redis.Subscription: ir.LogMessage(fmt.Sprintf("Subscription: %s %s %d\n", n.Kind, n.Channel, n.Count)) if n.Count == 0 { return errors.New("No channel to subscribe") } case error: fmt.Printf("error: %v\n", n) return n } } return nil }
func (rli *RedisInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) error { fmt.Println("Addr", rli.conf.Address) fmt.Println("key", rli.conf.Key) fmt.Println("batch_count:", rli.conf.Batch_count) fmt.Println("decoder:", rli.conf.Decoder) var ( dRunner pipeline.DecoderRunner decoder pipeline.Decoder ok bool e error reply interface{} vals []string msg string ) if rli.conf.Decoder != "" { if dRunner, ok = h.DecoderRunner(rli.conf.Decoder, fmt.Sprintf("%s-%s", ir.Name(), rli.conf.Decoder)); !ok { return fmt.Errorf("Decoder not found: %s", rli.conf.Decoder) } decoder = dRunner.Decoder() } for { reply, e = rli.conn.Do("BLPOP", rli.conf.Key, "0") if e == nil { vals, e = redis.Strings(reply, nil) msg = vals[1] if e == nil { rli.InsertMessage(ir, decoder, msg) } } reply, e = rli.batchlpop.Do(rli.conn, rli.conf.Key, rli.conf.Batch_count) if e == nil { vals, e = redis.Strings(reply, nil) if e == nil { for _, msg = range vals { rli.InsertMessage(ir, decoder, msg) } } else { fmt.Printf("err: %v\n", e) } } else { fmt.Printf("type: %T, error: %v\n", reply, e) return e } } return nil }
func (ni *NsqInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) error { // Get the InputRunner's chan to receive empty PipelinePacks var pack *pipeline.PipelinePack var err error var dRunner pipeline.DecoderRunner var decoder pipeline.Decoder var ok bool var e error //pos := 0 //output := make([]*Message, 2) packSupply := ir.InChan() if ni.conf.Decoder != "" { if dRunner, ok = h.DecoderRunner(ni.conf.Decoder); !ok { return fmt.Errorf("Decoder not found: %s", ni.conf.Decoder) } decoder = dRunner.Decoder() } err = ni.nsqReader.ConnectToLookupd(ni.conf.Address) if err != nil { ir.LogError(errors.New("ConnectToLookupd failed.")) } header := &message.Header{} stopped := false //readLoop: for !stopped { //stopped = true select { case <-ni.stopChan: ir.LogError(errors.New("get ni.stopChan, set stopped=true")) stopped = true default: pack = <-packSupply m, ok1 := <-ni.handler.logChan if !ok1 { stopped = true break } if ni.conf.Serialize { if dRunner == nil { pack.Recycle() ir.LogError(errors.New("Serialize messages require a decoder.")) } //header := &message.Header{} _, msgOk := findMessage(m.msg.Body, header, &(pack.MsgBytes)) if msgOk { dRunner.InChan() <- pack } else { pack.Recycle() ir.LogError(errors.New("Can't find Heka message.")) } header.Reset() } else { //ir.LogError(fmt.Errorf("message body: %s", m.msg.Body)) pack.Message.SetType("nsq") pack.Message.SetPayload(string(m.msg.Body)) pack.Message.SetTimestamp(time.Now().UnixNano()) var packs []*pipeline.PipelinePack if decoder == nil { packs = []*pipeline.PipelinePack{pack} } else { packs, e = decoder.Decode(pack) } if packs != nil { for _, p := range packs { ir.Inject(p) } } else { if e != nil { ir.LogError(fmt.Errorf("Couldn't parse Nsq message: %s", m.msg.Body)) } pack.Recycle() } } m.returnChannel <- &nsq.FinishedMessage{m.msg.Id, 0, true} /* output[pos] = m pos++ if pos == 2 { for pos > 0 { pos-- m1 := output[pos] m1.returnChannel <- &nsq.FinishedMessage{m1.msg.Id, 0, true} output[pos] = nil } } */ } } return nil }