Пример #1
0
// Run is the main loop which listens for incoming requests and injects the
// messages read into the heka machinery
func (hsi *HTTPSimpleInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) (err error) {
	hsi.stop = make(chan bool)
	hsi.input = make(chan *pipeline.PipelinePack)
	hsi.errch = make(chan error, 1)
	hsi.packs = ir.InChan()
	hsi.DecoderRunner = h.DecoderRunner

	go hsi.listen()
	var pack *pipeline.PipelinePack
INPUT:
	for {
		select {
		case err = <-hsi.errch:
			if err != nil {
				return
			}
		case pack = <-hsi.input:
			ir.Inject(pack)
		case _ = <-hsi.stop:
			if hsi.listener != nil {
				hsi.listener.Close()
				hsi.packs = nil
			}
			break INPUT
		}
	}
	select {
	case err = <-hsi.errch:
		return
	default:
		close(hsi.errch)
		hsi.errch = nil
	}
	return nil
}
Пример #2
0
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
}
Пример #3
0
func (rli *RedisInput) InsertMessage(ir pipeline.InputRunner, decoder pipeline.Decoder, msg string) {
	var (
		pack *pipeline.PipelinePack
		e    error
	)
	// Get the InputRunner's chan to receive empty PipelinePacks
	packSupply := ir.InChan()

	pack = <-packSupply
	pack.Message.SetType(rli.conf.Key)
	pack.Message.SetLogger("Redis")
	pack.Message.SetPayload(msg)
	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 %s", msg))
			pack.Recycle(e)
		} else {
			pack.Recycle(nil)
			fmt.Println("pack recycle!")
		}
	}
}
Пример #4
0
func (rli *RedisListInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) error {
	var (
		pack  *pipeline.PipelinePack
		packs []*pipeline.PipelinePack
	)

	// Get the InputRunner's chan to receive empty PipelinePacks
	inChan := ir.InChan()

	for {
		message, err := rli.conn.Do("RPOP", rli.conf.ListName)
		if err != nil {
			ir.LogError(fmt.Errorf("Redis RPOP error: %s", err))
			// TODO: should reconnect redis rather than close it
			rli.Stop()
			break
		}
		if message != nil {
			pack = <-inChan
			pack.Message.SetType("redis_list")
			pack.Message.SetPayload(string(message.([]uint8)))
			packs = []*pipeline.PipelinePack{pack}
			if packs != nil {
				for _, p := range packs {
					ir.Inject(p)
				}
			} else {
				pack.Recycle(nil)
			}
		} else {
			time.Sleep(time.Second)
		}
	}
	return nil
}
Пример #5
0
func (s *SandboxInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) (err error) {
	s.sb.InjectMessage(func(payload, payload_type, payload_name string) int {
		pack := <-ir.InChan()
		if err := proto.Unmarshal([]byte(payload), pack.Message); err != nil {
			pack.Recycle()
			return 1
		}
		if s.tz != time.UTC {
			const layout = "2006-01-02T15:04:05.999999999" // remove the incorrect UTC tz info
			t := time.Unix(0, pack.Message.GetTimestamp())
			t = t.In(time.UTC)
			ct, _ := time.ParseInLocation(layout, t.Format(layout), s.tz)
			pack.Message.SetTimestamp(ct.UnixNano())
		}
		ir.Inject(pack)
		atomic.AddInt64(&s.processMessageCount, 1)
		atomic.AddInt64(&s.processMessageBytes, int64(len(payload)))
		return 0
	})

	ticker := ir.Ticker()

	for true {
		retval := s.sb.ProcessMessage(nil)
		if retval <= 0 { // Sandbox is in polling mode
			if retval < 0 {
				atomic.AddInt64(&s.processMessageFailures, 1)
				em := s.sb.LastError()
				if len(em) > 0 {
					ir.LogError(errors.New(em))
				}
			}
			if ticker == nil {
				ir.LogMessage("single run completed")
				break
			}
			select { // block until stop or poll interval
			case <-s.stopChan:
			case <-ticker:
			}
		} else { // Sandbox is shutting down
			em := s.sb.LastError()
			if !strings.HasSuffix(em, "shutting down") {
				ir.LogError(errors.New(em))
			}
			break
		}
	}

	s.reportLock.Lock()
	if s.sbc.PreserveData {
		err = s.sb.Destroy(s.preservationFile)
	} else {
		err = s.sb.Destroy("")
	}
	s.sb = nil
	s.reportLock.Unlock()
	return
}
Пример #6
0
func (lsi *LogstreamInput) Run(ir p.InputRunner, h p.PluginHelper, stopChan chan chan bool,
	dRunner p.DecoderRunner) {

	var (
		parser func(ir p.InputRunner, deliver Deliver, stop chan chan bool) error
		err    error
	)

	if lsi.parseFunction == "payload" {
		parser = lsi.payloadParser
	} else if lsi.parseFunction == "messageProto" {
		parser = lsi.messageProtoParser
	}

	// Setup our pack delivery function appropriately for the configuration
	deliver := func(pack *p.PipelinePack) {
		if dRunner == nil {
			ir.Inject(pack)
		} else {
			dRunner.InChan() <- pack
		}
	}

	// Check for more data interval
	interval, _ := time.ParseDuration("250ms")
	tick := time.Tick(interval)

	ok := true
	for ok {
		// Clear our error
		err = nil

		// Attempt to read as many as we can
		err = parser(ir, deliver, stopChan)

		// Save our location after reading as much as we can
		lsi.stream.SavePosition()
		lsi.recordCount = 0

		if err != nil && err != io.EOF {
			ir.LogError(err)
		}

		// Did our parser func get stopped?
		if lsi.stopped != nil {
			ok = false
			continue
		}

		// Wait for our next interval, stop if needed
		select {
		case lsi.stopped = <-stopChan:
			ok = false
		case <-tick:
			continue
		}
	}
	close(lsi.stopped)
}
Пример #7
0
func (cwi *CloudwatchInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) (err error) {
	cwi.stopChan = make(chan bool)
	cwi.req.StartTime = time.Now()
	ticker := time.NewTicker(cwi.pollInterval)

	ok := true
	var (
		resp  *cloudwatch.GetMetricStatisticsResponse
		point cloudwatch.Datapoint
		pack  *pipeline.PipelinePack
		dim   cloudwatch.Dimension
	)

metricLoop:
	for ok {
		select {
		case _, ok = <-cwi.stopChan:
			continue
		case <-ticker.C:
			cwi.req.EndTime = time.Now()
			resp, err = cwi.cw.GetMetricStatistics(cwi.req)
			if err != nil {
				ir.LogError(err)
				err = nil
				continue
			}
			for _, point = range resp.GetMetricStatisticsResult.Datapoints {
				pack, ok = <-ir.InChan()
				if !ok {
					break metricLoop
				}
				pack.Message.SetType("cloudwatch")
				for _, dim = range cwi.req.Dimensions {
					newField(pack, "Dimension."+dim.Name, dim.Value)
				}
				newField(pack, "Period", cwi.req.Period)
				newField(pack, "Average", point.Average)
				newField(pack, "Maximum", point.Maximum)
				newField(pack, "Minimum", point.Minimum)
				newField(pack, "SampleCount", point.SampleCount)
				newField(pack, "Unit", point.Unit)
				newField(pack, "Sum", point.Sum)
				pack.Message.SetUuid(uuid.NewRandom())
				pack.Message.SetTimestamp(point.Timestamp.UTC().UnixNano())
				pack.Message.SetLogger(cwi.namespace)
				pack.Message.SetPayload(cwi.req.MetricName)
				ir.Inject(pack)
			}
			cwi.req.StartTime = cwi.req.EndTime.Add(time.Duration(1) * time.Nanosecond)
		}
	}
	return nil
}
Пример #8
0
func (zi *ZeroMQInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) error {
	// Get the InputRunner's chan to receive empty PipelinePacks
	packs := ir.InChan()

	var decoding chan<- *pipeline.PipelinePack
	if zi.conf.Decoder != "" {
		// Fetch specified decoder
		decoder, ok := h.DecoderSet().ByName(zi.conf.Decoder)
		if !ok {
			err := fmt.Errorf("Could not find decoder", zi.conf.Decoder)
			return err
		}

		// Get the decoder's receiving chan
		decoding = decoder.InChan()
	}

	var pack *pipeline.PipelinePack
	var count int
	var b []byte
	var err error

	// Read data from websocket broadcast chan
	for {
		b, err = zi.socket.Recv(0)
		if err != nil {
			ir.LogError(err)
			continue
		}

		// Grab an empty PipelinePack from the InputRunner
		pack = <-packs

		// Trim the excess empty bytes
		count = len(b)
		pack.MsgBytes = pack.MsgBytes[:count]

		// Copy ws bytes into pack's bytes
		copy(pack.MsgBytes, b)

		if decoding != nil {
			// Send pack onto decoder
			decoding <- pack
		} else {
			// Send pack into Heka pipeline
			ir.Inject(pack)
		}
	}

	return nil
}
Пример #9
0
func (ri *RedisMQInput) Run(ir pipeline.InputRunner, h pipeline.PluginHelper) error {
	// Get the InputRunner's chan to receive empty PipelinePacks
	packs := ir.InChan()

	var decoding chan<- *pipeline.PipelinePack
	if ri.conf.Decoder != "" {
		// Fetch specified decoder
		decoder, ok := h.DecoderRunner(ri.conf.Decoder)
		if !ok {
			err := fmt.Errorf("Could not find decoder", ri.conf.Decoder)
			return err
		}

		// Get the decoder's receiving chan
		decoding = decoder.InChan()
	}

	var pack *pipeline.PipelinePack
	//var p []*redismq.Package
	var p *redismq.Package
	var count int
	var b []byte
	var err error

	for {
		p, err = ri.rdconsumer.Get()
		if err != nil {
			ir.LogError(err)
			continue
		}
		err = p.Ack()
		if err != nil {
			ir.LogError(err)
		}
		b = []byte(p.Payload)
		// Grab an empty PipelinePack from the InputRunner
		pack = <-packs

		// Trim the excess empty bytes
		count = len(b)
		pack.MsgBytes = pack.MsgBytes[:count]

		// Copy ws bytes into pack's bytes
		copy(pack.MsgBytes, b)

		if decoding != nil {
			// Send pack onto decoder
			decoding <- pack
		} else {
			// Send pack into Heka pipeline
			ir.Inject(pack)
		}
	}
	/*
	           checkStat := time.Tick(ri.statInterval)
	           ok := true
	           for ok {
	               select {
	   		case _, ok = <-ri.stopChan:
	   			break
	   		case <-checkStat:
	                       p, err = ri.rdconsumer.MultiGet(500)
	                       if err != nil {
	                           ir.LogError(err)
	                           continue
	                       }
	                       err = p[len(p)-1].MultiAck()
	                       if err != nil {
	                           ir.LogError(err)
	                       }
	                       for _, v := range p {
	                         b = []byte(v.Payload)
	                         // Grab an empty PipelinePack from the InputRunner
	                         pack = <-packs

	                         // Trim the excess empty bytes
	                         count = len(b)
	                         pack.MsgBytes = pack.MsgBytes[:count]

	                         // Copy ws bytes into pack's bytes
	                         copy(pack.MsgBytes, b)

	                         if decoding != nil {
	                           // Send pack onto decoder
	                           decoding <- pack
	                         } else {
	                           // Send pack into Heka pipeline
	                           ir.Inject(pack)
	                         }
	                       }
	                   }
	           }
	*/
	return nil
}
Пример #10
0
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
}