Ejemplo n.º 1
0
// Run runs the FileReadFilter filter, which inspects each message, and appends
// the content of the file named as the executed template to the existing payload.
// The resulting message will be injected back, and have newType type.
func (fr FileReadFilter) Run(r pipeline.FilterRunner, h pipeline.PluginHelper) (err error) {
	if fr.tmpl == nil {
		return errors.New("FileReadFilter: empty template")
	}
	var (
		fh           *os.File
		inp          io.Reader
		npack, opack *pipeline.PipelinePack
	)
	out := bytes.NewBuffer(make([]byte, 0, 4096))
	log.Printf("FileReadFilter: Starting with template %s", fr.tmpl)
	for opack = range r.InChan() {
		//log.Printf("opack=%v", opack)
		//if opack.Decoded {
		out.Reset()
		if err = fr.tmpl.Execute(out, extendedMessage{opack.Message}); err != nil {
			opack.Recycle()
			return fmt.Errorf("FileReadFilter: error executing template %v with message %v: %v",
				fr.tmpl, opack.Message, err)
		}
		//log.Printf("out=%q", out)
		if fh, err = os.Open(out.String()); err != nil {
			log.Printf("FileReadFilter: cannot read %q: %v", out, err)
			opack.Recycle()
			continue
		}
		out.Reset()
		//if _, err = io.Copy(out, io.LimitedReader{R: fh, N: 65000}); err != nil && err != io.EOF {
		inp = fh
		if fr.decoder != nil {
			inp = transform.NewReader(fh, fr.decoder)
		}
		if _, err = io.Copy(out, inp); err != nil && err != io.EOF {
			log.Printf("FileReadFilter: error reading %q: %v", fh.Name(), err)
			opack.Recycle()
			fh.Close()
			continue
		}
		fh.Close()

		npack = h.PipelinePack(opack.MsgLoopCount)
		if npack == nil {
			opack.Recycle()
			return errors.New("FileReadFilter: no output pack - infinite loop?")
		}
		npack.Decoded = true
		npack.Message = message.CopyMessage(opack.Message)
		npack.Message.SetType(fr.newType)
		npack.Message.SetPayload(npack.Message.GetPayload() + "\n" + out.String())
		if !r.Inject(npack) {
			log.Printf("FileReadFilter: cannot inject new pack %v", npack)
		}
		//}
		opack.Recycle()
	}
	return nil
}
Ejemplo n.º 2
0
func (this *SandboxFilter) Run(fr pipeline.FilterRunner, h pipeline.PluginHelper) (err error) {
	inChan := fr.InChan()
	ticker := fr.Ticker()

	var (
		ok             = true
		terminated     = false
		sample         = true
		blocking       = false
		backpressure   = false
		pack           *pipeline.PipelinePack
		retval         int
		msgLoopCount   uint
		injectionCount uint
		startTime      time.Time
		slowDuration   int64 = int64(this.pConfig.Globals.MaxMsgProcessDuration)
		duration       int64
		capacity       = cap(inChan) - 1
	)

	// We assign to the return value of Run() for errors in the closure so that
	// the plugin runner can determine what caused the SandboxFilter to return.
	this.sb.InjectMessage(func(payload, payload_type, payload_name string) int {
		if injectionCount == 0 {
			err = pipeline.TerminatedError("exceeded InjectMessage count")
			return 2
		}
		injectionCount--
		pack := h.PipelinePack(msgLoopCount)
		if pack == nil {
			err = pipeline.TerminatedError(fmt.Sprintf("exceeded MaxMsgLoops = %d",
				this.pConfig.Globals.MaxMsgLoops))
			return 3
		}
		if len(payload_type) == 0 { // heka protobuf message
			hostname := pack.Message.GetHostname()
			err := proto.Unmarshal([]byte(payload), pack.Message)
			if err == nil {
				// do not allow filters to override the following
				pack.Message.SetType("heka.sandbox." + pack.Message.GetType())
				pack.Message.SetLogger(fr.Name())
				pack.Message.SetHostname(hostname)
			} else {
				return 1
			}
		} else {
			pack.Message.SetType("heka.sandbox-output")
			pack.Message.SetLogger(fr.Name())
			pack.Message.SetPayload(payload)
			ptype, _ := message.NewField("payload_type", payload_type, "file-extension")
			pack.Message.AddField(ptype)
			pname, _ := message.NewField("payload_name", payload_name, "")
			pack.Message.AddField(pname)
		}
		if !fr.Inject(pack) {
			return 4
		}
		atomic.AddInt64(&this.injectMessageCount, 1)
		return 0
	})

	for ok {
		select {
		case pack, ok = <-inChan:
			if !ok {
				break
			}
			atomic.AddInt64(&this.processMessageCount, 1)
			injectionCount = this.pConfig.Globals.MaxMsgProcessInject
			msgLoopCount = pack.MsgLoopCount

			if this.manager != nil { // only check for backpressure on dynamic plugins
				// reading a channel length is generally fast ~1ns
				// we need to check the entire chain back to the router
				backpressure = len(inChan) >= capacity ||
					fr.MatchRunner().InChanLen() >= capacity ||
					len(h.PipelineConfig().Router().InChan()) >= capacity
			}

			// performing the timing is expensive ~40ns but if we are
			// backpressured we need a decent sample set before triggering
			// termination
			if sample ||
				(backpressure && this.processMessageSamples < int64(capacity)) ||
				this.sbc.Profile {
				startTime = time.Now()
				sample = true
			}
			retval = this.sb.ProcessMessage(pack)
			if sample {
				duration = time.Since(startTime).Nanoseconds()
				this.reportLock.Lock()
				this.processMessageDuration += duration
				this.processMessageSamples++
				if this.sbc.Profile {
					this.profileMessageDuration = this.processMessageDuration
					this.profileMessageSamples = this.processMessageSamples
					if this.profileMessageSamples == int64(capacity)*10 {
						this.sbc.Profile = false
						// reset the normal sampling so it isn't heavily skewed by the profile values
						// i.e. process messages fast during profiling and then switch to malicious code
						this.processMessageDuration = this.profileMessageDuration / this.profileMessageSamples
						this.processMessageSamples = 1
					}
				}
				this.reportLock.Unlock()
			}
			if retval <= 0 {
				if backpressure && this.processMessageSamples >= int64(capacity) {
					if this.processMessageDuration/this.processMessageSamples > slowDuration ||
						fr.MatchRunner().GetAvgDuration() > slowDuration/5 {
						terminated = true
						blocking = true
					}
				}
				if retval < 0 {
					atomic.AddInt64(&this.processMessageFailures, 1)
					em := this.sb.LastError()
					if len(em) > 0 {
						fr.LogError(errors.New(em))
					}
				}
				sample = 0 == rand.Intn(this.sampleDenominator)
			} else {
				terminated = true
			}
			pack.Recycle()

		case t := <-ticker:
			injectionCount = this.pConfig.Globals.MaxMsgTimerInject
			startTime = time.Now()
			if retval = this.sb.TimerEvent(t.UnixNano()); retval != 0 {
				terminated = true
			}
			duration = time.Since(startTime).Nanoseconds()
			this.reportLock.Lock()
			this.timerEventDuration += duration
			this.timerEventSamples++
			this.reportLock.Unlock()
		}

		if terminated {
			pack := h.PipelinePack(0)
			pack.Message.SetType("heka.sandbox-terminated")
			pack.Message.SetLogger(pipeline.HEKA_DAEMON)
			message.NewStringField(pack.Message, "plugin", fr.Name())
			if blocking {
				pack.Message.SetPayload("sandbox is running slowly and blocking the router")
				// no lock on the ProcessMessage variables here because there are no active writers
				message.NewInt64Field(pack.Message, "ProcessMessageCount", this.processMessageCount, "count")
				message.NewInt64Field(pack.Message, "ProcessMessageFailures", this.processMessageFailures, "count")
				message.NewInt64Field(pack.Message, "ProcessMessageSamples", this.processMessageSamples, "count")
				message.NewInt64Field(pack.Message, "ProcessMessageAvgDuration",
					this.processMessageDuration/this.processMessageSamples, "ns")
				message.NewInt64Field(pack.Message, "MatchAvgDuration", fr.MatchRunner().GetAvgDuration(), "ns")
				message.NewIntField(pack.Message, "FilterChanLength", len(inChan), "count")
				message.NewIntField(pack.Message, "MatchChanLength", fr.MatchRunner().InChanLen(), "count")
				message.NewIntField(pack.Message, "RouterChanLength", len(h.PipelineConfig().Router().InChan()), "count")
			} else {
				pack.Message.SetPayload(this.sb.LastError())
			}
			fr.Inject(pack)
			break
		}
	}

	if this.manager != nil {
		this.manager.PluginExited()
	}

	this.reportLock.Lock()
	var destroyErr error
	if this.sbc.PreserveData {
		destroyErr = this.sb.Destroy(this.preservationFile)
	} else {
		destroyErr = this.sb.Destroy("")
	}
	if destroyErr != nil {
		err = destroyErr
	}

	this.sb = nil
	this.reportLock.Unlock()
	return
}
Ejemplo n.º 3
0
func (this *SandboxManagerFilter) Run(fr pipeline.FilterRunner,
	h pipeline.PluginHelper) (err error) {

	inChan := fr.InChan()

	var ok = true
	var pack *pipeline.PipelinePack
	var delta int64

	this.restoreSandboxes(fr, h, this.workingDirectory)
	for ok {
		select {
		case pack, ok = <-inChan:
			if !ok {
				break
			}
			atomic.AddInt64(&this.processMessageCount, 1)
			delta = time.Now().UnixNano() - pack.Message.GetTimestamp()
			if math.Abs(float64(delta)) >= 5e9 {
				fr.UpdateCursor(pack.QueueCursor)
				pack.Recycle(fmt.Errorf("Discarded control message: %d seconds skew",
					delta/1e9))
				break
			}
			action, _ := pack.Message.GetFieldValue("action")
			switch action {
			case "load":
				current := int(atomic.LoadInt32(&this.currentFilters))
				if current < this.maxFilters {
					err := this.loadSandbox(fr, h, this.workingDirectory, pack.Message)
					if err != nil {
						p, e := h.PipelinePack(0)
						if e != nil {
							fr.LogError(err)
							fr.LogError(fmt.Errorf("can't send termination message: %s", e.Error()))
							break
						}
						p.Message.SetType("heka.sandbox-terminated")
						p.Message.SetLogger(pipeline.HEKA_DAEMON)
						message.NewStringField(p.Message, "plugin", fr.Name())
						p.Message.SetPayload(err.Error())
						fr.Inject(p)
						fr.LogError(err)
					}
				} else {
					fr.LogError(fmt.Errorf("%s attempted to load more than %d filters",
						fr.Name(), this.maxFilters))
				}
			case "unload":
				fv, _ := pack.Message.GetFieldValue("name")
				if name, ok := fv.(string); ok {
					name = getSandboxName(fr.Name(), name)
					if this.pConfig.RemoveFilterRunner(name) {
						removeAll(this.workingDirectory, fmt.Sprintf("%s.*", name))
					}
				}
			}
			pack.Recycle(nil)
		}
	}
	return
}