// Copyright 2013 The Prometheus Authors // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package main import ( "bufio" "bytes" "encoding/binary" "fmt" "hash/fnv" "io" "net" "regexp" "strconv" "strings" "unicode/utf8" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/common/log" "github.com/prometheus/common/model" ) const ( defaultHelp = "Metric autogenerated by statsd_exporter." regErrF = "A change of configuration created inconsistent metrics for " + "%q. You have to restart the statsd_exporter, and you should " + "consider the effects on your monitoring setup. Error: %s" ) var ( illegalCharsRE = regexp.MustCompile(`[^a-zA-Z0-9_]`) hash = fnv.New64a() strBuf bytes.Buffer // Used for hashing. intBuf = make([]byte, 8) ) // hashNameAndLabels returns a hash value of the provided name string and all // the label names and values in the provided labels map. // // Not safe for concurrent use! (Uses a shared buffer and hasher to save on // allocations.) func hashNameAndLabels(name string, labels prometheus.Labels) uint64 { hash.Reset() strBuf.Reset() strBuf.WriteString(name) hash.Write(strBuf.Bytes()) binary.BigEndian.PutUint64(intBuf, model.LabelsToSignature(labels)) hash.Write(intBuf) return hash.Sum64() } type CounterContainer struct { Elements map[uint64]prometheus.Counter } func NewCounterContainer() *CounterContainer { return &CounterContainer{ Elements: make(map[uint64]prometheus.Counter), } } func (c *CounterContainer) Get(metricName string, labels prometheus.Labels, help string) (prometheus.Counter, error) { hash := hashNameAndLabels(metricName, labels) counter, ok := c.Elements[hash] if !ok { counter = prometheus.NewCounter(prometheus.CounterOpts{ Name: metricName, Help: help, ConstLabels: labels, }) if err := prometheus.Register(counter); err != nil { return nil, err } c.Elements[hash] = counter } return counter, nil } type GaugeContainer struct { Elements map[uint64]prometheus.Gauge } func NewGaugeContainer() *GaugeContainer { return &GaugeContainer{ Elements: make(map[uint64]prometheus.Gauge), } } func (c *GaugeContainer) Get(metricName string, labels prometheus.Labels, help string) (prometheus.Gauge, error) { hash := hashNameAndLabels(metricName, labels) gauge, ok := c.Elements[hash] if !ok { gauge = prometheus.NewGauge(prometheus.GaugeOpts{ Name: metricName, Help: help, ConstLabels: labels, }) if err := prometheus.Register(gauge); err != nil { return nil, err } c.Elements[hash] = gauge } return gauge, nil } type SummaryContainer struct { Elements map[uint64]prometheus.Summary } func NewSummaryContainer() *SummaryContainer { return &SummaryContainer{ Elements: make(map[uint64]prometheus.Summary), } } func (c *SummaryContainer) Get(metricName string, labels prometheus.Labels, help string) (prometheus.Summary, error) { hash := hashNameAndLabels(metricName, labels) summary, ok := c.Elements[hash] if !ok { summary = prometheus.NewSummary( prometheus.SummaryOpts{ Name: metricName, Help: help, ConstLabels: labels, }) if err := prometheus.Register(summary); err != nil { return nil, err } c.Elements[hash] = summary } return summary, nil } type HistogramContainer struct { Elements map[uint64]prometheus.Histogram mapper *metricMapper } func NewHistogramContainer(mapper *metricMapper) *HistogramContainer { return &HistogramContainer{ Elements: make(map[uint64]prometheus.Histogram), mapper: mapper, } } func (c *HistogramContainer) Get(metricName string, labels prometheus.Labels, help string, mapping *metricMapping) (prometheus.Histogram, error) { hash := hashNameAndLabels(metricName, labels) histogram, ok := c.Elements[hash] if !ok { buckets := c.mapper.Defaults.Buckets if mapping != nil && mapping.Buckets != nil && len(mapping.Buckets) > 0 { buckets = mapping.Buckets } histogram = prometheus.NewHistogram( prometheus.HistogramOpts{ Name: metricName, Help: help, ConstLabels: labels, Buckets: buckets, }) c.Elements[hash] = histogram if err := prometheus.Register(histogram); err != nil { return nil, err } } return histogram, nil } type Event interface { MetricName() string Value() float64 Labels() map[string]string MetricType() metricType } type CounterEvent struct { metricName string value float64 labels map[string]string } func (c *CounterEvent) MetricName() string { return c.metricName } func (c *CounterEvent) Value() float64 { return c.value } func (c *CounterEvent) Labels() map[string]string { return c.labels } func (c *CounterEvent) MetricType() metricType { return metricTypeCounter } type GaugeEvent struct { metricName string value float64 relative bool labels map[string]string } func (g *GaugeEvent) MetricName() string { return g.metricName } func (g *GaugeEvent) Value() float64 { return g.value } func (c *GaugeEvent) Labels() map[string]string { return c.labels } func (c *GaugeEvent) MetricType() metricType { return metricTypeGauge } type TimerEvent struct { metricName string value float64 labels map[string]string } func (t *TimerEvent) MetricName() string { return t.metricName } func (t *TimerEvent) Value() float64 { return t.value } func (c *TimerEvent) Labels() map[string]string { return c.labels } func (c *TimerEvent) MetricType() metricType { return metricTypeTimer } type Events []Event type Exporter struct { Counters *CounterContainer Gauges *GaugeContainer Summaries *SummaryContainer Histograms *HistogramContainer mapper *metricMapper } func escapeMetricName(metricName string) string { // If a metric starts with a digit, prepend an underscore. if metricName[0] >= '0' && metricName[0] <= '9' { metricName = "_" + metricName } // Replace all illegal metric chars with underscores. metricName = illegalCharsRE.ReplaceAllString(metricName, "_") return metricName } func (b *Exporter) Listen(e <-chan Events) { for { events, ok := <-e if !ok { log.Debug("Channel is closed. Break out of Exporter.Listener.") return } for _, event := range events { var help string metricName := "" prometheusLabels := event.Labels() mapping, labels, present := b.mapper.getMapping(event.MetricName(), event.MetricType()) if mapping == nil { mapping = &metricMapping{} } if mapping.Action == actionTypeDrop { continue } if mapping.HelpText == "" { help = defaultHelp } else { help = mapping.HelpText } if present { metricName = escapeMetricName(mapping.Name) for label, value := range labels { prometheusLabels[label] = value } } else { eventsUnmapped.Inc() metricName = escapeMetricName(event.MetricName()) } switch ev := event.(type) { case *CounterEvent: // We don't accept negative values for counters. Incrementing the counter with a negative number // will cause the exporter to panic. Instead we will warn and continue to the next event. if event.Value() < 0.0 { log.Debugf("Counter %q is: '%f' (counter must be non-negative value)", metricName, event.Value()) eventStats.WithLabelValues("illegal_negative_counter").Inc() continue } counter, err := b.Counters.Get( metricName, prometheusLabels, help, ) if err == nil { counter.Add(event.Value()) eventStats.WithLabelValues("counter").Inc() } else { log.Debugf(regErrF, metricName, err) conflictingEventStats.WithLabelValues("counter").Inc() } case *GaugeEvent: gauge, err := b.Gauges.Get( metricName, prometheusLabels, help, ) if err == nil { if ev.relative { gauge.Add(event.Value()) } else { gauge.Set(event.Value()) } eventStats.WithLabelValues("gauge").Inc() } else { log.Debugf(regErrF, metricName, err) conflictingEventStats.WithLabelValues("gauge").Inc() } case *TimerEvent: t := timerTypeDefault if mapping != nil { t = mapping.TimerType } if t == timerTypeDefault { t = b.mapper.Defaults.TimerType } switch t { case timerTypeHistogram: histogram, err := b.Histograms.Get( metricName, prometheusLabels, help, mapping, ) if err == nil { histogram.Observe(event.Value() / 1000) // prometheus presumes seconds, statsd millisecond eventStats.WithLabelValues("timer").Inc() } else { log.Debugf(regErrF, metricName, err) conflictingEventStats.WithLabelValues("timer").Inc() } case timerTypeDefault, timerTypeSummary: summary, err := b.Summaries.Get( metricName, prometheusLabels, help, ) if err == nil { summary.Observe(event.Value()) eventStats.WithLabelValues("timer").Inc() } else { log.Debugf(regErrF, metricName, err) conflictingEventStats.WithLabelValues("timer").Inc() } default: panic(fmt.Sprintf("unknown timer type '%s'", t)) } default: log.Debugln("Unsupported event type") eventStats.WithLabelValues("illegal").Inc() } } } } func NewExporter(mapper *metricMapper) *Exporter { return &Exporter{ Counters: NewCounterContainer(), Gauges: NewGaugeContainer(), Summaries: NewSummaryContainer(), Histograms: NewHistogramContainer(mapper), mapper: mapper, } } func buildEvent(statType, metric string, value float64, relative bool, labels map[string]string) (Event, error) { switch statType { case "c": return &CounterEvent{ metricName: metric, value: float64(value), labels: labels, }, nil case "g": return &GaugeEvent{ metricName: metric, value: float64(value), relative: relative, labels: labels, }, nil case "ms", "h": return &TimerEvent{ metricName: metric, value: float64(value), labels: labels, }, nil case "s": return nil, fmt.Errorf("No support for StatsD sets") default: return nil, fmt.Errorf("Bad stat type %s", statType) } } func parseDogStatsDTagsToLabels(component string) map[string]string { labels := map[string]string{} tagsReceived.Inc() tags := strings.Split(component, ",") for _, t := range tags { t = strings.TrimPrefix(t, "#") kv := strings.SplitN(t, ":", 2) if len(kv) < 2 || len(kv[1]) == 0 { tagErrors.Inc() log.Debugf("Malformed or empty DogStatsD tag %s in component %s", t, component) continue } labels[escapeMetricName(kv[0])] = kv[1] } return labels } func lineToEvents(line string) Events { events := Events{} if line == "" { return events } elements := strings.SplitN(line, ":", 2) if len(elements) < 2 || len(elements[0]) == 0 || !utf8.ValidString(line) { sampleErrors.WithLabelValues("malformed_line").Inc() log.Debugln("Bad line from StatsD:", line) return events } metric := elements[0] var samples []string if strings.Contains(elements[1], "|#") { // using datadog extensions, disable multi-metrics samples = elements[1:] } else { samples = strings.Split(elements[1], ":") } samples: for _, sample := range samples { samplesReceived.Inc() components := strings.Split(sample, "|") samplingFactor := 1.0 if len(components) < 2 || len(components) > 4 { sampleErrors.WithLabelValues("malformed_component").Inc() log.Debugln("Bad component on line:", line) continue } valueStr, statType := components[0], components[1] var relative = false if strings.Index(valueStr, "+") == 0 || strings.Index(valueStr, "-") == 0 { relative = true } value, err := strconv.ParseFloat(valueStr, 64) if err != nil { log.Debugf("Bad value %s on line: %s", valueStr, line) sampleErrors.WithLabelValues("malformed_value").Inc() continue } multiplyEvents := 1 labels := map[string]string{} if len(components) >= 3 { for _, component := range components[2:] { if len(component) == 0 { log.Debugln("Empty component on line: ", line) sampleErrors.WithLabelValues("malformed_component").Inc() continue samples } } for _, component := range components[2:] { switch component[0] { case '@': if statType != "c" && statType != "ms" { log.Debugln("Illegal sampling factor for non-counter metric on line", line) sampleErrors.WithLabelValues("illegal_sample_factor").Inc() continue } samplingFactor, err = strconv.ParseFloat(component[1:], 64) if err != nil { log.Debugf("Invalid sampling factor %s on line %s", component[1:], line) sampleErrors.WithLabelValues("invalid_sample_factor").Inc() } if samplingFactor == 0 { samplingFactor = 1 } if statType == "c" { value /= samplingFactor } else if statType == "ms" { multiplyEvents = int(1 / samplingFactor) } case '#': labels = parseDogStatsDTagsToLabels(component) default: log.Debugf("Invalid sampling factor or tag section %s on line %s", components[2], line) sampleErrors.WithLabelValues("invalid_sample_factor").Inc() continue } } } for i := 0; i < multiplyEvents; i++ { event, err := buildEvent(statType, metric, value, relative, labels) if err != nil { log.Debugf("Error building event on line %s: %s", line, err) sampleErrors.WithLabelValues("illegal_event").Inc() continue } events = append(events, event) } } return events } type StatsDUDPListener struct { conn *net.UDPConn } func (l *StatsDUDPListener) Listen(e chan<- Events) { buf := make([]byte, 65535) for { n, _, err := l.conn.ReadFromUDP(buf) if err != nil { log.Fatal(err) } l.handlePacket(buf[0:n], e) } } func (l *StatsDUDPListener) handlePacket(packet []byte, e chan<- Events) { udpPackets.Inc() lines := strings.Split(string(packet), "\n") events := Events{} for _, line := range lines { linesReceived.Inc() events = append(events, lineToEvents(line)...) } e <- events } type StatsDTCPListener struct { conn *net.TCPListener } func (l *StatsDTCPListener) Listen(e chan<- Events) { for { c, err := l.conn.AcceptTCP() if err != nil { log.Fatalf("AcceptTCP failed: %v", err) } go l.handleConn(c, e) } } func (l *StatsDTCPListener) handleConn(c *net.TCPConn, e chan<- Events) { defer c.Close() tcpConnections.Inc() r := bufio.NewReader(c) for { line, isPrefix, err := r.ReadLine() if err != nil { if err != io.EOF { tcpErrors.Inc() log.Debugf("Read %s failed: %v", c.RemoteAddr(), err) } break } if isPrefix { tcpLineTooLong.Inc() log.Debugf("Read %s failed: line too long", c.RemoteAddr()) break } linesReceived.Inc() e <- lineToEvents(string(line)) } }