package prometheus_client import ( "context" "crypto/subtle" "fmt" "log" "net" "net/http" "regexp" "sort" "strconv" "strings" "sync" "time" "github.com/influxdata/telegraf" "github.com/influxdata/telegraf/internal" "github.com/influxdata/telegraf/internal/tls" "github.com/influxdata/telegraf/plugins/outputs" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/client_golang/prometheus/promhttp" ) var invalidNameCharRE = regexp.MustCompile(`[^a-zA-Z0-9_]`) // SampleID uniquely identifies a Sample type SampleID string // Sample represents the current value of a series. type Sample struct { // Labels are the Prometheus labels. Labels map[string]string // Value is the value in the Prometheus output. Only one of these will populated. Value float64 HistogramValue map[float64]uint64 SummaryValue map[float64]float64 // Histograms and Summaries need a count and a sum Count uint64 Sum float64 // Metric timestamp Timestamp time.Time // Expiration is the deadline that this Sample is valid until. Expiration time.Time } // MetricFamily contains the data required to build valid prometheus Metrics. type MetricFamily struct { // Samples are the Sample belonging to this MetricFamily. Samples map[SampleID]*Sample // Need the telegraf ValueType because there isn't a Prometheus ValueType // representing Histogram or Summary TelegrafValueType telegraf.ValueType // LabelSet is the label counts for all Samples. LabelSet map[string]int } type PrometheusClient struct { Listen string BasicUsername string `toml:"basic_username"` BasicPassword string `toml:"basic_password"` IPRange []string `toml:"ip_range"` ExpirationInterval internal.Duration `toml:"expiration_interval"` Path string `toml:"path"` CollectorsExclude []string `toml:"collectors_exclude"` StringAsLabel bool `toml:"string_as_label"` ExportTimestamp bool `toml:"export_timestamp"` tls.ServerConfig server *http.Server sync.Mutex // fam is the non-expired MetricFamily by Prometheus metric name. fam map[string]*MetricFamily // now returns the current time. now func() time.Time } var sampleConfig = ` ## Address to listen on listen = ":9273" ## Use HTTP Basic Authentication. # basic_username = "Foo" # basic_password = "Bar" ## If set, the IP Ranges which are allowed to access metrics. ## ex: ip_range = ["192.168.0.0/24", "192.168.1.0/30"] # ip_range = [] ## Path to publish the metrics on. # path = "/metrics" ## Expiration interval for each metric. 0 == no expiration # expiration_interval = "60s" ## Collectors to enable, valid entries are "gocollector" and "process". ## If unset, both are enabled. # collectors_exclude = ["gocollector", "process"] ## Send string metrics as Prometheus labels. ## Unless set to false all string metrics will be sent as labels. # string_as_label = true ## If set, enable TLS with the given certificate. # tls_cert = "/etc/ssl/telegraf.crt" # tls_key = "/etc/ssl/telegraf.key" ## Set one or more allowed client CA certificate file names to ## enable mutually authenticated TLS connections # tls_allowed_cacerts = ["/etc/telegraf/clientca.pem"] ## Export metric collection time. # export_timestamp = false ` func (p *PrometheusClient) auth(h http.Handler) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { if p.BasicUsername != "" && p.BasicPassword != "" { w.Header().Set("WWW-Authenticate", `Basic realm="Restricted"`) username, password, ok := r.BasicAuth() if !ok || subtle.ConstantTimeCompare([]byte(username), []byte(p.BasicUsername)) != 1 || subtle.ConstantTimeCompare([]byte(password), []byte(p.BasicPassword)) != 1 { http.Error(w, "Not authorized", 401) return } } if len(p.IPRange) > 0 { matched := false remoteIPs, _, _ := net.SplitHostPort(r.RemoteAddr) remoteIP := net.ParseIP(remoteIPs) for _, iprange := range p.IPRange { _, ipNet, err := net.ParseCIDR(iprange) if err != nil { http.Error(w, "Config Error in ip_range setting", 500) return } if ipNet.Contains(remoteIP) { matched = true break } } if !matched { http.Error(w, "Not authorized", 401) return } } h.ServeHTTP(w, r) }) } func (p *PrometheusClient) Connect() error { defaultCollectors := map[string]bool{ "gocollector": true, "process": true, } for _, collector := range p.CollectorsExclude { delete(defaultCollectors, collector) } registry := prometheus.NewRegistry() for collector := range defaultCollectors { switch collector { case "gocollector": registry.Register(prometheus.NewGoCollector()) case "process": registry.Register(prometheus.NewProcessCollector(prometheus.ProcessCollectorOpts{})) default: return fmt.Errorf("unrecognized collector %s", collector) } } registry.Register(p) if p.Listen == "" { p.Listen = "localhost:9273" } if p.Path == "" { p.Path = "/metrics" } mux := http.NewServeMux() mux.Handle(p.Path, p.auth(promhttp.HandlerFor( registry, promhttp.HandlerOpts{ErrorHandling: promhttp.ContinueOnError}))) tlsConfig, err := p.TLSConfig() if err != nil { return err } p.server = &http.Server{ Addr: p.Listen, Handler: mux, TLSConfig: tlsConfig, } go func() { var err error if p.TLSCert != "" && p.TLSKey != "" { err = p.server.ListenAndServeTLS("", "") } else { err = p.server.ListenAndServe() } if err != nil && err != http.ErrServerClosed { log.Printf("E! Error creating prometheus metric endpoint, err: %s\n", err.Error()) } }() return nil } func (p *PrometheusClient) Close() error { ctx, cancel := context.WithTimeout(context.Background(), time.Second*5) defer cancel() err := p.server.Shutdown(ctx) prometheus.Unregister(p) return err } func (p *PrometheusClient) SampleConfig() string { return sampleConfig } func (p *PrometheusClient) Description() string { return "Configuration for the Prometheus client to spawn" } // Implements prometheus.Collector func (p *PrometheusClient) Describe(ch chan<- *prometheus.Desc) { prometheus.NewGauge(prometheus.GaugeOpts{Name: "Dummy", Help: "Dummy"}).Describe(ch) } // Expire removes Samples that have expired. func (p *PrometheusClient) Expire() { now := p.now() for name, family := range p.fam { for key, sample := range family.Samples { if p.ExpirationInterval.Duration != 0 && now.After(sample.Expiration) { for k := range sample.Labels { family.LabelSet[k]-- } delete(family.Samples, key) if len(family.Samples) == 0 { delete(p.fam, name) } } } } } // Collect implements prometheus.Collector func (p *PrometheusClient) Collect(ch chan<- prometheus.Metric) { p.Lock() defer p.Unlock() p.Expire() for name, family := range p.fam { // Get list of all labels on MetricFamily var labelNames []string for k, v := range family.LabelSet { if v > 0 { labelNames = append(labelNames, k) } } desc := prometheus.NewDesc(name, "Telegraf collected metric", labelNames, nil) for _, sample := range family.Samples { // Get labels for this sample; unset labels will be set to the // empty string var labels []string for _, label := range labelNames { v := sample.Labels[label] labels = append(labels, v) } var metric prometheus.Metric var err error switch family.TelegrafValueType { case telegraf.Summary: metric, err = prometheus.NewConstSummary(desc, sample.Count, sample.Sum, sample.SummaryValue, labels...) case telegraf.Histogram: metric, err = prometheus.NewConstHistogram(desc, sample.Count, sample.Sum, sample.HistogramValue, labels...) default: metric, err = prometheus.NewConstMetric(desc, getPromValueType(family.TelegrafValueType), sample.Value, labels...) } if err != nil { log.Printf("E! Error creating prometheus metric, "+ "key: %s, labels: %v,\nerr: %s\n", name, labels, err.Error()) } if p.ExportTimestamp { metric = prometheus.NewMetricWithTimestamp(sample.Timestamp, metric) } ch <- metric } } } func sanitize(value string) string { return invalidNameCharRE.ReplaceAllString(value, "_") } func getPromValueType(tt telegraf.ValueType) prometheus.ValueType { switch tt { case telegraf.Counter: return prometheus.CounterValue case telegraf.Gauge: return prometheus.GaugeValue default: return prometheus.UntypedValue } } // CreateSampleID creates a SampleID based on the tags of a telegraf.Metric. func CreateSampleID(tags map[string]string) SampleID { pairs := make([]string, 0, len(tags)) for k, v := range tags { pairs = append(pairs, fmt.Sprintf("%s=%s", k, v)) } sort.Strings(pairs) return SampleID(strings.Join(pairs, ",")) } func addSample(fam *MetricFamily, sample *Sample, sampleID SampleID) { for k := range sample.Labels { fam.LabelSet[k]++ } fam.Samples[sampleID] = sample } func (p *PrometheusClient) addMetricFamily(point telegraf.Metric, sample *Sample, mname string, sampleID SampleID) { var fam *MetricFamily var ok bool if fam, ok = p.fam[mname]; !ok { fam = &MetricFamily{ Samples: make(map[SampleID]*Sample), TelegrafValueType: point.Type(), LabelSet: make(map[string]int), } p.fam[mname] = fam } addSample(fam, sample, sampleID) } func (p *PrometheusClient) Write(metrics []telegraf.Metric) error { p.Lock() defer p.Unlock() now := p.now() for _, point := range metrics { tags := point.Tags() sampleID := CreateSampleID(tags) labels := make(map[string]string) for k, v := range tags { labels[sanitize(k)] = v } // Prometheus doesn't have a string value type, so convert string // fields to labels if enabled. if p.StringAsLabel { for fn, fv := range point.Fields() { switch fv := fv.(type) { case string: labels[sanitize(fn)] = fv } } } switch point.Type() { case telegraf.Summary: var mname string var sum float64 var count uint64 summaryvalue := make(map[float64]float64) for fn, fv := range point.Fields() { var value float64 switch fv := fv.(type) { case int64: value = float64(fv) case uint64: value = float64(fv) case float64: value = fv default: continue } switch fn { case "sum": sum = value case "count": count = uint64(value) default: limit, err := strconv.ParseFloat(fn, 64) if err == nil { summaryvalue[limit] = value } } } sample := &Sample{ Labels: labels, SummaryValue: summaryvalue, Count: count, Sum: sum, Timestamp: point.Time(), Expiration: now.Add(p.ExpirationInterval.Duration), } mname = sanitize(point.Name()) p.addMetricFamily(point, sample, mname, sampleID) case telegraf.Histogram: var mname string var sum float64 var count uint64 histogramvalue := make(map[float64]uint64) for fn, fv := range point.Fields() { var value float64 switch fv := fv.(type) { case int64: value = float64(fv) case uint64: value = float64(fv) case float64: value = fv default: continue } switch fn { case "sum": sum = value case "count": count = uint64(value) default: limit, err := strconv.ParseFloat(fn, 64) if err == nil { histogramvalue[limit] = uint64(value) } } } sample := &Sample{ Labels: labels, HistogramValue: histogramvalue, Count: count, Sum: sum, Timestamp: point.Time(), Expiration: now.Add(p.ExpirationInterval.Duration), } mname = sanitize(point.Name()) p.addMetricFamily(point, sample, mname, sampleID) default: for fn, fv := range point.Fields() { // Ignore string and bool fields. var value float64 switch fv := fv.(type) { case int64: value = float64(fv) case uint64: value = float64(fv) case float64: value = fv default: continue } sample := &Sample{ Labels: labels, Value: value, Timestamp: point.Time(), Expiration: now.Add(p.ExpirationInterval.Duration), } // Special handling of value field; supports passthrough from // the prometheus input. var mname string switch point.Type() { case telegraf.Counter: if fn == "counter" { mname = sanitize(point.Name()) } case telegraf.Gauge: if fn == "gauge" { mname = sanitize(point.Name()) } } if mname == "" { if fn == "value" { mname = sanitize(point.Name()) } else { mname = sanitize(fmt.Sprintf("%s_%s", point.Name(), fn)) } } p.addMetricFamily(point, sample, mname, sampleID) } } } return nil } func init() { outputs.Add("prometheus_client", func() telegraf.Output { return &PrometheusClient{ ExpirationInterval: internal.Duration{Duration: time.Second * 60}, StringAsLabel: true, fam: make(map[string]*MetricFamily), now: time.Now, } }) }