package prometheus_client import ( "fmt" "log" "net/http" "regexp" "sync" "github.com/influxdata/telegraf" "github.com/influxdata/telegraf/plugins/outputs" "github.com/prometheus/client_golang/prometheus" ) var invalidNameCharRE = regexp.MustCompile(`[^a-zA-Z0-9_]`) type PrometheusClient struct { Listen string metrics map[string]prometheus.Metric sync.Mutex } var sampleConfig = ` ## Address to listen on # listen = ":9126" ` func (p *PrometheusClient) Start() error { prometheus.MustRegister(p) defer func() { if r := recover(); r != nil { // recovering from panic here because there is no way to stop a // running http go server except by a kill signal. Since the server // does not stop on SIGHUP, Start() will panic when the process // is reloaded. } }() if p.Listen == "" { p.Listen = "localhost:9126" } http.Handle("/metrics", prometheus.Handler()) server := &http.Server{ Addr: p.Listen, } go server.ListenAndServe() return nil } func (p *PrometheusClient) Stop() { // TODO: Use a listener for http.Server that counts active connections // that can be stopped and closed gracefully } func (p *PrometheusClient) Connect() error { // This service output does not need to make any further connections return nil } func (p *PrometheusClient) Close() error { // This service output does not need to close any of its connections return nil } 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) } // Implements prometheus.Collector func (p *PrometheusClient) Collect(ch chan<- prometheus.Metric) { p.Lock() defer p.Unlock() for _, m := range p.metrics { ch <- m } } func (p *PrometheusClient) Write(metrics []telegraf.Metric) error { p.Lock() defer p.Unlock() p.metrics = make(map[string]prometheus.Metric) if len(metrics) == 0 { return nil } for _, point := range metrics { key := point.Name() key = invalidNameCharRE.ReplaceAllString(key, "_") // convert tags into prometheus labels var labels []string l := prometheus.Labels{} for k, v := range point.Tags() { k = invalidNameCharRE.ReplaceAllString(k, "_") if len(k) == 0 { continue } labels = append(labels, k) l[k] = v } // Get a type if it's available, defaulting to Untyped var mType prometheus.ValueType switch point.Type() { case telegraf.Counter: mType = prometheus.CounterValue case telegraf.Gauge: mType = prometheus.GaugeValue default: mType = prometheus.UntypedValue } for n, val := range point.Fields() { // Ignore string and bool fields. switch val.(type) { case string: continue case bool: continue } // sanitize the measurement name n = invalidNameCharRE.ReplaceAllString(n, "_") var mname string if n == "value" { mname = key } else { mname = fmt.Sprintf("%s_%s", key, n) } desc := prometheus.NewDesc(mname, "Telegraf collected metric", nil, l) var metric prometheus.Metric var err error // switch for field type switch val := val.(type) { case int64: metric, err = prometheus.NewConstMetric(desc, mType, float64(val)) case float64: metric, err = prometheus.NewConstMetric(desc, mType, val) default: continue } if err != nil { log.Printf("ERROR creating prometheus metric, "+ "key: %s, labels: %v,\nerr: %s\n", mname, l, err.Error()) } p.metrics[desc.String()] = metric } } return nil } func init() { outputs.Add("prometheus_client", func() telegraf.Output { return &PrometheusClient{} }) }