vendor/github.com/armon/go-metrics/statsd.go - ofagent-go - Gitiles

 package metrics

 import (
 	"bytes"
 	"fmt"
 	"log"
 	"net"
 	"net/url"
 	"strings"
 	"time"
 )

 const (
 	// statsdMaxLen is the maximum size of a packet
 	// to send to statsd
 	statsdMaxLen = 1400
 )

 // StatsdSink provides a MetricSink that can be used
 // with a statsite or statsd metrics server. It uses
 // only UDP packets, while StatsiteSink uses TCP.
 type StatsdSink struct {
 	addr        string
 	metricQueue chan string
 }

 // NewStatsdSinkFromURL creates an StatsdSink from a URL. It is used
 // (and tested) from NewMetricSinkFromURL.
 func NewStatsdSinkFromURL(u *url.URL) (MetricSink, error) {
 	return NewStatsdSink(u.Host)
 }

 // NewStatsdSink is used to create a new StatsdSink
 func NewStatsdSink(addr string) (*StatsdSink, error) {
 	s := &StatsdSink{
 		addr:        addr,
 		metricQueue: make(chan string, 4096),
 	}
 	go s.flushMetrics()
 	return s, nil
 }

 // Close is used to stop flushing to statsd
 func (s *StatsdSink) Shutdown() {
 	close(s.metricQueue)
 }

 func (s *StatsdSink) SetGauge(key []string, val float32) {
 	flatKey := s.flattenKey(key)
 	s.pushMetric(fmt.Sprintf("%s:%f|g\n", flatKey, val))
 }

 func (s *StatsdSink) SetGaugeWithLabels(key []string, val float32, labels []Label) {
 	flatKey := s.flattenKeyLabels(key, labels)
 	s.pushMetric(fmt.Sprintf("%s:%f|g\n", flatKey, val))
 }

 func (s *StatsdSink) EmitKey(key []string, val float32) {
 	flatKey := s.flattenKey(key)
 	s.pushMetric(fmt.Sprintf("%s:%f|kv\n", flatKey, val))
 }

 func (s *StatsdSink) IncrCounter(key []string, val float32) {
 	flatKey := s.flattenKey(key)
 	s.pushMetric(fmt.Sprintf("%s:%f|c\n", flatKey, val))
 }

 func (s *StatsdSink) IncrCounterWithLabels(key []string, val float32, labels []Label) {
 	flatKey := s.flattenKeyLabels(key, labels)
 	s.pushMetric(fmt.Sprintf("%s:%f|c\n", flatKey, val))
 }

 func (s *StatsdSink) AddSample(key []string, val float32) {
 	flatKey := s.flattenKey(key)
 	s.pushMetric(fmt.Sprintf("%s:%f|ms\n", flatKey, val))
 }

 func (s *StatsdSink) AddSampleWithLabels(key []string, val float32, labels []Label) {
 	flatKey := s.flattenKeyLabels(key, labels)
 	s.pushMetric(fmt.Sprintf("%s:%f|ms\n", flatKey, val))
 }

 // Flattens the key for formatting, removes spaces
 func (s *StatsdSink) flattenKey(parts []string) string {
 	joined := strings.Join(parts, ".")
 	return strings.Map(func(r rune) rune {
 		switch r {
 		case ':':
 			fallthrough
 		case ' ':
 			return '_'
 		default:
 			return r
 		}
 	}, joined)
 }

 // Flattens the key along with labels for formatting, removes spaces
 func (s *StatsdSink) flattenKeyLabels(parts []string, labels []Label) string {
 	for _, label := range labels {
 		parts = append(parts, label.Value)
 	}
 	return s.flattenKey(parts)
 }

 // Does a non-blocking push to the metrics queue
 func (s *StatsdSink) pushMetric(m string) {
 	select {
 	case s.metricQueue <- m:
 	default:
 	}
 }

 // Flushes metrics
 func (s *StatsdSink) flushMetrics() {
 	var sock net.Conn
 	var err error
 	var wait <-chan time.Time
 	ticker := time.NewTicker(flushInterval)
 	defer ticker.Stop()

 CONNECT:
 	// Create a buffer
 	buf := bytes.NewBuffer(nil)

 	// Attempt to connect
 	sock, err = net.Dial("udp", s.addr)
 	if err != nil {
 		log.Printf("[ERR] Error connecting to statsd! Err: %s", err)
 		goto WAIT
 	}

 	for {
 		select {
 		case metric, ok := <-s.metricQueue:
 			// Get a metric from the queue
 			if !ok {
 				goto QUIT
 			}

 			// Check if this would overflow the packet size
 			if len(metric)+buf.Len() > statsdMaxLen {
 				_, err := sock.Write(buf.Bytes())
 				buf.Reset()
 				if err != nil {
 					log.Printf("[ERR] Error writing to statsd! Err: %s", err)
 					goto WAIT
 				}
 			}

 			// Append to the buffer
 			buf.WriteString(metric)

 		case <-ticker.C:
 			if buf.Len() == 0 {
 				continue
 			}

 			_, err := sock.Write(buf.Bytes())
 			buf.Reset()
 			if err != nil {
 				log.Printf("[ERR] Error flushing to statsd! Err: %s", err)
 				goto WAIT
 			}
 		}
 	}

 WAIT:
 	// Wait for a while
 	wait = time.After(time.Duration(5) * time.Second)
 	for {
 		select {
 		// Dequeue the messages to avoid backlog
 		case _, ok := <-s.metricQueue:
 			if !ok {
 				goto QUIT
 			}
 		case <-wait:
 			goto CONNECT
 		}
 	}
 QUIT:
 	s.metricQueue = nil
 }
	package metrics

	import (
	"bytes"
	"fmt"
	"log"
	"net"
	"net/url"
	"strings"
	"time"
	)

	const (
	// statsdMaxLen is the maximum size of a packet
	// to send to statsd
	statsdMaxLen = 1400
	)

	// StatsdSink provides a MetricSink that can be used
	// with a statsite or statsd metrics server. It uses
	// only UDP packets, while StatsiteSink uses TCP.
	type StatsdSink struct {
	addr string
	metricQueue chan string
	}

	// NewStatsdSinkFromURL creates an StatsdSink from a URL. It is used
	// (and tested) from NewMetricSinkFromURL.
	func NewStatsdSinkFromURL(u *url.URL) (MetricSink, error) {
	return NewStatsdSink(u.Host)
	}

	// NewStatsdSink is used to create a new StatsdSink
	func NewStatsdSink(addr string) (*StatsdSink, error) {
	s := &StatsdSink{
	addr: addr,
	metricQueue: make(chan string, 4096),
	}
	go s.flushMetrics()
	return s, nil
	}

	// Close is used to stop flushing to statsd
	func (s *StatsdSink) Shutdown() {
	close(s.metricQueue)
	}

	func (s *StatsdSink) SetGauge(key []string, val float32) {
	flatKey := s.flattenKey(key)
	s.pushMetric(fmt.Sprintf("%s:%f\|g\n", flatKey, val))
	}

	func (s *StatsdSink) SetGaugeWithLabels(key []string, val float32, labels []Label) {
	flatKey := s.flattenKeyLabels(key, labels)
	s.pushMetric(fmt.Sprintf("%s:%f\|g\n", flatKey, val))
	}

	func (s *StatsdSink) EmitKey(key []string, val float32) {
	flatKey := s.flattenKey(key)
	s.pushMetric(fmt.Sprintf("%s:%f\|kv\n", flatKey, val))
	}

	func (s *StatsdSink) IncrCounter(key []string, val float32) {
	flatKey := s.flattenKey(key)
	s.pushMetric(fmt.Sprintf("%s:%f\|c\n", flatKey, val))
	}

	func (s *StatsdSink) IncrCounterWithLabels(key []string, val float32, labels []Label) {
	flatKey := s.flattenKeyLabels(key, labels)
	s.pushMetric(fmt.Sprintf("%s:%f\|c\n", flatKey, val))
	}

	func (s *StatsdSink) AddSample(key []string, val float32) {
	flatKey := s.flattenKey(key)
	s.pushMetric(fmt.Sprintf("%s:%f\|ms\n", flatKey, val))
	}

	func (s *StatsdSink) AddSampleWithLabels(key []string, val float32, labels []Label) {
	flatKey := s.flattenKeyLabels(key, labels)
	s.pushMetric(fmt.Sprintf("%s:%f\|ms\n", flatKey, val))
	}

	// Flattens the key for formatting, removes spaces
	func (s *StatsdSink) flattenKey(parts []string) string {
	joined := strings.Join(parts, ".")
	return strings.Map(func(r rune) rune {
	switch r {
	case ':':
	fallthrough
	case ' ':
	return '_'
	default:
	return r
	}
	}, joined)
	}

	// Flattens the key along with labels for formatting, removes spaces
	func (s *StatsdSink) flattenKeyLabels(parts []string, labels []Label) string {
	for _, label := range labels {
	parts = append(parts, label.Value)
	}
	return s.flattenKey(parts)
	}

	// Does a non-blocking push to the metrics queue
	func (s *StatsdSink) pushMetric(m string) {
	select {
	case s.metricQueue <- m:
	default:
	}
	}

	// Flushes metrics
	func (s *StatsdSink) flushMetrics() {
	var sock net.Conn
	var err error
	var wait <-chan time.Time
	ticker := time.NewTicker(flushInterval)
	defer ticker.Stop()

	CONNECT:
	// Create a buffer
	buf := bytes.NewBuffer(nil)

	// Attempt to connect
	sock, err = net.Dial("udp", s.addr)
	if err != nil {
	log.Printf("[ERR] Error connecting to statsd! Err: %s", err)
	goto WAIT
	}

	for {
	select {
	case metric, ok := <-s.metricQueue:
	// Get a metric from the queue
	if !ok {
	goto QUIT
	}

	// Check if this would overflow the packet size
	if len(metric)+buf.Len() > statsdMaxLen {
	_, err := sock.Write(buf.Bytes())
	buf.Reset()
	if err != nil {
	log.Printf("[ERR] Error writing to statsd! Err: %s", err)
	goto WAIT
	}
	}

	// Append to the buffer
	buf.WriteString(metric)

	case <-ticker.C:
	if buf.Len() == 0 {
	continue
	}

	_, err := sock.Write(buf.Bytes())
	buf.Reset()
	if err != nil {
	log.Printf("[ERR] Error flushing to statsd! Err: %s", err)
	goto WAIT
	}
	}
	}

	WAIT:
	// Wait for a while
	wait = time.After(time.Duration(5) * time.Second)
	for {
	select {
	// Dequeue the messages to avoid backlog
	case _, ok := <-s.metricQueue:
	if !ok {
	goto QUIT
	}
	case <-wait:
	goto CONNECT
	}
	}
	QUIT:
	s.metricQueue = nil
	}