metrics/metrics.go

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2019-04-08 16:29:16 +03:00
// Package metrics implements Prometheus-compatible metrics for applications.
//
// This package is lightweight alternative to https://github.com/prometheus/client_golang
// with simpler API and small dependencies.
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package metrics
import (
"fmt"
"io"
"runtime"
"sort"
"sync"
"sync/atomic"
"time"
"github.com/valyala/histogram"
)
type gauge struct {
f func() float64
}
func (g *gauge) marshalTo(prefix string, w io.Writer) {
v := g.f()
fmt.Fprintf(w, "%s %g\n", prefix, v)
}
// NewGauge creates a gauge with the given name, which calls f
// to obtain gauge value.
//
// name must be valid Prometheus-compatible metric with possible labels.
// For instance,
//
// * foo
// * foo{bar="baz"}
// * foo{bar="baz",aaa="b"}
//
// f must be safe for concurrent calls.
func NewGauge(name string, f func() float64) {
g := &gauge{
f: f,
}
registerMetric(name, g)
}
// Counter is a counter.
//
// It may be used as a gauge if Dec and Set are called.
type Counter struct {
n uint64
}
// NewCounter creates and returns new counter with the given name.
//
// name must be valid Prometheus-compatible metric with possible lables.
// For instance,
//
// * foo
// * foo{bar="baz"}
// * foo{bar="baz",aaa="b"}
//
// The returned counter is safe to use from concurrent goroutines.
func NewCounter(name string) *Counter {
c := &Counter{}
registerMetric(name, c)
return c
}
func registerMetric(name string, m metric) {
if err := validateMetric(name); err != nil {
// Do not use logger.Panicf here, since it may be uninitialized yet.
panic(fmt.Errorf("BUG: invalid metric name %q: %s", name, err))
}
metricsMapLock.Lock()
ok := isRegisteredMetric(metricsMap, name)
if !ok {
nm := namedMetric{
name: name,
metric: m,
}
metricsMap = append(metricsMap, nm)
}
metricsMapLock.Unlock()
if ok {
// Do not use logger.Panicf here, since it may be uninitialized yet.
panic(fmt.Errorf("BUG: metric with name %q is already registered", name))
}
}
// Inc increments c.
func (c *Counter) Inc() {
atomic.AddUint64(&c.n, 1)
}
// Dec decrements c.
func (c *Counter) Dec() {
atomic.AddUint64(&c.n, ^uint64(0))
}
// Add adds n to c.
func (c *Counter) Add(n int) {
atomic.AddUint64(&c.n, uint64(n))
}
// Get returns the current value for c.
func (c *Counter) Get() uint64 {
return atomic.LoadUint64(&c.n)
}
// Set sets c value to n.
func (c *Counter) Set(n uint64) {
atomic.StoreUint64(&c.n, n)
}
// marshalTo marshals c with the given prefix to w.
func (c *Counter) marshalTo(prefix string, w io.Writer) {
v := c.Get()
fmt.Fprintf(w, "%s %d\n", prefix, v)
}
var (
metricsMapLock sync.Mutex
metricsMap []namedMetric
)
type namedMetric struct {
name string
metric metric
}
func isRegisteredMetric(mm []namedMetric, name string) bool {
for _, nm := range mm {
if nm.name == name {
return true
}
}
return false
}
func sortMetrics(mm []namedMetric) {
lessFunc := func(i, j int) bool {
return mm[i].name < mm[j].name
}
if !sort.SliceIsSorted(mm, lessFunc) {
sort.Slice(mm, lessFunc)
}
}
type metric interface {
marshalTo(prefix string, w io.Writer)
}
// WritePrometheus writes all the registered metrics in Prometheus format to w.
//
// If exposeProcessMetrics is true, then various `go_*` metrics are exposed
// for the current process.
//
// The WritePrometheus func is usually called inside "/metrics" handler:
//
// http.HandleFunc("/metrics", func(w http.ResponseWriter, req *http.Request) {
// metrics.WritePrometheus(w, true)
// })
//
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func WritePrometheus(w io.Writer, exposeProcessMetrics bool) {
// Export user-defined metrics.
metricsMapLock.Lock()
sortMetrics(metricsMap)
for _, nm := range metricsMap {
nm.metric.marshalTo(nm.name, w)
}
metricsMapLock.Unlock()
if !exposeProcessMetrics {
return
}
// Export memory stats.
var ms runtime.MemStats
runtime.ReadMemStats(&ms)
fmt.Fprintf(w, `go_memstats_alloc_bytes %d`+"\n", ms.Alloc)
fmt.Fprintf(w, `go_memstats_alloc_bytes_total %d`+"\n", ms.TotalAlloc)
fmt.Fprintf(w, `go_memstats_buck_hash_sys_bytes %d`+"\n", ms.BuckHashSys)
fmt.Fprintf(w, `go_memstats_frees_total %d`+"\n", ms.Frees)
fmt.Fprintf(w, `go_memstats_gc_cpu_fraction %f`+"\n", ms.GCCPUFraction)
fmt.Fprintf(w, `go_memstats_gc_sys_bytes %d`+"\n", ms.GCSys)
fmt.Fprintf(w, `go_memstats_heap_alloc_bytes %d`+"\n", ms.HeapAlloc)
fmt.Fprintf(w, `go_memstats_heap_idle_bytes %d`+"\n", ms.HeapIdle)
fmt.Fprintf(w, `go_memstats_heap_inuse_bytes %d`+"\n", ms.HeapInuse)
fmt.Fprintf(w, `go_memstats_heap_objects %d`+"\n", ms.HeapObjects)
fmt.Fprintf(w, `go_memstats_heap_released_bytes %d`+"\n", ms.HeapReleased)
fmt.Fprintf(w, `go_memstats_heap_sys_bytes %d`+"\n", ms.HeapSys)
fmt.Fprintf(w, `go_memstats_last_gc_time_seconds %f`+"\n", float64(ms.LastGC)/1e9)
fmt.Fprintf(w, `go_memstats_lookups_total %d`+"\n", ms.Lookups)
fmt.Fprintf(w, `go_memstats_mallocs_total %d`+"\n", ms.Mallocs)
fmt.Fprintf(w, `go_memstats_mcache_inuse_bytes %d`+"\n", ms.MCacheInuse)
fmt.Fprintf(w, `go_memstats_mcache_sys_bytes %d`+"\n", ms.MCacheSys)
fmt.Fprintf(w, `go_memstats_mspan_inuse_bytes %d`+"\n", ms.MSpanInuse)
fmt.Fprintf(w, `go_memstats_mspan_sys_bytes %d`+"\n", ms.MSpanSys)
fmt.Fprintf(w, `go_memstats_next_gc_bytes %d`+"\n", ms.NextGC)
fmt.Fprintf(w, `go_memstats_other_sys_bytes %d`+"\n", ms.OtherSys)
fmt.Fprintf(w, `go_memstats_stack_inuse_bytes %d`+"\n", ms.StackInuse)
fmt.Fprintf(w, `go_memstats_stack_sys_bytes %d`+"\n", ms.StackSys)
fmt.Fprintf(w, `go_memstats_sys_bytes %d`+"\n", ms.Sys)
fmt.Fprintf(w, `go_cgo_calls_count %d`+"\n", runtime.NumCgoCall())
fmt.Fprintf(w, `go_cpu_count %d`+"\n", runtime.NumCPU())
gcPauses := histogram.NewFast()
for _, pauseNs := range ms.PauseNs[:] {
gcPauses.Update(float64(pauseNs) / 1e9)
}
phis := []float64{0, 0.25, 0.5, 0.75, 1}
quantiles := make([]float64, 0, len(phis))
for i, q := range gcPauses.Quantiles(quantiles[:0], phis) {
fmt.Fprintf(w, `go_gc_duration_seconds{quantile="%g"} %f`+"\n", phis[i], q)
}
fmt.Fprintf(w, `go_gc_duration_seconds_sum %f`+"\n", float64(ms.PauseTotalNs)/1e9)
fmt.Fprintf(w, `go_gc_duration_seconds_count %d`+"\n", ms.NumGC)
fmt.Fprintf(w, `go_gc_forced_count %d`+"\n", ms.NumForcedGC)
fmt.Fprintf(w, `go_gomaxprocs %d`+"\n", runtime.GOMAXPROCS(0))
fmt.Fprintf(w, `go_goroutines %d`+"\n", runtime.NumGoroutine())
numThread, _ := runtime.ThreadCreateProfile(nil)
fmt.Fprintf(w, `go_threads %d`+"\n", numThread)
// Export build details.
fmt.Fprintf(w, "go_info{version=%q} 1\n", runtime.Version())
fmt.Fprintf(w, "go_info_ext{compiler=%q, GOARCH=%q, GOOS=%q, GOROOT=%q} 1\n",
runtime.Compiler, runtime.GOARCH, runtime.GOOS, runtime.GOROOT())
}
var startTime = time.Now()