[VOL-1349] EPON ONU adapter (package B)
Change-Id: I609ba349c429bc7e87c74b66bb1121841f9caef6
diff --git a/vendor/github.com/armon/go-metrics/inmem_signal.go b/vendor/github.com/armon/go-metrics/inmem_signal.go
new file mode 100644
index 0000000..0937f4a
--- /dev/null
+++ b/vendor/github.com/armon/go-metrics/inmem_signal.go
@@ -0,0 +1,117 @@
+package metrics
+
+import (
+ "bytes"
+ "fmt"
+ "io"
+ "os"
+ "os/signal"
+ "strings"
+ "sync"
+ "syscall"
+)
+
+// InmemSignal is used to listen for a given signal, and when received,
+// to dump the current metrics from the InmemSink to an io.Writer
+type InmemSignal struct {
+ signal syscall.Signal
+ inm *InmemSink
+ w io.Writer
+ sigCh chan os.Signal
+
+ stop bool
+ stopCh chan struct{}
+ stopLock sync.Mutex
+}
+
+// NewInmemSignal creates a new InmemSignal which listens for a given signal,
+// and dumps the current metrics out to a writer
+func NewInmemSignal(inmem *InmemSink, sig syscall.Signal, w io.Writer) *InmemSignal {
+ i := &InmemSignal{
+ signal: sig,
+ inm: inmem,
+ w: w,
+ sigCh: make(chan os.Signal, 1),
+ stopCh: make(chan struct{}),
+ }
+ signal.Notify(i.sigCh, sig)
+ go i.run()
+ return i
+}
+
+// DefaultInmemSignal returns a new InmemSignal that responds to SIGUSR1
+// and writes output to stderr. Windows uses SIGBREAK
+func DefaultInmemSignal(inmem *InmemSink) *InmemSignal {
+ return NewInmemSignal(inmem, DefaultSignal, os.Stderr)
+}
+
+// Stop is used to stop the InmemSignal from listening
+func (i *InmemSignal) Stop() {
+ i.stopLock.Lock()
+ defer i.stopLock.Unlock()
+
+ if i.stop {
+ return
+ }
+ i.stop = true
+ close(i.stopCh)
+ signal.Stop(i.sigCh)
+}
+
+// run is a long running routine that handles signals
+func (i *InmemSignal) run() {
+ for {
+ select {
+ case <-i.sigCh:
+ i.dumpStats()
+ case <-i.stopCh:
+ return
+ }
+ }
+}
+
+// dumpStats is used to dump the data to output writer
+func (i *InmemSignal) dumpStats() {
+ buf := bytes.NewBuffer(nil)
+
+ data := i.inm.Data()
+ // Skip the last period which is still being aggregated
+ for j := 0; j < len(data)-1; j++ {
+ intv := data[j]
+ intv.RLock()
+ for _, val := range intv.Gauges {
+ name := i.flattenLabels(val.Name, val.Labels)
+ fmt.Fprintf(buf, "[%v][G] '%s': %0.3f\n", intv.Interval, name, val.Value)
+ }
+ for name, vals := range intv.Points {
+ for _, val := range vals {
+ fmt.Fprintf(buf, "[%v][P] '%s': %0.3f\n", intv.Interval, name, val)
+ }
+ }
+ for _, agg := range intv.Counters {
+ name := i.flattenLabels(agg.Name, agg.Labels)
+ fmt.Fprintf(buf, "[%v][C] '%s': %s\n", intv.Interval, name, agg.AggregateSample)
+ }
+ for _, agg := range intv.Samples {
+ name := i.flattenLabels(agg.Name, agg.Labels)
+ fmt.Fprintf(buf, "[%v][S] '%s': %s\n", intv.Interval, name, agg.AggregateSample)
+ }
+ intv.RUnlock()
+ }
+
+ // Write out the bytes
+ i.w.Write(buf.Bytes())
+}
+
+// Flattens the key for formatting along with its labels, removes spaces
+func (i *InmemSignal) flattenLabels(name string, labels []Label) string {
+ buf := bytes.NewBufferString(name)
+ replacer := strings.NewReplacer(" ", "_", ":", "_")
+
+ for _, label := range labels {
+ replacer.WriteString(buf, ".")
+ replacer.WriteString(buf, label.Value)
+ }
+
+ return buf.String()
+}