1
0
mirror of https://github.com/golang/go synced 2024-11-05 18:56:10 -07:00
go/internal/event/export/ocagent
Ian Cottrell a90b7300be internal/event: remove the event.eventType type
Instead of tagging events with their type, instead we infer the type from
the label pattern.
The standard event creators all have a matching test that returns true
if the the labels pattern matches the ones that would be built by the
creator.
Spans and logs already have a unique label pattern, other event types
required a special label marker.
This makes the system much more extensible, and also cleans up some
the API.

Change-Id: I1fbc9ec07aa84ead6c12bbd5ca65b13b605bfa4a
Reviewed-on: https://go-review.googlesource.com/c/tools/+/229242
Run-TryBot: Ian Cottrell <iancottrell@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Emmanuel Odeke <emm.odeke@gmail.com>
2020-04-27 15:30:19 +00:00
..
wire internal/event: move event/core.Tag to event/label.Label 2020-04-23 18:13:33 +00:00
metrics_test.go internal/event: extract keys to their own package 2020-04-23 18:13:43 +00:00
metrics.go internal/event: move event/core.Tag to event/label.Label 2020-04-23 18:13:33 +00:00
ocagent_test.go internal/event: remove the event.eventType type 2020-04-27 15:30:19 +00:00
ocagent.go internal/event: remove the event.eventType type 2020-04-27 15:30:19 +00:00
README.md internal/telemetry: renaming to internal/event 2020-04-23 17:20:48 +00:00
trace_test.go internal/event: remove the event.eventType type 2020-04-27 15:30:19 +00:00

Exporting Metrics and Traces with OpenCensus, Zipkin, and Prometheus

This tutorial provides a minimum example to verify that metrics and traces can be exported to OpenCensus from Go tools.

Setting up oragent

  1. Ensure you have docker and docker-compose.
  2. Clone oragent.
  3. In the oragent directory, start the services:
docker-compose up

If everything goes well, you should see output resembling the following:

Starting oragent_zipkin_1 ... done
Starting oragent_oragent_1 ... done
Starting oragent_prometheus_1 ... done
...
  1. To shut down oragent, hit Ctrl+C in the terminal.
  2. You can also start oragent in detached mode by running docker-compose up -d. To stop oragent while detached, run docker-compose down.

Exporting Metrics and Traces

  1. Clone the tools subrepository.
  2. Inside internal, create a file named main.go with the following contents:
package main

import (
	"context"
	"fmt"
	"math/rand"
	"net/http"
	"time"

	"golang.org/x/tools/internal/event"
	"golang.org/x/tools/internal/event/export"
	"golang.org/x/tools/internal/event/export/metric"
	"golang.org/x/tools/internal/event/export/ocagent"
)

type testExporter struct {
	metrics metric.Exporter
	ocagent *ocagent.Exporter
}

func (e *testExporter) ProcessEvent(ctx context.Context, ev event.Event) (context.Context, event.Event) {
	ctx, ev = export.Tag(ctx, ev)
	ctx, ev = export.ContextSpan(ctx, ev)
	ctx, ev = e.metrics.ProcessEvent(ctx, ev)
	ctx, ev = e.ocagent.ProcessEvent(ctx, ev)
	return ctx, ev
}

func main() {
	exporter := &testExporter{}

	exporter.ocagent = ocagent.Connect(&ocagent.Config{
		Start:   time.Now(),
		Address: "http://127.0.0.1:55678",
		Service: "go-tools-test",
		Rate:    5 * time.Second,
		Client:  &http.Client{},
	})
	event.SetExporter(exporter)

	ctx := context.TODO()
	mLatency := event.NewFloat64Key("latency", "the latency in milliseconds")
	distribution := metric.HistogramFloat64Data{
		Info: &metric.HistogramFloat64{
			Name:        "latencyDistribution",
			Description: "the various latencies",
			Buckets:     []float64{0, 10, 50, 100, 200, 400, 800, 1000, 1400, 2000, 5000, 10000, 15000},
		},
	}

	distribution.Info.Record(&exporter.metrics, mLatency)

	for {
		sleep := randomSleep()
		_, end := event.StartSpan(ctx, "main.randomSleep()")
		time.Sleep(time.Duration(sleep) * time.Millisecond)
		end()
		event.Record(ctx, mLatency.Of(float64(sleep)))

		fmt.Println("Latency: ", float64(sleep))
	}
}

func randomSleep() int64 {
	var max int64
	switch modulus := time.Now().Unix() % 5; modulus {
	case 0:
		max = 17001
	case 1:
		max = 8007
	case 2:
		max = 917
	case 3:
		max = 87
	case 4:
		max = 1173
	}
	return rand.Int63n(max)
}

  1. Run the new file from within the tools repository:
go run internal/main.go
  1. After about 5 seconds, OpenCensus should start receiving your new metrics, which you can see at http://localhost:8844/metrics. This page will look similar to the following:
# HELP promdemo_latencyDistribution the various latencies
# TYPE promdemo_latencyDistribution histogram
promdemo_latencyDistribution_bucket{vendor="otc",le="0"} 0
promdemo_latencyDistribution_bucket{vendor="otc",le="10"} 2
promdemo_latencyDistribution_bucket{vendor="otc",le="50"} 9
promdemo_latencyDistribution_bucket{vendor="otc",le="100"} 22
promdemo_latencyDistribution_bucket{vendor="otc",le="200"} 35
promdemo_latencyDistribution_bucket{vendor="otc",le="400"} 49
promdemo_latencyDistribution_bucket{vendor="otc",le="800"} 63
promdemo_latencyDistribution_bucket{vendor="otc",le="1000"} 78
promdemo_latencyDistribution_bucket{vendor="otc",le="1400"} 93
promdemo_latencyDistribution_bucket{vendor="otc",le="2000"} 108
promdemo_latencyDistribution_bucket{vendor="otc",le="5000"} 123
promdemo_latencyDistribution_bucket{vendor="otc",le="10000"} 138
promdemo_latencyDistribution_bucket{vendor="otc",le="15000"} 153
promdemo_latencyDistribution_bucket{vendor="otc",le="+Inf"} 15
promdemo_latencyDistribution_sum{vendor="otc"} 1641
promdemo_latencyDistribution_count{vendor="otc"} 15
  1. After a few more seconds, Prometheus should start displaying your new metrics. You can view the distribution at http://localhost:9445/graph?g0.range_input=5m&g0.stacked=1&g0.expr=rate(oragent_latencyDistribution_bucket%5B5m%5D)&g0.tab=0.

  2. Zipkin should also start displaying traces. You can view them at http://localhost:9444/zipkin/?limit=10&lookback=300000&serviceName=go-tools-test.