event/event_test.go - exp - Git at Google

 // Copyright 2020 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 //go:build !disable_events
 // +build !disable_events

 package event_test

 import (
 	"context"
 	"errors"
 	"fmt"
 	"os"
 	"testing"
 	"time"

 	"github.com/google/go-cmp/cmp"
 	"golang.org/x/exp/event"
 	"golang.org/x/exp/event/adapter/logfmt"
 	"golang.org/x/exp/event/eventtest"
 )

 var (
 	l1      = event.Int64("l1", 1)
 	l2      = event.Int64("l2", 2)
 	l3      = event.Int64("l3", 3)
 	counter = event.NewCounter("hits", nil)
 	gauge   = event.NewFloatGauge("temperature", nil)
 	latency = event.NewDuration("latency", nil)
 	err     = errors.New("an error")
 )

 func TestCommon(t *testing.T) {
 	for _, test := range []struct {
 		method string
 		events func(context.Context)
 		expect []event.Event
 	}{{
 		method: "simple",
 		events: func(ctx context.Context) { event.Log(ctx, "a message") },
 		expect: []event.Event{{
 			ID:     1,
 			Kind:   event.LogKind,
 			Labels: []event.Label{event.String("msg", "a message")},
 		}},
 	}, {
 		method: "log 1",
 		events: func(ctx context.Context) { event.Log(ctx, "a message", l1) },
 		expect: []event.Event{{
 			ID:     1,
 			Kind:   event.LogKind,
 			Labels: []event.Label{event.String("msg", "a message"), l1},
 		}},
 	}, {
 		method: "log 2",
 		events: func(ctx context.Context) { event.Log(ctx, "a message", l1, l2) },
 		expect: []event.Event{{
 			ID:     1,
 			Kind:   event.LogKind,
 			Labels: []event.Label{event.String("msg", "a message"), l1, l2},
 		}},
 	}, {
 		method: "log 3",
 		events: func(ctx context.Context) { event.Log(ctx, "a message", l1, l2, l3) },
 		expect: []event.Event{{
 			ID:     1,
 			Kind:   event.LogKind,
 			Labels: []event.Label{event.String("msg", "a message"), l1, l2, l3},
 		}},
 	}, {
 		method: "logf",
 		events: func(ctx context.Context) { event.Logf(ctx, "logf %s message", "to") },
 		expect: []event.Event{{
 			ID:     1,
 			Kind:   event.LogKind,
 			Labels: []event.Label{event.String("msg", "logf to message")},
 		}},
 	}, {
 		method: "error",
 		events: func(ctx context.Context) { event.Error(ctx, "failed", err, l1) },
 		expect: []event.Event{{
 			ID:   1,
 			Kind: event.LogKind,
 			Labels: []event.Label{
 				event.String("msg", "failed"),
 				event.Value("error", err),
 				l1,
 			},
 		}},
 	}, {
 		method: "span",
 		events: func(ctx context.Context) {
 			ctx = event.Start(ctx, `span`)
 			event.End(ctx)
 		},
 		expect: []event.Event{{
 			ID:     1,
 			Kind:   event.StartKind,
 			Labels: []event.Label{event.String("name", "span")},
 		}, {
 			ID:     2,
 			Parent: 1,
 			Kind:   event.EndKind,
 			Labels: []event.Label{},
 		}},
 	}, {
 		method: "span nested",
 		events: func(ctx context.Context) {
 			ctx = event.Start(ctx, "parent")
 			defer event.End(ctx)
 			child := event.Start(ctx, "child")
 			defer event.End(child)
 			event.Log(child, "message")
 		},
 		expect: []event.Event{{
 			ID:     1,
 			Kind:   event.StartKind,
 			Labels: []event.Label{event.String("name", "parent")},
 		}, {
 			ID:     2,
 			Parent: 1,
 			Kind:   event.StartKind,
 			Labels: []event.Label{event.String("name", "child")},
 		}, {
 			ID:     3,
 			Parent: 2,
 			Kind:   event.LogKind,
 			Labels: []event.Label{event.String("msg", "message")},
 		}, {
 			ID:     4,
 			Parent: 2,
 			Kind:   event.EndKind,
 			Labels: []event.Label{},
 		}, {
 			ID:     5,
 			Parent: 1,
 			Kind:   event.EndKind,
 			Labels: []event.Label{},
 		}},
 	}, {
 		method: "counter",
 		events: func(ctx context.Context) { counter.Record(ctx, 2, l1) },
 		expect: []event.Event{{
 			ID:   1,
 			Kind: event.MetricKind,
 			Labels: []event.Label{
 				event.Int64("metricValue", 2),
 				event.Value("metric", counter),
 				l1,
 			},
 		}},
 	}, {
 		method: "gauge",
 		events: func(ctx context.Context) { gauge.Record(ctx, 98.6, l1) },
 		expect: []event.Event{{
 			ID:   1,
 			Kind: event.MetricKind,
 			Labels: []event.Label{
 				event.Float64("metricValue", 98.6),
 				event.Value("metric", gauge),
 				l1,
 			},
 		}},
 	}, {
 		method: "duration",
 		events: func(ctx context.Context) { latency.Record(ctx, 3*time.Second, l1, l2) },
 		expect: []event.Event{{
 			ID:   1,
 			Kind: event.MetricKind,
 			Labels: []event.Label{
 				event.Duration("metricValue", 3*time.Second),
 				event.Value("metric", latency),
 				l1, l2,
 			},
 		}},
 	}, {
 		method: "annotate",
 		events: func(ctx context.Context) { event.Annotate(ctx, l1) },
 		expect: []event.Event{{
 			ID:     1,
 			Labels: []event.Label{l1},
 		}},
 	}, {
 		method: "annotate 2",
 		events: func(ctx context.Context) { event.Annotate(ctx, l1, l2) },
 		expect: []event.Event{{
 			ID:     1,
 			Labels: []event.Label{l1, l2},
 		}},
 	}, {
 		method: "multiple events",
 		events: func(ctx context.Context) {
 			/*TODO: this is supposed to be using a cached target
 			t := event.To(ctx)
 			p := event.Prototype{}.As(event.LogKind)
 			t.With(p).Int("myInt", 6).Message("my event").Send()
 			t.With(p).String("myString", "some string value").Message("string event").Send()
 			*/
 			event.Log(ctx, "my event", event.Int64("myInt", 6))
 			event.Log(ctx, "string event", event.String("myString", "some string value"))
 		},
 		expect: []event.Event{{
 			ID:   1,
 			Kind: event.LogKind,
 			Labels: []event.Label{
 				event.String("msg", "my event"),
 				event.Int64("myInt", 6),
 			},
 		}, {
 			ID:   2,
 			Kind: event.LogKind,
 			Labels: []event.Label{
 				event.String("msg", "string event"),
 				event.String("myString", "some string value"),
 			},
 		}},
 	}} {
 		t.Run(test.method, func(t *testing.T) {
 			ctx, h := eventtest.NewCapture()
 			test.events(ctx)
 			if diff := cmp.Diff(test.expect, h.Got, eventtest.CmpOptions()...); diff != "" {
 				t.Errorf("mismatch (-want, +got):\n%s", diff)
 			}
 		})
 	}
 }

 func ExampleLog() {
 	ctx := event.WithExporter(context.Background(), event.NewExporter(logfmt.NewHandler(os.Stdout), eventtest.ExporterOptions()))
 	event.Log(ctx, "my event", event.Int64("myInt", 6))
 	event.Log(ctx, "error event", event.String("myString", "some string value"))
 	// Output:
 	// time="2020/03/05 14:27:48" myInt=6 msg="my event"
 	// time="2020/03/05 14:27:49" myString="some string value" msg="error event"
 }

 func TestLogEventf(t *testing.T) {
 	eventtest.TestBenchmark(t, eventPrint, eventLogf, eventtest.LogfOutput)
 }

 func TestLogEvent(t *testing.T) {
 	eventtest.TestBenchmark(t, eventPrint, eventLog, eventtest.LogfmtOutput)
 }

 func TestTraceBuilder(t *testing.T) {
 	// Verify that the context returned from the handler is also returned from Start,
 	// and is the context passed to End.
 	ctx := event.WithExporter(context.Background(), event.NewExporter(&testTraceHandler{t: t}, eventtest.ExporterOptions()))
 	ctx = event.Start(ctx, "s")
 	val := ctx.Value("x")
 	if val != 1 {
 		t.Fatal("context not returned from Start")
 	}
 	event.End(ctx)
 }

 type testTraceHandler struct {
 	t *testing.T
 }

 func (t *testTraceHandler) Event(ctx context.Context, ev *event.Event) context.Context {
 	switch ev.Kind {
 	case event.StartKind:
 		return context.WithValue(ctx, "x", 1)
 	case event.EndKind:
 		val := ctx.Value("x")
 		if val != 1 {
 			t.t.Fatal("Start context not passed to End")
 		}
 		return ctx
 	default:
 		return ctx
 	}
 }

 func TestTraceDuration(t *testing.T) {
 	// Verify that a trace can can emit a latency metric.
 	dur := event.NewDuration("test", nil)
 	want := time.Second

 	check := func(t *testing.T, h *testTraceDurationHandler) {
 		if !h.got.HasValue() {
 			t.Fatal("no metric value")
 		}
 		got := h.got.Duration()
 		if got != want {
 			t.Fatalf("got %s, want %s", got, want)
 		}
 	}

 	t.Run("returned builder", func(t *testing.T) {
 		h := &testTraceDurationHandler{}
 		ctx := event.WithExporter(context.Background(), event.NewExporter(h, eventtest.ExporterOptions()))
 		ctx = event.Start(ctx, "s")
 		time.Sleep(want)
 		event.End(ctx, event.DurationMetric.Of(dur))
 		check(t, h)
 	})
 	//TODO: come back and fix this
 	t.Run("separate builder", func(t *testing.T) {
 		h := &testTraceDurationHandler{}
 		ctx := event.WithExporter(context.Background(), event.NewExporter(h, eventtest.ExporterOptions()))
 		ctx = event.Start(ctx, "s")
 		time.Sleep(want)
 		event.End(ctx, event.DurationMetric.Of(dur))
 		check(t, h)
 	})
 }

 type testTraceDurationHandler struct {
 	got event.Label
 }

 func (t *testTraceDurationHandler) Event(ctx context.Context, ev *event.Event) context.Context {
 	for _, l := range ev.Labels {
 		if l.Name == string(event.MetricVal) {
 			t.got = l
 		}
 	}
 	return ctx
 }

 func BenchmarkBuildContext(b *testing.B) {
 	// How long does it take to deliver an event from a nested context?
 	c := event.NewCounter("c", nil)
 	for _, depth := range []int{1, 5, 7, 10} {
 		b.Run(fmt.Sprintf("depth %d", depth), func(b *testing.B) {
 			ctx := event.WithExporter(context.Background(), event.NewExporter(nopHandler{}, eventtest.ExporterOptions()))
 			for i := 0; i < depth; i++ {
 				ctx = context.WithValue(ctx, i, i)
 			}
 			b.Run("direct", func(b *testing.B) {
 				for i := 0; i < b.N; i++ {
 					c.Record(ctx, 1)
 				}
 			})
 			/*TODO: work out how we do cached labels
 			b.Run("cloned", func(b *testing.B) {
 				bu := event.To(ctx)
 				for i := 0; i < b.N; i++ {
 					c.RecordTB(bu, 1).Name("foo").Send()
 				}
 			})
 			*/
 		})
 	}
 }
	// Copyright 2020 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	//go:build !disable_events
	// +build !disable_events

	package event_test

	import (
	"context"
	"errors"
	"fmt"
	"os"
	"testing"
	"time"

	"github.com/google/go-cmp/cmp"
	"golang.org/x/exp/event"
	"golang.org/x/exp/event/adapter/logfmt"
	"golang.org/x/exp/event/eventtest"
	)

	var (
	l1 = event.Int64("l1", 1)
	l2 = event.Int64("l2", 2)
	l3 = event.Int64("l3", 3)
	counter = event.NewCounter("hits", nil)
	gauge = event.NewFloatGauge("temperature", nil)
	latency = event.NewDuration("latency", nil)
	err = errors.New("an error")
	)

	func TestCommon(t *testing.T) {
	for _, test := range []struct {
	method string
	events func(context.Context)
	expect []event.Event
	}{{
	method: "simple",
	events: func(ctx context.Context) { event.Log(ctx, "a message") },
	expect: []event.Event{{
	ID: 1,
	Kind: event.LogKind,
	Labels: []event.Label{event.String("msg", "a message")},
	}},
	}, {
	method: "log 1",
	events: func(ctx context.Context) { event.Log(ctx, "a message", l1) },
	expect: []event.Event{{
	ID: 1,
	Kind: event.LogKind,
	Labels: []event.Label{event.String("msg", "a message"), l1},
	}},
	}, {
	method: "log 2",
	events: func(ctx context.Context) { event.Log(ctx, "a message", l1, l2) },
	expect: []event.Event{{
	ID: 1,
	Kind: event.LogKind,
	Labels: []event.Label{event.String("msg", "a message"), l1, l2},
	}},
	}, {
	method: "log 3",
	events: func(ctx context.Context) { event.Log(ctx, "a message", l1, l2, l3) },
	expect: []event.Event{{
	ID: 1,
	Kind: event.LogKind,
	Labels: []event.Label{event.String("msg", "a message"), l1, l2, l3},
	}},
	}, {
	method: "logf",
	events: func(ctx context.Context) { event.Logf(ctx, "logf %s message", "to") },
	expect: []event.Event{{
	ID: 1,
	Kind: event.LogKind,
	Labels: []event.Label{event.String("msg", "logf to message")},
	}},
	}, {
	method: "error",
	events: func(ctx context.Context) { event.Error(ctx, "failed", err, l1) },
	expect: []event.Event{{
	ID: 1,
	Kind: event.LogKind,
	Labels: []event.Label{
	event.String("msg", "failed"),
	event.Value("error", err),
	l1,
	},
	}},
	}, {
	method: "span",
	events: func(ctx context.Context) {
	ctx = event.Start(ctx, `span`)
	event.End(ctx)
	},
	expect: []event.Event{{
	ID: 1,
	Kind: event.StartKind,
	Labels: []event.Label{event.String("name", "span")},
	}, {
	ID: 2,
	Parent: 1,
	Kind: event.EndKind,
	Labels: []event.Label{},
	}},
	}, {
	method: "span nested",
	events: func(ctx context.Context) {
	ctx = event.Start(ctx, "parent")
	defer event.End(ctx)
	child := event.Start(ctx, "child")
	defer event.End(child)
	event.Log(child, "message")
	},
	expect: []event.Event{{
	ID: 1,
	Kind: event.StartKind,
	Labels: []event.Label{event.String("name", "parent")},
	}, {
	ID: 2,
	Parent: 1,
	Kind: event.StartKind,
	Labels: []event.Label{event.String("name", "child")},
	}, {
	ID: 3,
	Parent: 2,
	Kind: event.LogKind,
	Labels: []event.Label{event.String("msg", "message")},
	}, {
	ID: 4,
	Parent: 2,
	Kind: event.EndKind,
	Labels: []event.Label{},
	}, {
	ID: 5,
	Parent: 1,
	Kind: event.EndKind,
	Labels: []event.Label{},
	}},
	}, {
	method: "counter",
	events: func(ctx context.Context) { counter.Record(ctx, 2, l1) },
	expect: []event.Event{{
	ID: 1,
	Kind: event.MetricKind,
	Labels: []event.Label{
	event.Int64("metricValue", 2),
	event.Value("metric", counter),
	l1,
	},
	}},
	}, {
	method: "gauge",
	events: func(ctx context.Context) { gauge.Record(ctx, 98.6, l1) },
	expect: []event.Event{{
	ID: 1,
	Kind: event.MetricKind,
	Labels: []event.Label{
	event.Float64("metricValue", 98.6),
	event.Value("metric", gauge),
	l1,
	},
	}},
	}, {
	method: "duration",
	events: func(ctx context.Context) { latency.Record(ctx, 3*time.Second, l1, l2) },
	expect: []event.Event{{
	ID: 1,
	Kind: event.MetricKind,
	Labels: []event.Label{
	event.Duration("metricValue", 3*time.Second),
	event.Value("metric", latency),
	l1, l2,
	},
	}},
	}, {
	method: "annotate",
	events: func(ctx context.Context) { event.Annotate(ctx, l1) },
	expect: []event.Event{{
	ID: 1,
	Labels: []event.Label{l1},
	}},
	}, {
	method: "annotate 2",
	events: func(ctx context.Context) { event.Annotate(ctx, l1, l2) },
	expect: []event.Event{{
	ID: 1,
	Labels: []event.Label{l1, l2},
	}},
	}, {
	method: "multiple events",
	events: func(ctx context.Context) {
	/*TODO: this is supposed to be using a cached target
	t := event.To(ctx)
	p := event.Prototype{}.As(event.LogKind)
	t.With(p).Int("myInt", 6).Message("my event").Send()
	t.With(p).String("myString", "some string value").Message("string event").Send()
	*/
	event.Log(ctx, "my event", event.Int64("myInt", 6))
	event.Log(ctx, "string event", event.String("myString", "some string value"))
	},
	expect: []event.Event{{
	ID: 1,
	Kind: event.LogKind,
	Labels: []event.Label{
	event.String("msg", "my event"),
	event.Int64("myInt", 6),
	},
	}, {
	ID: 2,
	Kind: event.LogKind,
	Labels: []event.Label{
	event.String("msg", "string event"),
	event.String("myString", "some string value"),
	},
	}},
	}} {
	t.Run(test.method, func(t *testing.T) {
	ctx, h := eventtest.NewCapture()
	test.events(ctx)
	if diff := cmp.Diff(test.expect, h.Got, eventtest.CmpOptions()...); diff != "" {
	t.Errorf("mismatch (-want, +got):\n%s", diff)
	}
	})
	}
	}

	func ExampleLog() {
	ctx := event.WithExporter(context.Background(), event.NewExporter(logfmt.NewHandler(os.Stdout), eventtest.ExporterOptions()))
	event.Log(ctx, "my event", event.Int64("myInt", 6))
	event.Log(ctx, "error event", event.String("myString", "some string value"))
	// Output:
	// time="2020/03/05 14:27:48" myInt=6 msg="my event"
	// time="2020/03/05 14:27:49" myString="some string value" msg="error event"
	}

	func TestLogEventf(t *testing.T) {
	eventtest.TestBenchmark(t, eventPrint, eventLogf, eventtest.LogfOutput)
	}

	func TestLogEvent(t *testing.T) {
	eventtest.TestBenchmark(t, eventPrint, eventLog, eventtest.LogfmtOutput)
	}

	func TestTraceBuilder(t *testing.T) {
	// Verify that the context returned from the handler is also returned from Start,
	// and is the context passed to End.
	ctx := event.WithExporter(context.Background(), event.NewExporter(&testTraceHandler{t: t}, eventtest.ExporterOptions()))
	ctx = event.Start(ctx, "s")
	val := ctx.Value("x")
	if val != 1 {
	t.Fatal("context not returned from Start")
	}
	event.End(ctx)
	}

	type testTraceHandler struct {
	t *testing.T
	}

	func (t testTraceHandler) Event(ctx context.Context, ev event.Event) context.Context {
	switch ev.Kind {
	case event.StartKind:
	return context.WithValue(ctx, "x", 1)
	case event.EndKind:
	val := ctx.Value("x")
	if val != 1 {
	t.t.Fatal("Start context not passed to End")
	}
	return ctx
	default:
	return ctx
	}
	}

	func TestTraceDuration(t *testing.T) {
	// Verify that a trace can can emit a latency metric.
	dur := event.NewDuration("test", nil)
	want := time.Second

	check := func(t testing.T, h testTraceDurationHandler) {
	if !h.got.HasValue() {
	t.Fatal("no metric value")
	}
	got := h.got.Duration()
	if got != want {
	t.Fatalf("got %s, want %s", got, want)
	}
	}

	t.Run("returned builder", func(t *testing.T) {
	h := &testTraceDurationHandler{}
	ctx := event.WithExporter(context.Background(), event.NewExporter(h, eventtest.ExporterOptions()))
	ctx = event.Start(ctx, "s")
	time.Sleep(want)
	event.End(ctx, event.DurationMetric.Of(dur))
	check(t, h)
	})
	//TODO: come back and fix this
	t.Run("separate builder", func(t *testing.T) {
	h := &testTraceDurationHandler{}
	ctx := event.WithExporter(context.Background(), event.NewExporter(h, eventtest.ExporterOptions()))
	ctx = event.Start(ctx, "s")
	time.Sleep(want)
	event.End(ctx, event.DurationMetric.Of(dur))
	check(t, h)
	})
	}

	type testTraceDurationHandler struct {
	got event.Label
	}

	func (t testTraceDurationHandler) Event(ctx context.Context, ev event.Event) context.Context {
	for _, l := range ev.Labels {
	if l.Name == string(event.MetricVal) {
	t.got = l
	}
	}
	return ctx
	}

	func BenchmarkBuildContext(b *testing.B) {
	// How long does it take to deliver an event from a nested context?
	c := event.NewCounter("c", nil)
	for _, depth := range []int{1, 5, 7, 10} {
	b.Run(fmt.Sprintf("depth %d", depth), func(b *testing.B) {
	ctx := event.WithExporter(context.Background(), event.NewExporter(nopHandler{}, eventtest.ExporterOptions()))
	for i := 0; i < depth; i++ {
	ctx = context.WithValue(ctx, i, i)
	}
	b.Run("direct", func(b *testing.B) {
	for i := 0; i < b.N; i++ {
	c.Record(ctx, 1)
	}
	})
	/*TODO: work out how we do cached labels
	b.Run("cloned", func(b *testing.B) {
	bu := event.To(ctx)
	for i := 0; i < b.N; i++ {
	c.RecordTB(bu, 1).Name("foo").Send()
	}
	})
	*/
	})
	}
	}