1
0
mirror of https://github.com/open-telemetry/opentelemetry-go.git synced 2024-12-12 10:04:29 +02:00
opentelemetry-go/sdk/trace/trace_test.go

914 lines
27 KiB
Go
Raw Normal View History

// Copyright 2019, OpenTelemetry Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package trace
import (
"context"
"fmt"
"math"
"strings"
"sync/atomic"
"testing"
"time"
"github.com/google/go-cmp/cmp"
"google.golang.org/grpc/codes"
"go.opentelemetry.io/api/core"
"go.opentelemetry.io/api/key"
"go.opentelemetry.io/api/testharness"
"go.opentelemetry.io/api/trace"
apitrace "go.opentelemetry.io/api/trace"
"go.opentelemetry.io/sdk/export"
)
var (
tid core.TraceID
sid core.SpanID
)
func init() {
tid, _ = core.TraceIDFromHex("01020304050607080102040810203040")
sid, _ = core.SpanIDFromHex("0102040810203040")
}
func TestTracerFollowsExpectedAPIBehaviour(t *testing.T) {
tp, err := NewProvider(WithConfig(Config{DefaultSampler: ProbabilitySampler(0)}))
if err != nil {
t.Fatalf("failed to create provider, err: %v\n", err)
}
harness := testharness.NewHarness(t)
subjectFactory := func() trace.Tracer {
return tp.GetTracer("")
}
harness.TestTracer(subjectFactory)
}
type testExporter struct {
spans []*export.SpanData
}
func (t *testExporter) ExportSpan(ctx context.Context, d *export.SpanData) {
t.spans = append(t.spans, d)
}
func TestSetName(t *testing.T) {
samplerIsCalled := false
fooSampler := Sampler(func(p SamplingParameters) SamplingDecision {
samplerIsCalled = true
t.Logf("called sampler for name %q", p.Name)
return SamplingDecision{Sample: strings.HasPrefix(p.Name, "SetName/foo")}
})
tp, _ := NewProvider(WithConfig(Config{DefaultSampler: fooSampler}))
type testCase struct {
name string
newName string
sampledBefore bool
sampledAfter bool
}
for idx, tt := range []testCase{
{ // 0
name: "foobar",
newName: "foobaz",
sampledBefore: true,
sampledAfter: true,
},
{ // 1
name: "foobar",
newName: "barbaz",
sampledBefore: true,
sampledAfter: false,
},
{ // 2
name: "barbar",
newName: "barbaz",
sampledBefore: false,
sampledAfter: false,
},
{ // 3
name: "barbar",
newName: "foobar",
sampledBefore: false,
sampledAfter: true,
},
} {
span := startNamedSpan(tp, "SetName", tt.name)
if !samplerIsCalled {
t.Errorf("%d: the sampler was not even called during span creation", idx)
}
samplerIsCalled = false
if gotSampledBefore := span.SpanContext().IsSampled(); tt.sampledBefore != gotSampledBefore {
t.Errorf("%d: invalid sampling decision before rename, expected %v, got %v", idx, tt.sampledBefore, gotSampledBefore)
}
span.SetName(tt.newName)
if !samplerIsCalled {
t.Errorf("%d: the sampler was not even called during span rename", idx)
}
samplerIsCalled = false
if gotSampledAfter := span.SpanContext().IsSampled(); tt.sampledAfter != gotSampledAfter {
t.Errorf("%d: invalid sampling decision after rename, expected %v, got %v", idx, tt.sampledAfter, gotSampledAfter)
}
span.End()
}
}
func TestRecordingIsOff(t *testing.T) {
tp, _ := NewProvider()
_, span := tp.GetTracer("Recording off").Start(context.Background(), "StartSpan")
defer span.End()
if span.IsRecording() == true {
t.Error("new span is recording events")
}
}
func TestSampling(t *testing.T) {
idg := defIDGenerator()
total := 10000
for name, tc := range map[string]struct {
sampler Sampler
expect float64
tolerance float64
parent bool
sampledParent bool
}{
// Span w/o a parent
"NeverSample": {sampler: NeverSample(), expect: 0, tolerance: 0},
"AlwaysSample": {sampler: AlwaysSample(), expect: 1.0, tolerance: 0},
"ProbabilitySampler_-1": {sampler: ProbabilitySampler(-1.0), expect: 0, tolerance: 0},
"ProbabilitySampler_.25": {sampler: ProbabilitySampler(0.25), expect: .25, tolerance: 0.015},
"ProbabilitySampler_.50": {sampler: ProbabilitySampler(0.50), expect: .5, tolerance: 0.015},
"ProbabilitySampler_.75": {sampler: ProbabilitySampler(0.75), expect: .75, tolerance: 0.015},
"ProbabilitySampler_2.0": {sampler: ProbabilitySampler(2.0), expect: 1, tolerance: 0},
// Spans with a parent that is *not* sampled act like spans w/o a parent
"UnsampledParentSpanWithProbabilitySampler_-1": {sampler: ProbabilitySampler(-1.0), expect: 0, tolerance: 0, parent: true},
"UnsampledParentSpanWithProbabilitySampler_.25": {sampler: ProbabilitySampler(.25), expect: .25, tolerance: 0.015, parent: true},
"UnsampledParentSpanWithProbabilitySampler_.50": {sampler: ProbabilitySampler(0.50), expect: .5, tolerance: 0.015, parent: true},
"UnsampledParentSpanWithProbabilitySampler_.75": {sampler: ProbabilitySampler(0.75), expect: .75, tolerance: 0.015, parent: true},
"UnsampledParentSpanWithProbabilitySampler_2.0": {sampler: ProbabilitySampler(2.0), expect: 1, tolerance: 0, parent: true},
// Spans with a parent that is sampled, will always sample, regardless of the probability
"SampledParentSpanWithProbabilitySampler_-1": {sampler: ProbabilitySampler(-1.0), expect: 1, tolerance: 0, parent: true, sampledParent: true},
"SampledParentSpanWithProbabilitySampler_.25": {sampler: ProbabilitySampler(.25), expect: 1, tolerance: 0, parent: true, sampledParent: true},
"SampledParentSpanWithProbabilitySampler_2.0": {sampler: ProbabilitySampler(2.0), expect: 1, tolerance: 0, parent: true, sampledParent: true},
// Spans with a sampled parent, but when using the NeverSample Sampler, aren't sampled
"SampledParentSpanWithNeverSample": {sampler: NeverSample(), expect: 0, tolerance: 0, parent: true, sampledParent: true},
} {
tc := tc
t.Run(name, func(t *testing.T) {
t.Parallel()
p, err := NewProvider(WithConfig(Config{DefaultSampler: tc.sampler}))
if err != nil {
t.Fatal("unexpected error:", err)
}
tr := p.GetTracer("test")
var sampled int
for i := 0; i < total; i++ {
var opts []apitrace.SpanOption
if tc.parent {
psc := core.SpanContext{
TraceID: idg.NewTraceID(),
SpanID: idg.NewSpanID(),
}
if tc.sampledParent {
psc.TraceFlags = core.TraceFlagsSampled
}
opts = append(opts, apitrace.ChildOf(psc))
}
_, span := tr.Start(context.Background(), "test", opts...)
if span.SpanContext().IsSampled() {
sampled++
}
}
got := float64(sampled) / float64(total)
diff := math.Abs(got - tc.expect)
if diff > tc.tolerance {
t.Errorf("got %f (diff: %f), expected %f (w/tolerance: %f)", got, diff, tc.expect, tc.tolerance)
}
})
}
}
func TestStartSpanWithChildOf(t *testing.T) {
tp, _ := NewProvider()
tr := tp.GetTracer("SpanWith ChildOf")
sc1 := core.SpanContext{
TraceID: tid,
SpanID: sid,
TraceFlags: 0x0,
}
_, s1 := tr.Start(context.Background(), "span1-unsampled-parent1", apitrace.ChildOf(sc1))
if err := checkChild(sc1, s1); err != nil {
t.Error(err)
}
_, s2 := tr.Start(context.Background(), "span2-unsampled-parent1", apitrace.ChildOf(sc1))
if err := checkChild(sc1, s2); err != nil {
t.Error(err)
}
sc2 := core.SpanContext{
TraceID: tid,
SpanID: sid,
TraceFlags: 0x1,
//Tracestate: testTracestate,
}
_, s3 := tr.Start(context.Background(), "span3-sampled-parent2", apitrace.ChildOf(sc2))
if err := checkChild(sc2, s3); err != nil {
t.Error(err)
}
ctx, s4 := tr.Start(context.Background(), "span4-sampled-parent2", apitrace.ChildOf(sc2))
if err := checkChild(sc2, s4); err != nil {
t.Error(err)
}
s4Sc := s4.SpanContext()
_, s5 := tr.Start(ctx, "span5-implicit-childof-span4")
if err := checkChild(s4Sc, s5); err != nil {
t.Error(err)
}
}
func TestStartSpanWithFollowsFrom(t *testing.T) {
tp, _ := NewProvider()
tr := tp.GetTracer("SpanWith FollowsFrom")
sc1 := core.SpanContext{
TraceID: tid,
SpanID: sid,
TraceFlags: 0x0,
}
_, s1 := tr.Start(context.Background(), "span1-unsampled-parent1", apitrace.FollowsFrom(sc1))
if err := checkChild(sc1, s1); err != nil {
t.Error(err)
}
_, s2 := tr.Start(context.Background(), "span2-unsampled-parent1", apitrace.FollowsFrom(sc1))
if err := checkChild(sc1, s2); err != nil {
t.Error(err)
}
sc2 := core.SpanContext{
TraceID: tid,
SpanID: sid,
TraceFlags: 0x1,
//Tracestate: testTracestate,
}
_, s3 := tr.Start(context.Background(), "span3-sampled-parent2", apitrace.FollowsFrom(sc2))
if err := checkChild(sc2, s3); err != nil {
t.Error(err)
}
ctx, s4 := tr.Start(context.Background(), "span4-sampled-parent2", apitrace.FollowsFrom(sc2))
if err := checkChild(sc2, s4); err != nil {
t.Error(err)
}
s4Sc := s4.SpanContext()
_, s5 := tr.Start(ctx, "span5-implicit-childof-span4")
if err := checkChild(s4Sc, s5); err != nil {
t.Error(err)
}
}
// TODO: [rghetia] Equivalent of SpanKind Test.
func TestSetSpanAttributes(t *testing.T) {
te := &testExporter{}
tp, _ := NewProvider(WithSyncer(te))
span := startSpan(tp, "SpanAttribute")
span.SetAttribute(key.New("key1").String("value1"))
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
want := &export.SpanData{
SpanContext: core.SpanContext{
TraceID: tid,
TraceFlags: 0x1,
},
ParentSpanID: sid,
Name: "SpanAttribute/span0",
Attributes: []core.KeyValue{
key.String("key1", "value1"),
},
SpanKind: "internal",
HasRemoteParent: true,
}
if diff := cmpDiff(got, want); diff != "" {
t.Errorf("SetSpanAttributes: -got +want %s", diff)
}
}
func TestSetSpanAttributesOverLimit(t *testing.T) {
te := &testExporter{}
cfg := Config{MaxAttributesPerSpan: 2}
tp, _ := NewProvider(WithConfig(cfg), WithSyncer(te))
span := startSpan(tp, "SpanAttributesOverLimit")
span.SetAttribute(key.Bool("key1", true))
span.SetAttribute(key.String("key2", "value2"))
span.SetAttribute(key.Bool("key1", false)) // Replace key1.
span.SetAttribute(key.Int64("key4", 4)) // Remove key2 and add key4
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
want := &export.SpanData{
SpanContext: core.SpanContext{
TraceID: tid,
TraceFlags: 0x1,
},
ParentSpanID: sid,
Name: "SpanAttributesOverLimit/span0",
Attributes: []core.KeyValue{
key.Bool("key1", false),
key.Int64("key4", 4),
},
SpanKind: "internal",
HasRemoteParent: true,
DroppedAttributeCount: 1,
}
if diff := cmpDiff(got, want); diff != "" {
t.Errorf("SetSpanAttributesOverLimit: -got +want %s", diff)
}
}
func TestEvents(t *testing.T) {
te := &testExporter{}
tp, _ := NewProvider(WithSyncer(te))
span := startSpan(tp, "Events")
k1v1 := key.New("key1").String("value1")
k2v2 := key.Bool("key2", true)
k3v3 := key.Int64("key3", 3)
span.AddEvent(context.Background(), "foo", key.New("key1").String("value1"))
span.AddEvent(context.Background(), "bar",
key.Bool("key2", true),
key.Int64("key3", 3),
)
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
for i := range got.MessageEvents {
if !checkTime(&got.MessageEvents[i].Time) {
t.Error("exporting span: expected nonzero Event Time")
}
}
want := &export.SpanData{
SpanContext: core.SpanContext{
TraceID: tid,
TraceFlags: 0x1,
},
ParentSpanID: sid,
Name: "Events/span0",
HasRemoteParent: true,
MessageEvents: []export.Event{
{Message: "foo", Attributes: []core.KeyValue{k1v1}},
{Message: "bar", Attributes: []core.KeyValue{k2v2, k3v3}},
},
SpanKind: "internal",
}
if diff := cmpDiff(got, want); diff != "" {
t.Errorf("Message Events: -got +want %s", diff)
}
}
func TestEventsOverLimit(t *testing.T) {
te := &testExporter{}
cfg := Config{MaxEventsPerSpan: 2}
tp, _ := NewProvider(WithConfig(cfg), WithSyncer(te))
span := startSpan(tp, "EventsOverLimit")
k1v1 := key.New("key1").String("value1")
k2v2 := key.Bool("key2", false)
k3v3 := key.New("key3").String("value3")
span.AddEvent(context.Background(), "fooDrop", key.New("key1").String("value1"))
span.AddEvent(context.Background(), "barDrop",
key.Bool("key2", true),
key.New("key3").String("value3"),
)
span.AddEvent(context.Background(), "foo", key.New("key1").String("value1"))
span.AddEvent(context.Background(), "bar",
key.Bool("key2", false),
key.New("key3").String("value3"),
)
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
for i := range got.MessageEvents {
if !checkTime(&got.MessageEvents[i].Time) {
t.Error("exporting span: expected nonzero Event Time")
}
}
want := &export.SpanData{
SpanContext: core.SpanContext{
TraceID: tid,
TraceFlags: 0x1,
},
ParentSpanID: sid,
Name: "EventsOverLimit/span0",
MessageEvents: []export.Event{
{Message: "foo", Attributes: []core.KeyValue{k1v1}},
{Message: "bar", Attributes: []core.KeyValue{k2v2, k3v3}},
},
DroppedMessageEventCount: 2,
HasRemoteParent: true,
SpanKind: "internal",
}
if diff := cmpDiff(got, want); diff != "" {
t.Errorf("Message Event over limit: -got +want %s", diff)
}
}
func TestAddLinks(t *testing.T) {
te := &testExporter{}
tp, _ := NewProvider(WithSyncer(te))
span := startSpan(tp, "AddLinks")
k1v1 := key.New("key1").String("value1")
k2v2 := key.New("key2").String("value2")
sc1 := core.SpanContext{TraceID: core.TraceID([16]byte{1, 1}), SpanID: core.SpanID{3}}
sc2 := core.SpanContext{TraceID: core.TraceID([16]byte{1, 1}), SpanID: core.SpanID{3}}
link1 := apitrace.Link{SpanContext: sc1, Attributes: []core.KeyValue{k1v1}}
link2 := apitrace.Link{SpanContext: sc2, Attributes: []core.KeyValue{k2v2}}
span.AddLink(link1)
span.AddLink(link2)
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
want := &export.SpanData{
SpanContext: core.SpanContext{
TraceID: tid,
TraceFlags: 0x1,
},
ParentSpanID: sid,
Name: "AddLinks/span0",
HasRemoteParent: true,
Links: []apitrace.Link{
{SpanContext: sc1, Attributes: []core.KeyValue{k1v1}},
{SpanContext: sc2, Attributes: []core.KeyValue{k2v2}},
},
SpanKind: "internal",
}
if diff := cmpDiff(got, want); diff != "" {
t.Errorf("AddLink: -got +want %s", diff)
}
}
func TestLinks(t *testing.T) {
te := &testExporter{}
tp, _ := NewProvider(WithSyncer(te))
span := startSpan(tp, "Links")
k1v1 := key.New("key1").String("value1")
k2v2 := key.New("key2").String("value2")
k3v3 := key.New("key3").String("value3")
sc1 := core.SpanContext{TraceID: core.TraceID([16]byte{1, 1}), SpanID: core.SpanID{3}}
sc2 := core.SpanContext{TraceID: core.TraceID([16]byte{1, 1}), SpanID: core.SpanID{3}}
span.Link(sc1, key.New("key1").String("value1"))
span.Link(sc2,
key.New("key2").String("value2"),
key.New("key3").String("value3"),
)
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
want := &export.SpanData{
SpanContext: core.SpanContext{
TraceID: tid,
TraceFlags: 0x1,
},
ParentSpanID: sid,
Name: "Links/span0",
HasRemoteParent: true,
Links: []apitrace.Link{
{SpanContext: sc1, Attributes: []core.KeyValue{k1v1}},
{SpanContext: sc2, Attributes: []core.KeyValue{k2v2, k3v3}},
},
SpanKind: "internal",
}
if diff := cmpDiff(got, want); diff != "" {
t.Errorf("Link: -got +want %s", diff)
}
}
func TestLinksOverLimit(t *testing.T) {
te := &testExporter{}
cfg := Config{MaxLinksPerSpan: 2}
sc1 := core.SpanContext{TraceID: core.TraceID([16]byte{1, 1}), SpanID: core.SpanID{3}}
sc2 := core.SpanContext{TraceID: core.TraceID([16]byte{1, 1}), SpanID: core.SpanID{3}}
sc3 := core.SpanContext{TraceID: core.TraceID([16]byte{1, 1}), SpanID: core.SpanID{3}}
tp, _ := NewProvider(WithConfig(cfg), WithSyncer(te))
span := startSpan(tp, "LinksOverLimit")
k2v2 := key.New("key2").String("value2")
k3v3 := key.New("key3").String("value3")
span.Link(sc1, key.New("key1").String("value1"))
span.Link(sc2, key.New("key2").String("value2"))
span.Link(sc3, key.New("key3").String("value3"))
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
want := &export.SpanData{
SpanContext: core.SpanContext{
TraceID: tid,
TraceFlags: 0x1,
},
ParentSpanID: sid,
Name: "LinksOverLimit/span0",
Links: []apitrace.Link{
{SpanContext: sc2, Attributes: []core.KeyValue{k2v2}},
{SpanContext: sc3, Attributes: []core.KeyValue{k3v3}},
},
DroppedLinkCount: 1,
HasRemoteParent: true,
SpanKind: "internal",
}
if diff := cmpDiff(got, want); diff != "" {
t.Errorf("Link over limit: -got +want %s", diff)
}
}
func TestSetSpanName(t *testing.T) {
te := &testExporter{}
tp, _ := NewProvider(WithSyncer(te))
want := "SetSpanName/SpanName-1"
_, span := tp.GetTracer("SetSpanName").Start(context.Background(), "SpanName-1",
apitrace.ChildOf(core.SpanContext{
TraceID: tid,
SpanID: sid,
TraceFlags: 1,
}),
)
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
if got.Name != want {
t.Errorf("span.Name: got %q; want %q", got.Name, want)
}
}
func TestSetSpanStatus(t *testing.T) {
te := &testExporter{}
tp, _ := NewProvider(WithSyncer(te))
span := startSpan(tp, "SpanStatus")
span.SetStatus(codes.Canceled)
got, err := endSpan(te, span)
if err != nil {
t.Fatal(err)
}
want := &export.SpanData{
SpanContext: core.SpanContext{
TraceID: tid,
TraceFlags: 0x1,
},
ParentSpanID: sid,
Name: "SpanStatus/span0",
SpanKind: "internal",
Status: codes.Canceled,
HasRemoteParent: true,
}
if diff := cmpDiff(got, want); diff != "" {
t.Errorf("SetSpanStatus: -got +want %s", diff)
}
}
func cmpDiff(x, y interface{}) string {
return cmp.Diff(x, y, cmp.AllowUnexported(core.Value{}), cmp.AllowUnexported(export.Event{}))
}
func remoteSpanContext() core.SpanContext {
return core.SpanContext{
TraceID: tid,
SpanID: sid,
TraceFlags: 1,
}
}
// checkChild is test utility function that tests that c has fields set appropriately,
// given that it is a child span of p.
func checkChild(p core.SpanContext, apiSpan apitrace.Span) error {
s := apiSpan.(*span)
if s == nil {
return fmt.Errorf("got nil child span, want non-nil")
}
if got, want := s.spanContext.TraceIDString(), p.TraceIDString(); got != want {
return fmt.Errorf("got child trace ID %s, want %s", got, want)
}
if childID, parentID := s.spanContext.SpanIDString(), p.SpanIDString(); childID == parentID {
return fmt.Errorf("got child span ID %s, parent span ID %s; want unequal IDs", childID, parentID)
}
if got, want := s.spanContext.TraceFlags, p.TraceFlags; got != want {
return fmt.Errorf("got child trace options %d, want %d", got, want)
}
// TODO [rgheita] : Fix tracestate test
//if got, want := c.spanContext.Tracestate, p.Tracestate; got != want {
// return fmt.Errorf("got child tracestate %v, want %v", got, want)
//}
return nil
}
// startSpan starts a span with a name "span0". See startNamedSpan for
// details.
func startSpan(tp *Provider, trName string) apitrace.Span {
return startNamedSpan(tp, trName, "span0")
}
// startNamed Span is a test utility func that starts a span with a
// passed name and with ChildOf option. remote span context contains
// TraceFlags with sampled bit set. This allows the span to be
// automatically sampled.
func startNamedSpan(tp *Provider, trName, name string) apitrace.Span {
_, span := tp.GetTracer(trName).Start(
context.Background(),
name,
apitrace.ChildOf(remoteSpanContext()),
apitrace.WithRecord(),
)
return span
}
// endSpan is a test utility function that ends the span in the context and
// returns the exported export.SpanData.
// It requires that span be sampled using one of these methods
// 1. Passing parent span context using ChildOf option
// 2. Use WithSampler(AlwaysSample())
// 3. Configuring AlwaysSample() as default sampler
//
// It also does some basic tests on the span.
// It also clears spanID in the export.SpanData to make the comparison easier.
func endSpan(te *testExporter, span apitrace.Span) (*export.SpanData, error) {
if !span.IsRecording() {
return nil, fmt.Errorf("IsRecording: got false, want true")
}
if !span.SpanContext().IsSampled() {
return nil, fmt.Errorf("IsSampled: got false, want true")
}
span.End()
if len(te.spans) != 1 {
return nil, fmt.Errorf("got exported spans %#v, want one span", te.spans)
}
got := te.spans[0]
if !got.SpanContext.SpanID.IsValid() {
return nil, fmt.Errorf("exporting span: expected nonzero SpanID")
}
got.SpanContext.SpanID = core.SpanID{}
if !checkTime(&got.StartTime) {
return nil, fmt.Errorf("exporting span: expected nonzero StartTime")
}
if !checkTime(&got.EndTime) {
return nil, fmt.Errorf("exporting span: expected nonzero EndTime")
}
return got, nil
}
// checkTime checks that a nonzero time was set in x, then clears it.
func checkTime(x *time.Time) bool {
if x.IsZero() {
return false
}
*x = time.Time{}
return true
}
type fakeExporter map[string]*export.SpanData
func (f fakeExporter) ExportSpan(ctx context.Context, s *export.SpanData) {
f[s.Name] = s
}
func TestEndSpanTwice(t *testing.T) {
spans := make(fakeExporter)
tp, _ := NewProvider(WithSyncer(spans))
span := startSpan(tp, "EndSpanTwice")
span.End()
span.End()
if len(spans) != 1 {
t.Fatalf("expected only a single span, got %#v", spans)
}
}
func TestStartSpanAfterEnd(t *testing.T) {
spans := make(fakeExporter)
tp, _ := NewProvider(WithConfig(Config{DefaultSampler: AlwaysSample()}), WithSyncer(spans))
tr := tp.GetTracer("SpanAfterEnd")
ctx, span0 := tr.Start(context.Background(), "parent", apitrace.ChildOf(remoteSpanContext()))
ctx1, span1 := tr.Start(ctx, "span-1")
span1.End()
// Start a new span with the context containing span-1
// even though span-1 is ended, we still add this as a new child of span-1
_, span2 := tr.Start(ctx1, "span-2")
span2.End()
span0.End()
if got, want := len(spans), 3; got != want {
t.Fatalf("len(%#v) = %d; want %d", spans, got, want)
}
if got, want := spans["SpanAfterEnd/span-1"].SpanContext.TraceID, spans["SpanAfterEnd/parent"].SpanContext.TraceID; got != want {
t.Errorf("span-1.TraceID=%q; want %q", got, want)
}
if got, want := spans["SpanAfterEnd/span-2"].SpanContext.TraceID, spans["SpanAfterEnd/parent"].SpanContext.TraceID; got != want {
t.Errorf("span-2.TraceID=%q; want %q", got, want)
}
if got, want := spans["SpanAfterEnd/span-1"].ParentSpanID, spans["SpanAfterEnd/parent"].SpanContext.SpanID; got != want {
t.Errorf("span-1.ParentSpanID=%q; want %q (parent.SpanID)", got, want)
}
if got, want := spans["SpanAfterEnd/span-2"].ParentSpanID, spans["SpanAfterEnd/span-1"].SpanContext.SpanID; got != want {
t.Errorf("span-2.ParentSpanID=%q; want %q (span1.SpanID)", got, want)
}
}
func TestChildSpanCount(t *testing.T) {
spans := make(fakeExporter)
tp, _ := NewProvider(WithConfig(Config{DefaultSampler: AlwaysSample()}), WithSyncer(spans))
tr := tp.GetTracer("ChidSpanCount")
ctx, span0 := tr.Start(context.Background(), "parent")
ctx1, span1 := tr.Start(ctx, "span-1")
_, span2 := tr.Start(ctx1, "span-2")
span2.End()
span1.End()
_, span3 := tr.Start(ctx, "span-3")
span3.End()
span0.End()
if got, want := len(spans), 4; got != want {
t.Fatalf("len(%#v) = %d; want %d", spans, got, want)
}
if got, want := spans["ChidSpanCount/span-3"].ChildSpanCount, 0; got != want {
t.Errorf("span-3.ChildSpanCount=%q; want %q", got, want)
}
if got, want := spans["ChidSpanCount/span-2"].ChildSpanCount, 0; got != want {
t.Errorf("span-2.ChildSpanCount=%q; want %q", got, want)
}
if got, want := spans["ChidSpanCount/span-1"].ChildSpanCount, 1; got != want {
t.Errorf("span-1.ChildSpanCount=%q; want %q", got, want)
}
if got, want := spans["ChidSpanCount/parent"].ChildSpanCount, 2; got != want {
t.Errorf("parent.ChildSpanCount=%q; want %q", got, want)
}
}
func TestNilSpanEnd(t *testing.T) {
var span *span
span.End()
}
func TestExecutionTracerTaskEnd(t *testing.T) {
var n uint64
tp, _ := NewProvider(WithConfig(Config{DefaultSampler: NeverSample()}))
tr := tp.GetTracer("Execution Tracer Task End")
executionTracerTaskEnd := func() {
atomic.AddUint64(&n, 1)
}
var spans []*span
_, apiSpan := tr.Start(context.Background(), "foo")
s := apiSpan.(*span)
s.executionTracerTaskEnd = executionTracerTaskEnd
spans = append(spans, s) // never sample
tID, _ := core.TraceIDFromHex("0102030405060708090a0b0c0d0e0f")
sID, _ := core.SpanIDFromHex("0001020304050607")
_, apiSpan = tr.Start(
context.Background(),
"foo",
apitrace.ChildOf(
core.SpanContext{
TraceID: tID,
SpanID: sID,
TraceFlags: 0,
},
),
)
s = apiSpan.(*span)
s.executionTracerTaskEnd = executionTracerTaskEnd
spans = append(spans, s) // parent not sampled
//tp.ApplyConfig(Config{DefaultSampler: AlwaysSample()})
_, apiSpan = tr.Start(context.Background(), "foo")
s = apiSpan.(*span)
s.executionTracerTaskEnd = executionTracerTaskEnd
spans = append(spans, s) // always sample
for _, span := range spans {
span.End()
}
if got, want := n, uint64(len(spans)); got != want {
t.Fatalf("Execution tracer task ended for %v spans; want %v", got, want)
}
}
func TestCustomStartEndTime(t *testing.T) {
var te testExporter
tp, _ := NewProvider(WithSyncer(&te), WithConfig(Config{DefaultSampler: AlwaysSample()}))
startTime := time.Date(2019, time.August, 27, 14, 42, 0, 0, time.UTC)
endTime := startTime.Add(time.Second * 20)
_, span := tp.GetTracer("Custom Start and End time").Start(
context.Background(),
"testspan",
apitrace.WithStartTime(startTime),
)
span.End(apitrace.WithEndTime(endTime))
if len(te.spans) != 1 {
t.Fatalf("got exported spans %#v, want one span", te.spans)
}
got := te.spans[0]
if got.StartTime != startTime {
t.Errorf("expected start time to be %s, got %s", startTime, got.StartTime)
}
if got.EndTime != endTime {
t.Errorf("expected end time to be %s, got %s", endTime, got.EndTime)
}
}
func TestWithSpanKind(t *testing.T) {
var te testExporter
tp, _ := NewProvider(WithSyncer(&te), WithConfig(Config{DefaultSampler: AlwaysSample()}))
tr := tp.GetTracer("withSpanKind")
_, span := tr.Start(context.Background(), "WithoutSpanKind")
spanData, err := endSpan(&te, span)
if err != nil {
t.Error(err.Error())
}
if spanData.SpanKind != apitrace.SpanKindInternal {
t.Errorf("Default value of Spankind should be Internal: got %+v, want %+v\n", spanData.SpanKind, apitrace.SpanKindInternal)
}
sks := []apitrace.SpanKind{
apitrace.SpanKindInternal,
apitrace.SpanKindServer,
apitrace.SpanKindClient,
apitrace.SpanKindProducer,
apitrace.SpanKindConsumer,
}
for _, sk := range sks {
te.spans = nil
_, span := tr.Start(context.Background(), fmt.Sprintf("SpanKind-%v", sk), apitrace.WithSpanKind(sk))
spanData, err := endSpan(&te, span)
if err != nil {
t.Error(err.Error())
}
if spanData.SpanKind != sk {
t.Errorf("WithSpanKind check: got %+v, want %+v\n", spanData.SpanKind, sks)
}
}
}