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opentelemetry-go/sdk/log/logger_test.go
Flc゛ 80cb909774 refactor: replace context.Background() with t.Context()/b.Context() in tests (#7352) 
Based on the Go version we currently use, the dependency already
supports 1.24+, which allows using `t.Context()` and `b.Context()` in
unit tests and benchmarks respectively.

- Enable `context-background` and `context-todo` in
[`usetesting`](https://golangci-lint.run/docs/linters/configuration/#usetesting)
- Adjust the code to support linter detection

---------

Co-authored-by: Tyler Yahn <MrAlias@users.noreply.github.com>
Co-authored-by: Tyler Yahn <codingalias@gmail.com>
Co-authored-by: Damien Mathieu <42@dmathieu.com>
2025-09-23 09:52:45 +02:00

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// Copyright The OpenTelemetry Authors
// SPDX-License-Identifier: Apache-2.0
package log // import "go.opentelemetry.io/otel/sdk/log"
import (
"context"
"errors"
"strconv"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"go.opentelemetry.io/otel"
"go.opentelemetry.io/otel/attribute"
"go.opentelemetry.io/otel/log"
"go.opentelemetry.io/otel/metric"
"go.opentelemetry.io/otel/sdk"
"go.opentelemetry.io/otel/sdk/instrumentation"
sdkmetric "go.opentelemetry.io/otel/sdk/metric"
"go.opentelemetry.io/otel/sdk/metric/metricdata"
"go.opentelemetry.io/otel/sdk/metric/metricdata/metricdatatest"
"go.opentelemetry.io/otel/sdk/resource"
semconv "go.opentelemetry.io/otel/semconv/v1.37.0"
"go.opentelemetry.io/otel/semconv/v1.37.0/otelconv"
"go.opentelemetry.io/otel/trace"
)
func TestLoggerEmit(t *testing.T) {
nowDate := time.Date(2010, time.January, 1, 0, 0, 0, 0, time.UTC)
nowSwap := now
t.Cleanup(func() {
now = nowSwap
})
now = func() time.Time {
return nowDate
}
p0, p1, p2WithError := newProcessor("0"), newProcessor("1"), newProcessor("2")
p2WithError.Err = errors.New("error")
r := log.Record{}
r.SetEventName("testing.name")
r.SetTimestamp(time.Date(2000, time.January, 1, 0, 0, 0, 0, time.UTC))
r.SetBody(log.StringValue("testing body value"))
r.SetSeverity(log.SeverityInfo)
r.SetSeverityText("testing text")
r.AddAttributes(
log.String("k1", "str"),
log.Float64("k2", 1.0),
)
r.SetObservedTimestamp(time.Date(2001, time.January, 1, 0, 0, 0, 0, time.UTC))
rWithNoObservedTimestamp := r
rWithNoObservedTimestamp.SetObservedTimestamp(time.Time{})
rWithAllowKeyDuplication := r
rWithAllowKeyDuplication.AddAttributes(
log.String("k1", "str1"),
)
rWithAllowKeyDuplication.SetBody(log.MapValue(
log.Int64("1", 2),
log.Int64("1", 3),
))
rWithDuplicatesInBody := r
rWithDuplicatesInBody.SetBody(log.MapValue(
log.Int64("1", 2),
log.Int64("1", 3),
))
contextWithSpanContext := trace.ContextWithSpanContext(
t.Context(),
trace.NewSpanContext(trace.SpanContextConfig{
TraceID: trace.TraceID{0o1},
SpanID: trace.SpanID{0o2},
TraceFlags: 0x1,
}),
)
testCases := []struct {
name string
logger *logger
ctx context.Context
record log.Record
expectedRecords []Record
}{
{
name: "NoProcessors",
logger: newLogger(NewLoggerProvider(), instrumentation.Scope{}),
ctx: t.Context(),
record: r,
},
{
name: "WithProcessors",
logger: newLogger(NewLoggerProvider(
WithProcessor(p0),
WithProcessor(p1),
WithAttributeValueLengthLimit(3),
WithAttributeCountLimit(2),
WithResource(resource.NewSchemaless(attribute.String("key", "value"))),
), instrumentation.Scope{Name: "scope"}),
ctx: t.Context(),
record: r,
expectedRecords: []Record{
{
eventName: r.EventName(),
timestamp: r.Timestamp(),
body: r.Body(),
severity: r.Severity(),
severityText: r.SeverityText(),
observedTimestamp: r.ObservedTimestamp(),
resource: resource.NewSchemaless(attribute.String("key", "value")),
attributeValueLengthLimit: 3,
attributeCountLimit: 2,
scope: &instrumentation.Scope{Name: "scope"},
front: [attributesInlineCount]log.KeyValue{
log.String("k1", "str"),
log.Float64("k2", 1.0),
},
nFront: 2,
},
},
},
{
name: "WithProcessorsWithError",
logger: newLogger(NewLoggerProvider(
WithProcessor(p2WithError),
WithAttributeValueLengthLimit(3),
WithAttributeCountLimit(2),
WithResource(resource.NewSchemaless(attribute.String("key", "value"))),
), instrumentation.Scope{Name: "scope"}),
ctx: t.Context(),
},
{
name: "WithTraceSpanInContext",
logger: newLogger(NewLoggerProvider(
WithProcessor(p0),
WithProcessor(p1),
WithAttributeValueLengthLimit(3),
WithAttributeCountLimit(2),
WithResource(resource.NewSchemaless(attribute.String("key", "value"))),
), instrumentation.Scope{Name: "scope"}),
ctx: contextWithSpanContext,
record: r,
expectedRecords: []Record{
{
eventName: r.EventName(),
timestamp: r.Timestamp(),
body: r.Body(),
severity: r.Severity(),
severityText: r.SeverityText(),
observedTimestamp: r.ObservedTimestamp(),
resource: resource.NewSchemaless(attribute.String("key", "value")),
attributeValueLengthLimit: 3,
attributeCountLimit: 2,
scope: &instrumentation.Scope{Name: "scope"},
front: [attributesInlineCount]log.KeyValue{
log.String("k1", "str"),
log.Float64("k2", 1.0),
},
nFront: 2,
traceID: trace.TraceID{0o1},
spanID: trace.SpanID{0o2},
traceFlags: 0x1,
},
},
},
{
name: "WithNilContext",
logger: newLogger(NewLoggerProvider(
WithProcessor(p0),
WithProcessor(p1),
WithAttributeValueLengthLimit(3),
WithAttributeCountLimit(2),
WithResource(resource.NewSchemaless(attribute.String("key", "value"))),
), instrumentation.Scope{Name: "scope"}),
ctx: t.Context(),
record: r,
expectedRecords: []Record{
{
eventName: r.EventName(),
timestamp: r.Timestamp(),
body: r.Body(),
severity: r.Severity(),
severityText: r.SeverityText(),
observedTimestamp: r.ObservedTimestamp(),
resource: resource.NewSchemaless(attribute.String("key", "value")),
attributeValueLengthLimit: 3,
attributeCountLimit: 2,
scope: &instrumentation.Scope{Name: "scope"},
front: [attributesInlineCount]log.KeyValue{
log.String("k1", "str"),
log.Float64("k2", 1.0),
},
nFront: 2,
},
},
},
{
name: "NoObservedTimestamp",
logger: newLogger(NewLoggerProvider(
WithProcessor(p0),
WithProcessor(p1),
WithAttributeValueLengthLimit(3),
WithAttributeCountLimit(2),
WithResource(resource.NewSchemaless(attribute.String("key", "value"))),
), instrumentation.Scope{Name: "scope"}),
ctx: t.Context(),
record: rWithNoObservedTimestamp,
expectedRecords: []Record{
{
eventName: rWithNoObservedTimestamp.EventName(),
timestamp: rWithNoObservedTimestamp.Timestamp(),
body: rWithNoObservedTimestamp.Body(),
severity: rWithNoObservedTimestamp.Severity(),
severityText: rWithNoObservedTimestamp.SeverityText(),
observedTimestamp: nowDate,
resource: resource.NewSchemaless(attribute.String("key", "value")),
attributeValueLengthLimit: 3,
attributeCountLimit: 2,
scope: &instrumentation.Scope{Name: "scope"},
front: [attributesInlineCount]log.KeyValue{
log.String("k1", "str"),
log.Float64("k2", 1.0),
},
nFront: 2,
},
},
},
{
name: "WithAllowKeyDuplication",
logger: newLogger(NewLoggerProvider(
WithProcessor(p0),
WithProcessor(p1),
WithAttributeValueLengthLimit(5),
WithAttributeCountLimit(5),
WithResource(resource.NewSchemaless(attribute.String("key", "value"))),
WithAllowKeyDuplication(),
), instrumentation.Scope{Name: "scope"}),
ctx: t.Context(),
record: rWithAllowKeyDuplication,
expectedRecords: []Record{
{
eventName: rWithAllowKeyDuplication.EventName(),
timestamp: rWithAllowKeyDuplication.Timestamp(),
body: rWithAllowKeyDuplication.Body(),
severity: rWithAllowKeyDuplication.Severity(),
severityText: rWithAllowKeyDuplication.SeverityText(),
observedTimestamp: rWithAllowKeyDuplication.ObservedTimestamp(),
resource: resource.NewSchemaless(attribute.String("key", "value")),
attributeValueLengthLimit: 5,
attributeCountLimit: 5,
scope: &instrumentation.Scope{Name: "scope"},
front: [attributesInlineCount]log.KeyValue{
log.String("k1", "str"),
log.Float64("k2", 1.0),
log.String("k1", "str1"),
},
nFront: 3,
allowDupKeys: true,
},
},
},
{
name: "WithDuplicatesInBody",
logger: newLogger(NewLoggerProvider(
WithProcessor(p0),
WithProcessor(p1),
WithAttributeValueLengthLimit(5),
WithAttributeCountLimit(5),
WithResource(resource.NewSchemaless(attribute.String("key", "value"))),
), instrumentation.Scope{Name: "scope"}),
ctx: t.Context(),
record: rWithDuplicatesInBody,
expectedRecords: []Record{
{
eventName: rWithDuplicatesInBody.EventName(),
timestamp: rWithDuplicatesInBody.Timestamp(),
body: log.MapValue(
log.Int64("1", 3),
),
severity: rWithDuplicatesInBody.Severity(),
severityText: rWithDuplicatesInBody.SeverityText(),
observedTimestamp: rWithDuplicatesInBody.ObservedTimestamp(),
resource: resource.NewSchemaless(attribute.String("key", "value")),
attributeValueLengthLimit: 5,
attributeCountLimit: 5,
scope: &instrumentation.Scope{Name: "scope"},
front: [attributesInlineCount]log.KeyValue{
log.String("k1", "str"),
log.Float64("k2", 1.0),
},
nFront: 2,
},
},
},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
// Clean up the records before the test.
p0.records = nil
p1.records = nil
tc.logger.Emit(tc.ctx, tc.record)
assert.Equal(t, tc.expectedRecords, p0.records)
assert.Equal(t, tc.expectedRecords, p1.records)
})
}
}
func TestLoggerEnabled(t *testing.T) {
p0 := newFltrProcessor("0", true)
p1 := newFltrProcessor("1", true)
p2WithDisabled := newFltrProcessor("2", false)
testCases := []struct {
name string
logger *logger
ctx context.Context
param log.EnabledParameters
expected bool
expectedP0Params []EnabledParameters
expectedP1Params []EnabledParameters
expectedP2Params []EnabledParameters
}{
{
name: "NoProcessors",
logger: newLogger(NewLoggerProvider(), instrumentation.Scope{}),
ctx: t.Context(),
expected: false,
},
{
name: "WithProcessors",
logger: newLogger(NewLoggerProvider(
WithProcessor(p0),
WithProcessor(p1),
), instrumentation.Scope{Name: "scope"}),
ctx: t.Context(),
param: log.EnabledParameters{
Severity: log.SeverityInfo,
EventName: "test_event",
},
expected: true,
expectedP0Params: []EnabledParameters{{
InstrumentationScope: instrumentation.Scope{Name: "scope"},
Severity: log.SeverityInfo,
EventName: "test_event",
}},
expectedP1Params: nil,
},
{
name: "WithDisabledProcessors",
logger: newLogger(NewLoggerProvider(
WithProcessor(p2WithDisabled),
), instrumentation.Scope{}),
ctx: t.Context(),
expected: false,
expectedP2Params: []EnabledParameters{{}},
},
{
name: "ContainsDisabledProcessor",
logger: newLogger(NewLoggerProvider(
WithProcessor(p2WithDisabled),
WithProcessor(p0),
), instrumentation.Scope{}),
ctx: t.Context(),
expected: true,
expectedP2Params: []EnabledParameters{{}},
expectedP0Params: []EnabledParameters{{}},
},
{
name: "WithNilContext",
logger: newLogger(NewLoggerProvider(
WithProcessor(p0),
WithProcessor(p1),
), instrumentation.Scope{}),
ctx: nil,
expected: true,
expectedP0Params: []EnabledParameters{{}},
expectedP1Params: nil,
},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
// Clean up the records before the test.
p0.params = nil
p1.params = nil
p2WithDisabled.params = nil
assert.Equal(t, tc.expected, tc.logger.Enabled(tc.ctx, tc.param))
assert.Equal(t, tc.expectedP0Params, p0.params)
assert.Equal(t, tc.expectedP1Params, p1.params)
assert.Equal(t, tc.expectedP2Params, p2WithDisabled.params)
})
}
}
func TestLoggerObservability(t *testing.T) {
testCases := []struct {
name string
enabled bool
records []log.Record
wantLogRecordCount int64
}{
{
name: "Disabled",
enabled: false,
records: []log.Record{{}, {}},
wantLogRecordCount: 0,
},
{
name: "Enabled",
enabled: true,
records: []log.Record{{}, {}, {}, {}, {}},
wantLogRecordCount: 5,
},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
t.Setenv("OTEL_GO_X_OBSERVABILITY", strconv.FormatBool(tc.enabled))
prev := otel.GetMeterProvider()
t.Cleanup(func() {
otel.SetMeterProvider(prev)
})
r := sdkmetric.NewManualReader()
mp := sdkmetric.NewMeterProvider(sdkmetric.WithReader(r))
otel.SetMeterProvider(mp)
l := newLogger(NewLoggerProvider(), instrumentation.Scope{})
for _, record := range tc.records {
l.Emit(t.Context(), record)
}
gotMetrics := new(metricdata.ResourceMetrics)
assert.NoError(t, r.Collect(t.Context(), gotMetrics))
if tc.wantLogRecordCount == 0 {
assert.Empty(t, gotMetrics.ScopeMetrics)
return
}
require.Len(t, gotMetrics.ScopeMetrics, 1)
sm := gotMetrics.ScopeMetrics[0]
assert.Equal(t, instrumentation.Scope{
Name: "go.opentelemetry.io/otel/sdk/log",
Version: sdk.Version(),
SchemaURL: semconv.SchemaURL,
}, sm.Scope)
wantMetric := metricdata.Metrics{
Name: otelconv.SDKLogCreated{}.Name(),
Description: otelconv.SDKLogCreated{}.Description(),
Unit: otelconv.SDKLogCreated{}.Unit(),
Data: metricdata.Sum[int64]{
DataPoints: []metricdata.DataPoint[int64]{{Value: tc.wantLogRecordCount}},
Temporality: metricdata.CumulativeTemporality,
IsMonotonic: true,
},
}
metricdatatest.AssertEqual(t, wantMetric, sm.Metrics[0], metricdatatest.IgnoreTimestamp())
})
}
}
func TestNewLoggerObservabilityErrorHandled(t *testing.T) {
errHandler := otel.GetErrorHandler()
t.Cleanup(func() {
otel.SetErrorHandler(errHandler)
})
var errs []error
eh := otel.ErrorHandlerFunc(func(e error) { errs = append(errs, e) })
otel.SetErrorHandler(eh)
orig := otel.GetMeterProvider()
t.Cleanup(func() { otel.SetMeterProvider(orig) })
otel.SetMeterProvider(&errMeterProvider{err: assert.AnError})
t.Setenv("OTEL_GO_X_OBSERVABILITY", "true")
l := newLogger(NewLoggerProvider(), instrumentation.Scope{})
_ = l
require.Len(t, errs, 1)
assert.ErrorIs(t, errs[0], assert.AnError)
}
type errMeterProvider struct {
metric.MeterProvider
err error
}
func (mp *errMeterProvider) Meter(string, ...metric.MeterOption) metric.Meter {
return &errMeter{err: mp.err}
}
type errMeter struct {
metric.Meter
err error
}
func (m *errMeter) Int64Counter(string, ...metric.Int64CounterOption) (metric.Int64Counter, error) {
return nil, m.err
}
func (m *errMeter) Int64UpDownCounter(string, ...metric.Int64UpDownCounterOption) (metric.Int64UpDownCounter, error) {
return nil, m.err
}
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