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mirror of https://github.com/open-telemetry/opentelemetry-go.git synced 2024-12-22 20:06:07 +02:00
opentelemetry-go/metric/metric_test.go
Punya Biswal ecf65d7968
Rename otel/label -> otel/attribute (#1541)
* Rename otel/label -> otel/attr

Leave the imported name alone, to avoid a large diff and conflicts

* Better import comment

* Update CHANGELOG.md

Co-authored-by: Tyler Yahn <MrAlias@users.noreply.github.com>

* otel/attr -> otel/attribute

* Missed the changelog entry

* Get rid of import renaming

* Merge remaining conflicts

Co-authored-by: Tyler Yahn <MrAlias@users.noreply.github.com>
Co-authored-by: Anthony Mirabella <a9@aneurysm9.com>
2021-02-18 12:59:37 -05:00

473 lines
15 KiB
Go

// Copyright The 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 metric_test
import (
"context"
"errors"
"testing"
"go.opentelemetry.io/otel/attribute"
"go.opentelemetry.io/otel/metric"
"go.opentelemetry.io/otel/metric/number"
"go.opentelemetry.io/otel/oteltest"
"go.opentelemetry.io/otel/unit"
"github.com/google/go-cmp/cmp"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
var Must = metric.Must
var (
syncKinds = []metric.InstrumentKind{
metric.ValueRecorderInstrumentKind,
metric.CounterInstrumentKind,
metric.UpDownCounterInstrumentKind,
}
asyncKinds = []metric.InstrumentKind{
metric.ValueObserverInstrumentKind,
metric.SumObserverInstrumentKind,
metric.UpDownSumObserverInstrumentKind,
}
addingKinds = []metric.InstrumentKind{
metric.CounterInstrumentKind,
metric.UpDownCounterInstrumentKind,
metric.SumObserverInstrumentKind,
metric.UpDownSumObserverInstrumentKind,
}
groupingKinds = []metric.InstrumentKind{
metric.ValueRecorderInstrumentKind,
metric.ValueObserverInstrumentKind,
}
monotonicKinds = []metric.InstrumentKind{
metric.CounterInstrumentKind,
metric.SumObserverInstrumentKind,
}
nonMonotonicKinds = []metric.InstrumentKind{
metric.UpDownCounterInstrumentKind,
metric.UpDownSumObserverInstrumentKind,
metric.ValueRecorderInstrumentKind,
metric.ValueObserverInstrumentKind,
}
precomputedSumKinds = []metric.InstrumentKind{
metric.SumObserverInstrumentKind,
metric.UpDownSumObserverInstrumentKind,
}
nonPrecomputedSumKinds = []metric.InstrumentKind{
metric.CounterInstrumentKind,
metric.UpDownCounterInstrumentKind,
metric.ValueRecorderInstrumentKind,
metric.ValueObserverInstrumentKind,
}
)
func TestSynchronous(t *testing.T) {
for _, k := range syncKinds {
require.True(t, k.Synchronous())
require.False(t, k.Asynchronous())
}
for _, k := range asyncKinds {
require.True(t, k.Asynchronous())
require.False(t, k.Synchronous())
}
}
func TestGrouping(t *testing.T) {
for _, k := range groupingKinds {
require.True(t, k.Grouping())
require.False(t, k.Adding())
}
for _, k := range addingKinds {
require.True(t, k.Adding())
require.False(t, k.Grouping())
}
}
func TestMonotonic(t *testing.T) {
for _, k := range monotonicKinds {
require.True(t, k.Monotonic())
}
for _, k := range nonMonotonicKinds {
require.False(t, k.Monotonic())
}
}
func TestPrecomputedSum(t *testing.T) {
for _, k := range precomputedSumKinds {
require.True(t, k.PrecomputedSum())
}
for _, k := range nonPrecomputedSumKinds {
require.False(t, k.PrecomputedSum())
}
}
func checkSyncBatches(ctx context.Context, t *testing.T, labels []attribute.KeyValue, mock *oteltest.MeterImpl, nkind number.Kind, mkind metric.InstrumentKind, instrument metric.InstrumentImpl, expected ...float64) {
t.Helper()
batchesCount := len(mock.MeasurementBatches)
if len(mock.MeasurementBatches) != len(expected) {
t.Errorf("Expected %d recorded measurement batches, got %d", batchesCount, len(mock.MeasurementBatches))
}
recorded := oteltest.AsStructs(mock.MeasurementBatches)
for i, batch := range mock.MeasurementBatches {
if len(batch.Measurements) != 1 {
t.Errorf("Expected 1 measurement in batch %d, got %d", i, len(batch.Measurements))
}
measurement := batch.Measurements[0]
descriptor := measurement.Instrument.Descriptor()
expected := oteltest.Measured{
Name: descriptor.Name(),
InstrumentationName: descriptor.InstrumentationName(),
Labels: oteltest.LabelsToMap(labels...),
Number: oteltest.ResolveNumberByKind(t, nkind, expected[i]),
}
require.Equal(t, expected, recorded[i])
}
}
func TestOptions(t *testing.T) {
type testcase struct {
name string
opts []metric.InstrumentOption
desc string
unit unit.Unit
}
testcases := []testcase{
{
name: "no opts",
opts: nil,
desc: "",
unit: "",
},
{
name: "description",
opts: []metric.InstrumentOption{
metric.WithDescription("stuff"),
},
desc: "stuff",
unit: "",
},
{
name: "description override",
opts: []metric.InstrumentOption{
metric.WithDescription("stuff"),
metric.WithDescription("things"),
},
desc: "things",
unit: "",
},
{
name: "unit",
opts: []metric.InstrumentOption{
metric.WithUnit("s"),
},
desc: "",
unit: "s",
},
{
name: "unit override",
opts: []metric.InstrumentOption{
metric.WithUnit("s"),
metric.WithUnit("h"),
},
desc: "",
unit: "h",
},
}
for idx, tt := range testcases {
t.Logf("Testing counter case %s (%d)", tt.name, idx)
if diff := cmp.Diff(metric.NewInstrumentConfig(tt.opts...), metric.InstrumentConfig{
Description: tt.desc,
Unit: tt.unit,
}); diff != "" {
t.Errorf("Compare options: -got +want %s", diff)
}
}
}
func TestCounter(t *testing.T) {
// N.B. the API does not check for negative
// values, that's the SDK's responsibility.
t.Run("float64 counter", func(t *testing.T) {
mockSDK, meter := oteltest.NewMeter()
c := Must(meter).NewFloat64Counter("test.counter.float")
ctx := context.Background()
labels := []attribute.KeyValue{attribute.String("A", "B")}
c.Add(ctx, 1994.1, labels...)
boundInstrument := c.Bind(labels...)
boundInstrument.Add(ctx, -742)
meter.RecordBatch(ctx, labels, c.Measurement(42))
checkSyncBatches(ctx, t, labels, mockSDK, number.Float64Kind, metric.CounterInstrumentKind, c.SyncImpl(),
1994.1, -742, 42,
)
})
t.Run("int64 counter", func(t *testing.T) {
mockSDK, meter := oteltest.NewMeter()
c := Must(meter).NewInt64Counter("test.counter.int")
ctx := context.Background()
labels := []attribute.KeyValue{attribute.String("A", "B"), attribute.String("C", "D")}
c.Add(ctx, 42, labels...)
boundInstrument := c.Bind(labels...)
boundInstrument.Add(ctx, 4200)
meter.RecordBatch(ctx, labels, c.Measurement(420000))
checkSyncBatches(ctx, t, labels, mockSDK, number.Int64Kind, metric.CounterInstrumentKind, c.SyncImpl(),
42, 4200, 420000,
)
})
t.Run("int64 updowncounter", func(t *testing.T) {
mockSDK, meter := oteltest.NewMeter()
c := Must(meter).NewInt64UpDownCounter("test.updowncounter.int")
ctx := context.Background()
labels := []attribute.KeyValue{attribute.String("A", "B"), attribute.String("C", "D")}
c.Add(ctx, 100, labels...)
boundInstrument := c.Bind(labels...)
boundInstrument.Add(ctx, -100)
meter.RecordBatch(ctx, labels, c.Measurement(42))
checkSyncBatches(ctx, t, labels, mockSDK, number.Int64Kind, metric.UpDownCounterInstrumentKind, c.SyncImpl(),
100, -100, 42,
)
})
t.Run("float64 updowncounter", func(t *testing.T) {
mockSDK, meter := oteltest.NewMeter()
c := Must(meter).NewFloat64UpDownCounter("test.updowncounter.float")
ctx := context.Background()
labels := []attribute.KeyValue{attribute.String("A", "B"), attribute.String("C", "D")}
c.Add(ctx, 100.1, labels...)
boundInstrument := c.Bind(labels...)
boundInstrument.Add(ctx, -76)
meter.RecordBatch(ctx, labels, c.Measurement(-100.1))
checkSyncBatches(ctx, t, labels, mockSDK, number.Float64Kind, metric.UpDownCounterInstrumentKind, c.SyncImpl(),
100.1, -76, -100.1,
)
})
}
func TestValueRecorder(t *testing.T) {
t.Run("float64 valuerecorder", func(t *testing.T) {
mockSDK, meter := oteltest.NewMeter()
m := Must(meter).NewFloat64ValueRecorder("test.valuerecorder.float")
ctx := context.Background()
labels := []attribute.KeyValue{}
m.Record(ctx, 42, labels...)
boundInstrument := m.Bind(labels...)
boundInstrument.Record(ctx, 0)
meter.RecordBatch(ctx, labels, m.Measurement(-100.5))
checkSyncBatches(ctx, t, labels, mockSDK, number.Float64Kind, metric.ValueRecorderInstrumentKind, m.SyncImpl(),
42, 0, -100.5,
)
})
t.Run("int64 valuerecorder", func(t *testing.T) {
mockSDK, meter := oteltest.NewMeter()
m := Must(meter).NewInt64ValueRecorder("test.valuerecorder.int")
ctx := context.Background()
labels := []attribute.KeyValue{attribute.Int("I", 1)}
m.Record(ctx, 173, labels...)
boundInstrument := m.Bind(labels...)
boundInstrument.Record(ctx, 80)
meter.RecordBatch(ctx, labels, m.Measurement(0))
checkSyncBatches(ctx, t, labels, mockSDK, number.Int64Kind, metric.ValueRecorderInstrumentKind, m.SyncImpl(),
173, 80, 0,
)
})
}
func TestObserverInstruments(t *testing.T) {
t.Run("float valueobserver", func(t *testing.T) {
labels := []attribute.KeyValue{attribute.String("O", "P")}
mockSDK, meter := oteltest.NewMeter()
o := Must(meter).NewFloat64ValueObserver("test.valueobserver.float", func(_ context.Context, result metric.Float64ObserverResult) {
result.Observe(42.1, labels...)
})
mockSDK.RunAsyncInstruments()
checkObserverBatch(t, labels, mockSDK, number.Float64Kind, metric.ValueObserverInstrumentKind, o.AsyncImpl(),
42.1,
)
})
t.Run("int valueobserver", func(t *testing.T) {
labels := []attribute.KeyValue{}
mockSDK, meter := oteltest.NewMeter()
o := Must(meter).NewInt64ValueObserver("test.observer.int", func(_ context.Context, result metric.Int64ObserverResult) {
result.Observe(-142, labels...)
})
mockSDK.RunAsyncInstruments()
checkObserverBatch(t, labels, mockSDK, number.Int64Kind, metric.ValueObserverInstrumentKind, o.AsyncImpl(),
-142,
)
})
t.Run("float sumobserver", func(t *testing.T) {
labels := []attribute.KeyValue{attribute.String("O", "P")}
mockSDK, meter := oteltest.NewMeter()
o := Must(meter).NewFloat64SumObserver("test.sumobserver.float", func(_ context.Context, result metric.Float64ObserverResult) {
result.Observe(42.1, labels...)
})
mockSDK.RunAsyncInstruments()
checkObserverBatch(t, labels, mockSDK, number.Float64Kind, metric.SumObserverInstrumentKind, o.AsyncImpl(),
42.1,
)
})
t.Run("int sumobserver", func(t *testing.T) {
labels := []attribute.KeyValue{}
mockSDK, meter := oteltest.NewMeter()
o := Must(meter).NewInt64SumObserver("test.observer.int", func(_ context.Context, result metric.Int64ObserverResult) {
result.Observe(-142, labels...)
})
mockSDK.RunAsyncInstruments()
checkObserverBatch(t, labels, mockSDK, number.Int64Kind, metric.SumObserverInstrumentKind, o.AsyncImpl(),
-142,
)
})
t.Run("float updownsumobserver", func(t *testing.T) {
labels := []attribute.KeyValue{attribute.String("O", "P")}
mockSDK, meter := oteltest.NewMeter()
o := Must(meter).NewFloat64UpDownSumObserver("test.updownsumobserver.float", func(_ context.Context, result metric.Float64ObserverResult) {
result.Observe(42.1, labels...)
})
mockSDK.RunAsyncInstruments()
checkObserverBatch(t, labels, mockSDK, number.Float64Kind, metric.UpDownSumObserverInstrumentKind, o.AsyncImpl(),
42.1,
)
})
t.Run("int updownsumobserver", func(t *testing.T) {
labels := []attribute.KeyValue{}
mockSDK, meter := oteltest.NewMeter()
o := Must(meter).NewInt64UpDownSumObserver("test.observer.int", func(_ context.Context, result metric.Int64ObserverResult) {
result.Observe(-142, labels...)
})
mockSDK.RunAsyncInstruments()
checkObserverBatch(t, labels, mockSDK, number.Int64Kind, metric.UpDownSumObserverInstrumentKind, o.AsyncImpl(),
-142,
)
})
}
func TestBatchObserverInstruments(t *testing.T) {
mockSDK, meter := oteltest.NewMeter()
var obs1 metric.Int64ValueObserver
var obs2 metric.Float64ValueObserver
labels := []attribute.KeyValue{
attribute.String("A", "B"),
attribute.String("C", "D"),
}
cb := Must(meter).NewBatchObserver(
func(_ context.Context, result metric.BatchObserverResult) {
result.Observe(labels,
obs1.Observation(42),
obs2.Observation(42.0),
)
},
)
obs1 = cb.NewInt64ValueObserver("test.observer.int")
obs2 = cb.NewFloat64ValueObserver("test.observer.float")
mockSDK.RunAsyncInstruments()
require.Len(t, mockSDK.MeasurementBatches, 1)
impl1 := obs1.AsyncImpl().Implementation().(*oteltest.Async)
impl2 := obs2.AsyncImpl().Implementation().(*oteltest.Async)
require.NotNil(t, impl1)
require.NotNil(t, impl2)
got := mockSDK.MeasurementBatches[0]
require.Equal(t, labels, got.Labels)
require.Len(t, got.Measurements, 2)
m1 := got.Measurements[0]
require.Equal(t, impl1, m1.Instrument.Implementation().(*oteltest.Async))
require.Equal(t, 0, m1.Number.CompareNumber(number.Int64Kind, oteltest.ResolveNumberByKind(t, number.Int64Kind, 42)))
m2 := got.Measurements[1]
require.Equal(t, impl2, m2.Instrument.Implementation().(*oteltest.Async))
require.Equal(t, 0, m2.Number.CompareNumber(number.Float64Kind, oteltest.ResolveNumberByKind(t, number.Float64Kind, 42)))
}
func checkObserverBatch(t *testing.T, labels []attribute.KeyValue, mock *oteltest.MeterImpl, nkind number.Kind, mkind metric.InstrumentKind, observer metric.AsyncImpl, expected float64) {
t.Helper()
assert.Len(t, mock.MeasurementBatches, 1)
if len(mock.MeasurementBatches) < 1 {
return
}
o := observer.Implementation().(*oteltest.Async)
if !assert.NotNil(t, o) {
return
}
got := mock.MeasurementBatches[0]
assert.Equal(t, labels, got.Labels)
assert.Len(t, got.Measurements, 1)
if len(got.Measurements) < 1 {
return
}
measurement := got.Measurements[0]
require.Equal(t, mkind, measurement.Instrument.Descriptor().InstrumentKind())
assert.Equal(t, o, measurement.Instrument.Implementation().(*oteltest.Async))
ft := oteltest.ResolveNumberByKind(t, nkind, expected)
assert.Equal(t, 0, measurement.Number.CompareNumber(nkind, ft))
}
type testWrappedMeter struct {
}
var _ metric.MeterImpl = testWrappedMeter{}
func (testWrappedMeter) RecordBatch(context.Context, []attribute.KeyValue, ...metric.Measurement) {
}
func (testWrappedMeter) NewSyncInstrument(_ metric.Descriptor) (metric.SyncImpl, error) {
return nil, nil
}
func (testWrappedMeter) NewAsyncInstrument(_ metric.Descriptor, _ metric.AsyncRunner) (metric.AsyncImpl, error) {
return nil, errors.New("Test wrap error")
}
func TestWrappedInstrumentError(t *testing.T) {
impl := &testWrappedMeter{}
meter := metric.WrapMeterImpl(impl, "test")
valuerecorder, err := meter.NewInt64ValueRecorder("test.valuerecorder")
require.Equal(t, err, metric.ErrSDKReturnedNilImpl)
require.NotNil(t, valuerecorder.SyncImpl())
observer, err := meter.NewInt64ValueObserver("test.observer", func(_ context.Context, result metric.Int64ObserverResult) {})
require.NotNil(t, err)
require.NotNil(t, observer.AsyncImpl())
}
func TestNilCallbackObserverNoop(t *testing.T) {
// Tests that a nil callback yields a no-op observer without error.
_, meter := oteltest.NewMeter()
observer := Must(meter).NewInt64ValueObserver("test.observer", nil)
_, ok := observer.AsyncImpl().(metric.NoopAsync)
require.True(t, ok)
}