// 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 metric_test import ( "context" "errors" "fmt" "testing" "go.opentelemetry.io/otel/api/core" "go.opentelemetry.io/otel/api/key" "go.opentelemetry.io/otel/api/metric" "go.opentelemetry.io/otel/api/unit" mock "go.opentelemetry.io/otel/internal/metric" "github.com/google/go-cmp/cmp" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) var Must = metric.Must func TestOptions(t *testing.T) { type testcase struct { name string opts []metric.Option keys []core.Key desc string unit unit.Unit } testcases := []testcase{ { name: "no opts", opts: nil, keys: nil, desc: "", unit: "", }, { name: "keys keys keys", opts: []metric.Option{ metric.WithKeys(key.New("foo"), key.New("foo2")), metric.WithKeys(key.New("bar"), key.New("bar2")), metric.WithKeys(key.New("baz"), key.New("baz2")), }, keys: []core.Key{ key.New("foo"), key.New("foo2"), key.New("bar"), key.New("bar2"), key.New("baz"), key.New("baz2"), }, desc: "", unit: "", }, { name: "description", opts: []metric.Option{ metric.WithDescription("stuff"), }, keys: nil, desc: "stuff", unit: "", }, { name: "description override", opts: []metric.Option{ metric.WithDescription("stuff"), metric.WithDescription("things"), }, keys: nil, desc: "things", unit: "", }, { name: "unit", opts: []metric.Option{ metric.WithUnit("s"), }, keys: nil, desc: "", unit: "s", }, { name: "unit override", opts: []metric.Option{ metric.WithUnit("s"), metric.WithUnit("h"), }, keys: nil, desc: "", unit: "h", }, } for idx, tt := range testcases { t.Logf("Testing counter case %s (%d)", tt.name, idx) if diff := cmp.Diff(metric.Configure(tt.opts), metric.Config{ Description: tt.desc, Unit: tt.unit, Keys: tt.keys, }); diff != "" { t.Errorf("Compare options: -got +want %s", diff) } } } func TestCounter(t *testing.T) { { meter := mock.NewMeter() c := Must(meter).NewFloat64Counter("test.counter.float") ctx := context.Background() labels := meter.Labels() c.Add(ctx, 42, labels) boundInstrument := c.Bind(labels) boundInstrument.Add(ctx, 42) meter.RecordBatch(ctx, labels, c.Measurement(42)) t.Log("Testing float counter") checkBatches(t, ctx, labels, meter, core.Float64NumberKind, c.Impl()) } { meter := mock.NewMeter() c := Must(meter).NewInt64Counter("test.counter.int") ctx := context.Background() labels := meter.Labels() c.Add(ctx, 42, labels) boundInstrument := c.Bind(labels) boundInstrument.Add(ctx, 42) meter.RecordBatch(ctx, labels, c.Measurement(42)) t.Log("Testing int counter") checkBatches(t, ctx, labels, meter, core.Int64NumberKind, c.Impl()) } } func TestMeasure(t *testing.T) { { meter := mock.NewMeter() m := Must(meter).NewFloat64Measure("test.measure.float") ctx := context.Background() labels := meter.Labels() m.Record(ctx, 42, labels) boundInstrument := m.Bind(labels) boundInstrument.Record(ctx, 42) meter.RecordBatch(ctx, labels, m.Measurement(42)) t.Log("Testing float measure") checkBatches(t, ctx, labels, meter, core.Float64NumberKind, m.Impl()) } { meter := mock.NewMeter() m := Must(meter).NewInt64Measure("test.measure.int") ctx := context.Background() labels := meter.Labels() m.Record(ctx, 42, labels) boundInstrument := m.Bind(labels) boundInstrument.Record(ctx, 42) meter.RecordBatch(ctx, labels, m.Measurement(42)) t.Log("Testing int measure") checkBatches(t, ctx, labels, meter, core.Int64NumberKind, m.Impl()) } } func TestObserver(t *testing.T) { { meter := mock.NewMeter() labels := meter.Labels() o := Must(meter).RegisterFloat64Observer("test.observer.float", func(result metric.Float64ObserverResult) { result.Observe(42, labels) }) t.Log("Testing float observer") meter.RunObservers() checkObserverBatch(t, labels, meter, core.Float64NumberKind, o) } { meter := mock.NewMeter() labels := meter.Labels() o := Must(meter).RegisterInt64Observer("test.observer.int", func(result metric.Int64ObserverResult) { result.Observe(42, labels) }) t.Log("Testing int observer") meter.RunObservers() checkObserverBatch(t, labels, meter, core.Int64NumberKind, o) } } func checkBatches(t *testing.T, ctx context.Context, labels metric.LabelSet, meter *mock.Meter, kind core.NumberKind, instrument metric.InstrumentImpl) { t.Helper() if len(meter.MeasurementBatches) != 3 { t.Errorf("Expected 3 recorded measurement batches, got %d", len(meter.MeasurementBatches)) } ourInstrument := instrument.(*mock.Instrument) ourLabelSet := labels.(*mock.LabelSet) minLen := 3 if minLen > len(meter.MeasurementBatches) { minLen = len(meter.MeasurementBatches) } for i := 0; i < minLen; i++ { got := meter.MeasurementBatches[i] if got.Ctx != ctx { d := func(c context.Context) string { return fmt.Sprintf("(ptr: %p, ctx %#v)", c, c) } t.Errorf("Wrong recorded context in batch %d, expected %s, got %s", i, d(ctx), d(got.Ctx)) } if got.LabelSet != ourLabelSet { d := func(l *mock.LabelSet) string { return fmt.Sprintf("(ptr: %p, labels %#v)", l, l.Labels) } t.Errorf("Wrong recorded label set in batch %d, expected %s, got %s", i, d(ourLabelSet), d(got.LabelSet)) } if len(got.Measurements) != 1 { t.Errorf("Expected 1 measurement in batch %d, got %d", i, len(got.Measurements)) } minMLen := 1 if minMLen > len(got.Measurements) { minMLen = len(got.Measurements) } for j := 0; j < minMLen; j++ { measurement := got.Measurements[j] if measurement.Instrument != ourInstrument { d := func(i *mock.Instrument) string { return fmt.Sprintf("(ptr: %p, instrument %#v)", i, i) } t.Errorf("Wrong recorded instrument in measurement %d in batch %d, expected %s, got %s", j, i, d(ourInstrument), d(measurement.Instrument)) } ft := fortyTwo(t, kind) if measurement.Number.CompareNumber(kind, ft) != 0 { t.Errorf("Wrong recorded value in measurement %d in batch %d, expected %s, got %s", j, i, ft.Emit(kind), measurement.Number.Emit(kind)) } } } } func checkObserverBatch(t *testing.T, labels metric.LabelSet, meter *mock.Meter, kind core.NumberKind, observer interface{}) { t.Helper() assert.Len(t, meter.MeasurementBatches, 1) if len(meter.MeasurementBatches) < 1 { return } o := observer.(*mock.Observer) if !assert.NotNil(t, o) { return } ourLabelSet := labels.(*mock.LabelSet) got := meter.MeasurementBatches[0] assert.Equal(t, ourLabelSet, got.LabelSet) assert.Len(t, got.Measurements, 1) if len(got.Measurements) < 1 { return } measurement := got.Measurements[0] assert.Equal(t, o.Instrument, measurement.Instrument) ft := fortyTwo(t, kind) assert.Equal(t, 0, measurement.Number.CompareNumber(kind, ft)) } func fortyTwo(t *testing.T, kind core.NumberKind) core.Number { t.Helper() switch kind { case core.Int64NumberKind: return core.NewInt64Number(42) case core.Float64NumberKind: return core.NewFloat64Number(42) } t.Errorf("Invalid value kind %q", kind) return core.NewInt64Number(0) } type testWrappedInst struct{} func (*testWrappedInst) Bind(labels metric.LabelSet) metric.BoundInstrumentImpl { panic("Not called") } func (*testWrappedInst) RecordOne(ctx context.Context, number core.Number, labels metric.LabelSet) { panic("Not called") } func TestWrappedInstrumentError(t *testing.T) { i0 := &testWrappedInst{} e0 := errors.New("Test wrap error") inst, err := metric.WrapInt64MeasureInstrument(i0, e0) // Check that error passes through w/o modifying instrument. require.Equal(t, inst.Impl().(*testWrappedInst), i0) require.Equal(t, err, e0) // Check that nil instrument is handled. inst, err = metric.WrapInt64MeasureInstrument(nil, e0) require.Equal(t, err, e0) require.NotNil(t, inst) require.NotNil(t, inst.Impl()) // Check that nil instrument generates an error. inst, err = metric.WrapInt64MeasureInstrument(nil, nil) require.NotNil(t, err) require.NotNil(t, inst) require.NotNil(t, inst.Impl()) }