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78a55822f8
opentelemetry-go/metric/internal/global/instruments.go
Tyler Yahn 1f9cc3036b
Add single instrument callback and split metric instrument configuration (#3507) 
* Split metric inst config

Instead of having the same configuration for both the Synchronous and
Asynchronous instruments, use specific options for both.

* Use Async/Sync opt for appropriate inst

* Update noop inst providers

* Update internal global impl

* Update sdk

* Remove unused method for callbackOption

* Test instrument configuration

* Lint imports

* Add changes to changelog

* Refactor callbacks and further split opts

Define callbacks to return the value observed. Because of the different
types returned for different observables, the callbacks and options are
move to the sync/async packages.

* Update noop impl

* Fix example_test.go

* Fix internal impl

* Update Callbacks

Return observations for distinct attr sets.

* Refactor common code in sdk/metric inst provider

* Update examples and prom exporter

* Generalize callback

* Update changelog

* Add unit tests for callback

* Add meter tests for cbacks on creation

* Rename Observations to Measurements

* Update Callback to accept an Observer

* Update SDK impl

* Move conf to instrument pkg

* Apply suggestions from code review
2023-01-06 09:20:49 -08:00

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// 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 global // import "go.opentelemetry.io/otel/metric/internal/global"
import (
"context"
"sync/atomic"
"go.opentelemetry.io/otel"
"go.opentelemetry.io/otel/attribute"
"go.opentelemetry.io/otel/metric"
"go.opentelemetry.io/otel/metric/instrument"
"go.opentelemetry.io/otel/metric/instrument/asyncfloat64"
"go.opentelemetry.io/otel/metric/instrument/asyncint64"
"go.opentelemetry.io/otel/metric/instrument/syncfloat64"
"go.opentelemetry.io/otel/metric/instrument/syncint64"
)
type afCounter struct {
name string
opts []instrument.Float64ObserverOption
delegate atomic.Value //asyncfloat64.Counter
instrument.Asynchronous
}
func (i *afCounter) setDelegate(m metric.Meter) {
ctr, err := m.Float64ObservableCounter(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *afCounter) Observe(ctx context.Context, x float64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(asyncfloat64.Counter).Observe(ctx, x, attrs...)
}
}
func (i *afCounter) unwrap() instrument.Asynchronous {
if ctr := i.delegate.Load(); ctr != nil {
return ctr.(asyncfloat64.Counter)
}
return nil
}
type afUpDownCounter struct {
name string
opts []instrument.Float64ObserverOption
delegate atomic.Value //asyncfloat64.UpDownCounter
instrument.Asynchronous
}
func (i *afUpDownCounter) setDelegate(m metric.Meter) {
ctr, err := m.Float64ObservableUpDownCounter(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *afUpDownCounter) Observe(ctx context.Context, x float64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(asyncfloat64.UpDownCounter).Observe(ctx, x, attrs...)
}
}
func (i *afUpDownCounter) unwrap() instrument.Asynchronous {
if ctr := i.delegate.Load(); ctr != nil {
return ctr.(asyncfloat64.UpDownCounter)
}
return nil
}
type afGauge struct {
name string
opts []instrument.Float64ObserverOption
delegate atomic.Value //asyncfloat64.Gauge
instrument.Asynchronous
}
func (i *afGauge) setDelegate(m metric.Meter) {
ctr, err := m.Float64ObservableGauge(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *afGauge) Observe(ctx context.Context, x float64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(asyncfloat64.Gauge).Observe(ctx, x, attrs...)
}
}
func (i *afGauge) unwrap() instrument.Asynchronous {
if ctr := i.delegate.Load(); ctr != nil {
return ctr.(asyncfloat64.Gauge)
}
return nil
}
type aiCounter struct {
name string
opts []instrument.Int64ObserverOption
delegate atomic.Value //asyncint64.Counter
instrument.Asynchronous
}
func (i *aiCounter) setDelegate(m metric.Meter) {
ctr, err := m.Int64ObservableCounter(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *aiCounter) Observe(ctx context.Context, x int64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(asyncint64.Counter).Observe(ctx, x, attrs...)
}
}
func (i *aiCounter) unwrap() instrument.Asynchronous {
if ctr := i.delegate.Load(); ctr != nil {
return ctr.(asyncint64.Counter)
}
return nil
}
type aiUpDownCounter struct {
name string
opts []instrument.Int64ObserverOption
delegate atomic.Value //asyncint64.UpDownCounter
instrument.Asynchronous
}
func (i *aiUpDownCounter) setDelegate(m metric.Meter) {
ctr, err := m.Int64ObservableUpDownCounter(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *aiUpDownCounter) Observe(ctx context.Context, x int64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(asyncint64.UpDownCounter).Observe(ctx, x, attrs...)
}
}
func (i *aiUpDownCounter) unwrap() instrument.Asynchronous {
if ctr := i.delegate.Load(); ctr != nil {
return ctr.(asyncint64.UpDownCounter)
}
return nil
}
type aiGauge struct {
name string
opts []instrument.Int64ObserverOption
delegate atomic.Value //asyncint64.Gauge
instrument.Asynchronous
}
func (i *aiGauge) setDelegate(m metric.Meter) {
ctr, err := m.Int64ObservableGauge(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *aiGauge) Observe(ctx context.Context, x int64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(asyncint64.Gauge).Observe(ctx, x, attrs...)
}
}
func (i *aiGauge) unwrap() instrument.Asynchronous {
if ctr := i.delegate.Load(); ctr != nil {
return ctr.(asyncint64.Gauge)
}
return nil
}
// Sync Instruments.
type sfCounter struct {
name string
opts []instrument.Float64Option
delegate atomic.Value //syncfloat64.Counter
instrument.Synchronous
}
func (i *sfCounter) setDelegate(m metric.Meter) {
ctr, err := m.Float64Counter(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *sfCounter) Add(ctx context.Context, incr float64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(syncfloat64.Counter).Add(ctx, incr, attrs...)
}
}
type sfUpDownCounter struct {
name string
opts []instrument.Float64Option
delegate atomic.Value //syncfloat64.UpDownCounter
instrument.Synchronous
}
func (i *sfUpDownCounter) setDelegate(m metric.Meter) {
ctr, err := m.Float64UpDownCounter(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *sfUpDownCounter) Add(ctx context.Context, incr float64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(syncfloat64.UpDownCounter).Add(ctx, incr, attrs...)
}
}
type sfHistogram struct {
name string
opts []instrument.Float64Option
delegate atomic.Value //syncfloat64.Histogram
instrument.Synchronous
}
func (i *sfHistogram) setDelegate(m metric.Meter) {
ctr, err := m.Float64Histogram(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *sfHistogram) Record(ctx context.Context, x float64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(syncfloat64.Histogram).Record(ctx, x, attrs...)
}
}
type siCounter struct {
name string
opts []instrument.Int64Option
delegate atomic.Value //syncint64.Counter
instrument.Synchronous
}
func (i *siCounter) setDelegate(m metric.Meter) {
ctr, err := m.Int64Counter(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *siCounter) Add(ctx context.Context, x int64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(syncint64.Counter).Add(ctx, x, attrs...)
}
}
type siUpDownCounter struct {
name string
opts []instrument.Int64Option
delegate atomic.Value //syncint64.UpDownCounter
instrument.Synchronous
}
func (i *siUpDownCounter) setDelegate(m metric.Meter) {
ctr, err := m.Int64UpDownCounter(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *siUpDownCounter) Add(ctx context.Context, x int64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(syncint64.UpDownCounter).Add(ctx, x, attrs...)
}
}
type siHistogram struct {
name string
opts []instrument.Int64Option
delegate atomic.Value //syncint64.Histogram
instrument.Synchronous
}
func (i *siHistogram) setDelegate(m metric.Meter) {
ctr, err := m.Int64Histogram(i.name, i.opts...)
if err != nil {
otel.Handle(err)
return
}
i.delegate.Store(ctr)
}
func (i *siHistogram) Record(ctx context.Context, x int64, attrs ...attribute.KeyValue) {
if ctr := i.delegate.Load(); ctr != nil {
ctr.(syncint64.Histogram).Record(ctx, x, attrs...)
}
}
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