ceph-csi/vendor/go.opentelemetry.io/otel/metric/internal/global/meter.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 global // import "go.opentelemetry.io/otel/metric/internal/global"

import (
	"context"
	"sync"
	"sync/atomic"

	"go.opentelemetry.io/otel"
	"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"
)

// meterProvider is a placeholder for a configured SDK MeterProvider.
//
// All MeterProvider functionality is forwarded to a delegate once
// configured.
type meterProvider struct {
	mtx    sync.Mutex
	meters map[il]*meter

	delegate metric.MeterProvider
}

type il struct {
	name    string
	version string
}

// setDelegate configures p to delegate all MeterProvider functionality to
// provider.
//
// All Meters provided prior to this function call are switched out to be
// Meters provided by provider. All instruments and callbacks are recreated and
// delegated.
//
// It is guaranteed by the caller that this happens only once.
func (p *meterProvider) setDelegate(provider metric.MeterProvider) {
	p.mtx.Lock()
	defer p.mtx.Unlock()

	p.delegate = provider

	if len(p.meters) == 0 {
		return
	}

	for _, meter := range p.meters {
		meter.setDelegate(provider)
	}

	p.meters = nil
}

// Meter implements MeterProvider.
func (p *meterProvider) Meter(name string, opts ...metric.MeterOption) metric.Meter {
	p.mtx.Lock()
	defer p.mtx.Unlock()

	if p.delegate != nil {
		return p.delegate.Meter(name, opts...)
	}

	// At this moment it is guaranteed that no sdk is installed, save the meter in the meters map.

	c := metric.NewMeterConfig(opts...)
	key := il{
		name:    name,
		version: c.InstrumentationVersion(),
	}

	if p.meters == nil {
		p.meters = make(map[il]*meter)
	}

	if val, ok := p.meters[key]; ok {
		return val
	}

	t := &meter{name: name, opts: opts}
	p.meters[key] = t
	return t
}

// meter is a placeholder for a metric.Meter.
//
// All Meter functionality is forwarded to a delegate once configured.
// Otherwise, all functionality is forwarded to a NoopMeter.
type meter struct {
	name string
	opts []metric.MeterOption

	mtx         sync.Mutex
	instruments []delegatedInstrument
	callbacks   []delegatedCallback

	delegate atomic.Value // metric.Meter
}

type delegatedInstrument interface {
	setDelegate(metric.Meter)
}

// setDelegate configures m to delegate all Meter functionality to Meters
// created by provider.
//
// All subsequent calls to the Meter methods will be passed to the delegate.
//
// It is guaranteed by the caller that this happens only once.
func (m *meter) setDelegate(provider metric.MeterProvider) {
	meter := provider.Meter(m.name, m.opts...)
	m.delegate.Store(meter)

	m.mtx.Lock()
	defer m.mtx.Unlock()

	for _, inst := range m.instruments {
		inst.setDelegate(meter)
	}

	for _, callback := range m.callbacks {
		callback.setDelegate(meter)
	}

	m.instruments = nil
	m.callbacks = nil
}

// AsyncInt64 is the namespace for the Asynchronous Integer instruments.
//
// To Observe data with instruments it must be registered in a callback.
func (m *meter) AsyncInt64() asyncint64.InstrumentProvider {
	if del, ok := m.delegate.Load().(metric.Meter); ok {
		return del.AsyncInt64()
	}
	return (*aiInstProvider)(m)
}

// AsyncFloat64 is the namespace for the Asynchronous Float instruments.
//
// To Observe data with instruments it must be registered in a callback.
func (m *meter) AsyncFloat64() asyncfloat64.InstrumentProvider {
	if del, ok := m.delegate.Load().(metric.Meter); ok {
		return del.AsyncFloat64()
	}
	return (*afInstProvider)(m)
}

// RegisterCallback captures the function that will be called during Collect.
//
// It is only valid to call Observe within the scope of the passed function,
// and only on the instruments that were registered with this call.
func (m *meter) RegisterCallback(insts []instrument.Asynchronous, function func(context.Context)) error {
	if del, ok := m.delegate.Load().(metric.Meter); ok {
		insts = unwrapInstruments(insts)
		return del.RegisterCallback(insts, function)
	}

	m.mtx.Lock()
	defer m.mtx.Unlock()
	m.callbacks = append(m.callbacks, delegatedCallback{
		instruments: insts,
		function:    function,
	})

	return nil
}

type wrapped interface {
	unwrap() instrument.Asynchronous
}

func unwrapInstruments(instruments []instrument.Asynchronous) []instrument.Asynchronous {
	out := make([]instrument.Asynchronous, 0, len(instruments))

	for _, inst := range instruments {
		if in, ok := inst.(wrapped); ok {
			out = append(out, in.unwrap())
		} else {
			out = append(out, inst)
		}
	}

	return out
}

// SyncInt64 is the namespace for the Synchronous Integer instruments.
func (m *meter) SyncInt64() syncint64.InstrumentProvider {
	if del, ok := m.delegate.Load().(metric.Meter); ok {
		return del.SyncInt64()
	}
	return (*siInstProvider)(m)
}

// SyncFloat64 is the namespace for the Synchronous Float instruments.
func (m *meter) SyncFloat64() syncfloat64.InstrumentProvider {
	if del, ok := m.delegate.Load().(metric.Meter); ok {
		return del.SyncFloat64()
	}
	return (*sfInstProvider)(m)
}

type delegatedCallback struct {
	instruments []instrument.Asynchronous
	function    func(context.Context)
}

func (c *delegatedCallback) setDelegate(m metric.Meter) {
	insts := unwrapInstruments(c.instruments)
	err := m.RegisterCallback(insts, c.function)
	if err != nil {
		otel.Handle(err)
	}
}

type afInstProvider meter

// Counter creates an instrument for recording increasing values.
func (ip *afInstProvider) Counter(name string, opts ...instrument.Option) (asyncfloat64.Counter, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &afCounter{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

// UpDownCounter creates an instrument for recording changes of a value.
func (ip *afInstProvider) UpDownCounter(name string, opts ...instrument.Option) (asyncfloat64.UpDownCounter, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &afUpDownCounter{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

// Gauge creates an instrument for recording the current value.
func (ip *afInstProvider) Gauge(name string, opts ...instrument.Option) (asyncfloat64.Gauge, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &afGauge{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

type aiInstProvider meter

// Counter creates an instrument for recording increasing values.
func (ip *aiInstProvider) Counter(name string, opts ...instrument.Option) (asyncint64.Counter, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &aiCounter{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

// UpDownCounter creates an instrument for recording changes of a value.
func (ip *aiInstProvider) UpDownCounter(name string, opts ...instrument.Option) (asyncint64.UpDownCounter, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &aiUpDownCounter{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

// Gauge creates an instrument for recording the current value.
func (ip *aiInstProvider) Gauge(name string, opts ...instrument.Option) (asyncint64.Gauge, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &aiGauge{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

type sfInstProvider meter

// Counter creates an instrument for recording increasing values.
func (ip *sfInstProvider) Counter(name string, opts ...instrument.Option) (syncfloat64.Counter, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &sfCounter{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

// UpDownCounter creates an instrument for recording changes of a value.
func (ip *sfInstProvider) UpDownCounter(name string, opts ...instrument.Option) (syncfloat64.UpDownCounter, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &sfUpDownCounter{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

// Histogram creates an instrument for recording a distribution of values.
func (ip *sfInstProvider) Histogram(name string, opts ...instrument.Option) (syncfloat64.Histogram, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &sfHistogram{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

type siInstProvider meter

// Counter creates an instrument for recording increasing values.
func (ip *siInstProvider) Counter(name string, opts ...instrument.Option) (syncint64.Counter, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &siCounter{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

// UpDownCounter creates an instrument for recording changes of a value.
func (ip *siInstProvider) UpDownCounter(name string, opts ...instrument.Option) (syncint64.UpDownCounter, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &siUpDownCounter{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}

// Histogram creates an instrument for recording a distribution of values.
func (ip *siInstProvider) Histogram(name string, opts ...instrument.Option) (syncint64.Histogram, error) {
	ip.mtx.Lock()
	defer ip.mtx.Unlock()
	ctr := &siHistogram{name: name, opts: opts}
	ip.instruments = append(ip.instruments, ctr)
	return ctr, nil
}
rebase: update kubernetes to 1.26.1 update kubernetes and its dependencies to v1.26.1 Signed-off-by: Madhu Rajanna <madhupr007@gmail.com> 2023-02-01 17:06:36 +00:00			`// 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"`
			`"sync/atomic"`

			`"go.opentelemetry.io/otel"`
			`"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"`
			`)`

			`// meterProvider is a placeholder for a configured SDK MeterProvider.`
			`//`
			`// All MeterProvider functionality is forwarded to a delegate once`
			`// configured.`
			`type meterProvider struct {`
			`mtx sync.Mutex`
			`meters map[il]*meter`

			`delegate metric.MeterProvider`
			`}`

			`type il struct {`
			`name string`
			`version string`
			`}`

			`// setDelegate configures p to delegate all MeterProvider functionality to`
			`// provider.`
			`//`
			`// All Meters provided prior to this function call are switched out to be`
			`// Meters provided by provider. All instruments and callbacks are recreated and`
			`// delegated.`
			`//`
			`// It is guaranteed by the caller that this happens only once.`
			`func (p *meterProvider) setDelegate(provider metric.MeterProvider) {`
			`p.mtx.Lock()`
			`defer p.mtx.Unlock()`

			`p.delegate = provider`

			`if len(p.meters) == 0 {`
			`return`
			`}`

			`for _, meter := range p.meters {`
			`meter.setDelegate(provider)`
			`}`

			`p.meters = nil`
			`}`

			`// Meter implements MeterProvider.`
			`func (p *meterProvider) Meter(name string, opts ...metric.MeterOption) metric.Meter {`
			`p.mtx.Lock()`
			`defer p.mtx.Unlock()`

			`if p.delegate != nil {`
			`return p.delegate.Meter(name, opts...)`
			`}`

			`// At this moment it is guaranteed that no sdk is installed, save the meter in the meters map.`

			`c := metric.NewMeterConfig(opts...)`
			`key := il{`
			`name: name,`
			`version: c.InstrumentationVersion(),`
			`}`

			`if p.meters == nil {`
			`p.meters = make(map[il]*meter)`
			`}`

			`if val, ok := p.meters[key]; ok {`
			`return val`
			`}`

			`t := &meter{name: name, opts: opts}`
			`p.meters[key] = t`
			`return t`
			`}`

			`// meter is a placeholder for a metric.Meter.`
			`//`
			`// All Meter functionality is forwarded to a delegate once configured.`
			`// Otherwise, all functionality is forwarded to a NoopMeter.`
			`type meter struct {`
			`name string`
			`opts []metric.MeterOption`

			`mtx sync.Mutex`
			`instruments []delegatedInstrument`
			`callbacks []delegatedCallback`

			`delegate atomic.Value // metric.Meter`
			`}`

			`type delegatedInstrument interface {`
			`setDelegate(metric.Meter)`
			`}`

			`// setDelegate configures m to delegate all Meter functionality to Meters`
			`// created by provider.`
			`//`
			`// All subsequent calls to the Meter methods will be passed to the delegate.`
			`//`
			`// It is guaranteed by the caller that this happens only once.`
			`func (m *meter) setDelegate(provider metric.MeterProvider) {`
			`meter := provider.Meter(m.name, m.opts...)`
			`m.delegate.Store(meter)`

			`m.mtx.Lock()`
			`defer m.mtx.Unlock()`

			`for _, inst := range m.instruments {`
			`inst.setDelegate(meter)`
			`}`

			`for _, callback := range m.callbacks {`
			`callback.setDelegate(meter)`
			`}`

			`m.instruments = nil`
			`m.callbacks = nil`
			`}`

			`// AsyncInt64 is the namespace for the Asynchronous Integer instruments.`
			`//`
			`// To Observe data with instruments it must be registered in a callback.`
			`func (m *meter) AsyncInt64() asyncint64.InstrumentProvider {`
			`if del, ok := m.delegate.Load().(metric.Meter); ok {`
			`return del.AsyncInt64()`
			`}`
			`return (*aiInstProvider)(m)`
			`}`

			`// AsyncFloat64 is the namespace for the Asynchronous Float instruments.`
			`//`
			`// To Observe data with instruments it must be registered in a callback.`
			`func (m *meter) AsyncFloat64() asyncfloat64.InstrumentProvider {`
			`if del, ok := m.delegate.Load().(metric.Meter); ok {`
			`return del.AsyncFloat64()`
			`}`
			`return (*afInstProvider)(m)`
			`}`

			`// RegisterCallback captures the function that will be called during Collect.`
			`//`
			`// It is only valid to call Observe within the scope of the passed function,`
			`// and only on the instruments that were registered with this call.`
			`func (m *meter) RegisterCallback(insts []instrument.Asynchronous, function func(context.Context)) error {`
			`if del, ok := m.delegate.Load().(metric.Meter); ok {`
			`insts = unwrapInstruments(insts)`
			`return del.RegisterCallback(insts, function)`
			`}`

			`m.mtx.Lock()`
			`defer m.mtx.Unlock()`
			`m.callbacks = append(m.callbacks, delegatedCallback{`
			`instruments: insts,`
			`function: function,`
			`})`

			`return nil`
			`}`

			`type wrapped interface {`
			`unwrap() instrument.Asynchronous`
			`}`

			`func unwrapInstruments(instruments []instrument.Asynchronous) []instrument.Asynchronous {`
			`out := make([]instrument.Asynchronous, 0, len(instruments))`

			`for _, inst := range instruments {`
			`if in, ok := inst.(wrapped); ok {`
			`out = append(out, in.unwrap())`
			`} else {`
			`out = append(out, inst)`
			`}`
			`}`

			`return out`
			`}`

			`// SyncInt64 is the namespace for the Synchronous Integer instruments.`
			`func (m *meter) SyncInt64() syncint64.InstrumentProvider {`
			`if del, ok := m.delegate.Load().(metric.Meter); ok {`
			`return del.SyncInt64()`
			`}`
			`return (*siInstProvider)(m)`
			`}`

			`// SyncFloat64 is the namespace for the Synchronous Float instruments.`
			`func (m *meter) SyncFloat64() syncfloat64.InstrumentProvider {`
			`if del, ok := m.delegate.Load().(metric.Meter); ok {`
			`return del.SyncFloat64()`
			`}`
			`return (*sfInstProvider)(m)`
			`}`

			`type delegatedCallback struct {`
			`instruments []instrument.Asynchronous`
			`function func(context.Context)`
			`}`

			`func (c *delegatedCallback) setDelegate(m metric.Meter) {`
			`insts := unwrapInstruments(c.instruments)`
			`err := m.RegisterCallback(insts, c.function)`
			`if err != nil {`
			`otel.Handle(err)`
			`}`
			`}`

			`type afInstProvider meter`

			`// Counter creates an instrument for recording increasing values.`
			`func (ip *afInstProvider) Counter(name string, opts ...instrument.Option) (asyncfloat64.Counter, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &afCounter{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`// UpDownCounter creates an instrument for recording changes of a value.`
			`func (ip *afInstProvider) UpDownCounter(name string, opts ...instrument.Option) (asyncfloat64.UpDownCounter, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &afUpDownCounter{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`// Gauge creates an instrument for recording the current value.`
			`func (ip *afInstProvider) Gauge(name string, opts ...instrument.Option) (asyncfloat64.Gauge, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &afGauge{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`type aiInstProvider meter`

			`// Counter creates an instrument for recording increasing values.`
			`func (ip *aiInstProvider) Counter(name string, opts ...instrument.Option) (asyncint64.Counter, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &aiCounter{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`// UpDownCounter creates an instrument for recording changes of a value.`
			`func (ip *aiInstProvider) UpDownCounter(name string, opts ...instrument.Option) (asyncint64.UpDownCounter, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &aiUpDownCounter{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`// Gauge creates an instrument for recording the current value.`
			`func (ip *aiInstProvider) Gauge(name string, opts ...instrument.Option) (asyncint64.Gauge, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &aiGauge{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`type sfInstProvider meter`

			`// Counter creates an instrument for recording increasing values.`
			`func (ip *sfInstProvider) Counter(name string, opts ...instrument.Option) (syncfloat64.Counter, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &sfCounter{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`// UpDownCounter creates an instrument for recording changes of a value.`
			`func (ip *sfInstProvider) UpDownCounter(name string, opts ...instrument.Option) (syncfloat64.UpDownCounter, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &sfUpDownCounter{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`// Histogram creates an instrument for recording a distribution of values.`
			`func (ip *sfInstProvider) Histogram(name string, opts ...instrument.Option) (syncfloat64.Histogram, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &sfHistogram{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`type siInstProvider meter`

			`// Counter creates an instrument for recording increasing values.`
			`func (ip *siInstProvider) Counter(name string, opts ...instrument.Option) (syncint64.Counter, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &siCounter{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`// UpDownCounter creates an instrument for recording changes of a value.`
			`func (ip *siInstProvider) UpDownCounter(name string, opts ...instrument.Option) (syncint64.UpDownCounter, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &siUpDownCounter{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`

			`// Histogram creates an instrument for recording a distribution of values.`
			`func (ip *siInstProvider) Histogram(name string, opts ...instrument.Option) (syncint64.Histogram, error) {`
			`ip.mtx.Lock()`
			`defer ip.mtx.Unlock()`
			`ctr := &siHistogram{name: name, opts: opts}`
			`ip.instruments = append(ip.instruments, ctr)`
			`return ctr, nil`
			`}`