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opentelemetry-go/api/metric/api.go

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2019-06-14 22:09:41 +02:00
// 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.
//go:generate stringer -type=Kind,ValueKind
package metric
import (
"context"
"go.opentelemetry.io/api/core"
"go.opentelemetry.io/api/unit"
)
// Kind categorizes different kinds of metric.
type Kind int
const (
// Invalid describes an invalid metric.
Invalid Kind = iota
// CounterKind describes a metric that supports Add().
CounterKind
// GaugeKind describes a metric that supports Set().
GaugeKind
// MeasureKind describes a metric that supports Record().
MeasureKind
// ObserverKind describes a metric that reports measurement on
// demand.
ObserverKind
)
// Handle is the implementation-level interface to Set/Add/Record
// individual metrics.
type Handle interface {
// RecordOne allows the SDK to observe a single metric event
RecordOne(ctx context.Context, value MeasurementValue)
}
// TODO this belongs outside the metrics API, in some sense, but that
// might create a dependency. Putting this here means we can't re-use
// a LabelSet between metrics and tracing, even when they are the same
// SDK.
// LabelSet represents a []core.KeyValue for use as pre-defined labels
// in the metrics API.
type LabelSet interface {
Meter() Meter
}
// ObservationCallback defines a type of the callback the observer
// will use to report the measurement
type ObservationCallback func(LabelSet, MeasurementValue)
// ObserverCallback defines a type of the callback SDK will call for
// the registered observers.
type ObserverCallback func(Meter, Observer, ObservationCallback)
// Meter is an interface to the metrics portion of the OpenTelemetry SDK.
type Meter interface {
// DefineLabels returns a reference to a set of labels that
// cannot be read by the application.
DefineLabels(context.Context, ...core.KeyValue) LabelSet
// RecordBatch atomically records a batch of measurements.
RecordBatch(context.Context, LabelSet, ...Measurement)
// NewHandle creates a Handle that contains the passed
// key-value pairs. This should not be used directly - prefer
// using GetHandle function of a metric.
NewHandle(*Descriptor, LabelSet) Handle
// DeleteHandle destroys the Handle and does a cleanup of the
// underlying resources.
DeleteHandle(Handle)
// RegisterObserver registers the observer with callback
// returning a measurement. When and how often the callback
// will be called is defined by SDK. This should not be used
// directly - prefer either RegisterInt64Observer or
// RegisterFloat64Observer, depending on the type of the
// observer to be registered.
RegisterObserver(Observer, ObserverCallback)
// UnregisterObserver removes the observer from registered
// observers. This should not be used directly - prefer either
// UnregisterInt64Observer or UnregisterFloat64Observer,
// depending on the type of the observer to be registered.
UnregisterObserver(Observer)
}
// DescriptorID is a unique identifier of a metric.
type DescriptorID uint64
// ValueKind describes the data type of the measurement value the
// metric generates.
type ValueKind int8
const (
// Int64ValueKind means that the metric generates values of
// type int64.
Int64ValueKind ValueKind = iota
// Float64ValueKind means that the metric generates values of
// type float64.
Float64ValueKind
)
// Descriptor represents a named metric with recommended
// local-aggregation keys.
type Descriptor struct {
name string
kind Kind
keys []core.Key
id DescriptorID
description string
unit unit.Unit
valueKind ValueKind
alternate bool
}
// Name is a required field describing this metric descriptor, should
// have length > 0.
func (d *Descriptor) Name() string {
return d.name
}
// Kind is the metric kind of this descriptor.
func (d *Descriptor) Kind() Kind {
return d.kind
}
// Keys are recommended keys determined in the handles obtained for
// this metric.
func (d *Descriptor) Keys() []core.Key {
return d.keys
}
// ID is uniquely assigned to support per-SDK registration.
func (d *Descriptor) ID() DescriptorID {
return d.id
}
// Description is an optional field describing this metric descriptor.
func (d *Descriptor) Description() string {
return d.description
}
// Unit is an optional field describing this metric descriptor.
func (d *Descriptor) Unit() unit.Unit {
return d.unit
}
// ValueKind describes the type of values the metric produces.
func (d *Descriptor) ValueKind() ValueKind {
return d.valueKind
}
// Alternate defines the property of metric value dependent on a
// metric type.
//
// - for Counter, true implies that the metric is an up-down Counter
//
// - for Gauge/Observer, true implies that the metric is a
// non-descending Gauge/Observer
//
// - for Measure, true implies that the metric supports positive and
// negative values
func (d *Descriptor) Alternate() bool {
return d.alternate
}
// Measurement is used for reporting a batch of metric values.
type Measurement struct {
Descriptor *Descriptor
Value MeasurementValue
}
// Option supports specifying the various metric options.
type Option func(*Descriptor)
// OptionApplier is an interface for applying metric options that are
// valid for all the kinds of metrics.
type OptionApplier interface {
CounterOptionApplier
GaugeOptionApplier
MeasureOptionApplier
// ApplyOption is used to make some changes in the Descriptor.
ApplyOption(*Descriptor)
}
type optionWrapper struct {
F Option
}
var _ OptionApplier = optionWrapper{}
func (o optionWrapper) ApplyCounterOption(d *Descriptor) {
o.ApplyOption(d)
}
func (o optionWrapper) ApplyGaugeOption(d *Descriptor) {
o.ApplyOption(d)
}
func (o optionWrapper) ApplyMeasureOption(d *Descriptor) {
o.ApplyOption(d)
}
func (o optionWrapper) ApplyOption(d *Descriptor) {
o.F(d)
}
// WithDescription applies provided description.
func WithDescription(desc string) OptionApplier {
return optionWrapper{
F: func(d *Descriptor) {
d.description = desc
},
}
}
// WithUnit applies provided unit.
func WithUnit(unit unit.Unit) OptionApplier {
return optionWrapper{
F: func(d *Descriptor) {
d.unit = unit
},
}
}
// WithKeys applies required label keys. Multiple `WithKeys` options
// accumulate.
func WithKeys(keys ...core.Key) OptionApplier {
return optionWrapper{
F: func(d *Descriptor) {
d.keys = append(d.keys, keys...)
},
}
}
// WithNonMonotonic sets whether a counter is permitted to go up AND
// down.
func WithNonMonotonic(nm bool) CounterOptionApplier {
return counterOptionWrapper{
F: func(d *Descriptor) {
d.alternate = nm
},
}
}
// WithMonotonic sets whether a gauge is not permitted to go down.
func WithMonotonic(m bool) GaugeOptionApplier {
return gaugeOptionWrapper{
F: func(d *Descriptor) {
d.alternate = m
},
}
}
// WithSigned sets whether a measure is permitted to be negative.
func WithSigned(s bool) MeasureOptionApplier {
return measureOptionWrapper{
F: func(d *Descriptor) {
d.alternate = s
},
}
}
// Defined returns true when the descriptor has been registered.
func (d Descriptor) Defined() bool {
return len(d.name) != 0
}
// RecordBatch reports to the global Meter.
func RecordBatch(ctx context.Context, labels LabelSet, batch ...Measurement) {
GlobalMeter().RecordBatch(ctx, labels, batch...)
}
// Int64ObservationCallback defines a type of the callback the
// observer will use to report the int64 measurement.
type Int64ObservationCallback func(LabelSet, int64)
// Int64ObserverCallback defines a type of the callback SDK will call
// for the registered int64 observers.
type Int64ObserverCallback func(Meter, Int64Observer, Int64ObservationCallback)
// RegisterInt64Observer is a convenience wrapper around
// Meter.RegisterObserver that provides a type-safe callback for
// Int64Observer.
func RegisterInt64Observer(meter Meter, observer Int64Observer, callback Int64ObserverCallback) {
cb := func(m Meter, o Observer, ocb ObservationCallback) {
iocb := func(l LabelSet, i int64) {
ocb(l, NewInt64MeasurementValue(i))
}
callback(m, Int64Observer{o}, iocb)
}
meter.RegisterObserver(observer.Observer, cb)
}
// UnregisterInt64Observer is a convenience wrapper around
// Meter.UnregisterObserver for Int64Observer.
func UnregisterInt64Observer(meter Meter, observer Int64Observer) {
meter.UnregisterObserver(observer.Observer)
}
// Float64ObservationCallback defines a type of the callback the
// observer will use to report the float64 measurement.
type Float64ObservationCallback func(LabelSet, float64)
// Float64ObserverCallback defines a type of the callback SDK will
// call for the registered float64 observers.
type Float64ObserverCallback func(Meter, Float64Observer, Float64ObservationCallback)
// RegisterFloat64Observer is a convenience wrapper around
// Meter.RegisterObserver that provides a type-safe callback for
// Float64Observer.
func RegisterFloat64Observer(meter Meter, observer Float64Observer, callback Float64ObserverCallback) {
cb := func(m Meter, o Observer, ocb ObservationCallback) {
focb := func(l LabelSet, f float64) {
ocb(l, NewFloat64MeasurementValue(f))
}
callback(m, Float64Observer{o}, focb)
}
meter.RegisterObserver(observer.Observer, cb)
}
// UnregisterFloat64Observer is a convenience wrapper around
// Meter.UnregisterObserver for Float64Observer.
func UnregisterFloat64Observer(meter Meter, observer Float64Observer) {
meter.UnregisterObserver(observer.Observer)
}