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// Copyright The OpenTelemetry Authors
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// SPDX-License-Identifier: Apache-2.0
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package metric // import "go.opentelemetry.io/otel/sdk/metric"
import (
"context"
"errors"
"fmt"
"go.opentelemetry.io/otel/internal/global"
"go.opentelemetry.io/otel/metric"
"go.opentelemetry.io/otel/metric/embedded"
"go.opentelemetry.io/otel/sdk/instrumentation"
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"go.opentelemetry.io/otel/sdk/metric/internal/aggregate"
)
// ErrInstrumentName indicates the created instrument has an invalid name.
// Valid names must consist of 255 or fewer characters including alphanumeric, _, ., -, / and start with a letter.
var ErrInstrumentName = errors . New ( "invalid instrument name" )
// meter handles the creation and coordination of all metric instruments. A
// meter represents a single instrumentation scope; all metric telemetry
// produced by an instrumentation scope will use metric instruments from a
// single meter.
type meter struct {
embedded . Meter
scope instrumentation . Scope
pipes pipelines
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int64Insts * cacheWithErr [ instID , * int64Inst ]
float64Insts * cacheWithErr [ instID , * float64Inst ]
int64ObservableInsts * cacheWithErr [ instID , int64Observable ]
float64ObservableInsts * cacheWithErr [ instID , float64Observable ]
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int64Resolver resolver [ int64 ]
float64Resolver resolver [ float64 ]
}
func newMeter ( s instrumentation . Scope , p pipelines ) * meter {
// viewCache ensures instrument conflicts, including number conflicts, this
// meter is asked to create are logged to the user.
var viewCache cache [ string , instID ]
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var int64Insts cacheWithErr [ instID , * int64Inst ]
var float64Insts cacheWithErr [ instID , * float64Inst ]
var int64ObservableInsts cacheWithErr [ instID , int64Observable ]
var float64ObservableInsts cacheWithErr [ instID , float64Observable ]
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return & meter {
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scope : s ,
pipes : p ,
int64Insts : & int64Insts ,
float64Insts : & float64Insts ,
int64ObservableInsts : & int64ObservableInsts ,
float64ObservableInsts : & float64ObservableInsts ,
int64Resolver : newResolver [ int64 ] ( p , & viewCache ) ,
float64Resolver : newResolver [ float64 ] ( p , & viewCache ) ,
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}
}
// Compile-time check meter implements metric.Meter.
var _ metric . Meter = ( * meter ) ( nil )
// Int64Counter returns a new instrument identified by name and configured with
// options. The instrument is used to synchronously record increasing int64
// measurements during a computational operation.
func ( m * meter ) Int64Counter ( name string , options ... metric . Int64CounterOption ) ( metric . Int64Counter , error ) {
cfg := metric . NewInt64CounterConfig ( options ... )
const kind = InstrumentKindCounter
p := int64InstProvider { m }
i , err := p . lookup ( kind , name , cfg . Description ( ) , cfg . Unit ( ) )
if err != nil {
return i , err
}
return i , validateInstrumentName ( name )
}
// Int64UpDownCounter returns a new instrument identified by name and
// configured with options. The instrument is used to synchronously record
// int64 measurements during a computational operation.
func ( m * meter ) Int64UpDownCounter ( name string , options ... metric . Int64UpDownCounterOption ) ( metric . Int64UpDownCounter , error ) {
cfg := metric . NewInt64UpDownCounterConfig ( options ... )
const kind = InstrumentKindUpDownCounter
p := int64InstProvider { m }
i , err := p . lookup ( kind , name , cfg . Description ( ) , cfg . Unit ( ) )
if err != nil {
return i , err
}
return i , validateInstrumentName ( name )
}
// Int64Histogram returns a new instrument identified by name and configured
// with options. The instrument is used to synchronously record the
// distribution of int64 measurements during a computational operation.
func ( m * meter ) Int64Histogram ( name string , options ... metric . Int64HistogramOption ) ( metric . Int64Histogram , error ) {
cfg := metric . NewInt64HistogramConfig ( options ... )
p := int64InstProvider { m }
i , err := p . lookupHistogram ( name , cfg )
if err != nil {
return i , err
}
return i , validateInstrumentName ( name )
}
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// Int64Gauge returns a new instrument identified by name and configured
// with options. The instrument is used to synchronously record the
// distribution of int64 measurements during a computational operation.
func ( m * meter ) Int64Gauge ( name string , options ... metric . Int64GaugeOption ) ( metric . Int64Gauge , error ) {
cfg := metric . NewInt64GaugeConfig ( options ... )
const kind = InstrumentKindGauge
p := int64InstProvider { m }
i , err := p . lookup ( kind , name , cfg . Description ( ) , cfg . Unit ( ) )
if err != nil {
return i , err
}
return i , validateInstrumentName ( name )
}
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// int64ObservableInstrument returns a new observable identified by the Instrument.
// It registers callbacks for each reader's pipeline.
func ( m * meter ) int64ObservableInstrument ( id Instrument , callbacks [ ] metric . Int64Callback ) ( int64Observable , error ) {
key := instID {
Name : id . Name ,
Description : id . Description ,
Unit : id . Unit ,
Kind : id . Kind ,
}
if m . int64ObservableInsts . HasKey ( key ) && len ( callbacks ) > 0 {
warnRepeatedObservableCallbacks ( id )
}
return m . int64ObservableInsts . Lookup ( key , func ( ) ( int64Observable , error ) {
inst := newInt64Observable ( m , id . Kind , id . Name , id . Description , id . Unit )
for _ , insert := range m . int64Resolver . inserters {
// Connect the measure functions for instruments in this pipeline with the
// callbacks for this pipeline.
in , err := insert . Instrument ( id , insert . readerDefaultAggregation ( id . Kind ) )
if err != nil {
return inst , err
}
// Drop aggregation
if len ( in ) == 0 {
inst . dropAggregation = true
continue
}
inst . appendMeasures ( in )
for _ , cback := range callbacks {
inst := int64Observer { measures : in }
fn := cback
insert . addCallback ( func ( ctx context . Context ) error { return fn ( ctx , inst ) } )
}
}
return inst , validateInstrumentName ( id . Name )
} )
}
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// Int64ObservableCounter returns a new instrument identified by name and
// configured with options. The instrument is used to asynchronously record
// increasing int64 measurements once per a measurement collection cycle.
// Only the measurements recorded during the collection cycle are exported.
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//
// If Int64ObservableCounter is invoked repeatedly with the same Name,
// Description, and Unit, only the first set of callbacks provided are used.
// Use meter.RegisterCallback and Registration.Unregister to manage callbacks
// if instrumentation can be created multiple times with different callbacks.
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func ( m * meter ) Int64ObservableCounter ( name string , options ... metric . Int64ObservableCounterOption ) ( metric . Int64ObservableCounter , error ) {
cfg := metric . NewInt64ObservableCounterConfig ( options ... )
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id := Instrument {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindObservableCounter ,
Scope : m . scope ,
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}
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return m . int64ObservableInstrument ( id , cfg . Callbacks ( ) )
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}
// Int64ObservableUpDownCounter returns a new instrument identified by name and
// configured with options. The instrument is used to asynchronously record
// int64 measurements once per a measurement collection cycle. Only the
// measurements recorded during the collection cycle are exported.
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//
// If Int64ObservableUpDownCounter is invoked repeatedly with the same Name,
// Description, and Unit, only the first set of callbacks provided are used.
// Use meter.RegisterCallback and Registration.Unregister to manage callbacks
// if instrumentation can be created multiple times with different callbacks.
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func ( m * meter ) Int64ObservableUpDownCounter ( name string , options ... metric . Int64ObservableUpDownCounterOption ) ( metric . Int64ObservableUpDownCounter , error ) {
cfg := metric . NewInt64ObservableUpDownCounterConfig ( options ... )
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id := Instrument {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindObservableUpDownCounter ,
Scope : m . scope ,
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}
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return m . int64ObservableInstrument ( id , cfg . Callbacks ( ) )
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}
// Int64ObservableGauge returns a new instrument identified by name and
// configured with options. The instrument is used to asynchronously record
// instantaneous int64 measurements once per a measurement collection cycle.
// Only the measurements recorded during the collection cycle are exported.
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//
// If Int64ObservableGauge is invoked repeatedly with the same Name,
// Description, and Unit, only the first set of callbacks provided are used.
// Use meter.RegisterCallback and Registration.Unregister to manage callbacks
// if instrumentation can be created multiple times with different callbacks.
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func ( m * meter ) Int64ObservableGauge ( name string , options ... metric . Int64ObservableGaugeOption ) ( metric . Int64ObservableGauge , error ) {
cfg := metric . NewInt64ObservableGaugeConfig ( options ... )
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id := Instrument {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindObservableGauge ,
Scope : m . scope ,
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}
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return m . int64ObservableInstrument ( id , cfg . Callbacks ( ) )
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}
// Float64Counter returns a new instrument identified by name and configured
// with options. The instrument is used to synchronously record increasing
// float64 measurements during a computational operation.
func ( m * meter ) Float64Counter ( name string , options ... metric . Float64CounterOption ) ( metric . Float64Counter , error ) {
cfg := metric . NewFloat64CounterConfig ( options ... )
const kind = InstrumentKindCounter
p := float64InstProvider { m }
i , err := p . lookup ( kind , name , cfg . Description ( ) , cfg . Unit ( ) )
if err != nil {
return i , err
}
return i , validateInstrumentName ( name )
}
// Float64UpDownCounter returns a new instrument identified by name and
// configured with options. The instrument is used to synchronously record
// float64 measurements during a computational operation.
func ( m * meter ) Float64UpDownCounter ( name string , options ... metric . Float64UpDownCounterOption ) ( metric . Float64UpDownCounter , error ) {
cfg := metric . NewFloat64UpDownCounterConfig ( options ... )
const kind = InstrumentKindUpDownCounter
p := float64InstProvider { m }
i , err := p . lookup ( kind , name , cfg . Description ( ) , cfg . Unit ( ) )
if err != nil {
return i , err
}
return i , validateInstrumentName ( name )
}
// Float64Histogram returns a new instrument identified by name and configured
// with options. The instrument is used to synchronously record the
// distribution of float64 measurements during a computational operation.
func ( m * meter ) Float64Histogram ( name string , options ... metric . Float64HistogramOption ) ( metric . Float64Histogram , error ) {
cfg := metric . NewFloat64HistogramConfig ( options ... )
p := float64InstProvider { m }
i , err := p . lookupHistogram ( name , cfg )
if err != nil {
return i , err
}
return i , validateInstrumentName ( name )
}
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// Float64Gauge returns a new instrument identified by name and configured
// with options. The instrument is used to synchronously record the
// distribution of float64 measurements during a computational operation.
func ( m * meter ) Float64Gauge ( name string , options ... metric . Float64GaugeOption ) ( metric . Float64Gauge , error ) {
cfg := metric . NewFloat64GaugeConfig ( options ... )
const kind = InstrumentKindGauge
p := float64InstProvider { m }
i , err := p . lookup ( kind , name , cfg . Description ( ) , cfg . Unit ( ) )
if err != nil {
return i , err
}
return i , validateInstrumentName ( name )
}
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// float64ObservableInstrument returns a new observable identified by the Instrument.
// It registers callbacks for each reader's pipeline.
func ( m * meter ) float64ObservableInstrument ( id Instrument , callbacks [ ] metric . Float64Callback ) ( float64Observable , error ) {
key := instID {
Name : id . Name ,
Description : id . Description ,
Unit : id . Unit ,
Kind : id . Kind ,
}
if m . int64ObservableInsts . HasKey ( key ) && len ( callbacks ) > 0 {
warnRepeatedObservableCallbacks ( id )
}
return m . float64ObservableInsts . Lookup ( key , func ( ) ( float64Observable , error ) {
inst := newFloat64Observable ( m , id . Kind , id . Name , id . Description , id . Unit )
for _ , insert := range m . float64Resolver . inserters {
// Connect the measure functions for instruments in this pipeline with the
// callbacks for this pipeline.
in , err := insert . Instrument ( id , insert . readerDefaultAggregation ( id . Kind ) )
if err != nil {
return inst , err
}
// Drop aggregation
if len ( in ) == 0 {
inst . dropAggregation = true
continue
}
inst . appendMeasures ( in )
for _ , cback := range callbacks {
inst := float64Observer { measures : in }
fn := cback
insert . addCallback ( func ( ctx context . Context ) error { return fn ( ctx , inst ) } )
}
}
return inst , validateInstrumentName ( id . Name )
} )
}
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// Float64ObservableCounter returns a new instrument identified by name and
// configured with options. The instrument is used to asynchronously record
// increasing float64 measurements once per a measurement collection cycle.
// Only the measurements recorded during the collection cycle are exported.
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//
// If Float64ObservableCounter is invoked repeatedly with the same Name,
// Description, and Unit, only the first set of callbacks provided are used.
// Use meter.RegisterCallback and Registration.Unregister to manage callbacks
// if instrumentation can be created multiple times with different callbacks.
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func ( m * meter ) Float64ObservableCounter ( name string , options ... metric . Float64ObservableCounterOption ) ( metric . Float64ObservableCounter , error ) {
cfg := metric . NewFloat64ObservableCounterConfig ( options ... )
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id := Instrument {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindObservableCounter ,
Scope : m . scope ,
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}
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return m . float64ObservableInstrument ( id , cfg . Callbacks ( ) )
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}
// Float64ObservableUpDownCounter returns a new instrument identified by name
// and configured with options. The instrument is used to asynchronously record
// float64 measurements once per a measurement collection cycle. Only the
// measurements recorded during the collection cycle are exported.
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//
// If Float64ObservableUpDownCounter is invoked repeatedly with the same Name,
// Description, and Unit, only the first set of callbacks provided are used.
// Use meter.RegisterCallback and Registration.Unregister to manage callbacks
// if instrumentation can be created multiple times with different callbacks.
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func ( m * meter ) Float64ObservableUpDownCounter ( name string , options ... metric . Float64ObservableUpDownCounterOption ) ( metric . Float64ObservableUpDownCounter , error ) {
cfg := metric . NewFloat64ObservableUpDownCounterConfig ( options ... )
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id := Instrument {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindObservableUpDownCounter ,
Scope : m . scope ,
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}
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return m . float64ObservableInstrument ( id , cfg . Callbacks ( ) )
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}
// Float64ObservableGauge returns a new instrument identified by name and
// configured with options. The instrument is used to asynchronously record
// instantaneous float64 measurements once per a measurement collection cycle.
// Only the measurements recorded during the collection cycle are exported.
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//
// If Float64ObservableGauge is invoked repeatedly with the same Name,
// Description, and Unit, only the first set of callbacks provided are used.
// Use meter.RegisterCallback and Registration.Unregister to manage callbacks
// if instrumentation can be created multiple times with different callbacks.
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func ( m * meter ) Float64ObservableGauge ( name string , options ... metric . Float64ObservableGaugeOption ) ( metric . Float64ObservableGauge , error ) {
cfg := metric . NewFloat64ObservableGaugeConfig ( options ... )
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id := Instrument {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindObservableGauge ,
Scope : m . scope ,
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}
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return m . float64ObservableInstrument ( id , cfg . Callbacks ( ) )
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}
func validateInstrumentName ( name string ) error {
if len ( name ) == 0 {
return fmt . Errorf ( "%w: %s: is empty" , ErrInstrumentName , name )
}
if len ( name ) > 255 {
return fmt . Errorf ( "%w: %s: longer than 255 characters" , ErrInstrumentName , name )
}
if ! isAlpha ( [ ] rune ( name ) [ 0 ] ) {
return fmt . Errorf ( "%w: %s: must start with a letter" , ErrInstrumentName , name )
}
if len ( name ) == 1 {
return nil
}
for _ , c := range name [ 1 : ] {
if ! isAlphanumeric ( c ) && c != '_' && c != '.' && c != '-' && c != '/' {
return fmt . Errorf ( "%w: %s: must only contain [A-Za-z0-9_.-/]" , ErrInstrumentName , name )
}
}
return nil
}
func isAlpha ( c rune ) bool {
return ( 'a' <= c && c <= 'z' ) || ( 'A' <= c && c <= 'Z' )
}
func isAlphanumeric ( c rune ) bool {
return isAlpha ( c ) || ( '0' <= c && c <= '9' )
}
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func warnRepeatedObservableCallbacks ( id Instrument ) {
inst := fmt . Sprintf (
"Instrument{Name: %q, Description: %q, Kind: %q, Unit: %q}" ,
id . Name , id . Description , "InstrumentKind" + id . Kind . String ( ) , id . Unit ,
)
global . Warn ( "Repeated observable instrument creation with callbacks. Ignoring new callbacks. Use meter.RegisterCallback and Registration.Unregister to manage callbacks." ,
"instrument" , inst ,
)
}
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// RegisterCallback registers f to be called each collection cycle so it will
// make observations for insts during those cycles.
//
// The only instruments f can make observations for are insts. All other
// observations will be dropped and an error will be logged.
//
// Only instruments from this meter can be registered with f, an error is
// returned if other instrument are provided.
//
// Only observations made in the callback will be exported. Unlike synchronous
// instruments, asynchronous callbacks can "forget" attribute sets that are no
// longer relevant by omitting the observation during the callback.
//
// The returned Registration can be used to unregister f.
func ( m * meter ) RegisterCallback ( f metric . Callback , insts ... metric . Observable ) ( metric . Registration , error ) {
if len ( insts ) == 0 {
// Don't allocate a observer if not needed.
return noopRegister { } , nil
}
reg := newObserver ( )
var errs multierror
for _ , inst := range insts {
// Unwrap any global.
if u , ok := inst . ( interface {
Unwrap ( ) metric . Observable
} ) ; ok {
inst = u . Unwrap ( )
}
switch o := inst . ( type ) {
case int64Observable :
if err := o . registerable ( m ) ; err != nil {
if ! errors . Is ( err , errEmptyAgg ) {
errs . append ( err )
}
continue
}
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reg . registerInt64 ( o . observablID )
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case float64Observable :
if err := o . registerable ( m ) ; err != nil {
if ! errors . Is ( err , errEmptyAgg ) {
errs . append ( err )
}
continue
}
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reg . registerFloat64 ( o . observablID )
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default :
// Instrument external to the SDK.
return nil , fmt . Errorf ( "invalid observable: from different implementation" )
}
}
err := errs . errorOrNil ( )
if reg . len ( ) == 0 {
// All insts use drop aggregation or are invalid.
return noopRegister { } , err
}
// Some or all instruments were valid.
cback := func ( ctx context . Context ) error { return f ( ctx , reg ) }
return m . pipes . registerMultiCallback ( cback ) , err
}
type observer struct {
embedded . Observer
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float64 map [ observablID [ float64 ] ] struct { }
int64 map [ observablID [ int64 ] ] struct { }
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}
func newObserver ( ) observer {
return observer {
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float64 : make ( map [ observablID [ float64 ] ] struct { } ) ,
int64 : make ( map [ observablID [ int64 ] ] struct { } ) ,
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}
}
func ( r observer ) len ( ) int {
return len ( r . float64 ) + len ( r . int64 )
}
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func ( r observer ) registerFloat64 ( id observablID [ float64 ] ) {
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r . float64 [ id ] = struct { } { }
}
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func ( r observer ) registerInt64 ( id observablID [ int64 ] ) {
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r . int64 [ id ] = struct { } { }
}
var (
errUnknownObserver = errors . New ( "unknown observable instrument" )
errUnregObserver = errors . New ( "observable instrument not registered for callback" )
)
func ( r observer ) ObserveFloat64 ( o metric . Float64Observable , v float64 , opts ... metric . ObserveOption ) {
var oImpl float64Observable
switch conv := o . ( type ) {
case float64Observable :
oImpl = conv
case interface {
Unwrap ( ) metric . Observable
} :
// Unwrap any global.
async := conv . Unwrap ( )
var ok bool
if oImpl , ok = async . ( float64Observable ) ; ! ok {
global . Error ( errUnknownObserver , "failed to record asynchronous" )
return
}
default :
global . Error ( errUnknownObserver , "failed to record" )
return
}
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if _ , registered := r . float64 [ oImpl . observablID ] ; ! registered {
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if ! oImpl . dropAggregation {
global . Error ( errUnregObserver , "failed to record" ,
"name" , oImpl . name ,
"description" , oImpl . description ,
"unit" , oImpl . unit ,
"number" , fmt . Sprintf ( "%T" , float64 ( 0 ) ) ,
)
}
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return
}
c := metric . NewObserveConfig ( opts )
oImpl . observe ( v , c . Attributes ( ) )
}
func ( r observer ) ObserveInt64 ( o metric . Int64Observable , v int64 , opts ... metric . ObserveOption ) {
var oImpl int64Observable
switch conv := o . ( type ) {
case int64Observable :
oImpl = conv
case interface {
Unwrap ( ) metric . Observable
} :
// Unwrap any global.
async := conv . Unwrap ( )
var ok bool
if oImpl , ok = async . ( int64Observable ) ; ! ok {
global . Error ( errUnknownObserver , "failed to record asynchronous" )
return
}
default :
global . Error ( errUnknownObserver , "failed to record" )
return
}
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if _ , registered := r . int64 [ oImpl . observablID ] ; ! registered {
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if ! oImpl . dropAggregation {
global . Error ( errUnregObserver , "failed to record" ,
"name" , oImpl . name ,
"description" , oImpl . description ,
"unit" , oImpl . unit ,
"number" , fmt . Sprintf ( "%T" , int64 ( 0 ) ) ,
)
}
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return
}
c := metric . NewObserveConfig ( opts )
oImpl . observe ( v , c . Attributes ( ) )
}
type noopRegister struct { embedded . Registration }
func ( noopRegister ) Unregister ( ) error {
return nil
}
// int64InstProvider provides int64 OpenTelemetry instruments.
type int64InstProvider struct { * meter }
func ( p int64InstProvider ) aggs ( kind InstrumentKind , name , desc , u string ) ( [ ] aggregate . Measure [ int64 ] , error ) {
inst := Instrument {
Name : name ,
Description : desc ,
Unit : u ,
Kind : kind ,
Scope : p . scope ,
}
return p . int64Resolver . Aggregators ( inst )
}
func ( p int64InstProvider ) histogramAggs ( name string , cfg metric . Int64HistogramConfig ) ( [ ] aggregate . Measure [ int64 ] , error ) {
boundaries := cfg . ExplicitBucketBoundaries ( )
aggError := AggregationExplicitBucketHistogram { Boundaries : boundaries } . err ( )
if aggError != nil {
// If boundaries are invalid, ignore them.
boundaries = nil
}
inst := Instrument {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindHistogram ,
Scope : p . scope ,
}
measures , err := p . int64Resolver . HistogramAggregators ( inst , boundaries )
return measures , errors . Join ( aggError , err )
}
// lookup returns the resolved instrumentImpl.
func ( p int64InstProvider ) lookup ( kind InstrumentKind , name , desc , u string ) ( * int64Inst , error ) {
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return p . meter . int64Insts . Lookup ( instID {
Name : name ,
Description : desc ,
Unit : u ,
Kind : kind ,
} , func ( ) ( * int64Inst , error ) {
aggs , err := p . aggs ( kind , name , desc , u )
return & int64Inst { measures : aggs } , err
} )
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}
// lookupHistogram returns the resolved instrumentImpl.
func ( p int64InstProvider ) lookupHistogram ( name string , cfg metric . Int64HistogramConfig ) ( * int64Inst , error ) {
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return p . meter . int64Insts . Lookup ( instID {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindHistogram ,
} , func ( ) ( * int64Inst , error ) {
aggs , err := p . histogramAggs ( name , cfg )
return & int64Inst { measures : aggs } , err
} )
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}
// float64InstProvider provides float64 OpenTelemetry instruments.
type float64InstProvider struct { * meter }
func ( p float64InstProvider ) aggs ( kind InstrumentKind , name , desc , u string ) ( [ ] aggregate . Measure [ float64 ] , error ) {
inst := Instrument {
Name : name ,
Description : desc ,
Unit : u ,
Kind : kind ,
Scope : p . scope ,
}
return p . float64Resolver . Aggregators ( inst )
}
func ( p float64InstProvider ) histogramAggs ( name string , cfg metric . Float64HistogramConfig ) ( [ ] aggregate . Measure [ float64 ] , error ) {
boundaries := cfg . ExplicitBucketBoundaries ( )
aggError := AggregationExplicitBucketHistogram { Boundaries : boundaries } . err ( )
if aggError != nil {
// If boundaries are invalid, ignore them.
boundaries = nil
}
inst := Instrument {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindHistogram ,
Scope : p . scope ,
}
measures , err := p . float64Resolver . HistogramAggregators ( inst , boundaries )
return measures , errors . Join ( aggError , err )
}
// lookup returns the resolved instrumentImpl.
func ( p float64InstProvider ) lookup ( kind InstrumentKind , name , desc , u string ) ( * float64Inst , error ) {
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return p . meter . float64Insts . Lookup ( instID {
Name : name ,
Description : desc ,
Unit : u ,
Kind : kind ,
} , func ( ) ( * float64Inst , error ) {
aggs , err := p . aggs ( kind , name , desc , u )
return & float64Inst { measures : aggs } , err
} )
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}
// lookupHistogram returns the resolved instrumentImpl.
func ( p float64InstProvider ) lookupHistogram ( name string , cfg metric . Float64HistogramConfig ) ( * float64Inst , error ) {
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return p . meter . float64Insts . Lookup ( instID {
Name : name ,
Description : cfg . Description ( ) ,
Unit : cfg . Unit ( ) ,
Kind : InstrumentKindHistogram ,
} , func ( ) ( * float64Inst , error ) {
aggs , err := p . histogramAggs ( name , cfg )
return & float64Inst { measures : aggs } , err
} )
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}
type int64Observer struct {
embedded . Int64Observer
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measures [ int64 ]
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}
func ( o int64Observer ) Observe ( val int64 , opts ... metric . ObserveOption ) {
c := metric . NewObserveConfig ( opts )
o . observe ( val , c . Attributes ( ) )
}
type float64Observer struct {
embedded . Float64Observer
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measures [ float64 ]
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}
func ( o float64Observer ) Observe ( val float64 , opts ... metric . ObserveOption ) {
c := metric . NewObserveConfig ( opts )
o . observe ( val , c . Attributes ( ) )
}