Documentation ¶
Index ¶
- func MakeExporterFactoryMap(factories ...ExporterFactory) (map[configmodels.Type]ExporterFactory, error)
- func MakeExtensionFactoryMap(factories ...ExtensionFactory) (map[configmodels.Type]ExtensionFactory, error)
- func MakeProcessorFactoryMap(factories ...ProcessorFactory) (map[configmodels.Type]ProcessorFactory, error)
- func MakeReceiverFactoryMap(factories ...ReceiverFactory) (map[configmodels.Type]ReceiverFactory, error)
- type ApplicationStartInfo
- type Component
- type ConfigUnmarshaler
- type CustomUnmarshaler
- type Exporter
- type ExporterCreateParams
- type ExporterFactory
- type ExtensionCreateParams
- type ExtensionFactory
- type Factories
- type Factory
- type Host
- type Kind
- type LogsExporter
- type LogsProcessor
- type LogsReceiver
- type MetricsExporter
- type MetricsProcessor
- type MetricsReceiver
- type PipelineWatcher
- type Processor
- type ProcessorCapabilities
- type ProcessorCreateParams
- type ProcessorFactory
- type Receiver
- type ReceiverCreateParams
- type ReceiverFactory
- type ServiceExtension
- type TraceExporter
- type TraceProcessor
- type TraceReceiver
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func MakeExporterFactoryMap ¶
func MakeExporterFactoryMap(factories ...ExporterFactory) (map[configmodels.Type]ExporterFactory, error)
MakeExporterFactoryMap takes a list of exporter factories and returns a map with factory type as keys. It returns a non-nil error when more than one factories have the same type.
func MakeExtensionFactoryMap ¶
func MakeExtensionFactoryMap(factories ...ExtensionFactory) (map[configmodels.Type]ExtensionFactory, error)
MakeExtensionFactoryMap takes a list of extension factories and returns a map with factory type as keys. It returns a non-nil error when more than one factories have the same type.
func MakeProcessorFactoryMap ¶
func MakeProcessorFactoryMap(factories ...ProcessorFactory) (map[configmodels.Type]ProcessorFactory, error)
MakeProcessorFactoryMap takes a list of processor factories and returns a map with factory type as keys. It returns a non-nil error when more than one factories have the same type.
func MakeReceiverFactoryMap ¶
func MakeReceiverFactoryMap(factories ...ReceiverFactory) (map[configmodels.Type]ReceiverFactory, error)
MakeReceiverFactoryMap takes a list of receiver factories and returns a map with factory type as keys. It returns a non-nil error when more than one factories have the same type.
Types ¶
type ApplicationStartInfo ¶ added in v0.9.0
type ApplicationStartInfo struct { // Executable file name, e.g. "otelcol". ExeName string // Long name, used e.g. in the logs. LongName string // Version string. Version string // Git hash of the source code. GitHash string }
ApplicationStartInfo is the information that is logged at the application start and passed into each component. This information can be overridden in custom builds.
type Component ¶
type Component interface { // Start tells the component to start. Host parameter can be used for communicating // with the host after Start() has already returned. If error is returned by // Start() then the collector startup will be aborted. // If this is an exporter component it may prepare for exporting // by connecting to the endpoint. // // If the component needs to perform a long-running starting operation then it is recommended // that Start() returns quickly and the long-running operation is performed in background. // In that case make sure that the long-running operation does not use the context passed // to Start() function since that context will be cancelled soon and can abort the long-running operation. // Create a new context from the context.Background() for long-running operations. Start(ctx context.Context, host Host) error // Shutdown is invoked during service shutdown. // // If there are any background operations running by the component they must be aborted as soon as possible. // Remember that if you started any long-running background operation from the Start() method that operation // must be also cancelled. Shutdown(ctx context.Context) error }
Component is either a receiver, exporter, processor or extension.
type ConfigUnmarshaler ¶ added in v0.8.0
type ConfigUnmarshaler interface { // Unmarshal is a function that un-marshals a viper data into a config struct in a custom way. // componentViperSection *viper.Viper // The config for this specific component. May be nil or empty if no config available. // intoCfg interface{} // An empty interface wrapping a pointer to the config struct to unmarshal into. Unmarshal(componentViperSection *viper.Viper, intoCfg interface{}) error }
ConfigUnmarshaler interface is an optional interface that if implemented by a Factory, the configuration loading system will use to unmarshal the config.
type CustomUnmarshaler ¶
CustomUnmarshaler is a function that un-marshals a viper data into a config struct in a custom way. componentViperSection *viper.Viper
The config for this specific component. May be nil or empty if no config available.
intoCfg interface{}
An empty interface wrapping a pointer to the config struct to unmarshal into.
type Exporter ¶
type Exporter interface { Component }
Exporter defines functions that all exporters must implement.
type ExporterCreateParams ¶
type ExporterCreateParams struct { // Logger that the factory can use during creation and can pass to the created // component to be used later as well. Logger *zap.Logger // ApplicationStartInfo can be used by components for informational purposes ApplicationStartInfo ApplicationStartInfo }
ExporterCreateParams is passed to Create*Exporter functions.
type ExporterFactory ¶
type ExporterFactory interface { Factory // CreateDefaultConfig creates the default configuration for the Exporter. // This method can be called multiple times depending on the pipeline // configuration and should not cause side-effects that prevent the creation // of multiple instances of the Exporter. // The object returned by this method needs to pass the checks implemented by // 'configcheck.ValidateConfig'. It is recommended to have such check in the // tests of any implementation of the Factory interface. CreateDefaultConfig() configmodels.Exporter // CreateTraceExporter creates a trace exporter based on this config. // If the exporter type does not support tracing or if the config is not valid // error will be returned instead. CreateTraceExporter( ctx context.Context, params ExporterCreateParams, cfg configmodels.Exporter, ) (TraceExporter, error) // CreateMetricsExporter creates a metrics exporter based on this config. // If the exporter type does not support metrics or if the config is not valid // error will be returned instead. CreateMetricsExporter( ctx context.Context, params ExporterCreateParams, cfg configmodels.Exporter, ) (MetricsExporter, error) // CreateLogsExporter creates an exporter based on the config. // If the exporter type does not support logs or if the config is not valid // error will be returned instead. CreateLogsExporter( ctx context.Context, params ExporterCreateParams, cfg configmodels.Exporter, ) (LogsExporter, error) }
ExporterFactory can create TraceExporter and MetricsExporter. This is the new factory type that can create new style exporters.
type ExtensionCreateParams ¶
type ExtensionCreateParams struct { // Logger that the factory can use during creation and can pass to the created // component to be used later as well. Logger *zap.Logger // ApplicationStartInfo can be used by components for informational purposes ApplicationStartInfo ApplicationStartInfo }
ExtensionCreateParams is passed to ExtensionFactory.Create* functions.
type ExtensionFactory ¶
type ExtensionFactory interface { Factory // CreateDefaultConfig creates the default configuration for the Extension. // This method can be called multiple times depending on the pipeline // configuration and should not cause side-effects that prevent the creation // of multiple instances of the Extension. // The object returned by this method needs to pass the checks implemented by // 'configcheck.ValidateConfig'. It is recommended to have such check in the // tests of any implementation of the Factory interface. CreateDefaultConfig() configmodels.Extension // CreateExtension creates a service extension based on the given config. CreateExtension(ctx context.Context, params ExtensionCreateParams, cfg configmodels.Extension) (ServiceExtension, error) }
ExtensionFactory is a factory interface for extensions to the service.
type Factories ¶ added in v0.7.0
type Factories struct { // Receivers maps receiver type names in the config to the respective factory. Receivers map[configmodels.Type]ReceiverFactory // Processors maps processor type names in the config to the respective factory. Processors map[configmodels.Type]ProcessorFactory // Exporters maps exporter type names in the config to the respective factory. Exporters map[configmodels.Type]ExporterFactory // Extensions maps extension type names in the config to the respective factory. Extensions map[configmodels.Type]ExtensionFactory }
Factories struct holds in a single type all component factories that can be handled by the Config.
type Factory ¶
type Factory interface { // Type gets the type of the component created by this factory. Type() configmodels.Type }
Factory interface must be implemented by all component factories.
type Host ¶
type Host interface { // ReportFatalError is used to report to the host that the extension // encountered a fatal error (i.e.: an error that the instance can't recover // from) after its start function had already returned. ReportFatalError(err error) // GetFactory of the specified kind. Returns the factory for a component type. // This allows components to create other components. For example: // func (r MyReceiver) Start(host component.Host) error { // apacheFactory := host.GetFactory(KindReceiver,"apache").(component.ReceiverFactory) // receiver, err := apacheFactory.CreateMetricsReceiver(...) // ... // } // GetFactory can be called by the component anytime after Start() begins and // until Shutdown() is called. Note that the component is responsible for destroying // other components that it creates. GetFactory(kind Kind, componentType configmodels.Type) Factory // Return map of extensions. Only enabled and created extensions will be returned. // Typically is used to find an extension by type or by full config name. Both cases // can be done by iterating the returned map. There are typically very few extensions // so there there is no performance implications due to iteration. GetExtensions() map[configmodels.Extension]ServiceExtension // Return map of exporters. Only enabled and created exporters will be returned. // Typically is used to find exporters by type or by full config name. Both cases // can be done by iterating the returned map. There are typically very few exporters // so there there is no performance implications due to iteration. // This returns a map by DataType of maps by exporter configs to the exporter instance. // Note that an exporter with the same name may be attached to multiple pipelines and // thus we may have an instance of the exporter for multiple data types. // This is an experimental function that may change or even be removed completely. GetExporters() map[configmodels.DataType]map[configmodels.Exporter]Exporter }
Host represents the entity that is hosting a Component. It is used to allow communication between the Component and its host (normally the service.Application is the host).
type Kind ¶
type Kind int
Kind specified one of the 4 components kinds, see consts below.
const ( KindReceiver Kind KindProcessor KindExporter KindExtension )
type LogsExporter ¶ added in v0.7.0
type LogsExporter interface { Exporter consumer.LogsConsumer }
LogsExporter is an Exporter that can consume logs.
type LogsProcessor ¶ added in v0.7.0
type LogsProcessor interface { Processor consumer.LogsConsumer }
LogsProcessor is a processor that can consume logs.
type LogsReceiver ¶ added in v0.7.0
type LogsReceiver interface { Receiver }
A LogsReceiver is a "log data"-to-"internal format" converter. Its purpose is to translate data from the wild into internal data format. LogsReceiver feeds a consumer.LogsConsumer with data.
type MetricsExporter ¶
type MetricsExporter interface { Exporter consumer.MetricsConsumer }
MetricsExporter is an Exporter that can consume metrics.
type MetricsProcessor ¶
type MetricsProcessor interface { Processor consumer.MetricsConsumer }
MetricsProcessor is a processor that can consume metrics.
type MetricsReceiver ¶
type MetricsReceiver interface { Receiver }
A MetricsReceiver is an "arbitrary data"-to-"internal format" converter. Its purpose is to translate data from the wild into internal metrics format. MetricsReceiver feeds a consumer.MetricsConsumer with data.
For example it could be Prometheus data source which translates Prometheus metrics into consumerdata.MetricsData.
type PipelineWatcher ¶
type PipelineWatcher interface { // Ready notifies the ServiceExtension that all pipelines were built and the // receivers were started, i.e.: the service is ready to receive data // (notice that it may already have received data when this method is called). Ready() error // NotReady notifies the ServiceExtension that all receivers are about to be stopped, // i.e.: pipeline receivers will not accept new data. // This is sent before receivers are stopped, so the ServiceExtension can take any // appropriate action before that happens. NotReady() error }
PipelineWatcher is an extra interface for ServiceExtension hosted by the OpenTelemetry Collector that is to be implemented by extensions interested in changes to pipeline states. Typically this will be used by extensions that change their behavior if data is being ingested or not, e.g.: a k8s readiness probe.
type Processor ¶
type Processor interface { Component // GetCapabilities must return the capabilities of the processor. GetCapabilities() ProcessorCapabilities }
Processor defines the common functions that must be implemented by TraceProcessor and MetricsProcessor.
type ProcessorCapabilities ¶
type ProcessorCapabilities struct { // MutatesConsumedData is set to true if Consume* function of the // processor modifies the input TraceData or MetricsData argument. // Processors which modify the input data MUST set this flag to true. If the processor // does not modify the data it MUST set this flag to false. If the processor creates // a copy of the data before modifying then this flag can be safely set to false. MutatesConsumedData bool }
ProcessorCapabilities describes the capabilities of a Processor.
type ProcessorCreateParams ¶
type ProcessorCreateParams struct { // Logger that the factory can use during creation and can pass to the created // component to be used later as well. Logger *zap.Logger // ApplicationStartInfo can be used by components for informational purposes ApplicationStartInfo ApplicationStartInfo }
ProcessorCreateParams is passed to Create* functions in ProcessorFactory.
type ProcessorFactory ¶
type ProcessorFactory interface { Factory // CreateDefaultConfig creates the default configuration for the Processor. // This method can be called multiple times depending on the pipeline // configuration and should not cause side-effects that prevent the creation // of multiple instances of the Processor. // The object returned by this method needs to pass the checks implemented by // 'configcheck.ValidateConfig'. It is recommended to have such check in the // tests of any implementation of the Factory interface. CreateDefaultConfig() configmodels.Processor // CreateTraceProcessor creates a trace processor based on this config. // If the processor type does not support tracing or if the config is not valid // error will be returned instead. CreateTraceProcessor( ctx context.Context, params ProcessorCreateParams, cfg configmodels.Processor, nextConsumer consumer.TraceConsumer, ) (TraceProcessor, error) // CreateMetricsProcessor creates a metrics processor based on this config. // If the processor type does not support metrics or if the config is not valid // error will be returned instead. CreateMetricsProcessor( ctx context.Context, params ProcessorCreateParams, cfg configmodels.Processor, nextConsumer consumer.MetricsConsumer, ) (MetricsProcessor, error) // CreateLogsProcessor creates a processor based on the config. // If the processor type does not support logs or if the config is not valid // error will be returned instead. CreateLogsProcessor( ctx context.Context, params ProcessorCreateParams, cfg configmodels.Processor, nextConsumer consumer.LogsConsumer, ) (LogsProcessor, error) }
ProcessorFactory is factory interface for processors. This is the new factory type that can create new style processors.
type Receiver ¶
type Receiver interface { Component }
Receiver defines functions that trace and metric receivers must implement.
type ReceiverCreateParams ¶
type ReceiverCreateParams struct { // Logger that the factory can use during creation and can pass to the created // component to be used later as well. Logger *zap.Logger // ApplicationStartInfo can be used by components for informational purposes ApplicationStartInfo ApplicationStartInfo }
ReceiverCreateParams is passed to ReceiverFactory.Create* functions.
type ReceiverFactory ¶
type ReceiverFactory interface { Factory // CreateDefaultConfig creates the default configuration for the Receiver. // This method can be called multiple times depending on the pipeline // configuration and should not cause side-effects that prevent the creation // of multiple instances of the Receiver. // The object returned by this method needs to pass the checks implemented by // 'configcheck.ValidateConfig'. It is recommended to have such check in the // tests of any implementation of the Factory interface. CreateDefaultConfig() configmodels.Receiver // CreateTraceReceiver creates a trace receiver based on this config. // If the receiver type does not support tracing or if the config is not valid // error will be returned instead. CreateTraceReceiver(ctx context.Context, params ReceiverCreateParams, cfg configmodels.Receiver, nextConsumer consumer.TraceConsumer) (TraceReceiver, error) // CreateMetricsReceiver creates a metrics receiver based on this config. // If the receiver type does not support metrics or if the config is not valid // error will be returned instead. CreateMetricsReceiver(ctx context.Context, params ReceiverCreateParams, cfg configmodels.Receiver, nextConsumer consumer.MetricsConsumer) (MetricsReceiver, error) // CreateLogsReceiver creates a log receiver based on this config. // If the receiver type does not support the data type or if the config is not valid // error will be returned instead. CreateLogsReceiver(ctx context.Context, params ReceiverCreateParams, cfg configmodels.Receiver, nextConsumer consumer.LogsConsumer) (LogsReceiver, error) }
ReceiverFactory can create TraceReceiver and MetricsReceiver. This is the new factory type that can create new style receivers.
type ServiceExtension ¶
type ServiceExtension interface { Component }
ServiceExtension is the interface for objects hosted by the OpenTelemetry Collector that don't participate directly on data pipelines but provide some functionality to the service, examples: health check endpoint, z-pages, etc.
type TraceExporter ¶
type TraceExporter interface { Exporter consumer.TraceConsumer }
TraceExporter is a Exporter that can consume traces.
type TraceProcessor ¶
type TraceProcessor interface { Processor consumer.TraceConsumer }
TraceProcessor is a processor that can consume traces.
type TraceReceiver ¶
type TraceReceiver interface { Receiver }
A TraceReceiver is an "arbitrary data"-to-"internal format" converter. Its purpose is to translate data from the wild into internal trace format. TraceReceiver feeds a consumer.TraceConsumer with data.
For example it could be Zipkin data source which translates Zipkin spans into consumerdata.TraceData.
Source Files ¶
Directories ¶
Path | Synopsis |
---|---|
Package oterr provides helper functions to create and process OpenTelemetry specific errors
|
Package oterr provides helper functions to create and process OpenTelemetry specific errors |
componentprofiles
module
|
|
componentstatus
module
|
|
Package componenttest define types and functions used to help test packages implementing the component package interfaces.
|
Package componenttest define types and functions used to help test packages implementing the component package interfaces. |