// Copyright The OpenTelemetry Authors // SPDX-License-Identifier: Apache-2.0 // Code generated from semantic convention specification. DO NOT EDIT. package semconv // import "go.opentelemetry.io/otel/semconv/v1.24.0" import "go.opentelemetry.io/otel/attribute" // Describes FaaS attributes. const ( // FaaSInvokedNameKey is the attribute Key conforming to the // "faas.invoked_name" semantic conventions. It represents the name of the // invoked function. // // Type: string // RequirementLevel: Required // Stability: experimental // Examples: 'my-function' // Note: SHOULD be equal to the `faas.name` resource attribute of the // invoked function. FaaSInvokedNameKey = attribute.Key("faas.invoked_name") // FaaSInvokedProviderKey is the attribute Key conforming to the // "faas.invoked_provider" semantic conventions. It represents the cloud // provider of the invoked function. // // Type: Enum // RequirementLevel: Required // Stability: experimental // Note: SHOULD be equal to the `cloud.provider` resource attribute of the // invoked function. FaaSInvokedProviderKey = attribute.Key("faas.invoked_provider") // FaaSInvokedRegionKey is the attribute Key conforming to the // "faas.invoked_region" semantic conventions. It represents the cloud // region of the invoked function. // // Type: string // RequirementLevel: ConditionallyRequired (For some cloud providers, like // AWS or GCP, the region in which a function is hosted is essential to // uniquely identify the function and also part of its endpoint. Since it's // part of the endpoint being called, the region is always known to // clients. In these cases, `faas.invoked_region` MUST be set accordingly. // If the region is unknown to the client or not required for identifying // the invoked function, setting `faas.invoked_region` is optional.) // Stability: experimental // Examples: 'eu-central-1' // Note: SHOULD be equal to the `cloud.region` resource attribute of the // invoked function. FaaSInvokedRegionKey = attribute.Key("faas.invoked_region") // FaaSTriggerKey is the attribute Key conforming to the "faas.trigger" // semantic conventions. It represents the type of the trigger which caused // this function invocation. // // Type: Enum // RequirementLevel: Optional // Stability: experimental FaaSTriggerKey = attribute.Key("faas.trigger") ) var ( // Alibaba Cloud FaaSInvokedProviderAlibabaCloud = FaaSInvokedProviderKey.String("alibaba_cloud") // Amazon Web Services FaaSInvokedProviderAWS = FaaSInvokedProviderKey.String("aws") // Microsoft Azure FaaSInvokedProviderAzure = FaaSInvokedProviderKey.String("azure") // Google Cloud Platform FaaSInvokedProviderGCP = FaaSInvokedProviderKey.String("gcp") // Tencent Cloud FaaSInvokedProviderTencentCloud = FaaSInvokedProviderKey.String("tencent_cloud") ) var ( // A response to some data source operation such as a database or filesystem read/write FaaSTriggerDatasource = FaaSTriggerKey.String("datasource") // To provide an answer to an inbound HTTP request FaaSTriggerHTTP = FaaSTriggerKey.String("http") // A function is set to be executed when messages are sent to a messaging system FaaSTriggerPubsub = FaaSTriggerKey.String("pubsub") // A function is scheduled to be executed regularly FaaSTriggerTimer = FaaSTriggerKey.String("timer") // If none of the others apply FaaSTriggerOther = FaaSTriggerKey.String("other") ) // FaaSInvokedName returns an attribute KeyValue conforming to the // "faas.invoked_name" semantic conventions. It represents the name of the // invoked function. func FaaSInvokedName(val string) attribute.KeyValue { return FaaSInvokedNameKey.String(val) } // FaaSInvokedRegion returns an attribute KeyValue conforming to the // "faas.invoked_region" semantic conventions. It represents the cloud region // of the invoked function. func FaaSInvokedRegion(val string) attribute.KeyValue { return FaaSInvokedRegionKey.String(val) } // Attributes for Events represented using Log Records. const ( // EventNameKey is the attribute Key conforming to the "event.name" // semantic conventions. It represents the identifies the class / type of // event. // // Type: string // RequirementLevel: Required // Stability: experimental // Examples: 'browser.mouse.click', 'device.app.lifecycle' // Note: Event names are subject to the same rules as [attribute // names](https://github.com/open-telemetry/opentelemetry-specification/tree/v1.26.0/specification/common/attribute-naming.md). // Notably, event names are namespaced to avoid collisions and provide a // clean separation of semantics for events in separate domains like // browser, mobile, and kubernetes. EventNameKey = attribute.Key("event.name") ) // EventName returns an attribute KeyValue conforming to the "event.name" // semantic conventions. It represents the identifies the class / type of // event. func EventName(val string) attribute.KeyValue { return EventNameKey.String(val) } // The attributes described in this section are rather generic. They may be // used in any Log Record they apply to. const ( // LogRecordUIDKey is the attribute Key conforming to the "log.record.uid" // semantic conventions. It represents a unique identifier for the Log // Record. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '01ARZ3NDEKTSV4RRFFQ69G5FAV' // Note: If an id is provided, other log records with the same id will be // considered duplicates and can be removed safely. This means, that two // distinguishable log records MUST have different values. // The id MAY be an [Universally Unique Lexicographically Sortable // Identifier (ULID)](https://github.com/ulid/spec), but other identifiers // (e.g. UUID) may be used as needed. LogRecordUIDKey = attribute.Key("log.record.uid") ) // LogRecordUID returns an attribute KeyValue conforming to the // "log.record.uid" semantic conventions. It represents a unique identifier for // the Log Record. func LogRecordUID(val string) attribute.KeyValue { return LogRecordUIDKey.String(val) } // Describes Log attributes const ( // LogIostreamKey is the attribute Key conforming to the "log.iostream" // semantic conventions. It represents the stream associated with the log. // See below for a list of well-known values. // // Type: Enum // RequirementLevel: Optional // Stability: experimental LogIostreamKey = attribute.Key("log.iostream") ) var ( // Logs from stdout stream LogIostreamStdout = LogIostreamKey.String("stdout") // Events from stderr stream LogIostreamStderr = LogIostreamKey.String("stderr") ) // A file to which log was emitted. const ( // LogFileNameKey is the attribute Key conforming to the "log.file.name" // semantic conventions. It represents the basename of the file. // // Type: string // RequirementLevel: Recommended // Stability: experimental // Examples: 'audit.log' LogFileNameKey = attribute.Key("log.file.name") // LogFileNameResolvedKey is the attribute Key conforming to the // "log.file.name_resolved" semantic conventions. It represents the // basename of the file, with symlinks resolved. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'uuid.log' LogFileNameResolvedKey = attribute.Key("log.file.name_resolved") // LogFilePathKey is the attribute Key conforming to the "log.file.path" // semantic conventions. It represents the full path to the file. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '/var/log/mysql/audit.log' LogFilePathKey = attribute.Key("log.file.path") // LogFilePathResolvedKey is the attribute Key conforming to the // "log.file.path_resolved" semantic conventions. It represents the full // path to the file, with symlinks resolved. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '/var/lib/docker/uuid.log' LogFilePathResolvedKey = attribute.Key("log.file.path_resolved") ) // LogFileName returns an attribute KeyValue conforming to the // "log.file.name" semantic conventions. It represents the basename of the // file. func LogFileName(val string) attribute.KeyValue { return LogFileNameKey.String(val) } // LogFileNameResolved returns an attribute KeyValue conforming to the // "log.file.name_resolved" semantic conventions. It represents the basename of // the file, with symlinks resolved. func LogFileNameResolved(val string) attribute.KeyValue { return LogFileNameResolvedKey.String(val) } // LogFilePath returns an attribute KeyValue conforming to the // "log.file.path" semantic conventions. It represents the full path to the // file. func LogFilePath(val string) attribute.KeyValue { return LogFilePathKey.String(val) } // LogFilePathResolved returns an attribute KeyValue conforming to the // "log.file.path_resolved" semantic conventions. It represents the full path // to the file, with symlinks resolved. func LogFilePathResolved(val string) attribute.KeyValue { return LogFilePathResolvedKey.String(val) } // Describes Database attributes const ( // PoolNameKey is the attribute Key conforming to the "pool.name" semantic // conventions. It represents the name of the connection pool; unique // within the instrumented application. In case the connection pool // implementation doesn't provide a name, then the // [db.connection_string](/docs/database/database-spans.md#connection-level-attributes) // should be used // // Type: string // RequirementLevel: Required // Stability: experimental // Examples: 'myDataSource' PoolNameKey = attribute.Key("pool.name") // StateKey is the attribute Key conforming to the "state" semantic // conventions. It represents the state of a connection in the pool // // Type: Enum // RequirementLevel: Required // Stability: experimental // Examples: 'idle' StateKey = attribute.Key("state") ) var ( // idle StateIdle = StateKey.String("idle") // used StateUsed = StateKey.String("used") ) // PoolName returns an attribute KeyValue conforming to the "pool.name" // semantic conventions. It represents the name of the connection pool; unique // within the instrumented application. In case the connection pool // implementation doesn't provide a name, then the // [db.connection_string](/docs/database/database-spans.md#connection-level-attributes) // should be used func PoolName(val string) attribute.KeyValue { return PoolNameKey.String(val) } // ASP.NET Core attributes const ( // AspnetcoreDiagnosticsHandlerTypeKey is the attribute Key conforming to // the "aspnetcore.diagnostics.handler.type" semantic conventions. It // represents the full type name of the // [`IExceptionHandler`](https://learn.microsoft.com/dotnet/api/microsoft.aspnetcore.diagnostics.iexceptionhandler) // implementation that handled the exception. // // Type: string // RequirementLevel: ConditionallyRequired (if and only if the exception // was handled by this handler.) // Stability: experimental // Examples: 'Contoso.MyHandler' AspnetcoreDiagnosticsHandlerTypeKey = attribute.Key("aspnetcore.diagnostics.handler.type") // AspnetcoreRateLimitingPolicyKey is the attribute Key conforming to the // "aspnetcore.rate_limiting.policy" semantic conventions. It represents // the rate limiting policy name. // // Type: string // RequirementLevel: ConditionallyRequired (if the matched endpoint for the // request had a rate-limiting policy.) // Stability: experimental // Examples: 'fixed', 'sliding', 'token' AspnetcoreRateLimitingPolicyKey = attribute.Key("aspnetcore.rate_limiting.policy") // AspnetcoreRateLimitingResultKey is the attribute Key conforming to the // "aspnetcore.rate_limiting.result" semantic conventions. It represents // the rate-limiting result, shows whether the lease was acquired or // contains a rejection reason // // Type: Enum // RequirementLevel: Required // Stability: experimental // Examples: 'acquired', 'request_canceled' AspnetcoreRateLimitingResultKey = attribute.Key("aspnetcore.rate_limiting.result") // AspnetcoreRequestIsUnhandledKey is the attribute Key conforming to the // "aspnetcore.request.is_unhandled" semantic conventions. It represents // the flag indicating if request was handled by the application pipeline. // // Type: boolean // RequirementLevel: ConditionallyRequired (if and only if the request was // not handled.) // Stability: experimental // Examples: True AspnetcoreRequestIsUnhandledKey = attribute.Key("aspnetcore.request.is_unhandled") // AspnetcoreRoutingIsFallbackKey is the attribute Key conforming to the // "aspnetcore.routing.is_fallback" semantic conventions. It represents a // value that indicates whether the matched route is a fallback route. // // Type: boolean // RequirementLevel: ConditionallyRequired (If and only if a route was // successfully matched.) // Stability: experimental // Examples: True AspnetcoreRoutingIsFallbackKey = attribute.Key("aspnetcore.routing.is_fallback") ) var ( // Lease was acquired AspnetcoreRateLimitingResultAcquired = AspnetcoreRateLimitingResultKey.String("acquired") // Lease request was rejected by the endpoint limiter AspnetcoreRateLimitingResultEndpointLimiter = AspnetcoreRateLimitingResultKey.String("endpoint_limiter") // Lease request was rejected by the global limiter AspnetcoreRateLimitingResultGlobalLimiter = AspnetcoreRateLimitingResultKey.String("global_limiter") // Lease request was canceled AspnetcoreRateLimitingResultRequestCanceled = AspnetcoreRateLimitingResultKey.String("request_canceled") ) // AspnetcoreDiagnosticsHandlerType returns an attribute KeyValue conforming // to the "aspnetcore.diagnostics.handler.type" semantic conventions. It // represents the full type name of the // [`IExceptionHandler`](https://learn.microsoft.com/dotnet/api/microsoft.aspnetcore.diagnostics.iexceptionhandler) // implementation that handled the exception. func AspnetcoreDiagnosticsHandlerType(val string) attribute.KeyValue { return AspnetcoreDiagnosticsHandlerTypeKey.String(val) } // AspnetcoreRateLimitingPolicy returns an attribute KeyValue conforming to // the "aspnetcore.rate_limiting.policy" semantic conventions. It represents // the rate limiting policy name. func AspnetcoreRateLimitingPolicy(val string) attribute.KeyValue { return AspnetcoreRateLimitingPolicyKey.String(val) } // AspnetcoreRequestIsUnhandled returns an attribute KeyValue conforming to // the "aspnetcore.request.is_unhandled" semantic conventions. It represents // the flag indicating if request was handled by the application pipeline. func AspnetcoreRequestIsUnhandled(val bool) attribute.KeyValue { return AspnetcoreRequestIsUnhandledKey.Bool(val) } // AspnetcoreRoutingIsFallback returns an attribute KeyValue conforming to // the "aspnetcore.routing.is_fallback" semantic conventions. It represents a // value that indicates whether the matched route is a fallback route. func AspnetcoreRoutingIsFallback(val bool) attribute.KeyValue { return AspnetcoreRoutingIsFallbackKey.Bool(val) } // SignalR attributes const ( // SignalrConnectionStatusKey is the attribute Key conforming to the // "signalr.connection.status" semantic conventions. It represents the // signalR HTTP connection closure status. // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'app_shutdown', 'timeout' SignalrConnectionStatusKey = attribute.Key("signalr.connection.status") // SignalrTransportKey is the attribute Key conforming to the // "signalr.transport" semantic conventions. It represents the [SignalR // transport // type](https://github.com/dotnet/aspnetcore/blob/main/src/SignalR/docs/specs/TransportProtocols.md) // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'web_sockets', 'long_polling' SignalrTransportKey = attribute.Key("signalr.transport") ) var ( // The connection was closed normally SignalrConnectionStatusNormalClosure = SignalrConnectionStatusKey.String("normal_closure") // The connection was closed due to a timeout SignalrConnectionStatusTimeout = SignalrConnectionStatusKey.String("timeout") // The connection was closed because the app is shutting down SignalrConnectionStatusAppShutdown = SignalrConnectionStatusKey.String("app_shutdown") ) var ( // ServerSentEvents protocol SignalrTransportServerSentEvents = SignalrTransportKey.String("server_sent_events") // LongPolling protocol SignalrTransportLongPolling = SignalrTransportKey.String("long_polling") // WebSockets protocol SignalrTransportWebSockets = SignalrTransportKey.String("web_sockets") ) // Describes JVM buffer metric attributes. const ( // JvmBufferPoolNameKey is the attribute Key conforming to the // "jvm.buffer.pool.name" semantic conventions. It represents the name of // the buffer pool. // // Type: string // RequirementLevel: Recommended // Stability: experimental // Examples: 'mapped', 'direct' // Note: Pool names are generally obtained via // [BufferPoolMXBean#getName()](https://docs.oracle.com/en/java/javase/11/docs/api/java.management/java/lang/management/BufferPoolMXBean.html#getName()). JvmBufferPoolNameKey = attribute.Key("jvm.buffer.pool.name") ) // JvmBufferPoolName returns an attribute KeyValue conforming to the // "jvm.buffer.pool.name" semantic conventions. It represents the name of the // buffer pool. func JvmBufferPoolName(val string) attribute.KeyValue { return JvmBufferPoolNameKey.String(val) } // Describes JVM memory metric attributes. const ( // JvmMemoryPoolNameKey is the attribute Key conforming to the // "jvm.memory.pool.name" semantic conventions. It represents the name of // the memory pool. // // Type: string // RequirementLevel: Recommended // Stability: stable // Examples: 'G1 Old Gen', 'G1 Eden space', 'G1 Survivor Space' // Note: Pool names are generally obtained via // [MemoryPoolMXBean#getName()](https://docs.oracle.com/en/java/javase/11/docs/api/java.management/java/lang/management/MemoryPoolMXBean.html#getName()). JvmMemoryPoolNameKey = attribute.Key("jvm.memory.pool.name") // JvmMemoryTypeKey is the attribute Key conforming to the // "jvm.memory.type" semantic conventions. It represents the type of // memory. // // Type: Enum // RequirementLevel: Recommended // Stability: stable // Examples: 'heap', 'non_heap' JvmMemoryTypeKey = attribute.Key("jvm.memory.type") ) var ( // Heap memory JvmMemoryTypeHeap = JvmMemoryTypeKey.String("heap") // Non-heap memory JvmMemoryTypeNonHeap = JvmMemoryTypeKey.String("non_heap") ) // JvmMemoryPoolName returns an attribute KeyValue conforming to the // "jvm.memory.pool.name" semantic conventions. It represents the name of the // memory pool. func JvmMemoryPoolName(val string) attribute.KeyValue { return JvmMemoryPoolNameKey.String(val) } // Describes System metric attributes const ( // SystemDeviceKey is the attribute Key conforming to the "system.device" // semantic conventions. It represents the device identifier // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '(identifier)' SystemDeviceKey = attribute.Key("system.device") ) // SystemDevice returns an attribute KeyValue conforming to the // "system.device" semantic conventions. It represents the device identifier func SystemDevice(val string) attribute.KeyValue { return SystemDeviceKey.String(val) } // Describes System CPU metric attributes const ( // SystemCPULogicalNumberKey is the attribute Key conforming to the // "system.cpu.logical_number" semantic conventions. It represents the // logical CPU number [0..n-1] // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 1 SystemCPULogicalNumberKey = attribute.Key("system.cpu.logical_number") // SystemCPUStateKey is the attribute Key conforming to the // "system.cpu.state" semantic conventions. It represents the state of the // CPU // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'idle', 'interrupt' SystemCPUStateKey = attribute.Key("system.cpu.state") ) var ( // user SystemCPUStateUser = SystemCPUStateKey.String("user") // system SystemCPUStateSystem = SystemCPUStateKey.String("system") // nice SystemCPUStateNice = SystemCPUStateKey.String("nice") // idle SystemCPUStateIdle = SystemCPUStateKey.String("idle") // iowait SystemCPUStateIowait = SystemCPUStateKey.String("iowait") // interrupt SystemCPUStateInterrupt = SystemCPUStateKey.String("interrupt") // steal SystemCPUStateSteal = SystemCPUStateKey.String("steal") ) // SystemCPULogicalNumber returns an attribute KeyValue conforming to the // "system.cpu.logical_number" semantic conventions. It represents the logical // CPU number [0..n-1] func SystemCPULogicalNumber(val int) attribute.KeyValue { return SystemCPULogicalNumberKey.Int(val) } // Describes System Memory metric attributes const ( // SystemMemoryStateKey is the attribute Key conforming to the // "system.memory.state" semantic conventions. It represents the memory // state // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'free', 'cached' SystemMemoryStateKey = attribute.Key("system.memory.state") ) var ( // used SystemMemoryStateUsed = SystemMemoryStateKey.String("used") // free SystemMemoryStateFree = SystemMemoryStateKey.String("free") // shared SystemMemoryStateShared = SystemMemoryStateKey.String("shared") // buffers SystemMemoryStateBuffers = SystemMemoryStateKey.String("buffers") // cached SystemMemoryStateCached = SystemMemoryStateKey.String("cached") ) // Describes System Memory Paging metric attributes const ( // SystemPagingDirectionKey is the attribute Key conforming to the // "system.paging.direction" semantic conventions. It represents the paging // access direction // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'in' SystemPagingDirectionKey = attribute.Key("system.paging.direction") // SystemPagingStateKey is the attribute Key conforming to the // "system.paging.state" semantic conventions. It represents the memory // paging state // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'free' SystemPagingStateKey = attribute.Key("system.paging.state") // SystemPagingTypeKey is the attribute Key conforming to the // "system.paging.type" semantic conventions. It represents the memory // paging type // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'minor' SystemPagingTypeKey = attribute.Key("system.paging.type") ) var ( // in SystemPagingDirectionIn = SystemPagingDirectionKey.String("in") // out SystemPagingDirectionOut = SystemPagingDirectionKey.String("out") ) var ( // used SystemPagingStateUsed = SystemPagingStateKey.String("used") // free SystemPagingStateFree = SystemPagingStateKey.String("free") ) var ( // major SystemPagingTypeMajor = SystemPagingTypeKey.String("major") // minor SystemPagingTypeMinor = SystemPagingTypeKey.String("minor") ) // Describes Filesystem metric attributes const ( // SystemFilesystemModeKey is the attribute Key conforming to the // "system.filesystem.mode" semantic conventions. It represents the // filesystem mode // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'rw, ro' SystemFilesystemModeKey = attribute.Key("system.filesystem.mode") // SystemFilesystemMountpointKey is the attribute Key conforming to the // "system.filesystem.mountpoint" semantic conventions. It represents the // filesystem mount path // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '/mnt/data' SystemFilesystemMountpointKey = attribute.Key("system.filesystem.mountpoint") // SystemFilesystemStateKey is the attribute Key conforming to the // "system.filesystem.state" semantic conventions. It represents the // filesystem state // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'used' SystemFilesystemStateKey = attribute.Key("system.filesystem.state") // SystemFilesystemTypeKey is the attribute Key conforming to the // "system.filesystem.type" semantic conventions. It represents the // filesystem type // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'ext4' SystemFilesystemTypeKey = attribute.Key("system.filesystem.type") ) var ( // used SystemFilesystemStateUsed = SystemFilesystemStateKey.String("used") // free SystemFilesystemStateFree = SystemFilesystemStateKey.String("free") // reserved SystemFilesystemStateReserved = SystemFilesystemStateKey.String("reserved") ) var ( // fat32 SystemFilesystemTypeFat32 = SystemFilesystemTypeKey.String("fat32") // exfat SystemFilesystemTypeExfat = SystemFilesystemTypeKey.String("exfat") // ntfs SystemFilesystemTypeNtfs = SystemFilesystemTypeKey.String("ntfs") // refs SystemFilesystemTypeRefs = SystemFilesystemTypeKey.String("refs") // hfsplus SystemFilesystemTypeHfsplus = SystemFilesystemTypeKey.String("hfsplus") // ext4 SystemFilesystemTypeExt4 = SystemFilesystemTypeKey.String("ext4") ) // SystemFilesystemMode returns an attribute KeyValue conforming to the // "system.filesystem.mode" semantic conventions. It represents the filesystem // mode func SystemFilesystemMode(val string) attribute.KeyValue { return SystemFilesystemModeKey.String(val) } // SystemFilesystemMountpoint returns an attribute KeyValue conforming to // the "system.filesystem.mountpoint" semantic conventions. It represents the // filesystem mount path func SystemFilesystemMountpoint(val string) attribute.KeyValue { return SystemFilesystemMountpointKey.String(val) } // Describes Network metric attributes const ( // SystemNetworkStateKey is the attribute Key conforming to the // "system.network.state" semantic conventions. It represents a stateless // protocol MUST NOT set this attribute // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'close_wait' SystemNetworkStateKey = attribute.Key("system.network.state") ) var ( // close SystemNetworkStateClose = SystemNetworkStateKey.String("close") // close_wait SystemNetworkStateCloseWait = SystemNetworkStateKey.String("close_wait") // closing SystemNetworkStateClosing = SystemNetworkStateKey.String("closing") // delete SystemNetworkStateDelete = SystemNetworkStateKey.String("delete") // established SystemNetworkStateEstablished = SystemNetworkStateKey.String("established") // fin_wait_1 SystemNetworkStateFinWait1 = SystemNetworkStateKey.String("fin_wait_1") // fin_wait_2 SystemNetworkStateFinWait2 = SystemNetworkStateKey.String("fin_wait_2") // last_ack SystemNetworkStateLastAck = SystemNetworkStateKey.String("last_ack") // listen SystemNetworkStateListen = SystemNetworkStateKey.String("listen") // syn_recv SystemNetworkStateSynRecv = SystemNetworkStateKey.String("syn_recv") // syn_sent SystemNetworkStateSynSent = SystemNetworkStateKey.String("syn_sent") // time_wait SystemNetworkStateTimeWait = SystemNetworkStateKey.String("time_wait") ) // Describes System Process metric attributes const ( // SystemProcessesStatusKey is the attribute Key conforming to the // "system.processes.status" semantic conventions. It represents the // process state, e.g., [Linux Process State // Codes](https://man7.org/linux/man-pages/man1/ps.1.html#PROCESS_STATE_CODES) // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'running' SystemProcessesStatusKey = attribute.Key("system.processes.status") ) var ( // running SystemProcessesStatusRunning = SystemProcessesStatusKey.String("running") // sleeping SystemProcessesStatusSleeping = SystemProcessesStatusKey.String("sleeping") // stopped SystemProcessesStatusStopped = SystemProcessesStatusKey.String("stopped") // defunct SystemProcessesStatusDefunct = SystemProcessesStatusKey.String("defunct") ) // These attributes may be used to describe the client in a connection-based // network interaction where there is one side that initiates the connection // (the client is the side that initiates the connection). This covers all TCP // network interactions since TCP is connection-based and one side initiates // the connection (an exception is made for peer-to-peer communication over TCP // where the "user-facing" surface of the protocol / API doesn't expose a clear // notion of client and server). This also covers UDP network interactions // where one side initiates the interaction, e.g. QUIC (HTTP/3) and DNS. const ( // ClientAddressKey is the attribute Key conforming to the "client.address" // semantic conventions. It represents the client address - domain name if // available without reverse DNS lookup; otherwise, IP address or Unix // domain socket name. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'client.example.com', '10.1.2.80', '/tmp/my.sock' // Note: When observed from the server side, and when communicating through // an intermediary, `client.address` SHOULD represent the client address // behind any intermediaries, for example proxies, if it's available. ClientAddressKey = attribute.Key("client.address") // ClientPortKey is the attribute Key conforming to the "client.port" // semantic conventions. It represents the client port number. // // Type: int // RequirementLevel: Optional // Stability: stable // Examples: 65123 // Note: When observed from the server side, and when communicating through // an intermediary, `client.port` SHOULD represent the client port behind // any intermediaries, for example proxies, if it's available. ClientPortKey = attribute.Key("client.port") ) // ClientAddress returns an attribute KeyValue conforming to the // "client.address" semantic conventions. It represents the client address - // domain name if available without reverse DNS lookup; otherwise, IP address // or Unix domain socket name. func ClientAddress(val string) attribute.KeyValue { return ClientAddressKey.String(val) } // ClientPort returns an attribute KeyValue conforming to the "client.port" // semantic conventions. It represents the client port number. func ClientPort(val int) attribute.KeyValue { return ClientPortKey.Int(val) } // The attributes used to describe telemetry in the context of databases. const ( // DBCassandraConsistencyLevelKey is the attribute Key conforming to the // "db.cassandra.consistency_level" semantic conventions. It represents the // consistency level of the query. Based on consistency values from // [CQL](https://docs.datastax.com/en/cassandra-oss/3.0/cassandra/dml/dmlConfigConsistency.html). // // Type: Enum // RequirementLevel: Optional // Stability: experimental DBCassandraConsistencyLevelKey = attribute.Key("db.cassandra.consistency_level") // DBCassandraCoordinatorDCKey is the attribute Key conforming to the // "db.cassandra.coordinator.dc" semantic conventions. It represents the // data center of the coordinating node for a query. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'us-west-2' DBCassandraCoordinatorDCKey = attribute.Key("db.cassandra.coordinator.dc") // DBCassandraCoordinatorIDKey is the attribute Key conforming to the // "db.cassandra.coordinator.id" semantic conventions. It represents the ID // of the coordinating node for a query. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'be13faa2-8574-4d71-926d-27f16cf8a7af' DBCassandraCoordinatorIDKey = attribute.Key("db.cassandra.coordinator.id") // DBCassandraIdempotenceKey is the attribute Key conforming to the // "db.cassandra.idempotence" semantic conventions. It represents the // whether or not the query is idempotent. // // Type: boolean // RequirementLevel: Optional // Stability: experimental DBCassandraIdempotenceKey = attribute.Key("db.cassandra.idempotence") // DBCassandraPageSizeKey is the attribute Key conforming to the // "db.cassandra.page_size" semantic conventions. It represents the fetch // size used for paging, i.e. how many rows will be returned at once. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 5000 DBCassandraPageSizeKey = attribute.Key("db.cassandra.page_size") // DBCassandraSpeculativeExecutionCountKey is the attribute Key conforming // to the "db.cassandra.speculative_execution_count" semantic conventions. // It represents the number of times a query was speculatively executed. // Not set or `0` if the query was not executed speculatively. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 0, 2 DBCassandraSpeculativeExecutionCountKey = attribute.Key("db.cassandra.speculative_execution_count") // DBCassandraTableKey is the attribute Key conforming to the // "db.cassandra.table" semantic conventions. It represents the name of the // primary Cassandra table that the operation is acting upon, including the // keyspace name (if applicable). // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'mytable' // Note: This mirrors the db.sql.table attribute but references cassandra // rather than sql. It is not recommended to attempt any client-side // parsing of `db.statement` just to get this property, but it should be // set if it is provided by the library being instrumented. If the // operation is acting upon an anonymous table, or more than one table, // this value MUST NOT be set. DBCassandraTableKey = attribute.Key("db.cassandra.table") // DBConnectionStringKey is the attribute Key conforming to the // "db.connection_string" semantic conventions. It represents the // connection string used to connect to the database. It is recommended to // remove embedded credentials. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'Server=(localdb)\\v11.0;Integrated Security=true;' DBConnectionStringKey = attribute.Key("db.connection_string") // DBCosmosDBClientIDKey is the attribute Key conforming to the // "db.cosmosdb.client_id" semantic conventions. It represents the unique // Cosmos client instance id. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '3ba4827d-4422-483f-b59f-85b74211c11d' DBCosmosDBClientIDKey = attribute.Key("db.cosmosdb.client_id") // DBCosmosDBConnectionModeKey is the attribute Key conforming to the // "db.cosmosdb.connection_mode" semantic conventions. It represents the // cosmos client connection mode. // // Type: Enum // RequirementLevel: Optional // Stability: experimental DBCosmosDBConnectionModeKey = attribute.Key("db.cosmosdb.connection_mode") // DBCosmosDBContainerKey is the attribute Key conforming to the // "db.cosmosdb.container" semantic conventions. It represents the cosmos // DB container name. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'anystring' DBCosmosDBContainerKey = attribute.Key("db.cosmosdb.container") // DBCosmosDBOperationTypeKey is the attribute Key conforming to the // "db.cosmosdb.operation_type" semantic conventions. It represents the // cosmosDB Operation Type. // // Type: Enum // RequirementLevel: Optional // Stability: experimental DBCosmosDBOperationTypeKey = attribute.Key("db.cosmosdb.operation_type") // DBCosmosDBRequestChargeKey is the attribute Key conforming to the // "db.cosmosdb.request_charge" semantic conventions. It represents the rU // consumed for that operation // // Type: double // RequirementLevel: Optional // Stability: experimental // Examples: 46.18, 1.0 DBCosmosDBRequestChargeKey = attribute.Key("db.cosmosdb.request_charge") // DBCosmosDBRequestContentLengthKey is the attribute Key conforming to the // "db.cosmosdb.request_content_length" semantic conventions. It represents // the request payload size in bytes // // Type: int // RequirementLevel: Optional // Stability: experimental DBCosmosDBRequestContentLengthKey = attribute.Key("db.cosmosdb.request_content_length") // DBCosmosDBStatusCodeKey is the attribute Key conforming to the // "db.cosmosdb.status_code" semantic conventions. It represents the cosmos // DB status code. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 200, 201 DBCosmosDBStatusCodeKey = attribute.Key("db.cosmosdb.status_code") // DBCosmosDBSubStatusCodeKey is the attribute Key conforming to the // "db.cosmosdb.sub_status_code" semantic conventions. It represents the // cosmos DB sub status code. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 1000, 1002 DBCosmosDBSubStatusCodeKey = attribute.Key("db.cosmosdb.sub_status_code") // DBElasticsearchClusterNameKey is the attribute Key conforming to the // "db.elasticsearch.cluster.name" semantic conventions. It represents the // represents the identifier of an Elasticsearch cluster. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'e9106fc68e3044f0b1475b04bf4ffd5f' DBElasticsearchClusterNameKey = attribute.Key("db.elasticsearch.cluster.name") // DBElasticsearchNodeNameKey is the attribute Key conforming to the // "db.elasticsearch.node.name" semantic conventions. It represents the // represents the human-readable identifier of the node/instance to which a // request was routed. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'instance-0000000001' DBElasticsearchNodeNameKey = attribute.Key("db.elasticsearch.node.name") // DBInstanceIDKey is the attribute Key conforming to the "db.instance.id" // semantic conventions. It represents an identifier (address, unique name, // or any other identifier) of the database instance that is executing // queries or mutations on the current connection. This is useful in cases // where the database is running in a clustered environment and the // instrumentation is able to record the node executing the query. The // client may obtain this value in databases like MySQL using queries like // `select @@hostname`. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'mysql-e26b99z.example.com' DBInstanceIDKey = attribute.Key("db.instance.id") // DBJDBCDriverClassnameKey is the attribute Key conforming to the // "db.jdbc.driver_classname" semantic conventions. It represents the // fully-qualified class name of the [Java Database Connectivity // (JDBC)](https://docs.oracle.com/javase/8/docs/technotes/guides/jdbc/) // driver used to connect. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'org.postgresql.Driver', // 'com.microsoft.sqlserver.jdbc.SQLServerDriver' DBJDBCDriverClassnameKey = attribute.Key("db.jdbc.driver_classname") // DBMongoDBCollectionKey is the attribute Key conforming to the // "db.mongodb.collection" semantic conventions. It represents the MongoDB // collection being accessed within the database stated in `db.name`. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'customers', 'products' DBMongoDBCollectionKey = attribute.Key("db.mongodb.collection") // DBMSSQLInstanceNameKey is the attribute Key conforming to the // "db.mssql.instance_name" semantic conventions. It represents the // Microsoft SQL Server [instance // name](https://docs.microsoft.com/sql/connect/jdbc/building-the-connection-url?view=sql-server-ver15) // connecting to. This name is used to determine the port of a named // instance. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'MSSQLSERVER' // Note: If setting a `db.mssql.instance_name`, `server.port` is no longer // required (but still recommended if non-standard). DBMSSQLInstanceNameKey = attribute.Key("db.mssql.instance_name") // DBNameKey is the attribute Key conforming to the "db.name" semantic // conventions. It represents the this attribute is used to report the name // of the database being accessed. For commands that switch the database, // this should be set to the target database (even if the command fails). // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'customers', 'main' // Note: In some SQL databases, the database name to be used is called // "schema name". In case there are multiple layers that could be // considered for database name (e.g. Oracle instance name and schema // name), the database name to be used is the more specific layer (e.g. // Oracle schema name). DBNameKey = attribute.Key("db.name") // DBOperationKey is the attribute Key conforming to the "db.operation" // semantic conventions. It represents the name of the operation being // executed, e.g. the [MongoDB command // name](https://docs.mongodb.com/manual/reference/command/#database-operations) // such as `findAndModify`, or the SQL keyword. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'findAndModify', 'HMSET', 'SELECT' // Note: When setting this to an SQL keyword, it is not recommended to // attempt any client-side parsing of `db.statement` just to get this // property, but it should be set if the operation name is provided by the // library being instrumented. If the SQL statement has an ambiguous // operation, or performs more than one operation, this value may be // omitted. DBOperationKey = attribute.Key("db.operation") // DBRedisDBIndexKey is the attribute Key conforming to the // "db.redis.database_index" semantic conventions. It represents the index // of the database being accessed as used in the [`SELECT` // command](https://redis.io/commands/select), provided as an integer. To // be used instead of the generic `db.name` attribute. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 0, 1, 15 DBRedisDBIndexKey = attribute.Key("db.redis.database_index") // DBSQLTableKey is the attribute Key conforming to the "db.sql.table" // semantic conventions. It represents the name of the primary table that // the operation is acting upon, including the database name (if // applicable). // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'public.users', 'customers' // Note: It is not recommended to attempt any client-side parsing of // `db.statement` just to get this property, but it should be set if it is // provided by the library being instrumented. If the operation is acting // upon an anonymous table, or more than one table, this value MUST NOT be // set. DBSQLTableKey = attribute.Key("db.sql.table") // DBStatementKey is the attribute Key conforming to the "db.statement" // semantic conventions. It represents the database statement being // executed. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'SELECT * FROM wuser_table', 'SET mykey "WuValue"' DBStatementKey = attribute.Key("db.statement") // DBSystemKey is the attribute Key conforming to the "db.system" semantic // conventions. It represents an identifier for the database management // system (DBMS) product being used. See below for a list of well-known // identifiers. // // Type: Enum // RequirementLevel: Optional // Stability: experimental DBSystemKey = attribute.Key("db.system") // DBUserKey is the attribute Key conforming to the "db.user" semantic // conventions. It represents the username for accessing the database. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'readonly_user', 'reporting_user' DBUserKey = attribute.Key("db.user") ) var ( // all DBCassandraConsistencyLevelAll = DBCassandraConsistencyLevelKey.String("all") // each_quorum DBCassandraConsistencyLevelEachQuorum = DBCassandraConsistencyLevelKey.String("each_quorum") // quorum DBCassandraConsistencyLevelQuorum = DBCassandraConsistencyLevelKey.String("quorum") // local_quorum DBCassandraConsistencyLevelLocalQuorum = DBCassandraConsistencyLevelKey.String("local_quorum") // one DBCassandraConsistencyLevelOne = DBCassandraConsistencyLevelKey.String("one") // two DBCassandraConsistencyLevelTwo = DBCassandraConsistencyLevelKey.String("two") // three DBCassandraConsistencyLevelThree = DBCassandraConsistencyLevelKey.String("three") // local_one DBCassandraConsistencyLevelLocalOne = DBCassandraConsistencyLevelKey.String("local_one") // any DBCassandraConsistencyLevelAny = DBCassandraConsistencyLevelKey.String("any") // serial DBCassandraConsistencyLevelSerial = DBCassandraConsistencyLevelKey.String("serial") // local_serial DBCassandraConsistencyLevelLocalSerial = DBCassandraConsistencyLevelKey.String("local_serial") ) var ( // Gateway (HTTP) connections mode DBCosmosDBConnectionModeGateway = DBCosmosDBConnectionModeKey.String("gateway") // Direct connection DBCosmosDBConnectionModeDirect = DBCosmosDBConnectionModeKey.String("direct") ) var ( // invalid DBCosmosDBOperationTypeInvalid = DBCosmosDBOperationTypeKey.String("Invalid") // create DBCosmosDBOperationTypeCreate = DBCosmosDBOperationTypeKey.String("Create") // patch DBCosmosDBOperationTypePatch = DBCosmosDBOperationTypeKey.String("Patch") // read DBCosmosDBOperationTypeRead = DBCosmosDBOperationTypeKey.String("Read") // read_feed DBCosmosDBOperationTypeReadFeed = DBCosmosDBOperationTypeKey.String("ReadFeed") // delete DBCosmosDBOperationTypeDelete = DBCosmosDBOperationTypeKey.String("Delete") // replace DBCosmosDBOperationTypeReplace = DBCosmosDBOperationTypeKey.String("Replace") // execute DBCosmosDBOperationTypeExecute = DBCosmosDBOperationTypeKey.String("Execute") // query DBCosmosDBOperationTypeQuery = DBCosmosDBOperationTypeKey.String("Query") // head DBCosmosDBOperationTypeHead = DBCosmosDBOperationTypeKey.String("Head") // head_feed DBCosmosDBOperationTypeHeadFeed = DBCosmosDBOperationTypeKey.String("HeadFeed") // upsert DBCosmosDBOperationTypeUpsert = DBCosmosDBOperationTypeKey.String("Upsert") // batch DBCosmosDBOperationTypeBatch = DBCosmosDBOperationTypeKey.String("Batch") // query_plan DBCosmosDBOperationTypeQueryPlan = DBCosmosDBOperationTypeKey.String("QueryPlan") // execute_javascript DBCosmosDBOperationTypeExecuteJavascript = DBCosmosDBOperationTypeKey.String("ExecuteJavaScript") ) var ( // Some other SQL database. Fallback only. See notes DBSystemOtherSQL = DBSystemKey.String("other_sql") // Microsoft SQL Server DBSystemMSSQL = DBSystemKey.String("mssql") // Microsoft SQL Server Compact DBSystemMssqlcompact = DBSystemKey.String("mssqlcompact") // MySQL DBSystemMySQL = DBSystemKey.String("mysql") // Oracle Database DBSystemOracle = DBSystemKey.String("oracle") // IBM DB2 DBSystemDB2 = DBSystemKey.String("db2") // PostgreSQL DBSystemPostgreSQL = DBSystemKey.String("postgresql") // Amazon Redshift DBSystemRedshift = DBSystemKey.String("redshift") // Apache Hive DBSystemHive = DBSystemKey.String("hive") // Cloudscape DBSystemCloudscape = DBSystemKey.String("cloudscape") // HyperSQL DataBase DBSystemHSQLDB = DBSystemKey.String("hsqldb") // Progress Database DBSystemProgress = DBSystemKey.String("progress") // SAP MaxDB DBSystemMaxDB = DBSystemKey.String("maxdb") // SAP HANA DBSystemHanaDB = DBSystemKey.String("hanadb") // Ingres DBSystemIngres = DBSystemKey.String("ingres") // FirstSQL DBSystemFirstSQL = DBSystemKey.String("firstsql") // EnterpriseDB DBSystemEDB = DBSystemKey.String("edb") // InterSystems Caché DBSystemCache = DBSystemKey.String("cache") // Adabas (Adaptable Database System) DBSystemAdabas = DBSystemKey.String("adabas") // Firebird DBSystemFirebird = DBSystemKey.String("firebird") // Apache Derby DBSystemDerby = DBSystemKey.String("derby") // FileMaker DBSystemFilemaker = DBSystemKey.String("filemaker") // Informix DBSystemInformix = DBSystemKey.String("informix") // InstantDB DBSystemInstantDB = DBSystemKey.String("instantdb") // InterBase DBSystemInterbase = DBSystemKey.String("interbase") // MariaDB DBSystemMariaDB = DBSystemKey.String("mariadb") // Netezza DBSystemNetezza = DBSystemKey.String("netezza") // Pervasive PSQL DBSystemPervasive = DBSystemKey.String("pervasive") // PointBase DBSystemPointbase = DBSystemKey.String("pointbase") // SQLite DBSystemSqlite = DBSystemKey.String("sqlite") // Sybase DBSystemSybase = DBSystemKey.String("sybase") // Teradata DBSystemTeradata = DBSystemKey.String("teradata") // Vertica DBSystemVertica = DBSystemKey.String("vertica") // H2 DBSystemH2 = DBSystemKey.String("h2") // ColdFusion IMQ DBSystemColdfusion = DBSystemKey.String("coldfusion") // Apache Cassandra DBSystemCassandra = DBSystemKey.String("cassandra") // Apache HBase DBSystemHBase = DBSystemKey.String("hbase") // MongoDB DBSystemMongoDB = DBSystemKey.String("mongodb") // Redis DBSystemRedis = DBSystemKey.String("redis") // Couchbase DBSystemCouchbase = DBSystemKey.String("couchbase") // CouchDB DBSystemCouchDB = DBSystemKey.String("couchdb") // Microsoft Azure Cosmos DB DBSystemCosmosDB = DBSystemKey.String("cosmosdb") // Amazon DynamoDB DBSystemDynamoDB = DBSystemKey.String("dynamodb") // Neo4j DBSystemNeo4j = DBSystemKey.String("neo4j") // Apache Geode DBSystemGeode = DBSystemKey.String("geode") // Elasticsearch DBSystemElasticsearch = DBSystemKey.String("elasticsearch") // Memcached DBSystemMemcached = DBSystemKey.String("memcached") // CockroachDB DBSystemCockroachdb = DBSystemKey.String("cockroachdb") // OpenSearch DBSystemOpensearch = DBSystemKey.String("opensearch") // ClickHouse DBSystemClickhouse = DBSystemKey.String("clickhouse") // Cloud Spanner DBSystemSpanner = DBSystemKey.String("spanner") // Trino DBSystemTrino = DBSystemKey.String("trino") ) // DBCassandraCoordinatorDC returns an attribute KeyValue conforming to the // "db.cassandra.coordinator.dc" semantic conventions. It represents the data // center of the coordinating node for a query. func DBCassandraCoordinatorDC(val string) attribute.KeyValue { return DBCassandraCoordinatorDCKey.String(val) } // DBCassandraCoordinatorID returns an attribute KeyValue conforming to the // "db.cassandra.coordinator.id" semantic conventions. It represents the ID of // the coordinating node for a query. func DBCassandraCoordinatorID(val string) attribute.KeyValue { return DBCassandraCoordinatorIDKey.String(val) } // DBCassandraIdempotence returns an attribute KeyValue conforming to the // "db.cassandra.idempotence" semantic conventions. It represents the whether // or not the query is idempotent. func DBCassandraIdempotence(val bool) attribute.KeyValue { return DBCassandraIdempotenceKey.Bool(val) } // DBCassandraPageSize returns an attribute KeyValue conforming to the // "db.cassandra.page_size" semantic conventions. It represents the fetch size // used for paging, i.e. how many rows will be returned at once. func DBCassandraPageSize(val int) attribute.KeyValue { return DBCassandraPageSizeKey.Int(val) } // DBCassandraSpeculativeExecutionCount returns an attribute KeyValue // conforming to the "db.cassandra.speculative_execution_count" semantic // conventions. It represents the number of times a query was speculatively // executed. Not set or `0` if the query was not executed speculatively. func DBCassandraSpeculativeExecutionCount(val int) attribute.KeyValue { return DBCassandraSpeculativeExecutionCountKey.Int(val) } // DBCassandraTable returns an attribute KeyValue conforming to the // "db.cassandra.table" semantic conventions. It represents the name of the // primary Cassandra table that the operation is acting upon, including the // keyspace name (if applicable). func DBCassandraTable(val string) attribute.KeyValue { return DBCassandraTableKey.String(val) } // DBConnectionString returns an attribute KeyValue conforming to the // "db.connection_string" semantic conventions. It represents the connection // string used to connect to the database. It is recommended to remove embedded // credentials. func DBConnectionString(val string) attribute.KeyValue { return DBConnectionStringKey.String(val) } // DBCosmosDBClientID returns an attribute KeyValue conforming to the // "db.cosmosdb.client_id" semantic conventions. It represents the unique // Cosmos client instance id. func DBCosmosDBClientID(val string) attribute.KeyValue { return DBCosmosDBClientIDKey.String(val) } // DBCosmosDBContainer returns an attribute KeyValue conforming to the // "db.cosmosdb.container" semantic conventions. It represents the cosmos DB // container name. func DBCosmosDBContainer(val string) attribute.KeyValue { return DBCosmosDBContainerKey.String(val) } // DBCosmosDBRequestCharge returns an attribute KeyValue conforming to the // "db.cosmosdb.request_charge" semantic conventions. It represents the rU // consumed for that operation func DBCosmosDBRequestCharge(val float64) attribute.KeyValue { return DBCosmosDBRequestChargeKey.Float64(val) } // DBCosmosDBRequestContentLength returns an attribute KeyValue conforming // to the "db.cosmosdb.request_content_length" semantic conventions. It // represents the request payload size in bytes func DBCosmosDBRequestContentLength(val int) attribute.KeyValue { return DBCosmosDBRequestContentLengthKey.Int(val) } // DBCosmosDBStatusCode returns an attribute KeyValue conforming to the // "db.cosmosdb.status_code" semantic conventions. It represents the cosmos DB // status code. func DBCosmosDBStatusCode(val int) attribute.KeyValue { return DBCosmosDBStatusCodeKey.Int(val) } // DBCosmosDBSubStatusCode returns an attribute KeyValue conforming to the // "db.cosmosdb.sub_status_code" semantic conventions. It represents the cosmos // DB sub status code. func DBCosmosDBSubStatusCode(val int) attribute.KeyValue { return DBCosmosDBSubStatusCodeKey.Int(val) } // DBElasticsearchClusterName returns an attribute KeyValue conforming to // the "db.elasticsearch.cluster.name" semantic conventions. It represents the // represents the identifier of an Elasticsearch cluster. func DBElasticsearchClusterName(val string) attribute.KeyValue { return DBElasticsearchClusterNameKey.String(val) } // DBElasticsearchNodeName returns an attribute KeyValue conforming to the // "db.elasticsearch.node.name" semantic conventions. It represents the // represents the human-readable identifier of the node/instance to which a // request was routed. func DBElasticsearchNodeName(val string) attribute.KeyValue { return DBElasticsearchNodeNameKey.String(val) } // DBInstanceID returns an attribute KeyValue conforming to the // "db.instance.id" semantic conventions. It represents an identifier (address, // unique name, or any other identifier) of the database instance that is // executing queries or mutations on the current connection. This is useful in // cases where the database is running in a clustered environment and the // instrumentation is able to record the node executing the query. The client // may obtain this value in databases like MySQL using queries like `select // @@hostname`. func DBInstanceID(val string) attribute.KeyValue { return DBInstanceIDKey.String(val) } // DBJDBCDriverClassname returns an attribute KeyValue conforming to the // "db.jdbc.driver_classname" semantic conventions. It represents the // fully-qualified class name of the [Java Database Connectivity // (JDBC)](https://docs.oracle.com/javase/8/docs/technotes/guides/jdbc/) driver // used to connect. func DBJDBCDriverClassname(val string) attribute.KeyValue { return DBJDBCDriverClassnameKey.String(val) } // DBMongoDBCollection returns an attribute KeyValue conforming to the // "db.mongodb.collection" semantic conventions. It represents the MongoDB // collection being accessed within the database stated in `db.name`. func DBMongoDBCollection(val string) attribute.KeyValue { return DBMongoDBCollectionKey.String(val) } // DBMSSQLInstanceName returns an attribute KeyValue conforming to the // "db.mssql.instance_name" semantic conventions. It represents the Microsoft // SQL Server [instance // name](https://docs.microsoft.com/sql/connect/jdbc/building-the-connection-url?view=sql-server-ver15) // connecting to. This name is used to determine the port of a named instance. func DBMSSQLInstanceName(val string) attribute.KeyValue { return DBMSSQLInstanceNameKey.String(val) } // DBName returns an attribute KeyValue conforming to the "db.name" semantic // conventions. It represents the this attribute is used to report the name of // the database being accessed. For commands that switch the database, this // should be set to the target database (even if the command fails). func DBName(val string) attribute.KeyValue { return DBNameKey.String(val) } // DBOperation returns an attribute KeyValue conforming to the // "db.operation" semantic conventions. It represents the name of the operation // being executed, e.g. the [MongoDB command // name](https://docs.mongodb.com/manual/reference/command/#database-operations) // such as `findAndModify`, or the SQL keyword. func DBOperation(val string) attribute.KeyValue { return DBOperationKey.String(val) } // DBRedisDBIndex returns an attribute KeyValue conforming to the // "db.redis.database_index" semantic conventions. It represents the index of // the database being accessed as used in the [`SELECT` // command](https://redis.io/commands/select), provided as an integer. To be // used instead of the generic `db.name` attribute. func DBRedisDBIndex(val int) attribute.KeyValue { return DBRedisDBIndexKey.Int(val) } // DBSQLTable returns an attribute KeyValue conforming to the "db.sql.table" // semantic conventions. It represents the name of the primary table that the // operation is acting upon, including the database name (if applicable). func DBSQLTable(val string) attribute.KeyValue { return DBSQLTableKey.String(val) } // DBStatement returns an attribute KeyValue conforming to the // "db.statement" semantic conventions. It represents the database statement // being executed. func DBStatement(val string) attribute.KeyValue { return DBStatementKey.String(val) } // DBUser returns an attribute KeyValue conforming to the "db.user" semantic // conventions. It represents the username for accessing the database. func DBUser(val string) attribute.KeyValue { return DBUserKey.String(val) } // Describes deprecated HTTP attributes. const ( // HTTPFlavorKey is the attribute Key conforming to the "http.flavor" // semantic conventions. // // Type: Enum // RequirementLevel: Optional // Stability: deprecated // Deprecated: use `network.protocol.name` instead. HTTPFlavorKey = attribute.Key("http.flavor") // HTTPMethodKey is the attribute Key conforming to the "http.method" // semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: 'GET', 'POST', 'HEAD' // Deprecated: use `http.request.method` instead. HTTPMethodKey = attribute.Key("http.method") // HTTPRequestContentLengthKey is the attribute Key conforming to the // "http.request_content_length" semantic conventions. // // Type: int // RequirementLevel: Optional // Stability: deprecated // Examples: 3495 // Deprecated: use `http.request.header.content-length` instead. HTTPRequestContentLengthKey = attribute.Key("http.request_content_length") // HTTPResponseContentLengthKey is the attribute Key conforming to the // "http.response_content_length" semantic conventions. // // Type: int // RequirementLevel: Optional // Stability: deprecated // Examples: 3495 // Deprecated: use `http.response.header.content-length` instead. HTTPResponseContentLengthKey = attribute.Key("http.response_content_length") // HTTPSchemeKey is the attribute Key conforming to the "http.scheme" // semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: 'http', 'https' // Deprecated: use `url.scheme` instead. HTTPSchemeKey = attribute.Key("http.scheme") // HTTPStatusCodeKey is the attribute Key conforming to the // "http.status_code" semantic conventions. // // Type: int // RequirementLevel: Optional // Stability: deprecated // Examples: 200 // Deprecated: use `http.response.status_code` instead. HTTPStatusCodeKey = attribute.Key("http.status_code") // HTTPTargetKey is the attribute Key conforming to the "http.target" // semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: '/search?q=OpenTelemetry#SemConv' // Deprecated: use `url.path` and `url.query` instead. HTTPTargetKey = attribute.Key("http.target") // HTTPURLKey is the attribute Key conforming to the "http.url" semantic // conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: 'https://www.foo.bar/search?q=OpenTelemetry#SemConv' // Deprecated: use `url.full` instead. HTTPURLKey = attribute.Key("http.url") // HTTPUserAgentKey is the attribute Key conforming to the // "http.user_agent" semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: 'CERN-LineMode/2.15 libwww/2.17b3', 'Mozilla/5.0 (iPhone; CPU // iPhone OS 14_7_1 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) // Version/14.1.2 Mobile/15E148 Safari/604.1' // Deprecated: use `user_agent.original` instead. HTTPUserAgentKey = attribute.Key("http.user_agent") ) var ( // HTTP/1.0 // // Deprecated: use `network.protocol.name` instead. HTTPFlavorHTTP10 = HTTPFlavorKey.String("1.0") // HTTP/1.1 // // Deprecated: use `network.protocol.name` instead. HTTPFlavorHTTP11 = HTTPFlavorKey.String("1.1") // HTTP/2 // // Deprecated: use `network.protocol.name` instead. HTTPFlavorHTTP20 = HTTPFlavorKey.String("2.0") // HTTP/3 // // Deprecated: use `network.protocol.name` instead. HTTPFlavorHTTP30 = HTTPFlavorKey.String("3.0") // SPDY protocol // // Deprecated: use `network.protocol.name` instead. HTTPFlavorSPDY = HTTPFlavorKey.String("SPDY") // QUIC protocol // // Deprecated: use `network.protocol.name` instead. HTTPFlavorQUIC = HTTPFlavorKey.String("QUIC") ) // HTTPMethod returns an attribute KeyValue conforming to the "http.method" // semantic conventions. // // Deprecated: use `http.request.method` instead. func HTTPMethod(val string) attribute.KeyValue { return HTTPMethodKey.String(val) } // HTTPRequestContentLength returns an attribute KeyValue conforming to the // "http.request_content_length" semantic conventions. // // Deprecated: use `http.request.header.content-length` instead. func HTTPRequestContentLength(val int) attribute.KeyValue { return HTTPRequestContentLengthKey.Int(val) } // HTTPResponseContentLength returns an attribute KeyValue conforming to the // "http.response_content_length" semantic conventions. // // Deprecated: use `http.response.header.content-length` instead. func HTTPResponseContentLength(val int) attribute.KeyValue { return HTTPResponseContentLengthKey.Int(val) } // HTTPScheme returns an attribute KeyValue conforming to the "http.scheme" // semantic conventions. // // Deprecated: use `url.scheme` instead. func HTTPScheme(val string) attribute.KeyValue { return HTTPSchemeKey.String(val) } // HTTPStatusCode returns an attribute KeyValue conforming to the // "http.status_code" semantic conventions. // // Deprecated: use `http.response.status_code` instead. func HTTPStatusCode(val int) attribute.KeyValue { return HTTPStatusCodeKey.Int(val) } // HTTPTarget returns an attribute KeyValue conforming to the "http.target" // semantic conventions. // // Deprecated: use `url.path` and `url.query` instead. func HTTPTarget(val string) attribute.KeyValue { return HTTPTargetKey.String(val) } // HTTPURL returns an attribute KeyValue conforming to the "http.url" // semantic conventions. // // Deprecated: use `url.full` instead. func HTTPURL(val string) attribute.KeyValue { return HTTPURLKey.String(val) } // HTTPUserAgent returns an attribute KeyValue conforming to the // "http.user_agent" semantic conventions. // // Deprecated: use `user_agent.original` instead. func HTTPUserAgent(val string) attribute.KeyValue { return HTTPUserAgentKey.String(val) } // These attributes may be used for any network related operation. const ( // NetHostNameKey is the attribute Key conforming to the "net.host.name" // semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: 'example.com' // Deprecated: use `server.address`. NetHostNameKey = attribute.Key("net.host.name") // NetHostPortKey is the attribute Key conforming to the "net.host.port" // semantic conventions. // // Type: int // RequirementLevel: Optional // Stability: deprecated // Examples: 8080 // Deprecated: use `server.port`. NetHostPortKey = attribute.Key("net.host.port") // NetPeerNameKey is the attribute Key conforming to the "net.peer.name" // semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: 'example.com' // Deprecated: use `server.address` on client spans and `client.address` on // server spans. NetPeerNameKey = attribute.Key("net.peer.name") // NetPeerPortKey is the attribute Key conforming to the "net.peer.port" // semantic conventions. // // Type: int // RequirementLevel: Optional // Stability: deprecated // Examples: 8080 // Deprecated: use `server.port` on client spans and `client.port` on // server spans. NetPeerPortKey = attribute.Key("net.peer.port") // NetProtocolNameKey is the attribute Key conforming to the // "net.protocol.name" semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: 'amqp', 'http', 'mqtt' // Deprecated: use `network.protocol.name`. NetProtocolNameKey = attribute.Key("net.protocol.name") // NetProtocolVersionKey is the attribute Key conforming to the // "net.protocol.version" semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: '3.1.1' // Deprecated: use `network.protocol.version`. NetProtocolVersionKey = attribute.Key("net.protocol.version") // NetSockFamilyKey is the attribute Key conforming to the // "net.sock.family" semantic conventions. // // Type: Enum // RequirementLevel: Optional // Stability: deprecated // Deprecated: use `network.transport` and `network.type`. NetSockFamilyKey = attribute.Key("net.sock.family") // NetSockHostAddrKey is the attribute Key conforming to the // "net.sock.host.addr" semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: '/var/my.sock' // Deprecated: use `network.local.address`. NetSockHostAddrKey = attribute.Key("net.sock.host.addr") // NetSockHostPortKey is the attribute Key conforming to the // "net.sock.host.port" semantic conventions. // // Type: int // RequirementLevel: Optional // Stability: deprecated // Examples: 8080 // Deprecated: use `network.local.port`. NetSockHostPortKey = attribute.Key("net.sock.host.port") // NetSockPeerAddrKey is the attribute Key conforming to the // "net.sock.peer.addr" semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: '192.168.0.1' // Deprecated: use `network.peer.address`. NetSockPeerAddrKey = attribute.Key("net.sock.peer.addr") // NetSockPeerNameKey is the attribute Key conforming to the // "net.sock.peer.name" semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: '/var/my.sock' // Deprecated: no replacement at this time. NetSockPeerNameKey = attribute.Key("net.sock.peer.name") // NetSockPeerPortKey is the attribute Key conforming to the // "net.sock.peer.port" semantic conventions. // // Type: int // RequirementLevel: Optional // Stability: deprecated // Examples: 65531 // Deprecated: use `network.peer.port`. NetSockPeerPortKey = attribute.Key("net.sock.peer.port") // NetTransportKey is the attribute Key conforming to the "net.transport" // semantic conventions. // // Type: Enum // RequirementLevel: Optional // Stability: deprecated // Deprecated: use `network.transport`. NetTransportKey = attribute.Key("net.transport") ) var ( // IPv4 address // // Deprecated: use `network.transport` and `network.type`. NetSockFamilyInet = NetSockFamilyKey.String("inet") // IPv6 address // // Deprecated: use `network.transport` and `network.type`. NetSockFamilyInet6 = NetSockFamilyKey.String("inet6") // Unix domain socket path // // Deprecated: use `network.transport` and `network.type`. NetSockFamilyUnix = NetSockFamilyKey.String("unix") ) var ( // ip_tcp // // Deprecated: use `network.transport`. NetTransportTCP = NetTransportKey.String("ip_tcp") // ip_udp // // Deprecated: use `network.transport`. NetTransportUDP = NetTransportKey.String("ip_udp") // Named or anonymous pipe // // Deprecated: use `network.transport`. NetTransportPipe = NetTransportKey.String("pipe") // In-process communication // // Deprecated: use `network.transport`. NetTransportInProc = NetTransportKey.String("inproc") // Something else (non IP-based) // // Deprecated: use `network.transport`. NetTransportOther = NetTransportKey.String("other") ) // NetHostName returns an attribute KeyValue conforming to the // "net.host.name" semantic conventions. // // Deprecated: use `server.address`. func NetHostName(val string) attribute.KeyValue { return NetHostNameKey.String(val) } // NetHostPort returns an attribute KeyValue conforming to the // "net.host.port" semantic conventions. // // Deprecated: use `server.port`. func NetHostPort(val int) attribute.KeyValue { return NetHostPortKey.Int(val) } // NetPeerName returns an attribute KeyValue conforming to the // "net.peer.name" semantic conventions. // // Deprecated: use `server.address` on client spans and `client.address` on // server spans. func NetPeerName(val string) attribute.KeyValue { return NetPeerNameKey.String(val) } // NetPeerPort returns an attribute KeyValue conforming to the // "net.peer.port" semantic conventions. // // Deprecated: use `server.port` on client spans and `client.port` on server // spans. func NetPeerPort(val int) attribute.KeyValue { return NetPeerPortKey.Int(val) } // NetProtocolName returns an attribute KeyValue conforming to the // "net.protocol.name" semantic conventions. // // Deprecated: use `network.protocol.name`. func NetProtocolName(val string) attribute.KeyValue { return NetProtocolNameKey.String(val) } // NetProtocolVersion returns an attribute KeyValue conforming to the // "net.protocol.version" semantic conventions. // // Deprecated: use `network.protocol.version`. func NetProtocolVersion(val string) attribute.KeyValue { return NetProtocolVersionKey.String(val) } // NetSockHostAddr returns an attribute KeyValue conforming to the // "net.sock.host.addr" semantic conventions. // // Deprecated: use `network.local.address`. func NetSockHostAddr(val string) attribute.KeyValue { return NetSockHostAddrKey.String(val) } // NetSockHostPort returns an attribute KeyValue conforming to the // "net.sock.host.port" semantic conventions. // // Deprecated: use `network.local.port`. func NetSockHostPort(val int) attribute.KeyValue { return NetSockHostPortKey.Int(val) } // NetSockPeerAddr returns an attribute KeyValue conforming to the // "net.sock.peer.addr" semantic conventions. // // Deprecated: use `network.peer.address`. func NetSockPeerAddr(val string) attribute.KeyValue { return NetSockPeerAddrKey.String(val) } // NetSockPeerName returns an attribute KeyValue conforming to the // "net.sock.peer.name" semantic conventions. // // Deprecated: no replacement at this time. func NetSockPeerName(val string) attribute.KeyValue { return NetSockPeerNameKey.String(val) } // NetSockPeerPort returns an attribute KeyValue conforming to the // "net.sock.peer.port" semantic conventions. // // Deprecated: use `network.peer.port`. func NetSockPeerPort(val int) attribute.KeyValue { return NetSockPeerPortKey.Int(val) } // These attributes may be used to describe the receiver of a network // exchange/packet. These should be used when there is no client/server // relationship between the two sides, or when that relationship is unknown. // This covers low-level network interactions (e.g. packet tracing) where you // don't know if there was a connection or which side initiated it. This also // covers unidirectional UDP flows and peer-to-peer communication where the // "user-facing" surface of the protocol / API doesn't expose a clear notion of // client and server. const ( // DestinationAddressKey is the attribute Key conforming to the // "destination.address" semantic conventions. It represents the // destination address - domain name if available without reverse DNS // lookup; otherwise, IP address or Unix domain socket name. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'destination.example.com', '10.1.2.80', '/tmp/my.sock' // Note: When observed from the source side, and when communicating through // an intermediary, `destination.address` SHOULD represent the destination // address behind any intermediaries, for example proxies, if it's // available. DestinationAddressKey = attribute.Key("destination.address") // DestinationPortKey is the attribute Key conforming to the // "destination.port" semantic conventions. It represents the destination // port number // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 3389, 2888 DestinationPortKey = attribute.Key("destination.port") ) // DestinationAddress returns an attribute KeyValue conforming to the // "destination.address" semantic conventions. It represents the destination // address - domain name if available without reverse DNS lookup; otherwise, IP // address or Unix domain socket name. func DestinationAddress(val string) attribute.KeyValue { return DestinationAddressKey.String(val) } // DestinationPort returns an attribute KeyValue conforming to the // "destination.port" semantic conventions. It represents the destination port // number func DestinationPort(val int) attribute.KeyValue { return DestinationPortKey.Int(val) } // These attributes may be used for any disk related operation. const ( // DiskIoDirectionKey is the attribute Key conforming to the // "disk.io.direction" semantic conventions. It represents the disk IO // operation direction. // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'read' DiskIoDirectionKey = attribute.Key("disk.io.direction") ) var ( // read DiskIoDirectionRead = DiskIoDirectionKey.String("read") // write DiskIoDirectionWrite = DiskIoDirectionKey.String("write") ) // The shared attributes used to report an error. const ( // ErrorTypeKey is the attribute Key conforming to the "error.type" // semantic conventions. It represents the describes a class of error the // operation ended with. // // Type: Enum // RequirementLevel: Optional // Stability: stable // Examples: 'timeout', 'java.net.UnknownHostException', // 'server_certificate_invalid', '500' // Note: The `error.type` SHOULD be predictable and SHOULD have low // cardinality. // Instrumentations SHOULD document the list of errors they report. // // The cardinality of `error.type` within one instrumentation library // SHOULD be low. // Telemetry consumers that aggregate data from multiple instrumentation // libraries and applications // should be prepared for `error.type` to have high cardinality at query // time when no // additional filters are applied. // // If the operation has completed successfully, instrumentations SHOULD NOT // set `error.type`. // // If a specific domain defines its own set of error identifiers (such as // HTTP or gRPC status codes), // it's RECOMMENDED to: // // * Use a domain-specific attribute // * Set `error.type` to capture all errors, regardless of whether they are // defined within the domain-specific set or not. ErrorTypeKey = attribute.Key("error.type") ) var ( // A fallback error value to be used when the instrumentation doesn't define a custom value ErrorTypeOther = ErrorTypeKey.String("_OTHER") ) // The shared attributes used to report a single exception associated with a // span or log. const ( // ExceptionEscapedKey is the attribute Key conforming to the // "exception.escaped" semantic conventions. It represents the sHOULD be // set to true if the exception event is recorded at a point where it is // known that the exception is escaping the scope of the span. // // Type: boolean // RequirementLevel: Optional // Stability: experimental // Note: An exception is considered to have escaped (or left) the scope of // a span, // if that span is ended while the exception is still logically "in // flight". // This may be actually "in flight" in some languages (e.g. if the // exception // is passed to a Context manager's `__exit__` method in Python) but will // usually be caught at the point of recording the exception in most // languages. // // It is usually not possible to determine at the point where an exception // is thrown // whether it will escape the scope of a span. // However, it is trivial to know that an exception // will escape, if one checks for an active exception just before ending // the span, // as done in the [example for recording span // exceptions](#recording-an-exception). // // It follows that an exception may still escape the scope of the span // even if the `exception.escaped` attribute was not set or set to false, // since the event might have been recorded at a time where it was not // clear whether the exception will escape. ExceptionEscapedKey = attribute.Key("exception.escaped") // ExceptionMessageKey is the attribute Key conforming to the // "exception.message" semantic conventions. It represents the exception // message. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'Division by zero', "Can't convert 'int' object to str // implicitly" ExceptionMessageKey = attribute.Key("exception.message") // ExceptionStacktraceKey is the attribute Key conforming to the // "exception.stacktrace" semantic conventions. It represents a stacktrace // as a string in the natural representation for the language runtime. The // representation is to be determined and documented by each language SIG. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'Exception in thread "main" java.lang.RuntimeException: Test // exception\\n at ' // 'com.example.GenerateTrace.methodB(GenerateTrace.java:13)\\n at ' // 'com.example.GenerateTrace.methodA(GenerateTrace.java:9)\\n at ' // 'com.example.GenerateTrace.main(GenerateTrace.java:5)' ExceptionStacktraceKey = attribute.Key("exception.stacktrace") // ExceptionTypeKey is the attribute Key conforming to the "exception.type" // semantic conventions. It represents the type of the exception (its // fully-qualified class name, if applicable). The dynamic type of the // exception should be preferred over the static type in languages that // support it. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'java.net.ConnectException', 'OSError' ExceptionTypeKey = attribute.Key("exception.type") ) // ExceptionEscaped returns an attribute KeyValue conforming to the // "exception.escaped" semantic conventions. It represents the sHOULD be set to // true if the exception event is recorded at a point where it is known that // the exception is escaping the scope of the span. func ExceptionEscaped(val bool) attribute.KeyValue { return ExceptionEscapedKey.Bool(val) } // ExceptionMessage returns an attribute KeyValue conforming to the // "exception.message" semantic conventions. It represents the exception // message. func ExceptionMessage(val string) attribute.KeyValue { return ExceptionMessageKey.String(val) } // ExceptionStacktrace returns an attribute KeyValue conforming to the // "exception.stacktrace" semantic conventions. It represents a stacktrace as a // string in the natural representation for the language runtime. The // representation is to be determined and documented by each language SIG. func ExceptionStacktrace(val string) attribute.KeyValue { return ExceptionStacktraceKey.String(val) } // ExceptionType returns an attribute KeyValue conforming to the // "exception.type" semantic conventions. It represents the type of the // exception (its fully-qualified class name, if applicable). The dynamic type // of the exception should be preferred over the static type in languages that // support it. func ExceptionType(val string) attribute.KeyValue { return ExceptionTypeKey.String(val) } // Semantic convention attributes in the HTTP namespace. const ( // HTTPRequestBodySizeKey is the attribute Key conforming to the // "http.request.body.size" semantic conventions. It represents the size of // the request payload body in bytes. This is the number of bytes // transferred excluding headers and is often, but not always, present as // the // [Content-Length](https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length) // header. For requests using transport encoding, this should be the // compressed size. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 3495 HTTPRequestBodySizeKey = attribute.Key("http.request.body.size") // HTTPRequestMethodKey is the attribute Key conforming to the // "http.request.method" semantic conventions. It represents the hTTP // request method. // // Type: Enum // RequirementLevel: Optional // Stability: stable // Examples: 'GET', 'POST', 'HEAD' // Note: HTTP request method value SHOULD be "known" to the // instrumentation. // By default, this convention defines "known" methods as the ones listed // in [RFC9110](https://www.rfc-editor.org/rfc/rfc9110.html#name-methods) // and the PATCH method defined in // [RFC5789](https://www.rfc-editor.org/rfc/rfc5789.html). // // If the HTTP request method is not known to instrumentation, it MUST set // the `http.request.method` attribute to `_OTHER`. // // If the HTTP instrumentation could end up converting valid HTTP request // methods to `_OTHER`, then it MUST provide a way to override // the list of known HTTP methods. If this override is done via environment // variable, then the environment variable MUST be named // OTEL_INSTRUMENTATION_HTTP_KNOWN_METHODS and support a comma-separated // list of case-sensitive known HTTP methods // (this list MUST be a full override of the default known method, it is // not a list of known methods in addition to the defaults). // // HTTP method names are case-sensitive and `http.request.method` attribute // value MUST match a known HTTP method name exactly. // Instrumentations for specific web frameworks that consider HTTP methods // to be case insensitive, SHOULD populate a canonical equivalent. // Tracing instrumentations that do so, MUST also set // `http.request.method_original` to the original value. HTTPRequestMethodKey = attribute.Key("http.request.method") // HTTPRequestMethodOriginalKey is the attribute Key conforming to the // "http.request.method_original" semantic conventions. It represents the // original HTTP method sent by the client in the request line. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'GeT', 'ACL', 'foo' HTTPRequestMethodOriginalKey = attribute.Key("http.request.method_original") // HTTPRequestResendCountKey is the attribute Key conforming to the // "http.request.resend_count" semantic conventions. It represents the // ordinal number of request resending attempt (for any reason, including // redirects). // // Type: int // RequirementLevel: Optional // Stability: stable // Examples: 3 // Note: The resend count SHOULD be updated each time an HTTP request gets // resent by the client, regardless of what was the cause of the resending // (e.g. redirection, authorization failure, 503 Server Unavailable, // network issues, or any other). HTTPRequestResendCountKey = attribute.Key("http.request.resend_count") // HTTPResponseBodySizeKey is the attribute Key conforming to the // "http.response.body.size" semantic conventions. It represents the size // of the response payload body in bytes. This is the number of bytes // transferred excluding headers and is often, but not always, present as // the // [Content-Length](https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length) // header. For requests using transport encoding, this should be the // compressed size. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 3495 HTTPResponseBodySizeKey = attribute.Key("http.response.body.size") // HTTPResponseStatusCodeKey is the attribute Key conforming to the // "http.response.status_code" semantic conventions. It represents the // [HTTP response status // code](https://tools.ietf.org/html/rfc7231#section-6). // // Type: int // RequirementLevel: Optional // Stability: stable // Examples: 200 HTTPResponseStatusCodeKey = attribute.Key("http.response.status_code") // HTTPRouteKey is the attribute Key conforming to the "http.route" // semantic conventions. It represents the matched route, that is, the path // template in the format used by the respective server framework. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: '/users/:userID?', '{controller}/{action}/{id?}' // Note: MUST NOT be populated when this is not supported by the HTTP // server framework as the route attribute should have low-cardinality and // the URI path can NOT substitute it. // SHOULD include the [application // root](/docs/http/http-spans.md#http-server-definitions) if there is one. HTTPRouteKey = attribute.Key("http.route") ) var ( // CONNECT method HTTPRequestMethodConnect = HTTPRequestMethodKey.String("CONNECT") // DELETE method HTTPRequestMethodDelete = HTTPRequestMethodKey.String("DELETE") // GET method HTTPRequestMethodGet = HTTPRequestMethodKey.String("GET") // HEAD method HTTPRequestMethodHead = HTTPRequestMethodKey.String("HEAD") // OPTIONS method HTTPRequestMethodOptions = HTTPRequestMethodKey.String("OPTIONS") // PATCH method HTTPRequestMethodPatch = HTTPRequestMethodKey.String("PATCH") // POST method HTTPRequestMethodPost = HTTPRequestMethodKey.String("POST") // PUT method HTTPRequestMethodPut = HTTPRequestMethodKey.String("PUT") // TRACE method HTTPRequestMethodTrace = HTTPRequestMethodKey.String("TRACE") // Any HTTP method that the instrumentation has no prior knowledge of HTTPRequestMethodOther = HTTPRequestMethodKey.String("_OTHER") ) // HTTPRequestBodySize returns an attribute KeyValue conforming to the // "http.request.body.size" semantic conventions. It represents the size of the // request payload body in bytes. This is the number of bytes transferred // excluding headers and is often, but not always, present as the // [Content-Length](https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length) // header. For requests using transport encoding, this should be the compressed // size. func HTTPRequestBodySize(val int) attribute.KeyValue { return HTTPRequestBodySizeKey.Int(val) } // HTTPRequestMethodOriginal returns an attribute KeyValue conforming to the // "http.request.method_original" semantic conventions. It represents the // original HTTP method sent by the client in the request line. func HTTPRequestMethodOriginal(val string) attribute.KeyValue { return HTTPRequestMethodOriginalKey.String(val) } // HTTPRequestResendCount returns an attribute KeyValue conforming to the // "http.request.resend_count" semantic conventions. It represents the ordinal // number of request resending attempt (for any reason, including redirects). func HTTPRequestResendCount(val int) attribute.KeyValue { return HTTPRequestResendCountKey.Int(val) } // HTTPResponseBodySize returns an attribute KeyValue conforming to the // "http.response.body.size" semantic conventions. It represents the size of // the response payload body in bytes. This is the number of bytes transferred // excluding headers and is often, but not always, present as the // [Content-Length](https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length) // header. For requests using transport encoding, this should be the compressed // size. func HTTPResponseBodySize(val int) attribute.KeyValue { return HTTPResponseBodySizeKey.Int(val) } // HTTPResponseStatusCode returns an attribute KeyValue conforming to the // "http.response.status_code" semantic conventions. It represents the [HTTP // response status code](https://tools.ietf.org/html/rfc7231#section-6). func HTTPResponseStatusCode(val int) attribute.KeyValue { return HTTPResponseStatusCodeKey.Int(val) } // HTTPRoute returns an attribute KeyValue conforming to the "http.route" // semantic conventions. It represents the matched route, that is, the path // template in the format used by the respective server framework. func HTTPRoute(val string) attribute.KeyValue { return HTTPRouteKey.String(val) } // Attributes describing telemetry around messaging systems and messaging // activities. const ( // MessagingBatchMessageCountKey is the attribute Key conforming to the // "messaging.batch.message_count" semantic conventions. It represents the // number of messages sent, received, or processed in the scope of the // batching operation. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 0, 1, 2 // Note: Instrumentations SHOULD NOT set `messaging.batch.message_count` on // spans that operate with a single message. When a messaging client // library supports both batch and single-message API for the same // operation, instrumentations SHOULD use `messaging.batch.message_count` // for batching APIs and SHOULD NOT use it for single-message APIs. MessagingBatchMessageCountKey = attribute.Key("messaging.batch.message_count") // MessagingClientIDKey is the attribute Key conforming to the // "messaging.client_id" semantic conventions. It represents a unique // identifier for the client that consumes or produces a message. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'client-5', 'myhost@8742@s8083jm' MessagingClientIDKey = attribute.Key("messaging.client_id") // MessagingDestinationAnonymousKey is the attribute Key conforming to the // "messaging.destination.anonymous" semantic conventions. It represents a // boolean that is true if the message destination is anonymous (could be // unnamed or have auto-generated name). // // Type: boolean // RequirementLevel: Optional // Stability: experimental MessagingDestinationAnonymousKey = attribute.Key("messaging.destination.anonymous") // MessagingDestinationNameKey is the attribute Key conforming to the // "messaging.destination.name" semantic conventions. It represents the // message destination name // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'MyQueue', 'MyTopic' // Note: Destination name SHOULD uniquely identify a specific queue, topic // or other entity within the broker. If // the broker doesn't have such notion, the destination name SHOULD // uniquely identify the broker. MessagingDestinationNameKey = attribute.Key("messaging.destination.name") // MessagingDestinationTemplateKey is the attribute Key conforming to the // "messaging.destination.template" semantic conventions. It represents the // low cardinality representation of the messaging destination name // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '/customers/{customerID}' // Note: Destination names could be constructed from templates. An example // would be a destination name involving a user name or product id. // Although the destination name in this case is of high cardinality, the // underlying template is of low cardinality and can be effectively used // for grouping and aggregation. MessagingDestinationTemplateKey = attribute.Key("messaging.destination.template") // MessagingDestinationTemporaryKey is the attribute Key conforming to the // "messaging.destination.temporary" semantic conventions. It represents a // boolean that is true if the message destination is temporary and might // not exist anymore after messages are processed. // // Type: boolean // RequirementLevel: Optional // Stability: experimental MessagingDestinationTemporaryKey = attribute.Key("messaging.destination.temporary") // MessagingDestinationPublishAnonymousKey is the attribute Key conforming // to the "messaging.destination_publish.anonymous" semantic conventions. // It represents a boolean that is true if the publish message destination // is anonymous (could be unnamed or have auto-generated name). // // Type: boolean // RequirementLevel: Optional // Stability: experimental MessagingDestinationPublishAnonymousKey = attribute.Key("messaging.destination_publish.anonymous") // MessagingDestinationPublishNameKey is the attribute Key conforming to // the "messaging.destination_publish.name" semantic conventions. It // represents the name of the original destination the message was // published to // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'MyQueue', 'MyTopic' // Note: The name SHOULD uniquely identify a specific queue, topic, or // other entity within the broker. If // the broker doesn't have such notion, the original destination name // SHOULD uniquely identify the broker. MessagingDestinationPublishNameKey = attribute.Key("messaging.destination_publish.name") // MessagingGCPPubsubMessageOrderingKeyKey is the attribute Key conforming // to the "messaging.gcp_pubsub.message.ordering_key" semantic conventions. // It represents the ordering key for a given message. If the attribute is // not present, the message does not have an ordering key. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'ordering_key' MessagingGCPPubsubMessageOrderingKeyKey = attribute.Key("messaging.gcp_pubsub.message.ordering_key") // MessagingKafkaConsumerGroupKey is the attribute Key conforming to the // "messaging.kafka.consumer.group" semantic conventions. It represents the // name of the Kafka Consumer Group that is handling the message. Only // applies to consumers, not producers. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'my-group' MessagingKafkaConsumerGroupKey = attribute.Key("messaging.kafka.consumer.group") // MessagingKafkaDestinationPartitionKey is the attribute Key conforming to // the "messaging.kafka.destination.partition" semantic conventions. It // represents the partition the message is sent to. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 2 MessagingKafkaDestinationPartitionKey = attribute.Key("messaging.kafka.destination.partition") // MessagingKafkaMessageKeyKey is the attribute Key conforming to the // "messaging.kafka.message.key" semantic conventions. It represents the // message keys in Kafka are used for grouping alike messages to ensure // they're processed on the same partition. They differ from // `messaging.message.id` in that they're not unique. If the key is `null`, // the attribute MUST NOT be set. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'myKey' // Note: If the key type is not string, it's string representation has to // be supplied for the attribute. If the key has no unambiguous, canonical // string form, don't include its value. MessagingKafkaMessageKeyKey = attribute.Key("messaging.kafka.message.key") // MessagingKafkaMessageOffsetKey is the attribute Key conforming to the // "messaging.kafka.message.offset" semantic conventions. It represents the // offset of a record in the corresponding Kafka partition. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 42 MessagingKafkaMessageOffsetKey = attribute.Key("messaging.kafka.message.offset") // MessagingKafkaMessageTombstoneKey is the attribute Key conforming to the // "messaging.kafka.message.tombstone" semantic conventions. It represents // a boolean that is true if the message is a tombstone. // // Type: boolean // RequirementLevel: Optional // Stability: experimental MessagingKafkaMessageTombstoneKey = attribute.Key("messaging.kafka.message.tombstone") // MessagingMessageBodySizeKey is the attribute Key conforming to the // "messaging.message.body.size" semantic conventions. It represents the // size of the message body in bytes. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 1439 // Note: This can refer to both the compressed or uncompressed body size. // If both sizes are known, the uncompressed // body size should be used. MessagingMessageBodySizeKey = attribute.Key("messaging.message.body.size") // MessagingMessageConversationIDKey is the attribute Key conforming to the // "messaging.message.conversation_id" semantic conventions. It represents // the conversation ID identifying the conversation to which the message // belongs, represented as a string. Sometimes called "Correlation ID". // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'MyConversationID' MessagingMessageConversationIDKey = attribute.Key("messaging.message.conversation_id") // MessagingMessageEnvelopeSizeKey is the attribute Key conforming to the // "messaging.message.envelope.size" semantic conventions. It represents // the size of the message body and metadata in bytes. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 2738 // Note: This can refer to both the compressed or uncompressed size. If // both sizes are known, the uncompressed // size should be used. MessagingMessageEnvelopeSizeKey = attribute.Key("messaging.message.envelope.size") // MessagingMessageIDKey is the attribute Key conforming to the // "messaging.message.id" semantic conventions. It represents a value used // by the messaging system as an identifier for the message, represented as // a string. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '452a7c7c7c7048c2f887f61572b18fc2' MessagingMessageIDKey = attribute.Key("messaging.message.id") // MessagingOperationKey is the attribute Key conforming to the // "messaging.operation" semantic conventions. It represents a string // identifying the kind of messaging operation. // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Note: If a custom value is used, it MUST be of low cardinality. MessagingOperationKey = attribute.Key("messaging.operation") // MessagingRabbitmqDestinationRoutingKeyKey is the attribute Key // conforming to the "messaging.rabbitmq.destination.routing_key" semantic // conventions. It represents the rabbitMQ message routing key. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'myKey' MessagingRabbitmqDestinationRoutingKeyKey = attribute.Key("messaging.rabbitmq.destination.routing_key") // MessagingRocketmqClientGroupKey is the attribute Key conforming to the // "messaging.rocketmq.client_group" semantic conventions. It represents // the name of the RocketMQ producer/consumer group that is handling the // message. The client type is identified by the SpanKind. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'myConsumerGroup' MessagingRocketmqClientGroupKey = attribute.Key("messaging.rocketmq.client_group") // MessagingRocketmqConsumptionModelKey is the attribute Key conforming to // the "messaging.rocketmq.consumption_model" semantic conventions. It // represents the model of message consumption. This only applies to // consumer spans. // // Type: Enum // RequirementLevel: Optional // Stability: experimental MessagingRocketmqConsumptionModelKey = attribute.Key("messaging.rocketmq.consumption_model") // MessagingRocketmqMessageDelayTimeLevelKey is the attribute Key // conforming to the "messaging.rocketmq.message.delay_time_level" semantic // conventions. It represents the delay time level for delay message, which // determines the message delay time. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 3 MessagingRocketmqMessageDelayTimeLevelKey = attribute.Key("messaging.rocketmq.message.delay_time_level") // MessagingRocketmqMessageDeliveryTimestampKey is the attribute Key // conforming to the "messaging.rocketmq.message.delivery_timestamp" // semantic conventions. It represents the timestamp in milliseconds that // the delay message is expected to be delivered to consumer. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 1665987217045 MessagingRocketmqMessageDeliveryTimestampKey = attribute.Key("messaging.rocketmq.message.delivery_timestamp") // MessagingRocketmqMessageGroupKey is the attribute Key conforming to the // "messaging.rocketmq.message.group" semantic conventions. It represents // the it is essential for FIFO message. Messages that belong to the same // message group are always processed one by one within the same consumer // group. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'myMessageGroup' MessagingRocketmqMessageGroupKey = attribute.Key("messaging.rocketmq.message.group") // MessagingRocketmqMessageKeysKey is the attribute Key conforming to the // "messaging.rocketmq.message.keys" semantic conventions. It represents // the key(s) of message, another way to mark message besides message id. // // Type: string[] // RequirementLevel: Optional // Stability: experimental // Examples: 'keyA', 'keyB' MessagingRocketmqMessageKeysKey = attribute.Key("messaging.rocketmq.message.keys") // MessagingRocketmqMessageTagKey is the attribute Key conforming to the // "messaging.rocketmq.message.tag" semantic conventions. It represents the // secondary classifier of message besides topic. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'tagA' MessagingRocketmqMessageTagKey = attribute.Key("messaging.rocketmq.message.tag") // MessagingRocketmqMessageTypeKey is the attribute Key conforming to the // "messaging.rocketmq.message.type" semantic conventions. It represents // the type of message. // // Type: Enum // RequirementLevel: Optional // Stability: experimental MessagingRocketmqMessageTypeKey = attribute.Key("messaging.rocketmq.message.type") // MessagingRocketmqNamespaceKey is the attribute Key conforming to the // "messaging.rocketmq.namespace" semantic conventions. It represents the // namespace of RocketMQ resources, resources in different namespaces are // individual. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'myNamespace' MessagingRocketmqNamespaceKey = attribute.Key("messaging.rocketmq.namespace") // MessagingSystemKey is the attribute Key conforming to the // "messaging.system" semantic conventions. It represents an identifier for // the messaging system being used. See below for a list of well-known // identifiers. // // Type: Enum // RequirementLevel: Optional // Stability: experimental MessagingSystemKey = attribute.Key("messaging.system") ) var ( // One or more messages are provided for publishing to an intermediary. If a single message is published, the context of the "Publish" span can be used as the creation context and no "Create" span needs to be created MessagingOperationPublish = MessagingOperationKey.String("publish") // A message is created. "Create" spans always refer to a single message and are used to provide a unique creation context for messages in batch publishing scenarios MessagingOperationCreate = MessagingOperationKey.String("create") // One or more messages are requested by a consumer. This operation refers to pull-based scenarios, where consumers explicitly call methods of messaging SDKs to receive messages MessagingOperationReceive = MessagingOperationKey.String("receive") // One or more messages are passed to a consumer. This operation refers to push-based scenarios, where consumer register callbacks which get called by messaging SDKs MessagingOperationDeliver = MessagingOperationKey.String("deliver") ) var ( // Clustering consumption model MessagingRocketmqConsumptionModelClustering = MessagingRocketmqConsumptionModelKey.String("clustering") // Broadcasting consumption model MessagingRocketmqConsumptionModelBroadcasting = MessagingRocketmqConsumptionModelKey.String("broadcasting") ) var ( // Normal message MessagingRocketmqMessageTypeNormal = MessagingRocketmqMessageTypeKey.String("normal") // FIFO message MessagingRocketmqMessageTypeFifo = MessagingRocketmqMessageTypeKey.String("fifo") // Delay message MessagingRocketmqMessageTypeDelay = MessagingRocketmqMessageTypeKey.String("delay") // Transaction message MessagingRocketmqMessageTypeTransaction = MessagingRocketmqMessageTypeKey.String("transaction") ) var ( // Apache ActiveMQ MessagingSystemActivemq = MessagingSystemKey.String("activemq") // Amazon Simple Queue Service (SQS) MessagingSystemAWSSqs = MessagingSystemKey.String("aws_sqs") // Azure Event Grid MessagingSystemAzureEventgrid = MessagingSystemKey.String("azure_eventgrid") // Azure Event Hubs MessagingSystemAzureEventhubs = MessagingSystemKey.String("azure_eventhubs") // Azure Service Bus MessagingSystemAzureServicebus = MessagingSystemKey.String("azure_servicebus") // Google Cloud Pub/Sub MessagingSystemGCPPubsub = MessagingSystemKey.String("gcp_pubsub") // Java Message Service MessagingSystemJms = MessagingSystemKey.String("jms") // Apache Kafka MessagingSystemKafka = MessagingSystemKey.String("kafka") // RabbitMQ MessagingSystemRabbitmq = MessagingSystemKey.String("rabbitmq") // Apache RocketMQ MessagingSystemRocketmq = MessagingSystemKey.String("rocketmq") ) // MessagingBatchMessageCount returns an attribute KeyValue conforming to // the "messaging.batch.message_count" semantic conventions. It represents the // number of messages sent, received, or processed in the scope of the batching // operation. func MessagingBatchMessageCount(val int) attribute.KeyValue { return MessagingBatchMessageCountKey.Int(val) } // MessagingClientID returns an attribute KeyValue conforming to the // "messaging.client_id" semantic conventions. It represents a unique // identifier for the client that consumes or produces a message. func MessagingClientID(val string) attribute.KeyValue { return MessagingClientIDKey.String(val) } // MessagingDestinationAnonymous returns an attribute KeyValue conforming to // the "messaging.destination.anonymous" semantic conventions. It represents a // boolean that is true if the message destination is anonymous (could be // unnamed or have auto-generated name). func MessagingDestinationAnonymous(val bool) attribute.KeyValue { return MessagingDestinationAnonymousKey.Bool(val) } // MessagingDestinationName returns an attribute KeyValue conforming to the // "messaging.destination.name" semantic conventions. It represents the message // destination name func MessagingDestinationName(val string) attribute.KeyValue { return MessagingDestinationNameKey.String(val) } // MessagingDestinationTemplate returns an attribute KeyValue conforming to // the "messaging.destination.template" semantic conventions. It represents the // low cardinality representation of the messaging destination name func MessagingDestinationTemplate(val string) attribute.KeyValue { return MessagingDestinationTemplateKey.String(val) } // MessagingDestinationTemporary returns an attribute KeyValue conforming to // the "messaging.destination.temporary" semantic conventions. It represents a // boolean that is true if the message destination is temporary and might not // exist anymore after messages are processed. func MessagingDestinationTemporary(val bool) attribute.KeyValue { return MessagingDestinationTemporaryKey.Bool(val) } // MessagingDestinationPublishAnonymous returns an attribute KeyValue // conforming to the "messaging.destination_publish.anonymous" semantic // conventions. It represents a boolean that is true if the publish message // destination is anonymous (could be unnamed or have auto-generated name). func MessagingDestinationPublishAnonymous(val bool) attribute.KeyValue { return MessagingDestinationPublishAnonymousKey.Bool(val) } // MessagingDestinationPublishName returns an attribute KeyValue conforming // to the "messaging.destination_publish.name" semantic conventions. It // represents the name of the original destination the message was published to func MessagingDestinationPublishName(val string) attribute.KeyValue { return MessagingDestinationPublishNameKey.String(val) } // MessagingGCPPubsubMessageOrderingKey returns an attribute KeyValue // conforming to the "messaging.gcp_pubsub.message.ordering_key" semantic // conventions. It represents the ordering key for a given message. If the // attribute is not present, the message does not have an ordering key. func MessagingGCPPubsubMessageOrderingKey(val string) attribute.KeyValue { return MessagingGCPPubsubMessageOrderingKeyKey.String(val) } // MessagingKafkaConsumerGroup returns an attribute KeyValue conforming to // the "messaging.kafka.consumer.group" semantic conventions. It represents the // name of the Kafka Consumer Group that is handling the message. Only applies // to consumers, not producers. func MessagingKafkaConsumerGroup(val string) attribute.KeyValue { return MessagingKafkaConsumerGroupKey.String(val) } // MessagingKafkaDestinationPartition returns an attribute KeyValue // conforming to the "messaging.kafka.destination.partition" semantic // conventions. It represents the partition the message is sent to. func MessagingKafkaDestinationPartition(val int) attribute.KeyValue { return MessagingKafkaDestinationPartitionKey.Int(val) } // MessagingKafkaMessageKey returns an attribute KeyValue conforming to the // "messaging.kafka.message.key" semantic conventions. It represents the // message keys in Kafka are used for grouping alike messages to ensure they're // processed on the same partition. They differ from `messaging.message.id` in // that they're not unique. If the key is `null`, the attribute MUST NOT be // set. func MessagingKafkaMessageKey(val string) attribute.KeyValue { return MessagingKafkaMessageKeyKey.String(val) } // MessagingKafkaMessageOffset returns an attribute KeyValue conforming to // the "messaging.kafka.message.offset" semantic conventions. It represents the // offset of a record in the corresponding Kafka partition. func MessagingKafkaMessageOffset(val int) attribute.KeyValue { return MessagingKafkaMessageOffsetKey.Int(val) } // MessagingKafkaMessageTombstone returns an attribute KeyValue conforming // to the "messaging.kafka.message.tombstone" semantic conventions. It // represents a boolean that is true if the message is a tombstone. func MessagingKafkaMessageTombstone(val bool) attribute.KeyValue { return MessagingKafkaMessageTombstoneKey.Bool(val) } // MessagingMessageBodySize returns an attribute KeyValue conforming to the // "messaging.message.body.size" semantic conventions. It represents the size // of the message body in bytes. func MessagingMessageBodySize(val int) attribute.KeyValue { return MessagingMessageBodySizeKey.Int(val) } // MessagingMessageConversationID returns an attribute KeyValue conforming // to the "messaging.message.conversation_id" semantic conventions. It // represents the conversation ID identifying the conversation to which the // message belongs, represented as a string. Sometimes called "Correlation ID". func MessagingMessageConversationID(val string) attribute.KeyValue { return MessagingMessageConversationIDKey.String(val) } // MessagingMessageEnvelopeSize returns an attribute KeyValue conforming to // the "messaging.message.envelope.size" semantic conventions. It represents // the size of the message body and metadata in bytes. func MessagingMessageEnvelopeSize(val int) attribute.KeyValue { return MessagingMessageEnvelopeSizeKey.Int(val) } // MessagingMessageID returns an attribute KeyValue conforming to the // "messaging.message.id" semantic conventions. It represents a value used by // the messaging system as an identifier for the message, represented as a // string. func MessagingMessageID(val string) attribute.KeyValue { return MessagingMessageIDKey.String(val) } // MessagingRabbitmqDestinationRoutingKey returns an attribute KeyValue // conforming to the "messaging.rabbitmq.destination.routing_key" semantic // conventions. It represents the rabbitMQ message routing key. func MessagingRabbitmqDestinationRoutingKey(val string) attribute.KeyValue { return MessagingRabbitmqDestinationRoutingKeyKey.String(val) } // MessagingRocketmqClientGroup returns an attribute KeyValue conforming to // the "messaging.rocketmq.client_group" semantic conventions. It represents // the name of the RocketMQ producer/consumer group that is handling the // message. The client type is identified by the SpanKind. func MessagingRocketmqClientGroup(val string) attribute.KeyValue { return MessagingRocketmqClientGroupKey.String(val) } // MessagingRocketmqMessageDelayTimeLevel returns an attribute KeyValue // conforming to the "messaging.rocketmq.message.delay_time_level" semantic // conventions. It represents the delay time level for delay message, which // determines the message delay time. func MessagingRocketmqMessageDelayTimeLevel(val int) attribute.KeyValue { return MessagingRocketmqMessageDelayTimeLevelKey.Int(val) } // MessagingRocketmqMessageDeliveryTimestamp returns an attribute KeyValue // conforming to the "messaging.rocketmq.message.delivery_timestamp" semantic // conventions. It represents the timestamp in milliseconds that the delay // message is expected to be delivered to consumer. func MessagingRocketmqMessageDeliveryTimestamp(val int) attribute.KeyValue { return MessagingRocketmqMessageDeliveryTimestampKey.Int(val) } // MessagingRocketmqMessageGroup returns an attribute KeyValue conforming to // the "messaging.rocketmq.message.group" semantic conventions. It represents // the it is essential for FIFO message. Messages that belong to the same // message group are always processed one by one within the same consumer // group. func MessagingRocketmqMessageGroup(val string) attribute.KeyValue { return MessagingRocketmqMessageGroupKey.String(val) } // MessagingRocketmqMessageKeys returns an attribute KeyValue conforming to // the "messaging.rocketmq.message.keys" semantic conventions. It represents // the key(s) of message, another way to mark message besides message id. func MessagingRocketmqMessageKeys(val ...string) attribute.KeyValue { return MessagingRocketmqMessageKeysKey.StringSlice(val) } // MessagingRocketmqMessageTag returns an attribute KeyValue conforming to // the "messaging.rocketmq.message.tag" semantic conventions. It represents the // secondary classifier of message besides topic. func MessagingRocketmqMessageTag(val string) attribute.KeyValue { return MessagingRocketmqMessageTagKey.String(val) } // MessagingRocketmqNamespace returns an attribute KeyValue conforming to // the "messaging.rocketmq.namespace" semantic conventions. It represents the // namespace of RocketMQ resources, resources in different namespaces are // individual. func MessagingRocketmqNamespace(val string) attribute.KeyValue { return MessagingRocketmqNamespaceKey.String(val) } // These attributes may be used for any network related operation. const ( // NetworkCarrierIccKey is the attribute Key conforming to the // "network.carrier.icc" semantic conventions. It represents the ISO 3166-1 // alpha-2 2-character country code associated with the mobile carrier // network. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'DE' NetworkCarrierIccKey = attribute.Key("network.carrier.icc") // NetworkCarrierMccKey is the attribute Key conforming to the // "network.carrier.mcc" semantic conventions. It represents the mobile // carrier country code. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '310' NetworkCarrierMccKey = attribute.Key("network.carrier.mcc") // NetworkCarrierMncKey is the attribute Key conforming to the // "network.carrier.mnc" semantic conventions. It represents the mobile // carrier network code. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '001' NetworkCarrierMncKey = attribute.Key("network.carrier.mnc") // NetworkCarrierNameKey is the attribute Key conforming to the // "network.carrier.name" semantic conventions. It represents the name of // the mobile carrier. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'sprint' NetworkCarrierNameKey = attribute.Key("network.carrier.name") // NetworkConnectionSubtypeKey is the attribute Key conforming to the // "network.connection.subtype" semantic conventions. It represents the // this describes more details regarding the connection.type. It may be the // type of cell technology connection, but it could be used for describing // details about a wifi connection. // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'LTE' NetworkConnectionSubtypeKey = attribute.Key("network.connection.subtype") // NetworkConnectionTypeKey is the attribute Key conforming to the // "network.connection.type" semantic conventions. It represents the // internet connection type. // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'wifi' NetworkConnectionTypeKey = attribute.Key("network.connection.type") // NetworkIoDirectionKey is the attribute Key conforming to the // "network.io.direction" semantic conventions. It represents the network // IO operation direction. // // Type: Enum // RequirementLevel: Optional // Stability: experimental // Examples: 'transmit' NetworkIoDirectionKey = attribute.Key("network.io.direction") // NetworkLocalAddressKey is the attribute Key conforming to the // "network.local.address" semantic conventions. It represents the local // address of the network connection - IP address or Unix domain socket // name. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: '10.1.2.80', '/tmp/my.sock' NetworkLocalAddressKey = attribute.Key("network.local.address") // NetworkLocalPortKey is the attribute Key conforming to the // "network.local.port" semantic conventions. It represents the local port // number of the network connection. // // Type: int // RequirementLevel: Optional // Stability: stable // Examples: 65123 NetworkLocalPortKey = attribute.Key("network.local.port") // NetworkPeerAddressKey is the attribute Key conforming to the // "network.peer.address" semantic conventions. It represents the peer // address of the network connection - IP address or Unix domain socket // name. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: '10.1.2.80', '/tmp/my.sock' NetworkPeerAddressKey = attribute.Key("network.peer.address") // NetworkPeerPortKey is the attribute Key conforming to the // "network.peer.port" semantic conventions. It represents the peer port // number of the network connection. // // Type: int // RequirementLevel: Optional // Stability: stable // Examples: 65123 NetworkPeerPortKey = attribute.Key("network.peer.port") // NetworkProtocolNameKey is the attribute Key conforming to the // "network.protocol.name" semantic conventions. It represents the [OSI // application layer](https://osi-model.com/application-layer/) or non-OSI // equivalent. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'amqp', 'http', 'mqtt' // Note: The value SHOULD be normalized to lowercase. NetworkProtocolNameKey = attribute.Key("network.protocol.name") // NetworkProtocolVersionKey is the attribute Key conforming to the // "network.protocol.version" semantic conventions. It represents the // version of the protocol specified in `network.protocol.name`. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: '3.1.1' // Note: `network.protocol.version` refers to the version of the protocol // used and might be different from the protocol client's version. If the // HTTP client has a version of `0.27.2`, but sends HTTP version `1.1`, // this attribute should be set to `1.1`. NetworkProtocolVersionKey = attribute.Key("network.protocol.version") // NetworkTransportKey is the attribute Key conforming to the // "network.transport" semantic conventions. It represents the [OSI // transport layer](https://osi-model.com/transport-layer/) or // [inter-process communication // method](https://wikipedia.org/wiki/Inter-process_communication). // // Type: Enum // RequirementLevel: Optional // Stability: stable // Examples: 'tcp', 'udp' // Note: The value SHOULD be normalized to lowercase. // // Consider always setting the transport when setting a port number, since // a port number is ambiguous without knowing the transport. For example // different processes could be listening on TCP port 12345 and UDP port // 12345. NetworkTransportKey = attribute.Key("network.transport") // NetworkTypeKey is the attribute Key conforming to the "network.type" // semantic conventions. It represents the [OSI network // layer](https://osi-model.com/network-layer/) or non-OSI equivalent. // // Type: Enum // RequirementLevel: Optional // Stability: stable // Examples: 'ipv4', 'ipv6' // Note: The value SHOULD be normalized to lowercase. NetworkTypeKey = attribute.Key("network.type") ) var ( // GPRS NetworkConnectionSubtypeGprs = NetworkConnectionSubtypeKey.String("gprs") // EDGE NetworkConnectionSubtypeEdge = NetworkConnectionSubtypeKey.String("edge") // UMTS NetworkConnectionSubtypeUmts = NetworkConnectionSubtypeKey.String("umts") // CDMA NetworkConnectionSubtypeCdma = NetworkConnectionSubtypeKey.String("cdma") // EVDO Rel. 0 NetworkConnectionSubtypeEvdo0 = NetworkConnectionSubtypeKey.String("evdo_0") // EVDO Rev. A NetworkConnectionSubtypeEvdoA = NetworkConnectionSubtypeKey.String("evdo_a") // CDMA2000 1XRTT NetworkConnectionSubtypeCdma20001xrtt = NetworkConnectionSubtypeKey.String("cdma2000_1xrtt") // HSDPA NetworkConnectionSubtypeHsdpa = NetworkConnectionSubtypeKey.String("hsdpa") // HSUPA NetworkConnectionSubtypeHsupa = NetworkConnectionSubtypeKey.String("hsupa") // HSPA NetworkConnectionSubtypeHspa = NetworkConnectionSubtypeKey.String("hspa") // IDEN NetworkConnectionSubtypeIden = NetworkConnectionSubtypeKey.String("iden") // EVDO Rev. B NetworkConnectionSubtypeEvdoB = NetworkConnectionSubtypeKey.String("evdo_b") // LTE NetworkConnectionSubtypeLte = NetworkConnectionSubtypeKey.String("lte") // EHRPD NetworkConnectionSubtypeEhrpd = NetworkConnectionSubtypeKey.String("ehrpd") // HSPAP NetworkConnectionSubtypeHspap = NetworkConnectionSubtypeKey.String("hspap") // GSM NetworkConnectionSubtypeGsm = NetworkConnectionSubtypeKey.String("gsm") // TD-SCDMA NetworkConnectionSubtypeTdScdma = NetworkConnectionSubtypeKey.String("td_scdma") // IWLAN NetworkConnectionSubtypeIwlan = NetworkConnectionSubtypeKey.String("iwlan") // 5G NR (New Radio) NetworkConnectionSubtypeNr = NetworkConnectionSubtypeKey.String("nr") // 5G NRNSA (New Radio Non-Standalone) NetworkConnectionSubtypeNrnsa = NetworkConnectionSubtypeKey.String("nrnsa") // LTE CA NetworkConnectionSubtypeLteCa = NetworkConnectionSubtypeKey.String("lte_ca") ) var ( // wifi NetworkConnectionTypeWifi = NetworkConnectionTypeKey.String("wifi") // wired NetworkConnectionTypeWired = NetworkConnectionTypeKey.String("wired") // cell NetworkConnectionTypeCell = NetworkConnectionTypeKey.String("cell") // unavailable NetworkConnectionTypeUnavailable = NetworkConnectionTypeKey.String("unavailable") // unknown NetworkConnectionTypeUnknown = NetworkConnectionTypeKey.String("unknown") ) var ( // transmit NetworkIoDirectionTransmit = NetworkIoDirectionKey.String("transmit") // receive NetworkIoDirectionReceive = NetworkIoDirectionKey.String("receive") ) var ( // TCP NetworkTransportTCP = NetworkTransportKey.String("tcp") // UDP NetworkTransportUDP = NetworkTransportKey.String("udp") // Named or anonymous pipe NetworkTransportPipe = NetworkTransportKey.String("pipe") // Unix domain socket NetworkTransportUnix = NetworkTransportKey.String("unix") ) var ( // IPv4 NetworkTypeIpv4 = NetworkTypeKey.String("ipv4") // IPv6 NetworkTypeIpv6 = NetworkTypeKey.String("ipv6") ) // NetworkCarrierIcc returns an attribute KeyValue conforming to the // "network.carrier.icc" semantic conventions. It represents the ISO 3166-1 // alpha-2 2-character country code associated with the mobile carrier network. func NetworkCarrierIcc(val string) attribute.KeyValue { return NetworkCarrierIccKey.String(val) } // NetworkCarrierMcc returns an attribute KeyValue conforming to the // "network.carrier.mcc" semantic conventions. It represents the mobile carrier // country code. func NetworkCarrierMcc(val string) attribute.KeyValue { return NetworkCarrierMccKey.String(val) } // NetworkCarrierMnc returns an attribute KeyValue conforming to the // "network.carrier.mnc" semantic conventions. It represents the mobile carrier // network code. func NetworkCarrierMnc(val string) attribute.KeyValue { return NetworkCarrierMncKey.String(val) } // NetworkCarrierName returns an attribute KeyValue conforming to the // "network.carrier.name" semantic conventions. It represents the name of the // mobile carrier. func NetworkCarrierName(val string) attribute.KeyValue { return NetworkCarrierNameKey.String(val) } // NetworkLocalAddress returns an attribute KeyValue conforming to the // "network.local.address" semantic conventions. It represents the local // address of the network connection - IP address or Unix domain socket name. func NetworkLocalAddress(val string) attribute.KeyValue { return NetworkLocalAddressKey.String(val) } // NetworkLocalPort returns an attribute KeyValue conforming to the // "network.local.port" semantic conventions. It represents the local port // number of the network connection. func NetworkLocalPort(val int) attribute.KeyValue { return NetworkLocalPortKey.Int(val) } // NetworkPeerAddress returns an attribute KeyValue conforming to the // "network.peer.address" semantic conventions. It represents the peer address // of the network connection - IP address or Unix domain socket name. func NetworkPeerAddress(val string) attribute.KeyValue { return NetworkPeerAddressKey.String(val) } // NetworkPeerPort returns an attribute KeyValue conforming to the // "network.peer.port" semantic conventions. It represents the peer port number // of the network connection. func NetworkPeerPort(val int) attribute.KeyValue { return NetworkPeerPortKey.Int(val) } // NetworkProtocolName returns an attribute KeyValue conforming to the // "network.protocol.name" semantic conventions. It represents the [OSI // application layer](https://osi-model.com/application-layer/) or non-OSI // equivalent. func NetworkProtocolName(val string) attribute.KeyValue { return NetworkProtocolNameKey.String(val) } // NetworkProtocolVersion returns an attribute KeyValue conforming to the // "network.protocol.version" semantic conventions. It represents the version // of the protocol specified in `network.protocol.name`. func NetworkProtocolVersion(val string) attribute.KeyValue { return NetworkProtocolVersionKey.String(val) } // Attributes for remote procedure calls. const ( // RPCConnectRPCErrorCodeKey is the attribute Key conforming to the // "rpc.connect_rpc.error_code" semantic conventions. It represents the // [error codes](https://connect.build/docs/protocol/#error-codes) of the // Connect request. Error codes are always string values. // // Type: Enum // RequirementLevel: Optional // Stability: experimental RPCConnectRPCErrorCodeKey = attribute.Key("rpc.connect_rpc.error_code") // RPCGRPCStatusCodeKey is the attribute Key conforming to the // "rpc.grpc.status_code" semantic conventions. It represents the [numeric // status // code](https://github.com/grpc/grpc/blob/v1.33.2/doc/statuscodes.md) of // the gRPC request. // // Type: Enum // RequirementLevel: Optional // Stability: experimental RPCGRPCStatusCodeKey = attribute.Key("rpc.grpc.status_code") // RPCJsonrpcErrorCodeKey is the attribute Key conforming to the // "rpc.jsonrpc.error_code" semantic conventions. It represents the // `error.code` property of response if it is an error response. // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: -32700, 100 RPCJsonrpcErrorCodeKey = attribute.Key("rpc.jsonrpc.error_code") // RPCJsonrpcErrorMessageKey is the attribute Key conforming to the // "rpc.jsonrpc.error_message" semantic conventions. It represents the // `error.message` property of response if it is an error response. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'Parse error', 'User already exists' RPCJsonrpcErrorMessageKey = attribute.Key("rpc.jsonrpc.error_message") // RPCJsonrpcRequestIDKey is the attribute Key conforming to the // "rpc.jsonrpc.request_id" semantic conventions. It represents the `id` // property of request or response. Since protocol allows id to be int, // string, `null` or missing (for notifications), value is expected to be // cast to string for simplicity. Use empty string in case of `null` value. // Omit entirely if this is a notification. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '10', 'request-7', '' RPCJsonrpcRequestIDKey = attribute.Key("rpc.jsonrpc.request_id") // RPCJsonrpcVersionKey is the attribute Key conforming to the // "rpc.jsonrpc.version" semantic conventions. It represents the protocol // version as in `jsonrpc` property of request/response. Since JSON-RPC 1.0 // doesn't specify this, the value can be omitted. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '2.0', '1.0' RPCJsonrpcVersionKey = attribute.Key("rpc.jsonrpc.version") // RPCMethodKey is the attribute Key conforming to the "rpc.method" // semantic conventions. It represents the name of the (logical) method // being called, must be equal to the $method part in the span name. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'exampleMethod' // Note: This is the logical name of the method from the RPC interface // perspective, which can be different from the name of any implementing // method/function. The `code.function` attribute may be used to store the // latter (e.g., method actually executing the call on the server side, RPC // client stub method on the client side). RPCMethodKey = attribute.Key("rpc.method") // RPCServiceKey is the attribute Key conforming to the "rpc.service" // semantic conventions. It represents the full (logical) name of the // service being called, including its package name, if applicable. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'myservice.EchoService' // Note: This is the logical name of the service from the RPC interface // perspective, which can be different from the name of any implementing // class. The `code.namespace` attribute may be used to store the latter // (despite the attribute name, it may include a class name; e.g., class // with method actually executing the call on the server side, RPC client // stub class on the client side). RPCServiceKey = attribute.Key("rpc.service") // RPCSystemKey is the attribute Key conforming to the "rpc.system" // semantic conventions. It represents a string identifying the remoting // system. See below for a list of well-known identifiers. // // Type: Enum // RequirementLevel: Optional // Stability: experimental RPCSystemKey = attribute.Key("rpc.system") ) var ( // cancelled RPCConnectRPCErrorCodeCancelled = RPCConnectRPCErrorCodeKey.String("cancelled") // unknown RPCConnectRPCErrorCodeUnknown = RPCConnectRPCErrorCodeKey.String("unknown") // invalid_argument RPCConnectRPCErrorCodeInvalidArgument = RPCConnectRPCErrorCodeKey.String("invalid_argument") // deadline_exceeded RPCConnectRPCErrorCodeDeadlineExceeded = RPCConnectRPCErrorCodeKey.String("deadline_exceeded") // not_found RPCConnectRPCErrorCodeNotFound = RPCConnectRPCErrorCodeKey.String("not_found") // already_exists RPCConnectRPCErrorCodeAlreadyExists = RPCConnectRPCErrorCodeKey.String("already_exists") // permission_denied RPCConnectRPCErrorCodePermissionDenied = RPCConnectRPCErrorCodeKey.String("permission_denied") // resource_exhausted RPCConnectRPCErrorCodeResourceExhausted = RPCConnectRPCErrorCodeKey.String("resource_exhausted") // failed_precondition RPCConnectRPCErrorCodeFailedPrecondition = RPCConnectRPCErrorCodeKey.String("failed_precondition") // aborted RPCConnectRPCErrorCodeAborted = RPCConnectRPCErrorCodeKey.String("aborted") // out_of_range RPCConnectRPCErrorCodeOutOfRange = RPCConnectRPCErrorCodeKey.String("out_of_range") // unimplemented RPCConnectRPCErrorCodeUnimplemented = RPCConnectRPCErrorCodeKey.String("unimplemented") // internal RPCConnectRPCErrorCodeInternal = RPCConnectRPCErrorCodeKey.String("internal") // unavailable RPCConnectRPCErrorCodeUnavailable = RPCConnectRPCErrorCodeKey.String("unavailable") // data_loss RPCConnectRPCErrorCodeDataLoss = RPCConnectRPCErrorCodeKey.String("data_loss") // unauthenticated RPCConnectRPCErrorCodeUnauthenticated = RPCConnectRPCErrorCodeKey.String("unauthenticated") ) var ( // OK RPCGRPCStatusCodeOk = RPCGRPCStatusCodeKey.Int(0) // CANCELLED RPCGRPCStatusCodeCancelled = RPCGRPCStatusCodeKey.Int(1) // UNKNOWN RPCGRPCStatusCodeUnknown = RPCGRPCStatusCodeKey.Int(2) // INVALID_ARGUMENT RPCGRPCStatusCodeInvalidArgument = RPCGRPCStatusCodeKey.Int(3) // DEADLINE_EXCEEDED RPCGRPCStatusCodeDeadlineExceeded = RPCGRPCStatusCodeKey.Int(4) // NOT_FOUND RPCGRPCStatusCodeNotFound = RPCGRPCStatusCodeKey.Int(5) // ALREADY_EXISTS RPCGRPCStatusCodeAlreadyExists = RPCGRPCStatusCodeKey.Int(6) // PERMISSION_DENIED RPCGRPCStatusCodePermissionDenied = RPCGRPCStatusCodeKey.Int(7) // RESOURCE_EXHAUSTED RPCGRPCStatusCodeResourceExhausted = RPCGRPCStatusCodeKey.Int(8) // FAILED_PRECONDITION RPCGRPCStatusCodeFailedPrecondition = RPCGRPCStatusCodeKey.Int(9) // ABORTED RPCGRPCStatusCodeAborted = RPCGRPCStatusCodeKey.Int(10) // OUT_OF_RANGE RPCGRPCStatusCodeOutOfRange = RPCGRPCStatusCodeKey.Int(11) // UNIMPLEMENTED RPCGRPCStatusCodeUnimplemented = RPCGRPCStatusCodeKey.Int(12) // INTERNAL RPCGRPCStatusCodeInternal = RPCGRPCStatusCodeKey.Int(13) // UNAVAILABLE RPCGRPCStatusCodeUnavailable = RPCGRPCStatusCodeKey.Int(14) // DATA_LOSS RPCGRPCStatusCodeDataLoss = RPCGRPCStatusCodeKey.Int(15) // UNAUTHENTICATED RPCGRPCStatusCodeUnauthenticated = RPCGRPCStatusCodeKey.Int(16) ) var ( // gRPC RPCSystemGRPC = RPCSystemKey.String("grpc") // Java RMI RPCSystemJavaRmi = RPCSystemKey.String("java_rmi") // .NET WCF RPCSystemDotnetWcf = RPCSystemKey.String("dotnet_wcf") // Apache Dubbo RPCSystemApacheDubbo = RPCSystemKey.String("apache_dubbo") // Connect RPC RPCSystemConnectRPC = RPCSystemKey.String("connect_rpc") ) // RPCJsonrpcErrorCode returns an attribute KeyValue conforming to the // "rpc.jsonrpc.error_code" semantic conventions. It represents the // `error.code` property of response if it is an error response. func RPCJsonrpcErrorCode(val int) attribute.KeyValue { return RPCJsonrpcErrorCodeKey.Int(val) } // RPCJsonrpcErrorMessage returns an attribute KeyValue conforming to the // "rpc.jsonrpc.error_message" semantic conventions. It represents the // `error.message` property of response if it is an error response. func RPCJsonrpcErrorMessage(val string) attribute.KeyValue { return RPCJsonrpcErrorMessageKey.String(val) } // RPCJsonrpcRequestID returns an attribute KeyValue conforming to the // "rpc.jsonrpc.request_id" semantic conventions. It represents the `id` // property of request or response. Since protocol allows id to be int, string, // `null` or missing (for notifications), value is expected to be cast to // string for simplicity. Use empty string in case of `null` value. Omit // entirely if this is a notification. func RPCJsonrpcRequestID(val string) attribute.KeyValue { return RPCJsonrpcRequestIDKey.String(val) } // RPCJsonrpcVersion returns an attribute KeyValue conforming to the // "rpc.jsonrpc.version" semantic conventions. It represents the protocol // version as in `jsonrpc` property of request/response. Since JSON-RPC 1.0 // doesn't specify this, the value can be omitted. func RPCJsonrpcVersion(val string) attribute.KeyValue { return RPCJsonrpcVersionKey.String(val) } // RPCMethod returns an attribute KeyValue conforming to the "rpc.method" // semantic conventions. It represents the name of the (logical) method being // called, must be equal to the $method part in the span name. func RPCMethod(val string) attribute.KeyValue { return RPCMethodKey.String(val) } // RPCService returns an attribute KeyValue conforming to the "rpc.service" // semantic conventions. It represents the full (logical) name of the service // being called, including its package name, if applicable. func RPCService(val string) attribute.KeyValue { return RPCServiceKey.String(val) } // These attributes may be used to describe the server in a connection-based // network interaction where there is one side that initiates the connection // (the client is the side that initiates the connection). This covers all TCP // network interactions since TCP is connection-based and one side initiates // the connection (an exception is made for peer-to-peer communication over TCP // where the "user-facing" surface of the protocol / API doesn't expose a clear // notion of client and server). This also covers UDP network interactions // where one side initiates the interaction, e.g. QUIC (HTTP/3) and DNS. const ( // ServerAddressKey is the attribute Key conforming to the "server.address" // semantic conventions. It represents the server domain name if available // without reverse DNS lookup; otherwise, IP address or Unix domain socket // name. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'example.com', '10.1.2.80', '/tmp/my.sock' // Note: When observed from the client side, and when communicating through // an intermediary, `server.address` SHOULD represent the server address // behind any intermediaries, for example proxies, if it's available. ServerAddressKey = attribute.Key("server.address") // ServerPortKey is the attribute Key conforming to the "server.port" // semantic conventions. It represents the server port number. // // Type: int // RequirementLevel: Optional // Stability: stable // Examples: 80, 8080, 443 // Note: When observed from the client side, and when communicating through // an intermediary, `server.port` SHOULD represent the server port behind // any intermediaries, for example proxies, if it's available. ServerPortKey = attribute.Key("server.port") ) // ServerAddress returns an attribute KeyValue conforming to the // "server.address" semantic conventions. It represents the server domain name // if available without reverse DNS lookup; otherwise, IP address or Unix // domain socket name. func ServerAddress(val string) attribute.KeyValue { return ServerAddressKey.String(val) } // ServerPort returns an attribute KeyValue conforming to the "server.port" // semantic conventions. It represents the server port number. func ServerPort(val int) attribute.KeyValue { return ServerPortKey.Int(val) } // These attributes may be used to describe the sender of a network // exchange/packet. These should be used when there is no client/server // relationship between the two sides, or when that relationship is unknown. // This covers low-level network interactions (e.g. packet tracing) where you // don't know if there was a connection or which side initiated it. This also // covers unidirectional UDP flows and peer-to-peer communication where the // "user-facing" surface of the protocol / API doesn't expose a clear notion of // client and server. const ( // SourceAddressKey is the attribute Key conforming to the "source.address" // semantic conventions. It represents the source address - domain name if // available without reverse DNS lookup; otherwise, IP address or Unix // domain socket name. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'source.example.com', '10.1.2.80', '/tmp/my.sock' // Note: When observed from the destination side, and when communicating // through an intermediary, `source.address` SHOULD represent the source // address behind any intermediaries, for example proxies, if it's // available. SourceAddressKey = attribute.Key("source.address") // SourcePortKey is the attribute Key conforming to the "source.port" // semantic conventions. It represents the source port number // // Type: int // RequirementLevel: Optional // Stability: experimental // Examples: 3389, 2888 SourcePortKey = attribute.Key("source.port") ) // SourceAddress returns an attribute KeyValue conforming to the // "source.address" semantic conventions. It represents the source address - // domain name if available without reverse DNS lookup; otherwise, IP address // or Unix domain socket name. func SourceAddress(val string) attribute.KeyValue { return SourceAddressKey.String(val) } // SourcePort returns an attribute KeyValue conforming to the "source.port" // semantic conventions. It represents the source port number func SourcePort(val int) attribute.KeyValue { return SourcePortKey.Int(val) } // Semantic convention attributes in the TLS namespace. const ( // TLSCipherKey is the attribute Key conforming to the "tls.cipher" // semantic conventions. It represents the string indicating the // [cipher](https://datatracker.ietf.org/doc/html/rfc5246#appendix-A.5) // used during the current connection. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'TLS_RSA_WITH_3DES_EDE_CBC_SHA', // 'TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256' // Note: The values allowed for `tls.cipher` MUST be one of the // `Descriptions` of the [registered TLS Cipher // Suits](https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#table-tls-parameters-4). TLSCipherKey = attribute.Key("tls.cipher") // TLSClientCertificateKey is the attribute Key conforming to the // "tls.client.certificate" semantic conventions. It represents the // pEM-encoded stand-alone certificate offered by the client. This is // usually mutually-exclusive of `client.certificate_chain` since this // value also exists in that list. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'MII...' TLSClientCertificateKey = attribute.Key("tls.client.certificate") // TLSClientCertificateChainKey is the attribute Key conforming to the // "tls.client.certificate_chain" semantic conventions. It represents the // array of PEM-encoded certificates that make up the certificate chain // offered by the client. This is usually mutually-exclusive of // `client.certificate` since that value should be the first certificate in // the chain. // // Type: string[] // RequirementLevel: Optional // Stability: experimental // Examples: 'MII...', 'MI...' TLSClientCertificateChainKey = attribute.Key("tls.client.certificate_chain") // TLSClientHashMd5Key is the attribute Key conforming to the // "tls.client.hash.md5" semantic conventions. It represents the // certificate fingerprint using the MD5 digest of DER-encoded version of // certificate offered by the client. For consistency with other hash // values, this value should be formatted as an uppercase hash. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '0F76C7F2C55BFD7D8E8B8F4BFBF0C9EC' TLSClientHashMd5Key = attribute.Key("tls.client.hash.md5") // TLSClientHashSha1Key is the attribute Key conforming to the // "tls.client.hash.sha1" semantic conventions. It represents the // certificate fingerprint using the SHA1 digest of DER-encoded version of // certificate offered by the client. For consistency with other hash // values, this value should be formatted as an uppercase hash. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '9E393D93138888D288266C2D915214D1D1CCEB2A' TLSClientHashSha1Key = attribute.Key("tls.client.hash.sha1") // TLSClientHashSha256Key is the attribute Key conforming to the // "tls.client.hash.sha256" semantic conventions. It represents the // certificate fingerprint using the SHA256 digest of DER-encoded version // of certificate offered by the client. For consistency with other hash // values, this value should be formatted as an uppercase hash. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: // '0687F666A054EF17A08E2F2162EAB4CBC0D265E1D7875BE74BF3C712CA92DAF0' TLSClientHashSha256Key = attribute.Key("tls.client.hash.sha256") // TLSClientIssuerKey is the attribute Key conforming to the // "tls.client.issuer" semantic conventions. It represents the // distinguished name of // [subject](https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6) // of the issuer of the x.509 certificate presented by the client. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'CN=Example Root CA, OU=Infrastructure Team, DC=example, // DC=com' TLSClientIssuerKey = attribute.Key("tls.client.issuer") // TLSClientJa3Key is the attribute Key conforming to the "tls.client.ja3" // semantic conventions. It represents a hash that identifies clients based // on how they perform an SSL/TLS handshake. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'd4e5b18d6b55c71272893221c96ba240' TLSClientJa3Key = attribute.Key("tls.client.ja3") // TLSClientNotAfterKey is the attribute Key conforming to the // "tls.client.not_after" semantic conventions. It represents the date/Time // indicating when client certificate is no longer considered valid. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '2021-01-01T00:00:00.000Z' TLSClientNotAfterKey = attribute.Key("tls.client.not_after") // TLSClientNotBeforeKey is the attribute Key conforming to the // "tls.client.not_before" semantic conventions. It represents the // date/Time indicating when client certificate is first considered valid. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '1970-01-01T00:00:00.000Z' TLSClientNotBeforeKey = attribute.Key("tls.client.not_before") // TLSClientServerNameKey is the attribute Key conforming to the // "tls.client.server_name" semantic conventions. It represents the also // called an SNI, this tells the server which hostname to which the client // is attempting to connect to. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'opentelemetry.io' TLSClientServerNameKey = attribute.Key("tls.client.server_name") // TLSClientSubjectKey is the attribute Key conforming to the // "tls.client.subject" semantic conventions. It represents the // distinguished name of subject of the x.509 certificate presented by the // client. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'CN=myclient, OU=Documentation Team, DC=example, DC=com' TLSClientSubjectKey = attribute.Key("tls.client.subject") // TLSClientSupportedCiphersKey is the attribute Key conforming to the // "tls.client.supported_ciphers" semantic conventions. It represents the // array of ciphers offered by the client during the client hello. // // Type: string[] // RequirementLevel: Optional // Stability: experimental // Examples: '"TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384", // "TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384", "..."' TLSClientSupportedCiphersKey = attribute.Key("tls.client.supported_ciphers") // TLSCurveKey is the attribute Key conforming to the "tls.curve" semantic // conventions. It represents the string indicating the curve used for the // given cipher, when applicable // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'secp256r1' TLSCurveKey = attribute.Key("tls.curve") // TLSEstablishedKey is the attribute Key conforming to the // "tls.established" semantic conventions. It represents the boolean flag // indicating if the TLS negotiation was successful and transitioned to an // encrypted tunnel. // // Type: boolean // RequirementLevel: Optional // Stability: experimental // Examples: True TLSEstablishedKey = attribute.Key("tls.established") // TLSNextProtocolKey is the attribute Key conforming to the // "tls.next_protocol" semantic conventions. It represents the string // indicating the protocol being tunneled. Per the values in the [IANA // registry](https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml#alpn-protocol-ids), // this string should be lower case. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'http/1.1' TLSNextProtocolKey = attribute.Key("tls.next_protocol") // TLSProtocolNameKey is the attribute Key conforming to the // "tls.protocol.name" semantic conventions. It represents the normalized // lowercase protocol name parsed from original string of the negotiated // [SSL/TLS protocol // version](https://www.openssl.org/docs/man1.1.1/man3/SSL_get_version.html#RETURN-VALUES) // // Type: Enum // RequirementLevel: Optional // Stability: experimental TLSProtocolNameKey = attribute.Key("tls.protocol.name") // TLSProtocolVersionKey is the attribute Key conforming to the // "tls.protocol.version" semantic conventions. It represents the numeric // part of the version parsed from the original string of the negotiated // [SSL/TLS protocol // version](https://www.openssl.org/docs/man1.1.1/man3/SSL_get_version.html#RETURN-VALUES) // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '1.2', '3' TLSProtocolVersionKey = attribute.Key("tls.protocol.version") // TLSResumedKey is the attribute Key conforming to the "tls.resumed" // semantic conventions. It represents the boolean flag indicating if this // TLS connection was resumed from an existing TLS negotiation. // // Type: boolean // RequirementLevel: Optional // Stability: experimental // Examples: True TLSResumedKey = attribute.Key("tls.resumed") // TLSServerCertificateKey is the attribute Key conforming to the // "tls.server.certificate" semantic conventions. It represents the // pEM-encoded stand-alone certificate offered by the server. This is // usually mutually-exclusive of `server.certificate_chain` since this // value also exists in that list. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'MII...' TLSServerCertificateKey = attribute.Key("tls.server.certificate") // TLSServerCertificateChainKey is the attribute Key conforming to the // "tls.server.certificate_chain" semantic conventions. It represents the // array of PEM-encoded certificates that make up the certificate chain // offered by the server. This is usually mutually-exclusive of // `server.certificate` since that value should be the first certificate in // the chain. // // Type: string[] // RequirementLevel: Optional // Stability: experimental // Examples: 'MII...', 'MI...' TLSServerCertificateChainKey = attribute.Key("tls.server.certificate_chain") // TLSServerHashMd5Key is the attribute Key conforming to the // "tls.server.hash.md5" semantic conventions. It represents the // certificate fingerprint using the MD5 digest of DER-encoded version of // certificate offered by the server. For consistency with other hash // values, this value should be formatted as an uppercase hash. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '0F76C7F2C55BFD7D8E8B8F4BFBF0C9EC' TLSServerHashMd5Key = attribute.Key("tls.server.hash.md5") // TLSServerHashSha1Key is the attribute Key conforming to the // "tls.server.hash.sha1" semantic conventions. It represents the // certificate fingerprint using the SHA1 digest of DER-encoded version of // certificate offered by the server. For consistency with other hash // values, this value should be formatted as an uppercase hash. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '9E393D93138888D288266C2D915214D1D1CCEB2A' TLSServerHashSha1Key = attribute.Key("tls.server.hash.sha1") // TLSServerHashSha256Key is the attribute Key conforming to the // "tls.server.hash.sha256" semantic conventions. It represents the // certificate fingerprint using the SHA256 digest of DER-encoded version // of certificate offered by the server. For consistency with other hash // values, this value should be formatted as an uppercase hash. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: // '0687F666A054EF17A08E2F2162EAB4CBC0D265E1D7875BE74BF3C712CA92DAF0' TLSServerHashSha256Key = attribute.Key("tls.server.hash.sha256") // TLSServerIssuerKey is the attribute Key conforming to the // "tls.server.issuer" semantic conventions. It represents the // distinguished name of // [subject](https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6) // of the issuer of the x.509 certificate presented by the client. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'CN=Example Root CA, OU=Infrastructure Team, DC=example, // DC=com' TLSServerIssuerKey = attribute.Key("tls.server.issuer") // TLSServerJa3sKey is the attribute Key conforming to the // "tls.server.ja3s" semantic conventions. It represents a hash that // identifies servers based on how they perform an SSL/TLS handshake. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'd4e5b18d6b55c71272893221c96ba240' TLSServerJa3sKey = attribute.Key("tls.server.ja3s") // TLSServerNotAfterKey is the attribute Key conforming to the // "tls.server.not_after" semantic conventions. It represents the date/Time // indicating when server certificate is no longer considered valid. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '2021-01-01T00:00:00.000Z' TLSServerNotAfterKey = attribute.Key("tls.server.not_after") // TLSServerNotBeforeKey is the attribute Key conforming to the // "tls.server.not_before" semantic conventions. It represents the // date/Time indicating when server certificate is first considered valid. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '1970-01-01T00:00:00.000Z' TLSServerNotBeforeKey = attribute.Key("tls.server.not_before") // TLSServerSubjectKey is the attribute Key conforming to the // "tls.server.subject" semantic conventions. It represents the // distinguished name of subject of the x.509 certificate presented by the // server. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: 'CN=myserver, OU=Documentation Team, DC=example, DC=com' TLSServerSubjectKey = attribute.Key("tls.server.subject") ) var ( // ssl TLSProtocolNameSsl = TLSProtocolNameKey.String("ssl") // tls TLSProtocolNameTLS = TLSProtocolNameKey.String("tls") ) // TLSCipher returns an attribute KeyValue conforming to the "tls.cipher" // semantic conventions. It represents the string indicating the // [cipher](https://datatracker.ietf.org/doc/html/rfc5246#appendix-A.5) used // during the current connection. func TLSCipher(val string) attribute.KeyValue { return TLSCipherKey.String(val) } // TLSClientCertificate returns an attribute KeyValue conforming to the // "tls.client.certificate" semantic conventions. It represents the pEM-encoded // stand-alone certificate offered by the client. This is usually // mutually-exclusive of `client.certificate_chain` since this value also // exists in that list. func TLSClientCertificate(val string) attribute.KeyValue { return TLSClientCertificateKey.String(val) } // TLSClientCertificateChain returns an attribute KeyValue conforming to the // "tls.client.certificate_chain" semantic conventions. It represents the array // of PEM-encoded certificates that make up the certificate chain offered by // the client. This is usually mutually-exclusive of `client.certificate` since // that value should be the first certificate in the chain. func TLSClientCertificateChain(val ...string) attribute.KeyValue { return TLSClientCertificateChainKey.StringSlice(val) } // TLSClientHashMd5 returns an attribute KeyValue conforming to the // "tls.client.hash.md5" semantic conventions. It represents the certificate // fingerprint using the MD5 digest of DER-encoded version of certificate // offered by the client. For consistency with other hash values, this value // should be formatted as an uppercase hash. func TLSClientHashMd5(val string) attribute.KeyValue { return TLSClientHashMd5Key.String(val) } // TLSClientHashSha1 returns an attribute KeyValue conforming to the // "tls.client.hash.sha1" semantic conventions. It represents the certificate // fingerprint using the SHA1 digest of DER-encoded version of certificate // offered by the client. For consistency with other hash values, this value // should be formatted as an uppercase hash. func TLSClientHashSha1(val string) attribute.KeyValue { return TLSClientHashSha1Key.String(val) } // TLSClientHashSha256 returns an attribute KeyValue conforming to the // "tls.client.hash.sha256" semantic conventions. It represents the certificate // fingerprint using the SHA256 digest of DER-encoded version of certificate // offered by the client. For consistency with other hash values, this value // should be formatted as an uppercase hash. func TLSClientHashSha256(val string) attribute.KeyValue { return TLSClientHashSha256Key.String(val) } // TLSClientIssuer returns an attribute KeyValue conforming to the // "tls.client.issuer" semantic conventions. It represents the distinguished // name of // [subject](https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6) of // the issuer of the x.509 certificate presented by the client. func TLSClientIssuer(val string) attribute.KeyValue { return TLSClientIssuerKey.String(val) } // TLSClientJa3 returns an attribute KeyValue conforming to the // "tls.client.ja3" semantic conventions. It represents a hash that identifies // clients based on how they perform an SSL/TLS handshake. func TLSClientJa3(val string) attribute.KeyValue { return TLSClientJa3Key.String(val) } // TLSClientNotAfter returns an attribute KeyValue conforming to the // "tls.client.not_after" semantic conventions. It represents the date/Time // indicating when client certificate is no longer considered valid. func TLSClientNotAfter(val string) attribute.KeyValue { return TLSClientNotAfterKey.String(val) } // TLSClientNotBefore returns an attribute KeyValue conforming to the // "tls.client.not_before" semantic conventions. It represents the date/Time // indicating when client certificate is first considered valid. func TLSClientNotBefore(val string) attribute.KeyValue { return TLSClientNotBeforeKey.String(val) } // TLSClientServerName returns an attribute KeyValue conforming to the // "tls.client.server_name" semantic conventions. It represents the also called // an SNI, this tells the server which hostname to which the client is // attempting to connect to. func TLSClientServerName(val string) attribute.KeyValue { return TLSClientServerNameKey.String(val) } // TLSClientSubject returns an attribute KeyValue conforming to the // "tls.client.subject" semantic conventions. It represents the distinguished // name of subject of the x.509 certificate presented by the client. func TLSClientSubject(val string) attribute.KeyValue { return TLSClientSubjectKey.String(val) } // TLSClientSupportedCiphers returns an attribute KeyValue conforming to the // "tls.client.supported_ciphers" semantic conventions. It represents the array // of ciphers offered by the client during the client hello. func TLSClientSupportedCiphers(val ...string) attribute.KeyValue { return TLSClientSupportedCiphersKey.StringSlice(val) } // TLSCurve returns an attribute KeyValue conforming to the "tls.curve" // semantic conventions. It represents the string indicating the curve used for // the given cipher, when applicable func TLSCurve(val string) attribute.KeyValue { return TLSCurveKey.String(val) } // TLSEstablished returns an attribute KeyValue conforming to the // "tls.established" semantic conventions. It represents the boolean flag // indicating if the TLS negotiation was successful and transitioned to an // encrypted tunnel. func TLSEstablished(val bool) attribute.KeyValue { return TLSEstablishedKey.Bool(val) } // TLSNextProtocol returns an attribute KeyValue conforming to the // "tls.next_protocol" semantic conventions. It represents the string // indicating the protocol being tunneled. Per the values in the [IANA // registry](https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml#alpn-protocol-ids), // this string should be lower case. func TLSNextProtocol(val string) attribute.KeyValue { return TLSNextProtocolKey.String(val) } // TLSProtocolVersion returns an attribute KeyValue conforming to the // "tls.protocol.version" semantic conventions. It represents the numeric part // of the version parsed from the original string of the negotiated [SSL/TLS // protocol // version](https://www.openssl.org/docs/man1.1.1/man3/SSL_get_version.html#RETURN-VALUES) func TLSProtocolVersion(val string) attribute.KeyValue { return TLSProtocolVersionKey.String(val) } // TLSResumed returns an attribute KeyValue conforming to the "tls.resumed" // semantic conventions. It represents the boolean flag indicating if this TLS // connection was resumed from an existing TLS negotiation. func TLSResumed(val bool) attribute.KeyValue { return TLSResumedKey.Bool(val) } // TLSServerCertificate returns an attribute KeyValue conforming to the // "tls.server.certificate" semantic conventions. It represents the pEM-encoded // stand-alone certificate offered by the server. This is usually // mutually-exclusive of `server.certificate_chain` since this value also // exists in that list. func TLSServerCertificate(val string) attribute.KeyValue { return TLSServerCertificateKey.String(val) } // TLSServerCertificateChain returns an attribute KeyValue conforming to the // "tls.server.certificate_chain" semantic conventions. It represents the array // of PEM-encoded certificates that make up the certificate chain offered by // the server. This is usually mutually-exclusive of `server.certificate` since // that value should be the first certificate in the chain. func TLSServerCertificateChain(val ...string) attribute.KeyValue { return TLSServerCertificateChainKey.StringSlice(val) } // TLSServerHashMd5 returns an attribute KeyValue conforming to the // "tls.server.hash.md5" semantic conventions. It represents the certificate // fingerprint using the MD5 digest of DER-encoded version of certificate // offered by the server. For consistency with other hash values, this value // should be formatted as an uppercase hash. func TLSServerHashMd5(val string) attribute.KeyValue { return TLSServerHashMd5Key.String(val) } // TLSServerHashSha1 returns an attribute KeyValue conforming to the // "tls.server.hash.sha1" semantic conventions. It represents the certificate // fingerprint using the SHA1 digest of DER-encoded version of certificate // offered by the server. For consistency with other hash values, this value // should be formatted as an uppercase hash. func TLSServerHashSha1(val string) attribute.KeyValue { return TLSServerHashSha1Key.String(val) } // TLSServerHashSha256 returns an attribute KeyValue conforming to the // "tls.server.hash.sha256" semantic conventions. It represents the certificate // fingerprint using the SHA256 digest of DER-encoded version of certificate // offered by the server. For consistency with other hash values, this value // should be formatted as an uppercase hash. func TLSServerHashSha256(val string) attribute.KeyValue { return TLSServerHashSha256Key.String(val) } // TLSServerIssuer returns an attribute KeyValue conforming to the // "tls.server.issuer" semantic conventions. It represents the distinguished // name of // [subject](https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6) of // the issuer of the x.509 certificate presented by the client. func TLSServerIssuer(val string) attribute.KeyValue { return TLSServerIssuerKey.String(val) } // TLSServerJa3s returns an attribute KeyValue conforming to the // "tls.server.ja3s" semantic conventions. It represents a hash that identifies // servers based on how they perform an SSL/TLS handshake. func TLSServerJa3s(val string) attribute.KeyValue { return TLSServerJa3sKey.String(val) } // TLSServerNotAfter returns an attribute KeyValue conforming to the // "tls.server.not_after" semantic conventions. It represents the date/Time // indicating when server certificate is no longer considered valid. func TLSServerNotAfter(val string) attribute.KeyValue { return TLSServerNotAfterKey.String(val) } // TLSServerNotBefore returns an attribute KeyValue conforming to the // "tls.server.not_before" semantic conventions. It represents the date/Time // indicating when server certificate is first considered valid. func TLSServerNotBefore(val string) attribute.KeyValue { return TLSServerNotBeforeKey.String(val) } // TLSServerSubject returns an attribute KeyValue conforming to the // "tls.server.subject" semantic conventions. It represents the distinguished // name of subject of the x.509 certificate presented by the server. func TLSServerSubject(val string) attribute.KeyValue { return TLSServerSubjectKey.String(val) } // Attributes describing URL. const ( // URLFragmentKey is the attribute Key conforming to the "url.fragment" // semantic conventions. It represents the [URI // fragment](https://www.rfc-editor.org/rfc/rfc3986#section-3.5) component // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'SemConv' URLFragmentKey = attribute.Key("url.fragment") // URLFullKey is the attribute Key conforming to the "url.full" semantic // conventions. It represents the absolute URL describing a network // resource according to [RFC3986](https://www.rfc-editor.org/rfc/rfc3986) // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'https://www.foo.bar/search?q=OpenTelemetry#SemConv', // '//localhost' // Note: For network calls, URL usually has // `scheme://host[:port][path][?query][#fragment]` format, where the // fragment is not transmitted over HTTP, but if it is known, it SHOULD be // included nevertheless. // `url.full` MUST NOT contain credentials passed via URL in form of // `https://username:password@www.example.com/`. In such case username and // password SHOULD be redacted and attribute's value SHOULD be // `https://REDACTED:REDACTED@www.example.com/`. // `url.full` SHOULD capture the absolute URL when it is available (or can // be reconstructed) and SHOULD NOT be validated or modified except for // sanitizing purposes. URLFullKey = attribute.Key("url.full") // URLPathKey is the attribute Key conforming to the "url.path" semantic // conventions. It represents the [URI // path](https://www.rfc-editor.org/rfc/rfc3986#section-3.3) component // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: '/search' URLPathKey = attribute.Key("url.path") // URLQueryKey is the attribute Key conforming to the "url.query" semantic // conventions. It represents the [URI // query](https://www.rfc-editor.org/rfc/rfc3986#section-3.4) component // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'q=OpenTelemetry' // Note: Sensitive content provided in query string SHOULD be scrubbed when // instrumentations can identify it. URLQueryKey = attribute.Key("url.query") // URLSchemeKey is the attribute Key conforming to the "url.scheme" // semantic conventions. It represents the [URI // scheme](https://www.rfc-editor.org/rfc/rfc3986#section-3.1) component // identifying the used protocol. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'https', 'ftp', 'telnet' URLSchemeKey = attribute.Key("url.scheme") ) // URLFragment returns an attribute KeyValue conforming to the // "url.fragment" semantic conventions. It represents the [URI // fragment](https://www.rfc-editor.org/rfc/rfc3986#section-3.5) component func URLFragment(val string) attribute.KeyValue { return URLFragmentKey.String(val) } // URLFull returns an attribute KeyValue conforming to the "url.full" // semantic conventions. It represents the absolute URL describing a network // resource according to [RFC3986](https://www.rfc-editor.org/rfc/rfc3986) func URLFull(val string) attribute.KeyValue { return URLFullKey.String(val) } // URLPath returns an attribute KeyValue conforming to the "url.path" // semantic conventions. It represents the [URI // path](https://www.rfc-editor.org/rfc/rfc3986#section-3.3) component func URLPath(val string) attribute.KeyValue { return URLPathKey.String(val) } // URLQuery returns an attribute KeyValue conforming to the "url.query" // semantic conventions. It represents the [URI // query](https://www.rfc-editor.org/rfc/rfc3986#section-3.4) component func URLQuery(val string) attribute.KeyValue { return URLQueryKey.String(val) } // URLScheme returns an attribute KeyValue conforming to the "url.scheme" // semantic conventions. It represents the [URI // scheme](https://www.rfc-editor.org/rfc/rfc3986#section-3.1) component // identifying the used protocol. func URLScheme(val string) attribute.KeyValue { return URLSchemeKey.String(val) } // Describes user-agent attributes. const ( // UserAgentOriginalKey is the attribute Key conforming to the // "user_agent.original" semantic conventions. It represents the value of // the [HTTP // User-Agent](https://www.rfc-editor.org/rfc/rfc9110.html#field.user-agent) // header sent by the client. // // Type: string // RequirementLevel: Optional // Stability: stable // Examples: 'CERN-LineMode/2.15 libwww/2.17b3', 'Mozilla/5.0 (iPhone; CPU // iPhone OS 14_7_1 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) // Version/14.1.2 Mobile/15E148 Safari/604.1' UserAgentOriginalKey = attribute.Key("user_agent.original") ) // UserAgentOriginal returns an attribute KeyValue conforming to the // "user_agent.original" semantic conventions. It represents the value of the // [HTTP // User-Agent](https://www.rfc-editor.org/rfc/rfc9110.html#field.user-agent) // header sent by the client. func UserAgentOriginal(val string) attribute.KeyValue { return UserAgentOriginalKey.String(val) } // Session is defined as the period of time encompassing all activities // performed by the application and the actions executed by the end user. // Consequently, a Session is represented as a collection of Logs, Events, and // Spans emitted by the Client Application throughout the Session's duration. // Each Session is assigned a unique identifier, which is included as an // attribute in the Logs, Events, and Spans generated during the Session's // lifecycle. // When a session reaches end of life, typically due to user inactivity or // session timeout, a new session identifier will be assigned. The previous // session identifier may be provided by the instrumentation so that telemetry // backends can link the two sessions. const ( // SessionIDKey is the attribute Key conforming to the "session.id" // semantic conventions. It represents a unique id to identify a session. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '00112233-4455-6677-8899-aabbccddeeff' SessionIDKey = attribute.Key("session.id") // SessionPreviousIDKey is the attribute Key conforming to the // "session.previous_id" semantic conventions. It represents the previous // `session.id` for this user, when known. // // Type: string // RequirementLevel: Optional // Stability: experimental // Examples: '00112233-4455-6677-8899-aabbccddeeff' SessionPreviousIDKey = attribute.Key("session.previous_id") ) // SessionID returns an attribute KeyValue conforming to the "session.id" // semantic conventions. It represents a unique id to identify a session. func SessionID(val string) attribute.KeyValue { return SessionIDKey.String(val) } // SessionPreviousID returns an attribute KeyValue conforming to the // "session.previous_id" semantic conventions. It represents the previous // `session.id` for this user, when known. func SessionPreviousID(val string) attribute.KeyValue { return SessionPreviousIDKey.String(val) }