From abb94704107de047310c2883fe55ecbdf87dd535 Mon Sep 17 00:00:00 2001 From: "dependabot[bot]" <49699333+dependabot[bot]@users.noreply.github.com> Date: Mon, 26 Feb 2024 09:38:24 +0000 Subject: [PATCH] build(deps): bump go.opentelemetry.io/otel/sdk/metric Bumps [go.opentelemetry.io/otel/sdk/metric](https://github.com/open-telemetry/opentelemetry-go) from 1.21.0 to 1.24.0. - [Release notes](https://github.com/open-telemetry/opentelemetry-go/releases) - [Changelog](https://github.com/open-telemetry/opentelemetry-go/blob/main/CHANGELOG.md) - [Commits](https://github.com/open-telemetry/opentelemetry-go/compare/v1.21.0...v1.24.0) --- updated-dependencies: - dependency-name: go.opentelemetry.io/otel/sdk/metric dependency-type: direct:production update-type: version-update:semver-minor ... Signed-off-by: dependabot[bot] --- go.mod | 12 +- go.sum | 24 +- .../go.opentelemetry.io/otel/.codespellignore | 2 + vendor/go.opentelemetry.io/otel/CHANGELOG.md | 123 +- vendor/go.opentelemetry.io/otel/CODEOWNERS | 2 +- .../go.opentelemetry.io/otel/CONTRIBUTING.md | 23 +- vendor/go.opentelemetry.io/otel/Makefile | 4 +- vendor/go.opentelemetry.io/otel/README.md | 22 +- vendor/go.opentelemetry.io/otel/RELEASING.md | 6 +- .../go.opentelemetry.io/otel/attribute/set.go | 89 +- .../otel/baggage/baggage.go | 330 +- vendor/go.opentelemetry.io/otel/doc.go | 2 +- .../otel/internal/global/meter.go | 4 +- .../otel/internal/global/state.go | 6 +- .../otel/propagation/trace_context.go | 94 +- .../otel/sdk/metric/cache.go | 40 + .../otel/sdk/metric/doc.go | 3 + .../otel/sdk/metric/exemplar.go | 96 + .../otel/sdk/metric/instrument.go | 37 +- .../metric/internal/aggregate/aggregate.go | 45 +- .../aggregate/exponential_histogram.go | 23 +- .../metric/internal/aggregate/histogram.go | 26 +- .../metric/internal/aggregate/lastvalue.go | 31 +- .../sdk/metric/internal/aggregate/limit.go | 53 + .../otel/sdk/metric/internal/aggregate/sum.go | 62 +- .../otel/sdk/metric/internal/exemplar/doc.go | 17 + .../otel/sdk/metric/internal/exemplar/drop.go | 36 + .../sdk/metric/internal/exemplar/filter.go | 40 + .../otel/sdk/metric/internal/exemplar/hist.go | 47 + .../otel/sdk/metric/internal/exemplar/rand.go | 195 + .../sdk/metric/internal/exemplar/reservoir.go | 44 + .../sdk/metric/internal/exemplar/storage.go | 107 + .../otel/sdk/metric/internal/x/README.md | 112 + .../otel/sdk/metric/internal/x/x.go | 96 + .../otel/sdk/metric/meter.go | 323 +- .../otel/sdk/metric/metricdata/data.go | 14 + .../otel/sdk/metric/pipeline.go | 32 +- .../otel/sdk/metric/version.go | 2 +- .../otel/sdk/resource/auto.go | 25 +- .../otel/sdk/resource/builtin.go | 2 +- .../otel/sdk/resource/container.go | 4 +- .../otel/sdk/resource/env.go | 2 +- .../otel/sdk/resource/host_id.go | 2 +- .../otel/sdk/resource/os.go | 2 +- .../otel/sdk/resource/process.go | 2 +- .../otel/sdk/resource/resource.go | 79 +- .../go.opentelemetry.io/otel/sdk/version.go | 2 +- .../otel/semconv/v1.21.0/attribute_group.go | 1877 ------- .../otel/semconv/v1.24.0/attribute_group.go | 4398 +++++++++++++++++ .../otel/semconv/{v1.21.0 => v1.24.0}/doc.go | 6 +- .../semconv/{v1.21.0 => v1.24.0}/event.go | 148 +- .../semconv/{v1.21.0 => v1.24.0}/exception.go | 2 +- .../semconv/{v1.21.0 => v1.24.0}/resource.go | 3070 ++++++------ .../semconv/{v1.21.0 => v1.24.0}/schema.go | 4 +- .../semconv/{v1.21.0 => v1.24.0}/trace.go | 2287 +++------ .../otel/trace/tracestate.go | 197 +- vendor/go.opentelemetry.io/otel/version.go | 2 +- vendor/go.opentelemetry.io/otel/versions.yaml | 20 +- vendor/golang.org/x/sys/unix/mkerrors.sh | 2 +- vendor/golang.org/x/sys/unix/zerrors_linux.go | 36 +- .../x/sys/unix/zerrors_linux_386.go | 3 + .../x/sys/unix/zerrors_linux_amd64.go | 3 + .../x/sys/unix/zerrors_linux_arm.go | 3 + .../x/sys/unix/zerrors_linux_arm64.go | 3 + .../x/sys/unix/zerrors_linux_loong64.go | 3 + .../x/sys/unix/zerrors_linux_mips.go | 3 + .../x/sys/unix/zerrors_linux_mips64.go | 3 + .../x/sys/unix/zerrors_linux_mips64le.go | 3 + .../x/sys/unix/zerrors_linux_mipsle.go | 3 + .../x/sys/unix/zerrors_linux_ppc.go | 3 + .../x/sys/unix/zerrors_linux_ppc64.go | 3 + .../x/sys/unix/zerrors_linux_ppc64le.go | 3 + .../x/sys/unix/zerrors_linux_riscv64.go | 3 + .../x/sys/unix/zerrors_linux_s390x.go | 3 + .../x/sys/unix/zerrors_linux_sparc64.go | 3 + .../x/sys/unix/zsysnum_linux_386.go | 4 + .../x/sys/unix/zsysnum_linux_amd64.go | 3 + .../x/sys/unix/zsysnum_linux_arm.go | 4 + .../x/sys/unix/zsysnum_linux_arm64.go | 4 + .../x/sys/unix/zsysnum_linux_loong64.go | 4 + .../x/sys/unix/zsysnum_linux_mips.go | 4 + .../x/sys/unix/zsysnum_linux_mips64.go | 4 + .../x/sys/unix/zsysnum_linux_mips64le.go | 4 + .../x/sys/unix/zsysnum_linux_mipsle.go | 4 + .../x/sys/unix/zsysnum_linux_ppc.go | 4 + .../x/sys/unix/zsysnum_linux_ppc64.go | 4 + .../x/sys/unix/zsysnum_linux_ppc64le.go | 4 + .../x/sys/unix/zsysnum_linux_riscv64.go | 4 + .../x/sys/unix/zsysnum_linux_s390x.go | 4 + .../x/sys/unix/zsysnum_linux_sparc64.go | 4 + vendor/golang.org/x/sys/unix/ztypes_linux.go | 125 +- .../golang.org/x/sys/windows/env_windows.go | 17 +- .../x/sys/windows/syscall_windows.go | 3 +- vendor/modules.txt | 16 +- 94 files changed, 9035 insertions(+), 5623 deletions(-) create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/exemplar.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/limit.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/doc.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/drop.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/filter.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/hist.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/rand.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/reservoir.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/storage.go create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/x/README.md create mode 100644 vendor/go.opentelemetry.io/otel/sdk/metric/internal/x/x.go delete mode 100644 vendor/go.opentelemetry.io/otel/semconv/v1.21.0/attribute_group.go create mode 100644 vendor/go.opentelemetry.io/otel/semconv/v1.24.0/attribute_group.go rename vendor/go.opentelemetry.io/otel/semconv/{v1.21.0 => v1.24.0}/doc.go (91%) rename vendor/go.opentelemetry.io/otel/semconv/{v1.21.0 => v1.24.0}/event.go (66%) rename vendor/go.opentelemetry.io/otel/semconv/{v1.21.0 => v1.24.0}/exception.go (99%) rename vendor/go.opentelemetry.io/otel/semconv/{v1.21.0 => v1.24.0}/resource.go (82%) rename vendor/go.opentelemetry.io/otel/semconv/{v1.21.0 => v1.24.0}/schema.go (93%) rename vendor/go.opentelemetry.io/otel/semconv/{v1.21.0 => v1.24.0}/trace.go (52%) diff --git a/go.mod b/go.mod index b8a7154b52..dbfe29837d 100644 --- a/go.mod +++ b/go.mod @@ -37,18 +37,18 @@ require ( github.com/spidernet-io/e2eframework v0.0.0-20240130031916-71bf7b1ddd00 github.com/tigera/operator v1.32.4 github.com/vishvananda/netlink v1.2.1-beta.2.0.20230621221334-77712cff8739 - go.opentelemetry.io/otel v1.21.0 + go.opentelemetry.io/otel v1.24.0 go.opentelemetry.io/otel/exporters/prometheus v0.44.0 - go.opentelemetry.io/otel/metric v1.21.0 - go.opentelemetry.io/otel/sdk v1.21.0 - go.opentelemetry.io/otel/sdk/metric v1.21.0 - go.opentelemetry.io/otel/trace v1.21.0 // indirect + go.opentelemetry.io/otel/metric v1.24.0 + go.opentelemetry.io/otel/sdk v1.24.0 + go.opentelemetry.io/otel/sdk/metric v1.24.0 + go.opentelemetry.io/otel/trace v1.24.0 // indirect go.uber.org/atomic v1.10.0 go.uber.org/multierr v1.11.0 go.uber.org/zap v1.25.0 golang.org/x/net v0.20.0 golang.org/x/sync v0.5.0 // indirect - golang.org/x/sys v0.16.0 + golang.org/x/sys v0.17.0 golang.org/x/tools v0.16.1 gopkg.in/natefinch/lumberjack.v2 v2.2.1 gopkg.in/yaml.v2 v2.4.0 diff --git a/go.sum b/go.sum index 4b599d01a5..625de733a1 100644 --- a/go.sum +++ b/go.sum @@ -570,18 +570,18 @@ go.opencensus.io v0.22.3/go.mod h1:yxeiOL68Rb0Xd1ddK5vPZ/oVn4vY4Ynel7k9FzqtOIw= go.opencensus.io v0.22.4/go.mod h1:yxeiOL68Rb0Xd1ddK5vPZ/oVn4vY4Ynel7k9FzqtOIw= go.opencensus.io v0.22.5/go.mod h1:5pWMHQbX5EPX2/62yrJeAkowc+lfs/XD7Uxpq3pI6kk= go.opencensus.io v0.23.0/go.mod h1:XItmlyltB5F7CS4xOC1DcqMoFqwtC6OG2xF7mCv7P7E= -go.opentelemetry.io/otel v1.21.0 h1:hzLeKBZEL7Okw2mGzZ0cc4k/A7Fta0uoPgaJCr8fsFc= -go.opentelemetry.io/otel v1.21.0/go.mod h1:QZzNPQPm1zLX4gZK4cMi+71eaorMSGT3A4znnUvNNEo= +go.opentelemetry.io/otel v1.24.0 h1:0LAOdjNmQeSTzGBzduGe/rU4tZhMwL5rWgtp9Ku5Jfo= +go.opentelemetry.io/otel v1.24.0/go.mod h1:W7b9Ozg4nkF5tWI5zsXkaKKDjdVjpD4oAt9Qi/MArHo= go.opentelemetry.io/otel/exporters/prometheus v0.44.0 h1:08qeJgaPC0YEBu2PQMbqU3rogTlyzpjhCI2b58Yn00w= go.opentelemetry.io/otel/exporters/prometheus v0.44.0/go.mod h1:ERL2uIeBtg4TxZdojHUwzZfIFlUIjZtxubT5p4h1Gjg= -go.opentelemetry.io/otel/metric v1.21.0 h1:tlYWfeo+Bocx5kLEloTjbcDwBuELRrIFxwdQ36PlJu4= -go.opentelemetry.io/otel/metric v1.21.0/go.mod h1:o1p3CA8nNHW8j5yuQLdc1eeqEaPfzug24uvsyIEJRWM= -go.opentelemetry.io/otel/sdk v1.21.0 h1:FTt8qirL1EysG6sTQRZ5TokkU8d0ugCj8htOgThZXQ8= -go.opentelemetry.io/otel/sdk v1.21.0/go.mod h1:Nna6Yv7PWTdgJHVRD9hIYywQBRx7pbox6nwBnZIxl/E= -go.opentelemetry.io/otel/sdk/metric v1.21.0 h1:smhI5oD714d6jHE6Tie36fPx4WDFIg+Y6RfAY4ICcR0= -go.opentelemetry.io/otel/sdk/metric v1.21.0/go.mod h1:FJ8RAsoPGv/wYMgBdUJXOm+6pzFY3YdljnXtv1SBE8Q= -go.opentelemetry.io/otel/trace v1.21.0 h1:WD9i5gzvoUPuXIXH24ZNBudiarZDKuekPqi/E8fpfLc= -go.opentelemetry.io/otel/trace v1.21.0/go.mod h1:LGbsEB0f9LGjN+OZaQQ26sohbOmiMR+BaslueVtS/qQ= +go.opentelemetry.io/otel/metric v1.24.0 h1:6EhoGWWK28x1fbpA4tYTOWBkPefTDQnb8WSGXlc88kI= +go.opentelemetry.io/otel/metric v1.24.0/go.mod h1:VYhLe1rFfxuTXLgj4CBiyz+9WYBA8pNGJgDcSFRKBco= +go.opentelemetry.io/otel/sdk v1.24.0 h1:YMPPDNymmQN3ZgczicBY3B6sf9n62Dlj9pWD3ucgoDw= +go.opentelemetry.io/otel/sdk v1.24.0/go.mod h1:KVrIYw6tEubO9E96HQpcmpTKDVn9gdv35HoYiQWGDFg= +go.opentelemetry.io/otel/sdk/metric v1.24.0 h1:yyMQrPzF+k88/DbH7o4FMAs80puqd+9osbiBrJrz/w8= +go.opentelemetry.io/otel/sdk/metric v1.24.0/go.mod h1:I6Y5FjH6rvEnTTAYQz3Mmv2kl6Ek5IIrmwTLqMrrOE0= +go.opentelemetry.io/otel/trace v1.24.0 h1:CsKnnL4dUAr/0llH9FKuc698G04IrpWV0MQA/Y1YELI= +go.opentelemetry.io/otel/trace v1.24.0/go.mod h1:HPc3Xr/cOApsBI154IU0OI0HJexz+aw5uPdbs3UCjNU= go.uber.org/atomic v1.10.0 h1:9qC72Qh0+3MqyJbAn8YU5xVq1frD8bn3JtD2oXtafVQ= go.uber.org/atomic v1.10.0/go.mod h1:LUxbIzbOniOlMKjJjyPfpl4v+PKK2cNJn91OQbhoJI0= go.uber.org/dig v1.17.0 h1:5Chju+tUvcC+N7N6EV08BJz41UZuO3BmHcN4A287ZLI= @@ -789,8 +789,8 @@ golang.org/x/sys v0.2.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg= golang.org/x/sys v0.6.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg= golang.org/x/sys v0.8.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg= golang.org/x/sys v0.9.1-0.20230616193735-e0c3b6e6ae3b/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg= -golang.org/x/sys v0.16.0 h1:xWw16ngr6ZMtmxDyKyIgsE93KNKz5HKmMa3b8ALHidU= -golang.org/x/sys v0.16.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA= +golang.org/x/sys v0.17.0 h1:25cE3gD+tdBA7lp7QfhuV+rJiE9YXTcS3VG1SqssI/Y= +golang.org/x/sys v0.17.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA= golang.org/x/term v0.0.0-20201126162022-7de9c90e9dd1/go.mod h1:bj7SfCRtBDWHUb9snDiAeCFNEtKQo2Wmx5Cou7ajbmo= golang.org/x/term v0.0.0-20210615171337-6886f2dfbf5b/go.mod h1:jbD1KX2456YbFQfuXm/mYQcufACuNUgVhRMnK/tPxf8= golang.org/x/term v0.0.0-20210927222741-03fcf44c2211/go.mod h1:jbD1KX2456YbFQfuXm/mYQcufACuNUgVhRMnK/tPxf8= diff --git a/vendor/go.opentelemetry.io/otel/.codespellignore b/vendor/go.opentelemetry.io/otel/.codespellignore index ae6a3bcf12..120b63a9c7 100644 --- a/vendor/go.opentelemetry.io/otel/.codespellignore +++ b/vendor/go.opentelemetry.io/otel/.codespellignore @@ -3,3 +3,5 @@ fo te collison consequentially +ans +nam diff --git a/vendor/go.opentelemetry.io/otel/CHANGELOG.md b/vendor/go.opentelemetry.io/otel/CHANGELOG.md index 24874f856e..98f2d20438 100644 --- a/vendor/go.opentelemetry.io/otel/CHANGELOG.md +++ b/vendor/go.opentelemetry.io/otel/CHANGELOG.md @@ -8,6 +8,120 @@ This project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.htm ## [Unreleased] +## [1.24.0/0.46.0/0.0.1-alpha] 2024-02-23 + +This release is the last to support [Go 1.20]. +The next release will require at least [Go 1.21]. + +### Added + +- Support [Go 1.22]. (#4890) +- Add exemplar support to `go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc`. (#4900) +- Add exemplar support to `go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp`. (#4900) +- The `go.opentelemetry.io/otel/log` module is added. + This module includes OpenTelemetry Go's implementation of the Logs Bridge API. + This module is in an alpha state, it is subject to breaking changes. + See our [versioning policy](./VERSIONING.md) for more info. (#4961) + +### Fixed + +- Fix registration of multiple callbacks when using the global meter provider from `go.opentelemetry.io/otel`. (#4945) +- Fix negative buckets in output of exponential histograms. (#4956) + +## [1.23.1] 2024-02-07 + +### Fixed + +- Register all callbacks passed during observable instrument creation instead of just the last one multiple times in `go.opentelemetry.io/otel/sdk/metric`. (#4888) + +## [1.23.0] 2024-02-06 + +This release contains the first stable, `v1`, release of the following modules: + +- `go.opentelemetry.io/otel/bridge/opencensus` +- `go.opentelemetry.io/otel/bridge/opencensus/test` +- `go.opentelemetry.io/otel/example/opencensus` +- `go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc` +- `go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp` +- `go.opentelemetry.io/otel/exporters/stdout/stdoutmetric` + +See our [versioning policy](VERSIONING.md) for more information about these stability guarantees. + +### Added + +- Add `WithEndpointURL` option to the `exporters/otlp/otlpmetric/otlpmetricgrpc`, `exporters/otlp/otlpmetric/otlpmetrichttp`, `exporters/otlp/otlptrace/otlptracegrpc` and `exporters/otlp/otlptrace/otlptracehttp` packages. (#4808) +- Experimental exemplar exporting is added to the metric SDK. + See [metric documentation](./sdk/metric/internal/x/README.md#exemplars) for more information about this feature and how to enable it. (#4871) +- `ErrSchemaURLConflict` is added to `go.opentelemetry.io/otel/sdk/resource`. + This error is returned when a merge of two `Resource`s with different (non-empty) schema URL is attempted. (#4876) + +### Changed + +- The `Merge` and `New` functions in `go.opentelemetry.io/otel/sdk/resource` now returns a partial result if there is a schema URL merge conflict. + Instead of returning `nil` when two `Resource`s with different (non-empty) schema URLs are merged the merged `Resource`, along with the new `ErrSchemaURLConflict` error, is returned. + It is up to the user to decide if they want to use the returned `Resource` or not. + It may have desired attributes overwritten or include stale semantic conventions. (#4876) + +### Fixed + +- Fix `ContainerID` resource detection on systemd when cgroup path has a colon. (#4449) +- Fix `go.opentelemetry.io/otel/sdk/metric` to cache instruments to avoid leaking memory when the same instrument is created multiple times. (#4820) +- Fix missing `Mix` and `Max` values for `go.opentelemetry.io/otel/exporters/stdout/stdoutmetric` by introducing `MarshalText` and `MarshalJSON` for the `Extrema` type in `go.opentelemetry.io/sdk/metric/metricdata`. (#4827) + +## [1.23.0-rc.1] 2024-01-18 + +This is a release candidate for the v1.23.0 release. +That release is expected to include the `v1` release of the following modules: + +- `go.opentelemetry.io/otel/bridge/opencensus` +- `go.opentelemetry.io/otel/bridge/opencensus/test` +- `go.opentelemetry.io/otel/example/opencensus` +- `go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc` +- `go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp` +- `go.opentelemetry.io/otel/exporters/stdout/stdoutmetric` + +See our [versioning policy](VERSIONING.md) for more information about these stability guarantees. + +## [1.22.0/0.45.0] 2024-01-17 + +### Added + +- The `go.opentelemetry.io/otel/semconv/v1.22.0` package. + The package contains semantic conventions from the `v1.22.0` version of the OpenTelemetry Semantic Conventions. (#4735) +- The `go.opentelemetry.io/otel/semconv/v1.23.0` package. + The package contains semantic conventions from the `v1.23.0` version of the OpenTelemetry Semantic Conventions. (#4746) +- The `go.opentelemetry.io/otel/semconv/v1.23.1` package. + The package contains semantic conventions from the `v1.23.1` version of the OpenTelemetry Semantic Conventions. (#4749) +- The `go.opentelemetry.io/otel/semconv/v1.24.0` package. + The package contains semantic conventions from the `v1.24.0` version of the OpenTelemetry Semantic Conventions. (#4770) +- Add `WithResourceAsConstantLabels` option to apply resource attributes for every metric emitted by the Prometheus exporter. (#4733) +- Experimental cardinality limiting is added to the metric SDK. + See [metric documentation](./sdk/metric/internal/x/README.md#cardinality-limit) for more information about this feature and how to enable it. (#4457) +- Add `NewMemberRaw` and `NewKeyValuePropertyRaw` in `go.opentelemetry.io/otel/baggage`. (#4804) + +### Changed + +- Upgrade all use of `go.opentelemetry.io/otel/semconv` to use `v1.24.0`. (#4754) +- Update transformations in `go.opentelemetry.io/otel/exporters/zipkin` to follow `v1.24.0` version of the OpenTelemetry specification. (#4754) +- Record synchronous measurements when the passed context is canceled instead of dropping in `go.opentelemetry.io/otel/sdk/metric`. + If you do not want to make a measurement when the context is cancelled, you need to handle it yourself (e.g `if ctx.Err() != nil`). (#4671) +- Improve `go.opentelemetry.io/otel/trace.TraceState`'s performance. (#4722) +- Improve `go.opentelemetry.io/otel/propagation.TraceContext`'s performance. (#4721) +- Improve `go.opentelemetry.io/otel/baggage` performance. (#4743) +- Improve performance of the `(*Set).Filter` method in `go.opentelemetry.io/otel/attribute` when the passed filter does not filter out any attributes from the set. (#4774) +- `Member.String` in `go.opentelemetry.io/otel/baggage` percent-encodes only when necessary. (#4775) +- Improve `go.opentelemetry.io/otel/trace.Span`'s performance when adding multiple attributes. (#4818) +- `Property.Value` in `go.opentelemetry.io/otel/baggage` now returns a raw string instead of a percent-encoded value. (#4804) + +### Fixed + +- Fix `Parse` in `go.opentelemetry.io/otel/baggage` to validate member value before percent-decoding. (#4755) +- Fix whitespace encoding of `Member.String` in `go.opentelemetry.io/otel/baggage`. (#4756) +- Fix observable not registered error when the asynchronous instrument has a drop aggregation in `go.opentelemetry.io/otel/sdk/metric`. (#4772) +- Fix baggage item key so that it is not canonicalized in `go.opentelemetry.io/otel/bridge/opentracing`. (#4776) +- Fix `go.opentelemetry.io/otel/bridge/opentracing` to properly handle baggage values that requires escaping during propagation. (#4804) +- Fix a bug where using multiple readers resulted in incorrect asynchronous counter values in `go.opentelemetry.io/otel/sdk/metric`. (#4742) + ## [1.21.0/0.44.0] 2023-11-16 ### Removed @@ -2735,7 +2849,12 @@ It contains api and sdk for trace and meter. - CircleCI build CI manifest files. - CODEOWNERS file to track owners of this project. -[Unreleased]: https://github.com/open-telemetry/opentelemetry-go/compare/v1.21.0...HEAD +[Unreleased]: https://github.com/open-telemetry/opentelemetry-go/compare/v1.24.0...HEAD +[1.24.0/0.46.0/0.0.1-alpha]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v1.24.0 +[1.23.1]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v1.23.1 +[1.23.0]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v1.23.0 +[1.23.0-rc.1]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v1.23.0-rc.1 +[1.22.0/0.45.0]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v1.22.0 [1.21.0/0.44.0]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v1.21.0 [1.20.0/0.43.0]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v1.20.0 [1.19.0/0.42.0/0.0.7]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v1.19.0 @@ -2809,6 +2928,8 @@ It contains api and sdk for trace and meter. [0.1.1]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v0.1.1 [0.1.0]: https://github.com/open-telemetry/opentelemetry-go/releases/tag/v0.1.0 +[Go 1.22]: https://go.dev/doc/go1.22 +[Go 1.21]: https://go.dev/doc/go1.21 [Go 1.20]: https://go.dev/doc/go1.20 [Go 1.19]: https://go.dev/doc/go1.19 [Go 1.18]: https://go.dev/doc/go1.18 diff --git a/vendor/go.opentelemetry.io/otel/CODEOWNERS b/vendor/go.opentelemetry.io/otel/CODEOWNERS index 623740007d..31d336d922 100644 --- a/vendor/go.opentelemetry.io/otel/CODEOWNERS +++ b/vendor/go.opentelemetry.io/otel/CODEOWNERS @@ -14,4 +14,4 @@ * @MrAlias @Aneurysm9 @evantorrie @XSAM @dashpole @MadVikingGod @pellared @hanyuancheung @dmathieu -CODEOWNERS @MrAlias @MadVikingGod @pellared \ No newline at end of file +CODEOWNERS @MrAlias @MadVikingGod @pellared @dashpole \ No newline at end of file diff --git a/vendor/go.opentelemetry.io/otel/CONTRIBUTING.md b/vendor/go.opentelemetry.io/otel/CONTRIBUTING.md index 850606ae69..c9f2bac55b 100644 --- a/vendor/go.opentelemetry.io/otel/CONTRIBUTING.md +++ b/vendor/go.opentelemetry.io/otel/CONTRIBUTING.md @@ -591,25 +591,46 @@ this. [^3]: https://github.com/open-telemetry/opentelemetry-go/issues/3548 +### Ignoring context cancellation + +OpenTelemetry API implementations need to ignore the cancellation of the context that are +passed when recording a value (e.g. starting a span, recording a measurement, emitting a log). +Recording methods should not return an error describing the cancellation state of the context +when they complete, nor should they abort any work. + +This rule may not apply if the OpenTelemetry specification defines a timeout mechanism for +the method. In that case the context cancellation can be used for the timeout with the +restriction that this behavior is documented for the method. Otherwise, timeouts +are expected to be handled by the user calling the API, not the implementation. + +Stoppage of the telemetry pipeline is handled by calling the appropriate `Shutdown` method +of a provider. It is assumed the context passed from a user is not used for this purpose. + +Outside of the direct recording of telemetry from the API (e.g. exporting telemetry, +force flushing telemetry, shutting down a signal provider) the context cancellation +should be honored. This means all work done on behalf of the user provided context +should be canceled. + ## Approvers and Maintainers ### Approvers - [Evan Torrie](https://github.com/evantorrie), Verizon Media - [Sam Xie](https://github.com/XSAM), Cisco/AppDynamics -- [David Ashpole](https://github.com/dashpole), Google - [Chester Cheung](https://github.com/hanyuancheung), Tencent - [Damien Mathieu](https://github.com/dmathieu), Elastic - [Anthony Mirabella](https://github.com/Aneurysm9), AWS ### Maintainers +- [David Ashpole](https://github.com/dashpole), Google - [Aaron Clawson](https://github.com/MadVikingGod), LightStep - [Robert Pająk](https://github.com/pellared), Splunk - [Tyler Yahn](https://github.com/MrAlias), Splunk ### Emeritus +- [Liz Fong-Jones](https://github.com/lizthegrey), Honeycomb - [Gustavo Silva Paiva](https://github.com/paivagustavo), LightStep - [Josh MacDonald](https://github.com/jmacd), LightStep diff --git a/vendor/go.opentelemetry.io/otel/Makefile b/vendor/go.opentelemetry.io/otel/Makefile index 35fc189961..6de95219be 100644 --- a/vendor/go.opentelemetry.io/otel/Makefile +++ b/vendor/go.opentelemetry.io/otel/Makefile @@ -192,7 +192,7 @@ test-coverage: | $(GOCOVMERGE) done; \ $(GOCOVMERGE) $$(find . -name coverage.out) > coverage.txt -# Adding a directory will include all benchmarks in that direcotry if a filter is not specified. +# Adding a directory will include all benchmarks in that directory if a filter is not specified. BENCHMARK_TARGETS := sdk/trace .PHONY: benchmark benchmark: $(BENCHMARK_TARGETS:%=benchmark/%) @@ -315,4 +315,4 @@ add-tags: | $(MULTIMOD) .PHONY: lint-markdown lint-markdown: - docker run -v "$(CURDIR):$(WORKDIR)" docker://avtodev/markdown-lint:v1 -c $(WORKDIR)/.markdownlint.yaml $(WORKDIR)/**/*.md + docker run -v "$(CURDIR):$(WORKDIR)" avtodev/markdown-lint:v1 -c $(WORKDIR)/.markdownlint.yaml $(WORKDIR)/**/*.md diff --git a/vendor/go.opentelemetry.io/otel/README.md b/vendor/go.opentelemetry.io/otel/README.md index 2c5b0cc28a..7766259a5c 100644 --- a/vendor/go.opentelemetry.io/otel/README.md +++ b/vendor/go.opentelemetry.io/otel/README.md @@ -11,14 +11,11 @@ It provides a set of APIs to directly measure performance and behavior of your s ## Project Status -| Signal | Status | -|---------|------------| -| Traces | Stable | -| Metrics | Stable | -| Logs | Design [1] | - -- [1]: Currently the logs signal development is in a design phase ([#4696](https://github.com/open-telemetry/opentelemetry-go/issues/4696)). - No Logs Pull Requests are currently being accepted. +| Signal | Status | +|---------|--------------------| +| Traces | Stable | +| Metrics | Stable | +| Logs | In development[^1] | Progress and status specific to this repository is tracked in our [project boards](https://github.com/open-telemetry/opentelemetry-go/projects) @@ -28,6 +25,8 @@ and Project versioning information and stability guarantees can be found in the [versioning documentation](VERSIONING.md). +[^1]: https://github.com/orgs/open-telemetry/projects/43 + ### Compatibility OpenTelemetry-Go ensures compatibility with the current supported versions of @@ -50,14 +49,19 @@ Currently, this project supports the following environments. | OS | Go Version | Architecture | |---------|------------|--------------| +| Ubuntu | 1.22 | amd64 | | Ubuntu | 1.21 | amd64 | | Ubuntu | 1.20 | amd64 | +| Ubuntu | 1.22 | 386 | | Ubuntu | 1.21 | 386 | | Ubuntu | 1.20 | 386 | +| MacOS | 1.22 | amd64 | | MacOS | 1.21 | amd64 | | MacOS | 1.20 | amd64 | +| Windows | 1.22 | amd64 | | Windows | 1.21 | amd64 | | Windows | 1.20 | amd64 | +| Windows | 1.22 | 386 | | Windows | 1.21 | 386 | | Windows | 1.20 | 386 | @@ -66,7 +70,7 @@ are made for those systems currently. ## Getting Started -You can find a getting started guide on [opentelemetry.io](https://opentelemetry.io/docs/go/getting-started/). +You can find a getting started guide on [opentelemetry.io](https://opentelemetry.io/docs/languages/go/getting-started/). OpenTelemetry's goal is to provide a single set of APIs to capture distributed traces and metrics from your application and send them to an observability diff --git a/vendor/go.opentelemetry.io/otel/RELEASING.md b/vendor/go.opentelemetry.io/otel/RELEASING.md index 82ce3ee46a..d2691d0bd8 100644 --- a/vendor/go.opentelemetry.io/otel/RELEASING.md +++ b/vendor/go.opentelemetry.io/otel/RELEASING.md @@ -123,12 +123,12 @@ Once verified be sure to [make a release for the `contrib` repository](https://g ### Website Documentation -Update the [Go instrumentation documentation] in the OpenTelemetry website under [content/en/docs/instrumentation/go]. +Update the [Go instrumentation documentation] in the OpenTelemetry website under [content/en/docs/languages/go]. Importantly, bump any package versions referenced to be the latest one you just released and ensure all code examples still compile and are accurate. [OpenTelemetry Semantic Conventions]: https://github.com/open-telemetry/semantic-conventions -[Go instrumentation documentation]: https://opentelemetry.io/docs/instrumentation/go/ -[content/en/docs/instrumentation/go]: https://github.com/open-telemetry/opentelemetry.io/tree/main/content/en/docs/instrumentation/go +[Go instrumentation documentation]: https://opentelemetry.io/docs/languages/go/ +[content/en/docs/languages/go]: https://github.com/open-telemetry/opentelemetry.io/tree/main/content/en/docs/languages/go ### Demo Repository diff --git a/vendor/go.opentelemetry.io/otel/attribute/set.go b/vendor/go.opentelemetry.io/otel/attribute/set.go index 9f9303d4f1..fb6da51450 100644 --- a/vendor/go.opentelemetry.io/otel/attribute/set.go +++ b/vendor/go.opentelemetry.io/otel/attribute/set.go @@ -279,52 +279,75 @@ func NewSetWithSortableFiltered(kvs []KeyValue, tmp *Sortable, filter Filter) (S position-- kvs[offset], kvs[position] = kvs[position], kvs[offset] } + kvs = kvs[position:] + if filter != nil { - return filterSet(kvs[position:], filter) + if div := filteredToFront(kvs, filter); div != 0 { + return Set{equivalent: computeDistinct(kvs[div:])}, kvs[:div] + } } - return Set{ - equivalent: computeDistinct(kvs[position:]), - }, nil + return Set{equivalent: computeDistinct(kvs)}, nil } -// filterSet reorders kvs so that included keys are contiguous at the end of -// the slice, while excluded keys precede the included keys. -func filterSet(kvs []KeyValue, filter Filter) (Set, []KeyValue) { - var excluded []KeyValue - - // Move attributes that do not match the filter so they're adjacent before - // calling computeDistinct(). - distinctPosition := len(kvs) - - // Swap indistinct keys forward and distinct keys toward the - // end of the slice. - offset := len(kvs) - 1 - for ; offset >= 0; offset-- { - if filter(kvs[offset]) { - distinctPosition-- - kvs[offset], kvs[distinctPosition] = kvs[distinctPosition], kvs[offset] - continue +// filteredToFront filters slice in-place using keep function. All KeyValues that need to +// be removed are moved to the front. All KeyValues that need to be kept are +// moved (in-order) to the back. The index for the first KeyValue to be kept is +// returned. +func filteredToFront(slice []KeyValue, keep Filter) int { + n := len(slice) + j := n + for i := n - 1; i >= 0; i-- { + if keep(slice[i]) { + j-- + slice[i], slice[j] = slice[j], slice[i] } } - excluded = kvs[:distinctPosition] - - return Set{ - equivalent: computeDistinct(kvs[distinctPosition:]), - }, excluded + return j } // Filter returns a filtered copy of this Set. See the documentation for // NewSetWithSortableFiltered for more details. func (l *Set) Filter(re Filter) (Set, []KeyValue) { if re == nil { - return Set{ - equivalent: l.equivalent, - }, nil + return *l, nil } - // Note: This could be refactored to avoid the temporary slice - // allocation, if it proves to be expensive. - return filterSet(l.ToSlice(), re) + // Iterate in reverse to the first attribute that will be filtered out. + n := l.Len() + first := n - 1 + for ; first >= 0; first-- { + kv, _ := l.Get(first) + if !re(kv) { + break + } + } + + // No attributes will be dropped, return the immutable Set l and nil. + if first < 0 { + return *l, nil + } + + // Copy now that we know we need to return a modified set. + // + // Do not do this in-place on the underlying storage of *Set l. Sets are + // immutable and filtering should not change this. + slice := l.ToSlice() + + // Don't re-iterate the slice if only slice[0] is filtered. + if first == 0 { + // It is safe to assume len(slice) >= 1 given we found at least one + // attribute above that needs to be filtered out. + return Set{equivalent: computeDistinct(slice[1:])}, slice[:1] + } + + // Move the filtered slice[first] to the front (preserving order). + kv := slice[first] + copy(slice[1:first+1], slice[:first]) + slice[0] = kv + + // Do not re-evaluate re(slice[first+1:]). + div := filteredToFront(slice[1:first+1], re) + 1 + return Set{equivalent: computeDistinct(slice[div:])}, slice[:div] } // computeDistinct returns a Distinct using either the fixed- or @@ -404,7 +427,7 @@ func (l *Set) MarshalJSON() ([]byte, error) { return json.Marshal(l.equivalent.iface) } -// MarshalLog is the marshaling function used by the logging system to represent this exporter. +// MarshalLog is the marshaling function used by the logging system to represent this Set. func (l Set) MarshalLog() interface{} { kvs := make(map[string]string) for _, kv := range l.ToSlice() { diff --git a/vendor/go.opentelemetry.io/otel/baggage/baggage.go b/vendor/go.opentelemetry.io/otel/baggage/baggage.go index 84532cb1da..7d27cf77d5 100644 --- a/vendor/go.opentelemetry.io/otel/baggage/baggage.go +++ b/vendor/go.opentelemetry.io/otel/baggage/baggage.go @@ -18,7 +18,6 @@ import ( "errors" "fmt" "net/url" - "regexp" "strings" "go.opentelemetry.io/otel/internal/baggage" @@ -32,16 +31,6 @@ const ( listDelimiter = "," keyValueDelimiter = "=" propertyDelimiter = ";" - - keyDef = `([\x21\x23-\x27\x2A\x2B\x2D\x2E\x30-\x39\x41-\x5a\x5e-\x7a\x7c\x7e]+)` - valueDef = `([\x21\x23-\x2b\x2d-\x3a\x3c-\x5B\x5D-\x7e]*)` - keyValueDef = `\s*` + keyDef + `\s*` + keyValueDelimiter + `\s*` + valueDef + `\s*` -) - -var ( - keyRe = regexp.MustCompile(`^` + keyDef + `$`) - valueRe = regexp.MustCompile(`^` + valueDef + `$`) - propertyRe = regexp.MustCompile(`^(?:\s*` + keyDef + `\s*|` + keyValueDef + `)$`) ) var ( @@ -67,7 +56,7 @@ type Property struct { // // If key is invalid, an error will be returned. func NewKeyProperty(key string) (Property, error) { - if !keyRe.MatchString(key) { + if !validateKey(key) { return newInvalidProperty(), fmt.Errorf("%w: %q", errInvalidKey, key) } @@ -77,14 +66,29 @@ func NewKeyProperty(key string) (Property, error) { // NewKeyValueProperty returns a new Property for key with value. // -// If key or value are invalid, an error will be returned. +// The passed key must be compliant with W3C Baggage specification. +// The passed value must be precent-encoded as defined in W3C Baggage specification. +// +// Notice: Consider using [NewKeyValuePropertyRaw] instead +// that does not require precent-encoding of the value. func NewKeyValueProperty(key, value string) (Property, error) { - if !keyRe.MatchString(key) { - return newInvalidProperty(), fmt.Errorf("%w: %q", errInvalidKey, key) + if !validateValue(value) { + return newInvalidProperty(), fmt.Errorf("%w: %q", errInvalidValue, value) } - if !valueRe.MatchString(value) { + decodedValue, err := url.PathUnescape(value) + if err != nil { return newInvalidProperty(), fmt.Errorf("%w: %q", errInvalidValue, value) } + return NewKeyValuePropertyRaw(key, decodedValue) +} + +// NewKeyValuePropertyRaw returns a new Property for key with value. +// +// The passed key must be compliant with W3C Baggage specification. +func NewKeyValuePropertyRaw(key, value string) (Property, error) { + if !validateKey(key) { + return newInvalidProperty(), fmt.Errorf("%w: %q", errInvalidKey, key) + } p := Property{ key: key, @@ -106,20 +110,11 @@ func parseProperty(property string) (Property, error) { return newInvalidProperty(), nil } - match := propertyRe.FindStringSubmatch(property) - if len(match) != 4 { + p, ok := parsePropertyInternal(property) + if !ok { return newInvalidProperty(), fmt.Errorf("%w: %q", errInvalidProperty, property) } - var p Property - if match[1] != "" { - p.key = match[1] - } else { - p.key = match[2] - p.value = match[3] - p.hasValue = true - } - return p, nil } @@ -130,12 +125,9 @@ func (p Property) validate() error { return fmt.Errorf("invalid property: %w", err) } - if !keyRe.MatchString(p.key) { + if !validateKey(p.key) { return errFunc(fmt.Errorf("%w: %q", errInvalidKey, p.key)) } - if p.hasValue && !valueRe.MatchString(p.value) { - return errFunc(fmt.Errorf("%w: %q", errInvalidValue, p.value)) - } if !p.hasValue && p.value != "" { return errFunc(errors.New("inconsistent value")) } @@ -154,11 +146,11 @@ func (p Property) Value() (string, bool) { return p.value, p.hasValue } -// String encodes Property into a string compliant with the W3C Baggage +// String encodes Property into a header string compliant with the W3C Baggage // specification. func (p Property) String() string { if p.hasValue { - return fmt.Sprintf("%s%s%v", p.key, keyValueDelimiter, p.value) + return fmt.Sprintf("%s%s%v", p.key, keyValueDelimiter, valueEscape(p.value)) } return p.key } @@ -218,7 +210,7 @@ func (p properties) validate() error { return nil } -// String encodes properties into a string compliant with the W3C Baggage +// String encodes properties into a header string compliant with the W3C Baggage // specification. func (p properties) String() string { props := make([]string, len(p)) @@ -240,11 +232,28 @@ type Member struct { hasData bool } -// NewMember returns a new Member from the passed arguments. The key will be -// used directly while the value will be url decoded after validation. An error -// is returned if the created Member would be invalid according to the W3C -// Baggage specification. +// NewMemberRaw returns a new Member from the passed arguments. +// +// The passed key must be compliant with W3C Baggage specification. +// The passed value must be precent-encoded as defined in W3C Baggage specification. +// +// Notice: Consider using [NewMemberRaw] instead +// that does not require precent-encoding of the value. func NewMember(key, value string, props ...Property) (Member, error) { + if !validateValue(value) { + return newInvalidMember(), fmt.Errorf("%w: %q", errInvalidValue, value) + } + decodedValue, err := url.PathUnescape(value) + if err != nil { + return newInvalidMember(), fmt.Errorf("%w: %q", errInvalidValue, value) + } + return NewMemberRaw(key, decodedValue, props...) +} + +// NewMemberRaw returns a new Member from the passed arguments. +// +// The passed key must be compliant with W3C Baggage specification. +func NewMemberRaw(key, value string, props ...Property) (Member, error) { m := Member{ key: key, value: value, @@ -254,11 +263,6 @@ func NewMember(key, value string, props ...Property) (Member, error) { if err := m.validate(); err != nil { return newInvalidMember(), err } - decodedValue, err := url.PathUnescape(value) - if err != nil { - return newInvalidMember(), fmt.Errorf("%w: %q", errInvalidValue, value) - } - m.value = decodedValue return m, nil } @@ -274,11 +278,7 @@ func parseMember(member string) (Member, error) { return newInvalidMember(), fmt.Errorf("%w: %d", errMemberBytes, n) } - var ( - key, value string - props properties - ) - + var props properties keyValue, properties, found := strings.Cut(member, propertyDelimiter) if found { // Parse the member properties. @@ -299,36 +299,34 @@ func parseMember(member string) (Member, error) { } // "Leading and trailing whitespaces are allowed but MUST be trimmed // when converting the header into a data structure." - key = strings.TrimSpace(k) - var err error - value, err = url.PathUnescape(strings.TrimSpace(v)) - if err != nil { - return newInvalidMember(), fmt.Errorf("%w: %q", err, value) - } - if !keyRe.MatchString(key) { + key := strings.TrimSpace(k) + if !validateKey(key) { return newInvalidMember(), fmt.Errorf("%w: %q", errInvalidKey, key) } - if !valueRe.MatchString(value) { - return newInvalidMember(), fmt.Errorf("%w: %q", errInvalidValue, value) + + val := strings.TrimSpace(v) + if !validateValue(val) { + return newInvalidMember(), fmt.Errorf("%w: %q", errInvalidValue, v) } + // Decode a precent-encoded value. + value, err := url.PathUnescape(val) + if err != nil { + return newInvalidMember(), fmt.Errorf("%w: %v", errInvalidValue, err) + } return Member{key: key, value: value, properties: props, hasData: true}, nil } // validate ensures m conforms to the W3C Baggage specification. -// A key is just an ASCII string, but a value must be URL encoded UTF-8, -// returning an error otherwise. +// A key must be an ASCII string, returning an error otherwise. func (m Member) validate() error { if !m.hasData { return fmt.Errorf("%w: %q", errInvalidMember, m) } - if !keyRe.MatchString(m.key) { + if !validateKey(m.key) { return fmt.Errorf("%w: %q", errInvalidKey, m.key) } - if !valueRe.MatchString(m.value) { - return fmt.Errorf("%w: %q", errInvalidValue, m.value) - } return m.properties.validate() } @@ -341,11 +339,13 @@ func (m Member) Value() string { return m.value } // Properties returns a copy of the Member properties. func (m Member) Properties() []Property { return m.properties.Copy() } -// String encodes Member into a string compliant with the W3C Baggage +// String encodes Member into a header string compliant with the W3C Baggage // specification. func (m Member) String() string { - // A key is just an ASCII string, but a value is URL encoded UTF-8. - s := fmt.Sprintf("%s%s%s", m.key, keyValueDelimiter, url.QueryEscape(m.value)) + // A key is just an ASCII string. A value is restricted to be + // US-ASCII characters excluding CTLs, whitespace, + // DQUOTE, comma, semicolon, and backslash. + s := fmt.Sprintf("%s%s%s", m.key, keyValueDelimiter, valueEscape(m.value)) if len(m.properties) > 0 { s = fmt.Sprintf("%s%s%s", s, propertyDelimiter, m.properties.String()) } @@ -536,9 +536,8 @@ func (b Baggage) Len() int { return len(b.list) } -// String encodes Baggage into a string compliant with the W3C Baggage -// specification. The returned string will be invalid if the Baggage contains -// any invalid list-members. +// String encodes Baggage into a header string compliant with the W3C Baggage +// specification. func (b Baggage) String() string { members := make([]string, 0, len(b.list)) for k, v := range b.list { @@ -550,3 +549,196 @@ func (b Baggage) String() string { } return strings.Join(members, listDelimiter) } + +// parsePropertyInternal attempts to decode a Property from the passed string. +// It follows the spec at https://www.w3.org/TR/baggage/#definition. +func parsePropertyInternal(s string) (p Property, ok bool) { + // For the entire function we will use " key = value " as an example. + // Attempting to parse the key. + // First skip spaces at the beginning "< >key = value " (they could be empty). + index := skipSpace(s, 0) + + // Parse the key: " = value ". + keyStart := index + keyEnd := index + for _, c := range s[keyStart:] { + if !validateKeyChar(c) { + break + } + keyEnd++ + } + + // If we couldn't find any valid key character, + // it means the key is either empty or invalid. + if keyStart == keyEnd { + return + } + + // Skip spaces after the key: " key< >= value ". + index = skipSpace(s, keyEnd) + + if index == len(s) { + // A key can have no value, like: " key ". + ok = true + p.key = s[keyStart:keyEnd] + return + } + + // If we have not reached the end and we can't find the '=' delimiter, + // it means the property is invalid. + if s[index] != keyValueDelimiter[0] { + return + } + + // Attempting to parse the value. + // Match: " key =< >value ". + index = skipSpace(s, index+1) + + // Match the value string: " key = ". + // A valid property can be: " key =". + // Therefore, we don't have to check if the value is empty. + valueStart := index + valueEnd := index + for _, c := range s[valueStart:] { + if !validateValueChar(c) { + break + } + valueEnd++ + } + + // Skip all trailing whitespaces: " key = value< >". + index = skipSpace(s, valueEnd) + + // If after looking for the value and skipping whitespaces + // we have not reached the end, it means the property is + // invalid, something like: " key = value value1". + if index != len(s) { + return + } + + // Decode a precent-encoded value. + value, err := url.PathUnescape(s[valueStart:valueEnd]) + if err != nil { + return + } + + ok = true + p.key = s[keyStart:keyEnd] + p.hasValue = true + + p.value = value + return +} + +func skipSpace(s string, offset int) int { + i := offset + for ; i < len(s); i++ { + c := s[i] + if c != ' ' && c != '\t' { + break + } + } + return i +} + +func validateKey(s string) bool { + if len(s) == 0 { + return false + } + + for _, c := range s { + if !validateKeyChar(c) { + return false + } + } + + return true +} + +func validateKeyChar(c int32) bool { + return (c >= 0x23 && c <= 0x27) || + (c >= 0x30 && c <= 0x39) || + (c >= 0x41 && c <= 0x5a) || + (c >= 0x5e && c <= 0x7a) || + c == 0x21 || + c == 0x2a || + c == 0x2b || + c == 0x2d || + c == 0x2e || + c == 0x7c || + c == 0x7e +} + +func validateValue(s string) bool { + for _, c := range s { + if !validateValueChar(c) { + return false + } + } + + return true +} + +func validateValueChar(c int32) bool { + return c == 0x21 || + (c >= 0x23 && c <= 0x2b) || + (c >= 0x2d && c <= 0x3a) || + (c >= 0x3c && c <= 0x5b) || + (c >= 0x5d && c <= 0x7e) +} + +// valueEscape escapes the string so it can be safely placed inside a baggage value, +// replacing special characters with %XX sequences as needed. +// +// The implementation is based on: +// https://github.com/golang/go/blob/f6509cf5cdbb5787061b784973782933c47f1782/src/net/url/url.go#L285. +func valueEscape(s string) string { + hexCount := 0 + for i := 0; i < len(s); i++ { + c := s[i] + if shouldEscape(c) { + hexCount++ + } + } + + if hexCount == 0 { + return s + } + + var buf [64]byte + var t []byte + + required := len(s) + 2*hexCount + if required <= len(buf) { + t = buf[:required] + } else { + t = make([]byte, required) + } + + j := 0 + for i := 0; i < len(s); i++ { + c := s[i] + if shouldEscape(s[i]) { + const upperhex = "0123456789ABCDEF" + t[j] = '%' + t[j+1] = upperhex[c>>4] + t[j+2] = upperhex[c&15] + j += 3 + } else { + t[j] = c + j++ + } + } + + return string(t) +} + +// shouldEscape returns true if the specified byte should be escaped when +// appearing in a baggage value string. +func shouldEscape(c byte) bool { + if c == '%' { + // The percent character must be encoded so that percent-encoding can work. + return true + } + return !validateValueChar(int32(c)) +} diff --git a/vendor/go.opentelemetry.io/otel/doc.go b/vendor/go.opentelemetry.io/otel/doc.go index daa36c89dc..36d7c24e88 100644 --- a/vendor/go.opentelemetry.io/otel/doc.go +++ b/vendor/go.opentelemetry.io/otel/doc.go @@ -22,7 +22,7 @@ transmitted anywhere. An implementation of the OpenTelemetry SDK, like the default SDK implementation (go.opentelemetry.io/otel/sdk), and associated exporters are used to process and transport this data. -To read the getting started guide, see https://opentelemetry.io/docs/go/getting-started/. +To read the getting started guide, see https://opentelemetry.io/docs/languages/go/getting-started/. To read more about tracing, see go.opentelemetry.io/otel/trace. diff --git a/vendor/go.opentelemetry.io/otel/internal/global/meter.go b/vendor/go.opentelemetry.io/otel/internal/global/meter.go index 0097db478c..7ed61c0e25 100644 --- a/vendor/go.opentelemetry.io/otel/internal/global/meter.go +++ b/vendor/go.opentelemetry.io/otel/internal/global/meter.go @@ -130,9 +130,11 @@ func (m *meter) setDelegate(provider metric.MeterProvider) { inst.setDelegate(meter) } - for e := m.registry.Front(); e != nil; e = e.Next() { + var n *list.Element + for e := m.registry.Front(); e != nil; e = n { r := e.Value.(*registration) r.setDelegate(meter) + n = e.Next() m.registry.Remove(e) } diff --git a/vendor/go.opentelemetry.io/otel/internal/global/state.go b/vendor/go.opentelemetry.io/otel/internal/global/state.go index 7985005bcb..386c8bfdc0 100644 --- a/vendor/go.opentelemetry.io/otel/internal/global/state.go +++ b/vendor/go.opentelemetry.io/otel/internal/global/state.go @@ -63,7 +63,7 @@ func SetTracerProvider(tp trace.TracerProvider) { // to itself. Error( errors.New("no delegate configured in tracer provider"), - "Setting tracer provider to it's current value. No delegate will be configured", + "Setting tracer provider to its current value. No delegate will be configured", ) return } @@ -92,7 +92,7 @@ func SetTextMapPropagator(p propagation.TextMapPropagator) { // delegate to itself. Error( errors.New("no delegate configured in text map propagator"), - "Setting text map propagator to it's current value. No delegate will be configured", + "Setting text map propagator to its current value. No delegate will be configured", ) return } @@ -123,7 +123,7 @@ func SetMeterProvider(mp metric.MeterProvider) { // to itself. Error( errors.New("no delegate configured in meter provider"), - "Setting meter provider to it's current value. No delegate will be configured", + "Setting meter provider to its current value. No delegate will be configured", ) return } diff --git a/vendor/go.opentelemetry.io/otel/propagation/trace_context.go b/vendor/go.opentelemetry.io/otel/propagation/trace_context.go index 75a8f3435a..63e5d62221 100644 --- a/vendor/go.opentelemetry.io/otel/propagation/trace_context.go +++ b/vendor/go.opentelemetry.io/otel/propagation/trace_context.go @@ -18,7 +18,7 @@ import ( "context" "encoding/hex" "fmt" - "regexp" + "strings" "go.opentelemetry.io/otel/trace" ) @@ -28,6 +28,7 @@ const ( maxVersion = 254 traceparentHeader = "traceparent" tracestateHeader = "tracestate" + delimiter = "-" ) // TraceContext is a propagator that supports the W3C Trace Context format @@ -41,8 +42,8 @@ const ( type TraceContext struct{} var ( - _ TextMapPropagator = TraceContext{} - traceCtxRegExp = regexp.MustCompile("^(?P[0-9a-f]{2})-(?P[a-f0-9]{32})-(?P[a-f0-9]{16})-(?P[a-f0-9]{2})(?:-.*)?$") + _ TextMapPropagator = TraceContext{} + versionPart = fmt.Sprintf("%.2X", supportedVersion) ) // Inject set tracecontext from the Context into the carrier. @@ -59,12 +60,19 @@ func (tc TraceContext) Inject(ctx context.Context, carrier TextMapCarrier) { // Clear all flags other than the trace-context supported sampling bit. flags := sc.TraceFlags() & trace.FlagsSampled - h := fmt.Sprintf("%.2x-%s-%s-%s", - supportedVersion, - sc.TraceID(), - sc.SpanID(), - flags) - carrier.Set(traceparentHeader, h) + var sb strings.Builder + sb.Grow(2 + 32 + 16 + 2 + 3) + _, _ = sb.WriteString(versionPart) + traceID := sc.TraceID() + spanID := sc.SpanID() + flagByte := [1]byte{byte(flags)} + var buf [32]byte + for _, src := range [][]byte{traceID[:], spanID[:], flagByte[:]} { + _ = sb.WriteByte(delimiter[0]) + n := hex.Encode(buf[:], src) + _, _ = sb.Write(buf[:n]) + } + carrier.Set(traceparentHeader, sb.String()) } // Extract reads tracecontext from the carrier into a returned Context. @@ -86,21 +94,8 @@ func (tc TraceContext) extract(carrier TextMapCarrier) trace.SpanContext { return trace.SpanContext{} } - matches := traceCtxRegExp.FindStringSubmatch(h) - - if len(matches) == 0 { - return trace.SpanContext{} - } - - if len(matches) < 5 { // four subgroups plus the overall match - return trace.SpanContext{} - } - - if len(matches[1]) != 2 { - return trace.SpanContext{} - } - ver, err := hex.DecodeString(matches[1]) - if err != nil { + var ver [1]byte + if !extractPart(ver[:], &h, 2) { return trace.SpanContext{} } version := int(ver[0]) @@ -108,36 +103,24 @@ func (tc TraceContext) extract(carrier TextMapCarrier) trace.SpanContext { return trace.SpanContext{} } - if version == 0 && len(matches) != 5 { // four subgroups plus the overall match - return trace.SpanContext{} - } - - if len(matches[2]) != 32 { - return trace.SpanContext{} - } - var scc trace.SpanContextConfig - - scc.TraceID, err = trace.TraceIDFromHex(matches[2][:32]) - if err != nil { + if !extractPart(scc.TraceID[:], &h, 32) { return trace.SpanContext{} } - - if len(matches[3]) != 16 { - return trace.SpanContext{} - } - scc.SpanID, err = trace.SpanIDFromHex(matches[3]) - if err != nil { + if !extractPart(scc.SpanID[:], &h, 16) { return trace.SpanContext{} } - if len(matches[4]) != 2 { + var opts [1]byte + if !extractPart(opts[:], &h, 2) { return trace.SpanContext{} } - opts, err := hex.DecodeString(matches[4]) - if err != nil || len(opts) < 1 || (version == 0 && opts[0] > 2) { + if version == 0 && (h != "" || opts[0] > 2) { + // version 0 not allow extra + // version 0 not allow other flag return trace.SpanContext{} } + // Clear all flags other than the trace-context supported sampling bit. scc.TraceFlags = trace.TraceFlags(opts[0]) & trace.FlagsSampled @@ -155,6 +138,29 @@ func (tc TraceContext) extract(carrier TextMapCarrier) trace.SpanContext { return sc } +// upperHex detect hex is upper case Unicode characters. +func upperHex(v string) bool { + for _, c := range v { + if c >= 'A' && c <= 'F' { + return true + } + } + return false +} + +func extractPart(dst []byte, h *string, n int) bool { + part, left, _ := strings.Cut(*h, delimiter) + *h = left + // hex.Decode decodes unsupported upper-case characters, so exclude explicitly. + if len(part) != n || upperHex(part) { + return false + } + if p, err := hex.Decode(dst, []byte(part)); err != nil || p != n/2 { + return false + } + return true +} + // Fields returns the keys who's values are set with Inject. func (tc TraceContext) Fields() []string { return []string{traceparentHeader, tracestateHeader} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/cache.go b/vendor/go.opentelemetry.io/otel/sdk/metric/cache.go index de9d6f0019..e9c0b38d0b 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/cache.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/cache.go @@ -52,3 +52,43 @@ func (c *cache[K, V]) Lookup(key K, f func() V) V { c.data[key] = val return val } + +// HasKey returns true if Lookup has previously been called with that key +// +// HasKey is safe to call concurrently. +func (c *cache[K, V]) HasKey(key K) bool { + c.Lock() + defer c.Unlock() + _, ok := c.data[key] + return ok +} + +// cacheWithErr is a locking storage used to quickly return already computed values and an error. +// +// The zero value of a cacheWithErr is empty and ready to use. +// +// A cacheWithErr must not be copied after first use. +// +// All methods of a cacheWithErr are safe to call concurrently. +type cacheWithErr[K comparable, V any] struct { + cache[K, valAndErr[V]] +} + +type valAndErr[V any] struct { + val V + err error +} + +// Lookup returns the value stored in the cacheWithErr with the associated key +// if it exists. Otherwise, f is called and its returned value is set in the +// cacheWithErr for key and returned. +// +// Lookup is safe to call concurrently. It will hold the cacheWithErr lock, so f +// should not block excessively. +func (c *cacheWithErr[K, V]) Lookup(key K, f func() (V, error)) (V, error) { + combined := c.cache.Lookup(key, func() valAndErr[V] { + val, err := f() + return valAndErr[V]{val: val, err: err} + }) + return combined.val, combined.err +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/doc.go b/vendor/go.opentelemetry.io/otel/sdk/metric/doc.go index 53f80c4289..475d3e3941 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/doc.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/doc.go @@ -44,4 +44,7 @@ // // See [go.opentelemetry.io/otel/metric] for more information about // the metric API. +// +// See [go.opentelemetry.io/otel/sdk/metric/internal/x] for information about +// the experimental features. package metric // import "go.opentelemetry.io/otel/sdk/metric" diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/exemplar.go b/vendor/go.opentelemetry.io/otel/sdk/metric/exemplar.go new file mode 100644 index 0000000000..3f1ce9f1d8 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/exemplar.go @@ -0,0 +1,96 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package metric // import "go.opentelemetry.io/otel/sdk/metric" + +import ( + "os" + "runtime" + + "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" + "go.opentelemetry.io/otel/sdk/metric/internal/x" +) + +// reservoirFunc returns the appropriately configured exemplar reservoir +// creation func based on the passed InstrumentKind and user defined +// environment variables. +// +// Note: This will only return non-nil values when the experimental exemplar +// feature is enabled and the OTEL_METRICS_EXEMPLAR_FILTER environment variable +// is not set to always_off. +func reservoirFunc[N int64 | float64](agg Aggregation) func() exemplar.Reservoir[N] { + if !x.Exemplars.Enabled() { + return nil + } + + // https://github.com/open-telemetry/opentelemetry-specification/blob/d4b241f451674e8f611bb589477680341006ad2b/specification/metrics/sdk.md#exemplar-defaults + resF := func() func() exemplar.Reservoir[N] { + // Explicit bucket histogram aggregation with more than 1 bucket will + // use AlignedHistogramBucketExemplarReservoir. + a, ok := agg.(AggregationExplicitBucketHistogram) + if ok && len(a.Boundaries) > 0 { + cp := make([]float64, len(a.Boundaries)) + copy(cp, a.Boundaries) + return func() exemplar.Reservoir[N] { + bounds := cp + return exemplar.Histogram[N](bounds) + } + } + + var n int + if a, ok := agg.(AggregationBase2ExponentialHistogram); ok { + // Base2 Exponential Histogram Aggregation SHOULD use a + // SimpleFixedSizeExemplarReservoir with a reservoir equal to the + // smaller of the maximum number of buckets configured on the + // aggregation or twenty (e.g. min(20, max_buckets)). + n = int(a.MaxSize) + if n > 20 { + n = 20 + } + } else { + // https://github.com/open-telemetry/opentelemetry-specification/blob/e94af89e3d0c01de30127a0f423e912f6cda7bed/specification/metrics/sdk.md#simplefixedsizeexemplarreservoir + // This Exemplar reservoir MAY take a configuration parameter for + // the size of the reservoir. If no size configuration is + // provided, the default size MAY be the number of possible + // concurrent threads (e.g. number of CPUs) to help reduce + // contention. Otherwise, a default size of 1 SHOULD be used. + n = runtime.NumCPU() + if n < 1 { + // Should never be the case, but be defensive. + n = 1 + } + } + + return func() exemplar.Reservoir[N] { + return exemplar.FixedSize[N](n) + } + } + + // https://github.com/open-telemetry/opentelemetry-specification/blob/d4b241f451674e8f611bb589477680341006ad2b/specification/configuration/sdk-environment-variables.md#exemplar + const filterEnvKey = "OTEL_METRICS_EXEMPLAR_FILTER" + + switch os.Getenv(filterEnvKey) { + case "always_on": + return resF() + case "always_off": + return exemplar.Drop[N] + case "trace_based": + fallthrough + default: + newR := resF() + return func() exemplar.Reservoir[N] { + return exemplar.SampledFilter(newR()) + } + } +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/instrument.go b/vendor/go.opentelemetry.io/otel/sdk/metric/instrument.go index bb52f6ec71..a4cfcbb95f 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/instrument.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/instrument.go @@ -205,9 +205,6 @@ func (i *int64Inst) Record(ctx context.Context, val int64, opts ...metric.Record } func (i *int64Inst) aggregate(ctx context.Context, val int64, s attribute.Set) { // nolint:revive // okay to shadow pkg with method. - if err := ctx.Err(); err != nil { - return - } for _, in := range i.measures { in(ctx, val, s) } @@ -238,9 +235,6 @@ func (i *float64Inst) Record(ctx context.Context, val float64, opts ...metric.Re } func (i *float64Inst) aggregate(ctx context.Context, val float64, s attribute.Set) { - if err := ctx.Err(); err != nil { - return - } for _, in := range i.measures { in(ctx, val, s) } @@ -270,9 +264,9 @@ var ( _ metric.Float64ObservableGauge = float64Observable{} ) -func newFloat64Observable(m *meter, kind InstrumentKind, name, desc, u string, meas []aggregate.Measure[float64]) float64Observable { +func newFloat64Observable(m *meter, kind InstrumentKind, name, desc, u string) float64Observable { return float64Observable{ - observable: newObservable(m, kind, name, desc, u, meas), + observable: newObservable[float64](m, kind, name, desc, u), } } @@ -291,9 +285,9 @@ var ( _ metric.Int64ObservableGauge = int64Observable{} ) -func newInt64Observable(m *meter, kind InstrumentKind, name, desc, u string, meas []aggregate.Measure[int64]) int64Observable { +func newInt64Observable(m *meter, kind InstrumentKind, name, desc, u string) int64Observable { return int64Observable{ - observable: newObservable(m, kind, name, desc, u, meas), + observable: newObservable[int64](m, kind, name, desc, u), } } @@ -301,11 +295,12 @@ type observable[N int64 | float64] struct { metric.Observable observablID[N] - meter *meter - measures []aggregate.Measure[N] + meter *meter + measures measures[N] + dropAggregation bool } -func newObservable[N int64 | float64](m *meter, kind InstrumentKind, name, desc, u string, meas []aggregate.Measure[N]) *observable[N] { +func newObservable[N int64 | float64](m *meter, kind InstrumentKind, name, desc, u string) *observable[N] { return &observable[N]{ observablID: observablID[N]{ name: name, @@ -314,14 +309,24 @@ func newObservable[N int64 | float64](m *meter, kind InstrumentKind, name, desc, unit: u, scope: m.scope, }, - meter: m, - measures: meas, + meter: m, } } // observe records the val for the set of attrs. func (o *observable[N]) observe(val N, s attribute.Set) { - for _, in := range o.measures { + o.measures.observe(val, s) +} + +func (o *observable[N]) appendMeasures(meas []aggregate.Measure[N]) { + o.measures = append(o.measures, meas...) +} + +type measures[N int64 | float64] []aggregate.Measure[N] + +// observe records the val for the set of attrs. +func (m measures[N]) observe(val N, s attribute.Set) { + for _, in := range m { in(context.Background(), val, s) } } diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/aggregate.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/aggregate.go index 8dec14237b..4060a2f76d 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/aggregate.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/aggregate.go @@ -19,6 +19,7 @@ import ( "time" "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" "go.opentelemetry.io/otel/sdk/metric/metricdata" ) @@ -44,17 +45,43 @@ type Builder[N int64 | float64] struct { // Filter is the attribute filter the aggregate function will use on the // input of measurements. Filter attribute.Filter + // ReservoirFunc is the factory function used by aggregate functions to + // create new exemplar reservoirs for a new seen attribute set. + // + // If this is not provided a default factory function that returns an + // exemplar.Drop reservoir will be used. + ReservoirFunc func() exemplar.Reservoir[N] + // AggregationLimit is the cardinality limit of measurement attributes. Any + // measurement for new attributes once the limit has been reached will be + // aggregated into a single aggregate for the "otel.metric.overflow" + // attribute. + // + // If AggregationLimit is less than or equal to zero there will not be an + // aggregation limit imposed (i.e. unlimited attribute sets). + AggregationLimit int +} + +func (b Builder[N]) resFunc() func() exemplar.Reservoir[N] { + if b.ReservoirFunc != nil { + return b.ReservoirFunc + } + + return exemplar.Drop[N] } -func (b Builder[N]) filter(f Measure[N]) Measure[N] { +type fltrMeasure[N int64 | float64] func(ctx context.Context, value N, fltrAttr attribute.Set, droppedAttr []attribute.KeyValue) + +func (b Builder[N]) filter(f fltrMeasure[N]) Measure[N] { if b.Filter != nil { fltr := b.Filter // Copy to make it immutable after assignment. return func(ctx context.Context, n N, a attribute.Set) { - fAttr, _ := a.Filter(fltr) - f(ctx, n, fAttr) + fAttr, dropped := a.Filter(fltr) + f(ctx, n, fAttr, dropped) } } - return f + return func(ctx context.Context, n N, a attribute.Set) { + f(ctx, n, a, nil) + } } // LastValue returns a last-value aggregate function input and output. @@ -63,7 +90,7 @@ func (b Builder[N]) filter(f Measure[N]) Measure[N] { func (b Builder[N]) LastValue() (Measure[N], ComputeAggregation) { // Delta temporality is the only temporality that makes semantic sense for // a last-value aggregate. - lv := newLastValue[N]() + lv := newLastValue[N](b.AggregationLimit, b.resFunc()) return b.filter(lv.measure), func(dest *metricdata.Aggregation) int { // Ignore if dest is not a metricdata.Gauge. The chance for memory @@ -79,7 +106,7 @@ func (b Builder[N]) LastValue() (Measure[N], ComputeAggregation) { // PrecomputedSum returns a sum aggregate function input and output. The // arguments passed to the input are expected to be the precomputed sum values. func (b Builder[N]) PrecomputedSum(monotonic bool) (Measure[N], ComputeAggregation) { - s := newPrecomputedSum[N](monotonic) + s := newPrecomputedSum[N](monotonic, b.AggregationLimit, b.resFunc()) switch b.Temporality { case metricdata.DeltaTemporality: return b.filter(s.measure), s.delta @@ -90,7 +117,7 @@ func (b Builder[N]) PrecomputedSum(monotonic bool) (Measure[N], ComputeAggregati // Sum returns a sum aggregate function input and output. func (b Builder[N]) Sum(monotonic bool) (Measure[N], ComputeAggregation) { - s := newSum[N](monotonic) + s := newSum[N](monotonic, b.AggregationLimit, b.resFunc()) switch b.Temporality { case metricdata.DeltaTemporality: return b.filter(s.measure), s.delta @@ -102,7 +129,7 @@ func (b Builder[N]) Sum(monotonic bool) (Measure[N], ComputeAggregation) { // ExplicitBucketHistogram returns a histogram aggregate function input and // output. func (b Builder[N]) ExplicitBucketHistogram(boundaries []float64, noMinMax, noSum bool) (Measure[N], ComputeAggregation) { - h := newHistogram[N](boundaries, noMinMax, noSum) + h := newHistogram[N](boundaries, noMinMax, noSum, b.AggregationLimit, b.resFunc()) switch b.Temporality { case metricdata.DeltaTemporality: return b.filter(h.measure), h.delta @@ -114,7 +141,7 @@ func (b Builder[N]) ExplicitBucketHistogram(boundaries []float64, noMinMax, noSu // ExponentialBucketHistogram returns a histogram aggregate function input and // output. func (b Builder[N]) ExponentialBucketHistogram(maxSize, maxScale int32, noMinMax, noSum bool) (Measure[N], ComputeAggregation) { - h := newExponentialHistogram[N](maxSize, maxScale, noMinMax, noSum) + h := newExponentialHistogram[N](maxSize, maxScale, noMinMax, noSum, b.AggregationLimit, b.resFunc()) switch b.Temporality { case metricdata.DeltaTemporality: return b.filter(h.measure), h.delta diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/exponential_histogram.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/exponential_histogram.go index 98b7dc1e0f..4139a6d156 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/exponential_histogram.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/exponential_histogram.go @@ -23,6 +23,7 @@ import ( "go.opentelemetry.io/otel" "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" "go.opentelemetry.io/otel/sdk/metric/metricdata" ) @@ -40,6 +41,8 @@ const ( // expoHistogramDataPoint is a single data point in an exponential histogram. type expoHistogramDataPoint[N int64 | float64] struct { + res exemplar.Reservoir[N] + count uint64 min N max N @@ -288,13 +291,15 @@ func (b *expoBuckets) downscale(delta int) { // newExponentialHistogram returns an Aggregator that summarizes a set of // measurements as an exponential histogram. Each histogram is scoped by attributes // and the aggregation cycle the measurements were made in. -func newExponentialHistogram[N int64 | float64](maxSize, maxScale int32, noMinMax, noSum bool) *expoHistogram[N] { +func newExponentialHistogram[N int64 | float64](maxSize, maxScale int32, noMinMax, noSum bool, limit int, r func() exemplar.Reservoir[N]) *expoHistogram[N] { return &expoHistogram[N]{ noSum: noSum, noMinMax: noMinMax, maxSize: int(maxSize), maxScale: int(maxScale), + newRes: r, + limit: newLimiter[*expoHistogramDataPoint[N]](limit), values: make(map[attribute.Set]*expoHistogramDataPoint[N]), start: now(), @@ -309,27 +314,35 @@ type expoHistogram[N int64 | float64] struct { maxSize int maxScale int + newRes func() exemplar.Reservoir[N] + limit limiter[*expoHistogramDataPoint[N]] values map[attribute.Set]*expoHistogramDataPoint[N] valuesMu sync.Mutex start time.Time } -func (e *expoHistogram[N]) measure(_ context.Context, value N, attr attribute.Set) { +func (e *expoHistogram[N]) measure(ctx context.Context, value N, fltrAttr attribute.Set, droppedAttr []attribute.KeyValue) { // Ignore NaN and infinity. if math.IsInf(float64(value), 0) || math.IsNaN(float64(value)) { return } + t := now() + e.valuesMu.Lock() defer e.valuesMu.Unlock() + attr := e.limit.Attributes(fltrAttr, e.values) v, ok := e.values[attr] if !ok { v = newExpoHistogramDataPoint[N](e.maxSize, e.maxScale, e.noMinMax, e.noSum) + v.res = e.newRes() + e.values[attr] = v } v.record(value) + v.res.Offer(ctx, t, value, droppedAttr) } func (e *expoHistogram[N]) delta(dest *metricdata.Aggregation) int { @@ -362,6 +375,7 @@ func (e *expoHistogram[N]) delta(dest *metricdata.Aggregation) int { hDPts[i].NegativeBucket.Offset = int32(b.negBuckets.startBin) hDPts[i].NegativeBucket.Counts = reset(hDPts[i].NegativeBucket.Counts, len(b.negBuckets.counts), len(b.negBuckets.counts)) + copy(hDPts[i].NegativeBucket.Counts, b.negBuckets.counts) if !e.noSum { hDPts[i].Sum = b.sum @@ -371,6 +385,8 @@ func (e *expoHistogram[N]) delta(dest *metricdata.Aggregation) int { hDPts[i].Max = metricdata.NewExtrema(b.max) } + b.res.Collect(&hDPts[i].Exemplars) + delete(e.values, a) i++ } @@ -410,6 +426,7 @@ func (e *expoHistogram[N]) cumulative(dest *metricdata.Aggregation) int { hDPts[i].NegativeBucket.Offset = int32(b.negBuckets.startBin) hDPts[i].NegativeBucket.Counts = reset(hDPts[i].NegativeBucket.Counts, len(b.negBuckets.counts), len(b.negBuckets.counts)) + copy(hDPts[i].NegativeBucket.Counts, b.negBuckets.counts) if !e.noSum { hDPts[i].Sum = b.sum @@ -419,6 +436,8 @@ func (e *expoHistogram[N]) cumulative(dest *metricdata.Aggregation) int { hDPts[i].Max = metricdata.NewExtrema(b.max) } + b.res.Collect(&hDPts[i].Exemplars) + i++ // TODO (#3006): This will use an unbounded amount of memory if there // are unbounded number of attribute sets being aggregated. Attribute diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/histogram.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/histogram.go index 62ec51e1f5..a9a4706bf0 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/histogram.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/histogram.go @@ -21,10 +21,13 @@ import ( "time" "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" "go.opentelemetry.io/otel/sdk/metric/metricdata" ) type buckets[N int64 | float64] struct { + res exemplar.Reservoir[N] + counts []uint64 count uint64 total N @@ -54,11 +57,13 @@ type histValues[N int64 | float64] struct { noSum bool bounds []float64 + newRes func() exemplar.Reservoir[N] + limit limiter[*buckets[N]] values map[attribute.Set]*buckets[N] valuesMu sync.Mutex } -func newHistValues[N int64 | float64](bounds []float64, noSum bool) *histValues[N] { +func newHistValues[N int64 | float64](bounds []float64, noSum bool, limit int, r func() exemplar.Reservoir[N]) *histValues[N] { // The responsibility of keeping all buckets correctly associated with the // passed boundaries is ultimately this type's responsibility. Make a copy // here so we can always guarantee this. Or, in the case of failure, have @@ -69,13 +74,15 @@ func newHistValues[N int64 | float64](bounds []float64, noSum bool) *histValues[ return &histValues[N]{ noSum: noSum, bounds: b, + newRes: r, + limit: newLimiter[*buckets[N]](limit), values: make(map[attribute.Set]*buckets[N]), } } // Aggregate records the measurement value, scoped by attr, and aggregates it // into a histogram. -func (s *histValues[N]) measure(_ context.Context, value N, attr attribute.Set) { +func (s *histValues[N]) measure(ctx context.Context, value N, fltrAttr attribute.Set, droppedAttr []attribute.KeyValue) { // This search will return an index in the range [0, len(s.bounds)], where // it will return len(s.bounds) if value is greater than the last element // of s.bounds. This aligns with the buckets in that the length of buckets @@ -83,9 +90,12 @@ func (s *histValues[N]) measure(_ context.Context, value N, attr attribute.Set) // (s.bounds[len(s.bounds)-1], +∞). idx := sort.SearchFloat64s(s.bounds, float64(value)) + t := now() + s.valuesMu.Lock() defer s.valuesMu.Unlock() + attr := s.limit.Attributes(fltrAttr, s.values) b, ok := s.values[attr] if !ok { // N+1 buckets. For example: @@ -96,6 +106,8 @@ func (s *histValues[N]) measure(_ context.Context, value N, attr attribute.Set) // // buckets = (-∞, 0], (0, 5.0], (5.0, 10.0], (10.0, +∞) b = newBuckets[N](len(s.bounds) + 1) + b.res = s.newRes() + // Ensure min and max are recorded values (not zero), for new buckets. b.min, b.max = value, value s.values[attr] = b @@ -104,13 +116,14 @@ func (s *histValues[N]) measure(_ context.Context, value N, attr attribute.Set) if !s.noSum { b.sum(value) } + b.res.Offer(ctx, t, value, droppedAttr) } // newHistogram returns an Aggregator that summarizes a set of measurements as // an histogram. -func newHistogram[N int64 | float64](boundaries []float64, noMinMax, noSum bool) *histogram[N] { +func newHistogram[N int64 | float64](boundaries []float64, noMinMax, noSum bool, limit int, r func() exemplar.Reservoir[N]) *histogram[N] { return &histogram[N]{ - histValues: newHistValues[N](boundaries, noSum), + histValues: newHistValues[N](boundaries, noSum, limit, r), noMinMax: noMinMax, start: now(), } @@ -161,6 +174,8 @@ func (s *histogram[N]) delta(dest *metricdata.Aggregation) int { hDPts[i].Max = metricdata.NewExtrema(b.max) } + b.res.Collect(&hDPts[i].Exemplars) + // Unused attribute sets do not report. delete(s.values, a) i++ @@ -217,6 +232,9 @@ func (s *histogram[N]) cumulative(dest *metricdata.Aggregation) int { hDPts[i].Min = metricdata.NewExtrema(b.min) hDPts[i].Max = metricdata.NewExtrema(b.max) } + + b.res.Collect(&hDPts[i].Exemplars) + i++ // TODO (#3006): This will use an unbounded amount of memory if there // are unbounded number of attribute sets being aggregated. Attribute diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/lastvalue.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/lastvalue.go index 6af2d60614..5699e728f1 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/lastvalue.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/lastvalue.go @@ -20,6 +20,7 @@ import ( "time" "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" "go.opentelemetry.io/otel/sdk/metric/metricdata" ) @@ -27,24 +28,43 @@ import ( type datapoint[N int64 | float64] struct { timestamp time.Time value N + res exemplar.Reservoir[N] } -func newLastValue[N int64 | float64]() *lastValue[N] { - return &lastValue[N]{values: make(map[attribute.Set]datapoint[N])} +func newLastValue[N int64 | float64](limit int, r func() exemplar.Reservoir[N]) *lastValue[N] { + return &lastValue[N]{ + newRes: r, + limit: newLimiter[datapoint[N]](limit), + values: make(map[attribute.Set]datapoint[N]), + } } // lastValue summarizes a set of measurements as the last one made. type lastValue[N int64 | float64] struct { sync.Mutex + newRes func() exemplar.Reservoir[N] + limit limiter[datapoint[N]] values map[attribute.Set]datapoint[N] } -func (s *lastValue[N]) measure(ctx context.Context, value N, attr attribute.Set) { - d := datapoint[N]{timestamp: now(), value: value} +func (s *lastValue[N]) measure(ctx context.Context, value N, fltrAttr attribute.Set, droppedAttr []attribute.KeyValue) { + t := now() + s.Lock() + defer s.Unlock() + + attr := s.limit.Attributes(fltrAttr, s.values) + d, ok := s.values[attr] + if !ok { + d.res = s.newRes() + } + + d.timestamp = t + d.value = value + d.res.Offer(ctx, t, value, droppedAttr) + s.values[attr] = d - s.Unlock() } func (s *lastValue[N]) computeAggregation(dest *[]metricdata.DataPoint[N]) { @@ -61,6 +81,7 @@ func (s *lastValue[N]) computeAggregation(dest *[]metricdata.DataPoint[N]) { // ignored. (*dest)[i].Time = v.timestamp (*dest)[i].Value = v.value + v.res.Collect(&(*dest)[i].Exemplars) // Do not report stale values. delete(s.values, a) i++ diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/limit.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/limit.go new file mode 100644 index 0000000000..d3de842720 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/limit.go @@ -0,0 +1,53 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package aggregate // import "go.opentelemetry.io/otel/sdk/metric/internal/aggregate" + +import "go.opentelemetry.io/otel/attribute" + +// overflowSet is the attribute set used to record a measurement when adding +// another distinct attribute set to the aggregate would exceed the aggregate +// limit. +var overflowSet = attribute.NewSet(attribute.Bool("otel.metric.overflow", true)) + +// limiter limits aggregate values. +type limiter[V any] struct { + // aggLimit is the maximum number of metric streams that can be aggregated. + // + // Any metric stream with attributes distinct from any set already + // aggregated once the aggLimit will be meet will instead be aggregated + // into an "overflow" metric stream. That stream will only contain the + // "otel.metric.overflow"=true attribute. + aggLimit int +} + +// newLimiter returns a new Limiter with the provided aggregation limit. +func newLimiter[V any](aggregation int) limiter[V] { + return limiter[V]{aggLimit: aggregation} +} + +// Attributes checks if adding a measurement for attrs will exceed the +// aggregation cardinality limit for the existing measurements. If it will, +// overflowSet is returned. Otherwise, if it will not exceed the limit, or the +// limit is not set (limit <= 0), attr is returned. +func (l limiter[V]) Attributes(attrs attribute.Set, measurements map[attribute.Set]V) attribute.Set { + if l.aggLimit > 0 { + _, exists := measurements[attrs] + if !exists && len(measurements) >= l.aggLimit-1 { + return overflowSet + } + } + + return attrs +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/sum.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/sum.go index 1e52ff0d1e..02de2483f3 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/sum.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/aggregate/sum.go @@ -20,31 +20,55 @@ import ( "time" "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" "go.opentelemetry.io/otel/sdk/metric/metricdata" ) +type sumValue[N int64 | float64] struct { + n N + res exemplar.Reservoir[N] +} + // valueMap is the storage for sums. type valueMap[N int64 | float64] struct { sync.Mutex - values map[attribute.Set]N + newRes func() exemplar.Reservoir[N] + limit limiter[sumValue[N]] + values map[attribute.Set]sumValue[N] } -func newValueMap[N int64 | float64]() *valueMap[N] { - return &valueMap[N]{values: make(map[attribute.Set]N)} +func newValueMap[N int64 | float64](limit int, r func() exemplar.Reservoir[N]) *valueMap[N] { + return &valueMap[N]{ + newRes: r, + limit: newLimiter[sumValue[N]](limit), + values: make(map[attribute.Set]sumValue[N]), + } } -func (s *valueMap[N]) measure(_ context.Context, value N, attr attribute.Set) { +func (s *valueMap[N]) measure(ctx context.Context, value N, fltrAttr attribute.Set, droppedAttr []attribute.KeyValue) { + t := now() + s.Lock() - s.values[attr] += value - s.Unlock() + defer s.Unlock() + + attr := s.limit.Attributes(fltrAttr, s.values) + v, ok := s.values[attr] + if !ok { + v.res = s.newRes() + } + + v.n += value + v.res.Offer(ctx, t, value, droppedAttr) + + s.values[attr] = v } // newSum returns an aggregator that summarizes a set of measurements as their // arithmetic sum. Each sum is scoped by attributes and the aggregation cycle // the measurements were made in. -func newSum[N int64 | float64](monotonic bool) *sum[N] { +func newSum[N int64 | float64](monotonic bool, limit int, r func() exemplar.Reservoir[N]) *sum[N] { return &sum[N]{ - valueMap: newValueMap[N](), + valueMap: newValueMap[N](limit, r), monotonic: monotonic, start: now(), } @@ -74,11 +98,12 @@ func (s *sum[N]) delta(dest *metricdata.Aggregation) int { dPts := reset(sData.DataPoints, n, n) var i int - for attr, value := range s.values { + for attr, val := range s.values { dPts[i].Attributes = attr dPts[i].StartTime = s.start dPts[i].Time = t - dPts[i].Value = value + dPts[i].Value = val.n + val.res.Collect(&dPts[i].Exemplars) // Do not report stale values. delete(s.values, attr) i++ @@ -112,7 +137,8 @@ func (s *sum[N]) cumulative(dest *metricdata.Aggregation) int { dPts[i].Attributes = attr dPts[i].StartTime = s.start dPts[i].Time = t - dPts[i].Value = value + dPts[i].Value = value.n + value.res.Collect(&dPts[i].Exemplars) // TODO (#3006): This will use an unbounded amount of memory if there // are unbounded number of attribute sets being aggregated. Attribute // sets that become "stale" need to be forgotten so this will not @@ -129,9 +155,9 @@ func (s *sum[N]) cumulative(dest *metricdata.Aggregation) int { // newPrecomputedSum returns an aggregator that summarizes a set of // observatrions as their arithmetic sum. Each sum is scoped by attributes and // the aggregation cycle the measurements were made in. -func newPrecomputedSum[N int64 | float64](monotonic bool) *precomputedSum[N] { +func newPrecomputedSum[N int64 | float64](monotonic bool, limit int, r func() exemplar.Reservoir[N]) *precomputedSum[N] { return &precomputedSum[N]{ - valueMap: newValueMap[N](), + valueMap: newValueMap[N](limit, r), monotonic: monotonic, start: now(), } @@ -165,14 +191,15 @@ func (s *precomputedSum[N]) delta(dest *metricdata.Aggregation) int { var i int for attr, value := range s.values { - delta := value - s.reported[attr] + delta := value.n - s.reported[attr] dPts[i].Attributes = attr dPts[i].StartTime = s.start dPts[i].Time = t dPts[i].Value = delta + value.res.Collect(&dPts[i].Exemplars) - newReported[attr] = value + newReported[attr] = value.n // Unused attribute sets do not report. delete(s.values, attr) i++ @@ -204,11 +231,12 @@ func (s *precomputedSum[N]) cumulative(dest *metricdata.Aggregation) int { dPts := reset(sData.DataPoints, n, n) var i int - for attr, value := range s.values { + for attr, val := range s.values { dPts[i].Attributes = attr dPts[i].StartTime = s.start dPts[i].Time = t - dPts[i].Value = value + dPts[i].Value = val.n + val.res.Collect(&dPts[i].Exemplars) // Unused attribute sets do not report. delete(s.values, attr) diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/doc.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/doc.go new file mode 100644 index 0000000000..3caeb542c5 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/doc.go @@ -0,0 +1,17 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package exemplar provides an implementation of the OpenTelemetry exemplar +// reservoir to be used in metric collection pipelines. +package exemplar // import "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/drop.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/drop.go new file mode 100644 index 0000000000..39bf37b9e9 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/drop.go @@ -0,0 +1,36 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package exemplar // import "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" + +import ( + "context" + "time" + + "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/metricdata" +) + +// Drop returns a [Reservoir] that drops all measurements it is offered. +func Drop[N int64 | float64]() Reservoir[N] { return &dropRes[N]{} } + +type dropRes[N int64 | float64] struct{} + +// Offer does nothing, all measurements offered will be dropped. +func (r *dropRes[N]) Offer(context.Context, time.Time, N, []attribute.KeyValue) {} + +// Collect resets dest. No exemplars will ever be returned. +func (r *dropRes[N]) Collect(dest *[]metricdata.Exemplar[N]) { + *dest = (*dest)[:0] +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/filter.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/filter.go new file mode 100644 index 0000000000..4f5946fb96 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/filter.go @@ -0,0 +1,40 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package exemplar // import "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" + +import ( + "context" + "time" + + "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/trace" +) + +// SampledFilter returns a [Reservoir] wrapping r that will only offer measurements +// to r if the passed context associated with the measurement contains a sampled +// [go.opentelemetry.io/otel/trace.SpanContext]. +func SampledFilter[N int64 | float64](r Reservoir[N]) Reservoir[N] { + return filtered[N]{Reservoir: r} +} + +type filtered[N int64 | float64] struct { + Reservoir[N] +} + +func (f filtered[N]) Offer(ctx context.Context, t time.Time, n N, a []attribute.KeyValue) { + if trace.SpanContextFromContext(ctx).IsSampled() { + f.Reservoir.Offer(ctx, t, n, a) + } +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/hist.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/hist.go new file mode 100644 index 0000000000..6f4fe5524b --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/hist.go @@ -0,0 +1,47 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package exemplar // import "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" + +import ( + "context" + "sort" + "time" + + "go.opentelemetry.io/otel/attribute" +) + +// Histogram returns a [Reservoir] that samples the last measurement that falls +// within a histogram bucket. The histogram bucket upper-boundaries are define +// by bounds. +// +// The passed bounds will be sorted by this function. +func Histogram[N int64 | float64](bounds []float64) Reservoir[N] { + sort.Float64s(bounds) + return &histRes[N]{ + bounds: bounds, + storage: newStorage[N](len(bounds) + 1), + } +} + +type histRes[N int64 | float64] struct { + *storage[N] + + // bounds are bucket bounds in ascending order. + bounds []float64 +} + +func (r *histRes[N]) Offer(ctx context.Context, t time.Time, n N, a []attribute.KeyValue) { + r.store[sort.SearchFloat64s(r.bounds, float64(n))] = newMeasurement(ctx, t, n, a) +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/rand.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/rand.go new file mode 100644 index 0000000000..7f9fda5b48 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/rand.go @@ -0,0 +1,195 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package exemplar // import "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" + +import ( + "context" + "math" + "math/rand" + "time" + + "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/metricdata" +) + +// rng is used to make sampling decisions. +// +// Do not use crypto/rand. There is no reason for the decrease in performance +// given this is not a security sensitive decision. +var rng = rand.New(rand.NewSource(time.Now().UnixNano())) + +// random returns, as a float64, a uniform pseudo-random number in the open +// interval (0.0,1.0). +func random() float64 { + // TODO: This does not return a uniform number. rng.Float64 returns a + // uniformly random int in [0,2^53) that is divided by 2^53. Meaning it + // returns multiples of 2^-53, and not all floating point numbers between 0 + // and 1 (i.e. for values less than 2^-4 the 4 last bits of the significand + // are always going to be 0). + // + // An alternative algorithm should be considered that will actually return + // a uniform number in the interval (0,1). For example, since the default + // rand source provides a uniform distribution for Int63, this can be + // converted following the prototypical code of Mersenne Twister 64 (Takuji + // Nishimura and Makoto Matsumoto: + // http://www.math.sci.hiroshima-u.ac.jp/m-mat/MT/VERSIONS/C-LANG/mt19937-64.c) + // + // (float64(rng.Int63()>>11) + 0.5) * (1.0 / 4503599627370496.0) + // + // There are likely many other methods to explore here as well. + + f := rng.Float64() + for f == 0 { + f = rng.Float64() + } + return f +} + +// FixedSize returns a [Reservoir] that samples at most k exemplars. If there +// are k or less measurements made, the Reservoir will sample each one. If +// there are more than k, the Reservoir will then randomly sample all +// additional measurement with a decreasing probability. +func FixedSize[N int64 | float64](k int) Reservoir[N] { + r := &randRes[N]{storage: newStorage[N](k)} + r.reset() + return r +} + +type randRes[N int64 | float64] struct { + *storage[N] + + // count is the number of measurement seen. + count int64 + // next is the next count that will store a measurement at a random index + // once the reservoir has been filled. + next int64 + // w is the largest random number in a distribution that is used to compute + // the next next. + w float64 +} + +func (r *randRes[N]) Offer(ctx context.Context, t time.Time, n N, a []attribute.KeyValue) { + // The following algorithm is "Algorithm L" from Li, Kim-Hung (4 December + // 1994). "Reservoir-Sampling Algorithms of Time Complexity + // O(n(1+log(N/n)))". ACM Transactions on Mathematical Software. 20 (4): + // 481–493 (https://dl.acm.org/doi/10.1145/198429.198435). + // + // A high-level overview of "Algorithm L": + // 0) Pre-calculate the random count greater than the storage size when + // an exemplar will be replaced. + // 1) Accept all measurements offered until the configured storage size is + // reached. + // 2) Loop: + // a) When the pre-calculate count is reached, replace a random + // existing exemplar with the offered measurement. + // b) Calculate the next random count greater than the existing one + // which will replace another exemplars + // + // The way a "replacement" count is computed is by looking at `n` number of + // independent random numbers each corresponding to an offered measurement. + // Of these numbers the smallest `k` (the same size as the storage + // capacity) of them are kept as a subset. The maximum value in this + // subset, called `w` is used to weight another random number generation + // for the next count that will be considered. + // + // By weighting the next count computation like described, it is able to + // perform a uniformly-weighted sampling algorithm based on the number of + // samples the reservoir has seen so far. The sampling will "slow down" as + // more and more samples are offered so as to reduce a bias towards those + // offered just prior to the end of the collection. + // + // This algorithm is preferred because of its balance of simplicity and + // performance. It will compute three random numbers (the bulk of + // computation time) for each item that becomes part of the reservoir, but + // it does not spend any time on items that do not. In particular it has an + // asymptotic runtime of O(k(1 + log(n/k)) where n is the number of + // measurements offered and k is the reservoir size. + // + // See https://en.wikipedia.org/wiki/Reservoir_sampling for an overview of + // this and other reservoir sampling algorithms. See + // https://github.com/MrAlias/reservoir-sampling for a performance + // comparison of reservoir sampling algorithms. + + if int(r.count) < cap(r.store) { + r.store[r.count] = newMeasurement(ctx, t, n, a) + } else { + if r.count == r.next { + // Overwrite a random existing measurement with the one offered. + idx := int(rng.Int63n(int64(cap(r.store)))) + r.store[idx] = newMeasurement(ctx, t, n, a) + r.advance() + } + } + r.count++ +} + +// reset resets r to the initial state. +func (r *randRes[N]) reset() { + // This resets the number of exemplars known. + r.count = 0 + // Random index inserts should only happen after the storage is full. + r.next = int64(cap(r.store)) + + // Initial random number in the series used to generate r.next. + // + // This is set before r.advance to reset or initialize the random number + // series. Without doing so it would always be 0 or never restart a new + // random number series. + // + // This maps the uniform random number in (0,1) to a geometric distribution + // over the same interval. The mean of the distribution is inversely + // proportional to the storage capacity. + r.w = math.Exp(math.Log(random()) / float64(cap(r.store))) + + r.advance() +} + +// advance updates the count at which the offered measurement will overwrite an +// existing exemplar. +func (r *randRes[N]) advance() { + // Calculate the next value in the random number series. + // + // The current value of r.w is based on the max of a distribution of random + // numbers (i.e. `w = max(u_1,u_2,...,u_k)` for `k` equal to the capacity + // of the storage and each `u` in the interval (0,w)). To calculate the + // next r.w we use the fact that when the next exemplar is selected to be + // included in the storage an existing one will be dropped, and the + // corresponding random number in the set used to calculate r.w will also + // be replaced. The replacement random number will also be within (0,w), + // therefore the next r.w will be based on the same distribution (i.e. + // `max(u_1,u_2,...,u_k)`). Therefore, we can sample the next r.w by + // computing the next random number `u` and take r.w as `w * u^(1/k)`. + r.w *= math.Exp(math.Log(random()) / float64(cap(r.store))) + // Use the new random number in the series to calculate the count of the + // next measurement that will be stored. + // + // Given 0 < r.w < 1, each iteration will result in subsequent r.w being + // smaller. This translates here into the next next being selected against + // a distribution with a higher mean (i.e. the expected value will increase + // and replacements become less likely) + // + // Important to note, the new r.next will always be at least 1 more than + // the last r.next. + r.next += int64(math.Log(random())/math.Log(1-r.w)) + 1 +} + +func (r *randRes[N]) Collect(dest *[]metricdata.Exemplar[N]) { + r.storage.Collect(dest) + // Call reset here even though it will reset r.count and restart the random + // number series. This will persist any old exemplars as long as no new + // measurements are offered, but it will also prioritize those new + // measurements that are made over the older collection cycle ones. + r.reset() +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/reservoir.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/reservoir.go new file mode 100644 index 0000000000..7d5276a341 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/reservoir.go @@ -0,0 +1,44 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package exemplar // import "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" + +import ( + "context" + "time" + + "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/metricdata" +) + +// Reservoir holds the sampled exemplar of measurements made. +type Reservoir[N int64 | float64] interface { + // Offer accepts the parameters associated with a measurement. The + // parameters will be stored as an exemplar if the Reservoir decides to + // sample the measurement. + // + // The passed ctx needs to contain any baggage or span that were active + // when the measurement was made. This information may be used by the + // Reservoir in making a sampling decision. + // + // The time t is the time when the measurement was made. The val and attr + // parameters are the value and dropped (filtered) attributes of the + // measurement respectively. + Offer(ctx context.Context, t time.Time, val N, attr []attribute.KeyValue) + + // Collect returns all the held exemplars. + // + // The Reservoir state is preserved after this call. + Collect(dest *[]metricdata.Exemplar[N]) +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/storage.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/storage.go new file mode 100644 index 0000000000..e2c2b90a35 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/exemplar/storage.go @@ -0,0 +1,107 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package exemplar // import "go.opentelemetry.io/otel/sdk/metric/internal/exemplar" + +import ( + "context" + "time" + + "go.opentelemetry.io/otel/attribute" + "go.opentelemetry.io/otel/sdk/metric/metricdata" + "go.opentelemetry.io/otel/trace" +) + +// storage is an exemplar storage for [Reservoir] implementations. +type storage[N int64 | float64] struct { + // store are the measurements sampled. + // + // This does not use []metricdata.Exemplar because it potentially would + // require an allocation for trace and span IDs in the hot path of Offer. + store []measurement[N] +} + +func newStorage[N int64 | float64](n int) *storage[N] { + return &storage[N]{store: make([]measurement[N], n)} +} + +// Collect returns all the held exemplars. +// +// The Reservoir state is preserved after this call. +func (r *storage[N]) Collect(dest *[]metricdata.Exemplar[N]) { + *dest = reset(*dest, len(r.store), len(r.store)) + var n int + for _, m := range r.store { + if !m.valid { + continue + } + + m.Exemplar(&(*dest)[n]) + n++ + } + *dest = (*dest)[:n] +} + +// measurement is a measurement made by a telemetry system. +type measurement[N int64 | float64] struct { + // FilteredAttributes are the attributes dropped during the measurement. + FilteredAttributes []attribute.KeyValue + // Time is the time when the measurement was made. + Time time.Time + // Value is the value of the measurement. + Value N + // SpanContext is the SpanContext active when a measurement was made. + SpanContext trace.SpanContext + + valid bool +} + +// newMeasurement returns a new non-empty Measurement. +func newMeasurement[N int64 | float64](ctx context.Context, ts time.Time, v N, droppedAttr []attribute.KeyValue) measurement[N] { + return measurement[N]{ + FilteredAttributes: droppedAttr, + Time: ts, + Value: v, + SpanContext: trace.SpanContextFromContext(ctx), + valid: true, + } +} + +// Exemplar returns m as a [metricdata.Exemplar]. +func (m measurement[N]) Exemplar(dest *metricdata.Exemplar[N]) { + dest.FilteredAttributes = m.FilteredAttributes + dest.Time = m.Time + dest.Value = m.Value + + if m.SpanContext.HasTraceID() { + traceID := m.SpanContext.TraceID() + dest.TraceID = traceID[:] + } else { + dest.TraceID = dest.TraceID[:0] + } + + if m.SpanContext.HasSpanID() { + spanID := m.SpanContext.SpanID() + dest.SpanID = spanID[:] + } else { + dest.SpanID = dest.SpanID[:0] + } +} + +func reset[T any](s []T, length, capacity int) []T { + if cap(s) < capacity { + return make([]T, length, capacity) + } + return s[:length] +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/x/README.md b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/x/README.md new file mode 100644 index 0000000000..aba69d6547 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/x/README.md @@ -0,0 +1,112 @@ +# Experimental Features + +The metric SDK contains features that have not yet stabilized in the OpenTelemetry specification. +These features are added to the OpenTelemetry Go metric SDK prior to stabilization in the specification so that users can start experimenting with them and provide feedback. + +These feature may change in backwards incompatible ways as feedback is applied. +See the [Compatibility and Stability](#compatibility-and-stability) section for more information. + +## Features + +- [Cardinality Limit](#cardinality-limit) +- [Exemplars](#exemplars) + +### Cardinality Limit + +The cardinality limit is the hard limit on the number of metric streams that can be collected for a single instrument. + +This experimental feature can be enabled by setting the `OTEL_GO_X_CARDINALITY_LIMIT` environment value. +The value must be an integer value. +All other values are ignored. + +If the value set is less than or equal to `0`, no limit will be applied. + +#### Examples + +Set the cardinality limit to 2000. + +```console +export OTEL_GO_X_CARDINALITY_LIMIT=2000 +``` + +Set an infinite cardinality limit (functionally equivalent to disabling the feature). + +```console +export OTEL_GO_X_CARDINALITY_LIMIT=-1 +``` + +Disable the cardinality limit. + +```console +unset OTEL_GO_X_CARDINALITY_LIMIT +``` + +### Exemplars + +A sample of measurements made may be exported directly as a set of exemplars. + +This experimental feature can be enabled by setting the `OTEL_GO_X_EXEMPLAR` environment variable. +The value of must be the case-insensitive string of `"true"` to enable the feature. +All other values are ignored. + +Exemplar filters are a supported. +The exemplar filter applies to all measurements made. +They filter these measurements, only allowing certain measurements to be passed to the underlying exemplar reservoir. + +To change the exemplar filter from the default `"trace_based"` filter set the `OTEL_METRICS_EXEMPLAR_FILTER` environment variable. +The value must be the case-sensitive string defined by the [OpenTelemetry specification]. + +- `"always_on"`: allows all measurements +- `"always_off"`: denies all measurements +- `"trace_based"`: allows only sampled measurements + +All values other than these will result in the default, `"trace_based"`, exemplar filter being used. + +[OpenTelemetry specification]: https://github.com/open-telemetry/opentelemetry-specification/blob/a6ca2fd484c9e76fe1d8e1c79c99f08f4745b5ee/specification/configuration/sdk-environment-variables.md#exemplar + +#### Examples + +Enable exemplars to be exported. + +```console +export OTEL_GO_X_EXEMPLAR=true +``` + +Disable exemplars from being exported. + +```console +unset OTEL_GO_X_EXEMPLAR +``` + +Set the exemplar filter to allow all measurements. + +```console +export OTEL_METRICS_EXEMPLAR_FILTER=always_on +``` + +Set the exemplar filter to deny all measurements. + +```console +export OTEL_METRICS_EXEMPLAR_FILTER=always_off +``` + +Set the exemplar filter to only allow sampled measurements. + +```console +export OTEL_METRICS_EXEMPLAR_FILTER=trace_based +``` + +Revert to the default exemplar filter (`"trace_based"`) + +```console +unset OTEL_METRICS_EXEMPLAR_FILTER +``` + +## Compatibility and Stability + +Experimental features do not fall within the scope of the OpenTelemetry Go versioning and stability [policy](../../../../VERSIONING.md). +These features may be removed or modified in successive version releases, including patch versions. + +When an experimental feature is promoted to a stable feature, a migration path will be included in the changelog entry of the release. +There is no guarantee that any environment variable feature flags that enabled the experimental feature will be supported by the stable version. +If they are supported, they may be accompanied with a deprecation notice stating a timeline for the removal of that support. diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/internal/x/x.go b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/x/x.go new file mode 100644 index 0000000000..541160f942 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/internal/x/x.go @@ -0,0 +1,96 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package x contains support for OTel metric SDK experimental features. +// +// This package should only be used for features defined in the specification. +// It should not be used for experiments or new project ideas. +package x // import "go.opentelemetry.io/otel/sdk/metric/internal/x" + +import ( + "os" + "strconv" + "strings" +) + +var ( + // Exemplars is an experimental feature flag that defines if exemplars + // should be recorded for metric data-points. + // + // To enable this feature set the OTEL_GO_X_EXEMPLAR environment variable + // to the case-insensitive string value of "true" (i.e. "True" and "TRUE" + // will also enable this). + Exemplars = newFeature("EXEMPLAR", func(v string) (string, bool) { + if strings.ToLower(v) == "true" { + return v, true + } + return "", false + }) + + // CardinalityLimit is an experimental feature flag that defines if + // cardinality limits should be applied to the recorded metric data-points. + // + // To enable this feature set the OTEL_GO_X_CARDINALITY_LIMIT environment + // variable to the integer limit value you want to use. + // + // Setting OTEL_GO_X_CARDINALITY_LIMIT to a value less than or equal to 0 + // will disable the cardinality limits. + CardinalityLimit = newFeature("CARDINALITY_LIMIT", func(v string) (int, bool) { + n, err := strconv.Atoi(v) + if err != nil { + return 0, false + } + return n, true + }) +) + +// Feature is an experimental feature control flag. It provides a uniform way +// to interact with these feature flags and parse their values. +type Feature[T any] struct { + key string + parse func(v string) (T, bool) +} + +func newFeature[T any](suffix string, parse func(string) (T, bool)) Feature[T] { + const envKeyRoot = "OTEL_GO_X_" + return Feature[T]{ + key: envKeyRoot + suffix, + parse: parse, + } +} + +// Key returns the environment variable key that needs to be set to enable the +// feature. +func (f Feature[T]) Key() string { return f.key } + +// Lookup returns the user configured value for the feature and true if the +// user has enabled the feature. Otherwise, if the feature is not enabled, a +// zero-value and false are returned. +func (f Feature[T]) Lookup() (v T, ok bool) { + // https://github.com/open-telemetry/opentelemetry-specification/blob/62effed618589a0bec416a87e559c0a9d96289bb/specification/configuration/sdk-environment-variables.md#parsing-empty-value + // + // > The SDK MUST interpret an empty value of an environment variable the + // > same way as when the variable is unset. + vRaw := os.Getenv(f.key) + if vRaw == "" { + return v, ok + } + return f.parse(vRaw) +} + +// Enabled returns if the feature is enabled. +func (f Feature[T]) Enabled() bool { + _, ok := f.Lookup() + return ok +} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/meter.go b/vendor/go.opentelemetry.io/otel/sdk/metric/meter.go index 7f51ec512a..beb7876ec4 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/meter.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/meter.go @@ -23,6 +23,7 @@ import ( "go.opentelemetry.io/otel/metric" "go.opentelemetry.io/otel/metric/embedded" "go.opentelemetry.io/otel/sdk/instrumentation" + "go.opentelemetry.io/otel/sdk/metric/internal/aggregate" ) @@ -40,6 +41,11 @@ type meter struct { scope instrumentation.Scope pipes pipelines + int64Insts *cacheWithErr[instID, *int64Inst] + float64Insts *cacheWithErr[instID, *float64Inst] + int64ObservableInsts *cacheWithErr[instID, int64Observable] + float64ObservableInsts *cacheWithErr[instID, float64Observable] + int64Resolver resolver[int64] float64Resolver resolver[float64] } @@ -49,11 +55,20 @@ func newMeter(s instrumentation.Scope, p pipelines) *meter { // meter is asked to create are logged to the user. var viewCache cache[string, instID] + var int64Insts cacheWithErr[instID, *int64Inst] + var float64Insts cacheWithErr[instID, *float64Inst] + var int64ObservableInsts cacheWithErr[instID, int64Observable] + var float64ObservableInsts cacheWithErr[instID, float64Observable] + return &meter{ - scope: s, - pipes: p, - int64Resolver: newResolver[int64](p, &viewCache), - float64Resolver: newResolver[float64](p, &viewCache), + scope: s, + pipes: p, + int64Insts: &int64Insts, + float64Insts: &float64Insts, + int64ObservableInsts: &int64ObservableInsts, + float64ObservableInsts: &float64ObservableInsts, + int64Resolver: newResolver[int64](p, &viewCache), + float64Resolver: newResolver[float64](p, &viewCache), } } @@ -104,20 +119,62 @@ func (m *meter) Int64Histogram(name string, options ...metric.Int64HistogramOpti return i, validateInstrumentName(name) } +// int64ObservableInstrument returns a new observable identified by the Instrument. +// It registers callbacks for each reader's pipeline. +func (m *meter) int64ObservableInstrument(id Instrument, callbacks []metric.Int64Callback) (int64Observable, error) { + key := instID{ + Name: id.Name, + Description: id.Description, + Unit: id.Unit, + Kind: id.Kind, + } + if m.int64ObservableInsts.HasKey(key) && len(callbacks) > 0 { + warnRepeatedObservableCallbacks(id) + } + return m.int64ObservableInsts.Lookup(key, func() (int64Observable, error) { + inst := newInt64Observable(m, id.Kind, id.Name, id.Description, id.Unit) + for _, insert := range m.int64Resolver.inserters { + // Connect the measure functions for instruments in this pipeline with the + // callbacks for this pipeline. + in, err := insert.Instrument(id, insert.readerDefaultAggregation(id.Kind)) + if err != nil { + return inst, err + } + // Drop aggregation + if len(in) == 0 { + inst.dropAggregation = true + continue + } + inst.appendMeasures(in) + for _, cback := range callbacks { + inst := int64Observer{measures: in} + fn := cback + insert.addCallback(func(ctx context.Context) error { return fn(ctx, inst) }) + } + } + return inst, validateInstrumentName(id.Name) + }) +} + // Int64ObservableCounter returns a new instrument identified by name and // configured with options. The instrument is used to asynchronously record // increasing int64 measurements once per a measurement collection cycle. // Only the measurements recorded during the collection cycle are exported. +// +// If Int64ObservableCounter is invoked repeatedly with the same Name, +// Description, and Unit, only the first set of callbacks provided are used. +// Use meter.RegisterCallback and Registration.Unregister to manage callbacks +// if instrumentation can be created multiple times with different callbacks. func (m *meter) Int64ObservableCounter(name string, options ...metric.Int64ObservableCounterOption) (metric.Int64ObservableCounter, error) { cfg := metric.NewInt64ObservableCounterConfig(options...) - const kind = InstrumentKindObservableCounter - p := int64ObservProvider{m} - inst, err := p.lookup(kind, name, cfg.Description(), cfg.Unit()) - if err != nil { - return nil, err + id := Instrument{ + Name: name, + Description: cfg.Description(), + Unit: cfg.Unit(), + Kind: InstrumentKindObservableCounter, + Scope: m.scope, } - p.registerCallbacks(inst, cfg.Callbacks()) - return inst, validateInstrumentName(name) + return m.int64ObservableInstrument(id, cfg.Callbacks()) } // Int64ObservableUpDownCounter returns a new instrument identified by name and @@ -126,14 +183,14 @@ func (m *meter) Int64ObservableCounter(name string, options ...metric.Int64Obser // measurements recorded during the collection cycle are exported. func (m *meter) Int64ObservableUpDownCounter(name string, options ...metric.Int64ObservableUpDownCounterOption) (metric.Int64ObservableUpDownCounter, error) { cfg := metric.NewInt64ObservableUpDownCounterConfig(options...) - const kind = InstrumentKindObservableUpDownCounter - p := int64ObservProvider{m} - inst, err := p.lookup(kind, name, cfg.Description(), cfg.Unit()) - if err != nil { - return nil, err + id := Instrument{ + Name: name, + Description: cfg.Description(), + Unit: cfg.Unit(), + Kind: InstrumentKindObservableUpDownCounter, + Scope: m.scope, } - p.registerCallbacks(inst, cfg.Callbacks()) - return inst, validateInstrumentName(name) + return m.int64ObservableInstrument(id, cfg.Callbacks()) } // Int64ObservableGauge returns a new instrument identified by name and @@ -142,14 +199,14 @@ func (m *meter) Int64ObservableUpDownCounter(name string, options ...metric.Int6 // Only the measurements recorded during the collection cycle are exported. func (m *meter) Int64ObservableGauge(name string, options ...metric.Int64ObservableGaugeOption) (metric.Int64ObservableGauge, error) { cfg := metric.NewInt64ObservableGaugeConfig(options...) - const kind = InstrumentKindObservableGauge - p := int64ObservProvider{m} - inst, err := p.lookup(kind, name, cfg.Description(), cfg.Unit()) - if err != nil { - return nil, err + id := Instrument{ + Name: name, + Description: cfg.Description(), + Unit: cfg.Unit(), + Kind: InstrumentKindObservableGauge, + Scope: m.scope, } - p.registerCallbacks(inst, cfg.Callbacks()) - return inst, validateInstrumentName(name) + return m.int64ObservableInstrument(id, cfg.Callbacks()) } // Float64Counter returns a new instrument identified by name and configured @@ -196,20 +253,62 @@ func (m *meter) Float64Histogram(name string, options ...metric.Float64Histogram return i, validateInstrumentName(name) } +// float64ObservableInstrument returns a new observable identified by the Instrument. +// It registers callbacks for each reader's pipeline. +func (m *meter) float64ObservableInstrument(id Instrument, callbacks []metric.Float64Callback) (float64Observable, error) { + key := instID{ + Name: id.Name, + Description: id.Description, + Unit: id.Unit, + Kind: id.Kind, + } + if m.int64ObservableInsts.HasKey(key) && len(callbacks) > 0 { + warnRepeatedObservableCallbacks(id) + } + return m.float64ObservableInsts.Lookup(key, func() (float64Observable, error) { + inst := newFloat64Observable(m, id.Kind, id.Name, id.Description, id.Unit) + for _, insert := range m.float64Resolver.inserters { + // Connect the measure functions for instruments in this pipeline with the + // callbacks for this pipeline. + in, err := insert.Instrument(id, insert.readerDefaultAggregation(id.Kind)) + if err != nil { + return inst, err + } + // Drop aggregation + if len(in) == 0 { + inst.dropAggregation = true + continue + } + inst.appendMeasures(in) + for _, cback := range callbacks { + inst := float64Observer{measures: in} + fn := cback + insert.addCallback(func(ctx context.Context) error { return fn(ctx, inst) }) + } + } + return inst, validateInstrumentName(id.Name) + }) +} + // Float64ObservableCounter returns a new instrument identified by name and // configured with options. The instrument is used to asynchronously record // increasing float64 measurements once per a measurement collection cycle. // Only the measurements recorded during the collection cycle are exported. +// +// If Float64ObservableCounter is invoked repeatedly with the same Name, +// Description, and Unit, only the first set of callbacks provided are used. +// Use meter.RegisterCallback and Registration.Unregister to manage callbacks +// if instrumentation can be created multiple times with different callbacks. func (m *meter) Float64ObservableCounter(name string, options ...metric.Float64ObservableCounterOption) (metric.Float64ObservableCounter, error) { cfg := metric.NewFloat64ObservableCounterConfig(options...) - const kind = InstrumentKindObservableCounter - p := float64ObservProvider{m} - inst, err := p.lookup(kind, name, cfg.Description(), cfg.Unit()) - if err != nil { - return nil, err + id := Instrument{ + Name: name, + Description: cfg.Description(), + Unit: cfg.Unit(), + Kind: InstrumentKindObservableCounter, + Scope: m.scope, } - p.registerCallbacks(inst, cfg.Callbacks()) - return inst, validateInstrumentName(name) + return m.float64ObservableInstrument(id, cfg.Callbacks()) } // Float64ObservableUpDownCounter returns a new instrument identified by name @@ -218,14 +317,14 @@ func (m *meter) Float64ObservableCounter(name string, options ...metric.Float64O // measurements recorded during the collection cycle are exported. func (m *meter) Float64ObservableUpDownCounter(name string, options ...metric.Float64ObservableUpDownCounterOption) (metric.Float64ObservableUpDownCounter, error) { cfg := metric.NewFloat64ObservableUpDownCounterConfig(options...) - const kind = InstrumentKindObservableUpDownCounter - p := float64ObservProvider{m} - inst, err := p.lookup(kind, name, cfg.Description(), cfg.Unit()) - if err != nil { - return nil, err + id := Instrument{ + Name: name, + Description: cfg.Description(), + Unit: cfg.Unit(), + Kind: InstrumentKindObservableUpDownCounter, + Scope: m.scope, } - p.registerCallbacks(inst, cfg.Callbacks()) - return inst, validateInstrumentName(name) + return m.float64ObservableInstrument(id, cfg.Callbacks()) } // Float64ObservableGauge returns a new instrument identified by name and @@ -234,14 +333,14 @@ func (m *meter) Float64ObservableUpDownCounter(name string, options ...metric.Fl // Only the measurements recorded during the collection cycle are exported. func (m *meter) Float64ObservableGauge(name string, options ...metric.Float64ObservableGaugeOption) (metric.Float64ObservableGauge, error) { cfg := metric.NewFloat64ObservableGaugeConfig(options...) - const kind = InstrumentKindObservableGauge - p := float64ObservProvider{m} - inst, err := p.lookup(kind, name, cfg.Description(), cfg.Unit()) - if err != nil { - return nil, err + id := Instrument{ + Name: name, + Description: cfg.Description(), + Unit: cfg.Unit(), + Kind: InstrumentKindObservableGauge, + Scope: m.scope, } - p.registerCallbacks(inst, cfg.Callbacks()) - return inst, validateInstrumentName(name) + return m.float64ObservableInstrument(id, cfg.Callbacks()) } func validateInstrumentName(name string) error { @@ -273,6 +372,16 @@ func isAlphanumeric(c rune) bool { return isAlpha(c) || ('0' <= c && c <= '9') } +func warnRepeatedObservableCallbacks(id Instrument) { + inst := fmt.Sprintf( + "Instrument{Name: %q, Description: %q, Kind: %q, Unit: %q}", + id.Name, id.Description, "InstrumentKind"+id.Kind.String(), id.Unit, + ) + global.Warn("Repeated observable instrument creation with callbacks. Ignoring new callbacks. Use meter.RegisterCallback and Registration.Unregister to manage callbacks.", + "instrument", inst, + ) +} + // RegisterCallback registers f to be called each collection cycle so it will // make observations for insts during those cycles. // @@ -389,12 +498,14 @@ func (r observer) ObserveFloat64(o metric.Float64Observable, v float64, opts ... } if _, registered := r.float64[oImpl.observablID]; !registered { - global.Error(errUnregObserver, "failed to record", - "name", oImpl.name, - "description", oImpl.description, - "unit", oImpl.unit, - "number", fmt.Sprintf("%T", float64(0)), - ) + if !oImpl.dropAggregation { + global.Error(errUnregObserver, "failed to record", + "name", oImpl.name, + "description", oImpl.description, + "unit", oImpl.unit, + "number", fmt.Sprintf("%T", float64(0)), + ) + } return } c := metric.NewObserveConfig(opts) @@ -422,12 +533,14 @@ func (r observer) ObserveInt64(o metric.Int64Observable, v int64, opts ...metric } if _, registered := r.int64[oImpl.observablID]; !registered { - global.Error(errUnregObserver, "failed to record", - "name", oImpl.name, - "description", oImpl.description, - "unit", oImpl.unit, - "number", fmt.Sprintf("%T", int64(0)), - ) + if !oImpl.dropAggregation { + global.Error(errUnregObserver, "failed to record", + "name", oImpl.name, + "description", oImpl.description, + "unit", oImpl.unit, + "number", fmt.Sprintf("%T", int64(0)), + ) + } return } c := metric.NewObserveConfig(opts) @@ -474,14 +587,28 @@ func (p int64InstProvider) histogramAggs(name string, cfg metric.Int64HistogramC // lookup returns the resolved instrumentImpl. func (p int64InstProvider) lookup(kind InstrumentKind, name, desc, u string) (*int64Inst, error) { - aggs, err := p.aggs(kind, name, desc, u) - return &int64Inst{measures: aggs}, err + return p.meter.int64Insts.Lookup(instID{ + Name: name, + Description: desc, + Unit: u, + Kind: kind, + }, func() (*int64Inst, error) { + aggs, err := p.aggs(kind, name, desc, u) + return &int64Inst{measures: aggs}, err + }) } // lookupHistogram returns the resolved instrumentImpl. func (p int64InstProvider) lookupHistogram(name string, cfg metric.Int64HistogramConfig) (*int64Inst, error) { - aggs, err := p.histogramAggs(name, cfg) - return &int64Inst{measures: aggs}, err + return p.meter.int64Insts.Lookup(instID{ + Name: name, + Description: cfg.Description(), + Unit: cfg.Unit(), + Kind: InstrumentKindHistogram, + }, func() (*int64Inst, error) { + aggs, err := p.histogramAggs(name, cfg) + return &int64Inst{measures: aggs}, err + }) } // float64InstProvider provides float64 OpenTelemetry instruments. @@ -518,42 +645,33 @@ func (p float64InstProvider) histogramAggs(name string, cfg metric.Float64Histog // lookup returns the resolved instrumentImpl. func (p float64InstProvider) lookup(kind InstrumentKind, name, desc, u string) (*float64Inst, error) { - aggs, err := p.aggs(kind, name, desc, u) - return &float64Inst{measures: aggs}, err + return p.meter.float64Insts.Lookup(instID{ + Name: name, + Description: desc, + Unit: u, + Kind: kind, + }, func() (*float64Inst, error) { + aggs, err := p.aggs(kind, name, desc, u) + return &float64Inst{measures: aggs}, err + }) } // lookupHistogram returns the resolved instrumentImpl. func (p float64InstProvider) lookupHistogram(name string, cfg metric.Float64HistogramConfig) (*float64Inst, error) { - aggs, err := p.histogramAggs(name, cfg) - return &float64Inst{measures: aggs}, err -} - -type int64ObservProvider struct{ *meter } - -func (p int64ObservProvider) lookup(kind InstrumentKind, name, desc, u string) (int64Observable, error) { - aggs, err := (int64InstProvider)(p).aggs(kind, name, desc, u) - return newInt64Observable(p.meter, kind, name, desc, u, aggs), err -} - -func (p int64ObservProvider) registerCallbacks(inst int64Observable, cBacks []metric.Int64Callback) { - if inst.observable == nil || len(inst.measures) == 0 { - // Drop aggregator. - return - } - - for _, cBack := range cBacks { - p.pipes.registerCallback(p.callback(inst, cBack)) - } -} - -func (p int64ObservProvider) callback(i int64Observable, f metric.Int64Callback) func(context.Context) error { - inst := int64Observer{int64Observable: i} - return func(ctx context.Context) error { return f(ctx, inst) } + return p.meter.float64Insts.Lookup(instID{ + Name: name, + Description: cfg.Description(), + Unit: cfg.Unit(), + Kind: InstrumentKindHistogram, + }, func() (*float64Inst, error) { + aggs, err := p.histogramAggs(name, cfg) + return &float64Inst{measures: aggs}, err + }) } type int64Observer struct { embedded.Int64Observer - int64Observable + measures[int64] } func (o int64Observer) Observe(val int64, opts ...metric.ObserveOption) { @@ -561,32 +679,9 @@ func (o int64Observer) Observe(val int64, opts ...metric.ObserveOption) { o.observe(val, c.Attributes()) } -type float64ObservProvider struct{ *meter } - -func (p float64ObservProvider) lookup(kind InstrumentKind, name, desc, u string) (float64Observable, error) { - aggs, err := (float64InstProvider)(p).aggs(kind, name, desc, u) - return newFloat64Observable(p.meter, kind, name, desc, u, aggs), err -} - -func (p float64ObservProvider) registerCallbacks(inst float64Observable, cBacks []metric.Float64Callback) { - if inst.observable == nil || len(inst.measures) == 0 { - // Drop aggregator. - return - } - - for _, cBack := range cBacks { - p.pipes.registerCallback(p.callback(inst, cBack)) - } -} - -func (p float64ObservProvider) callback(i float64Observable, f metric.Float64Callback) func(context.Context) error { - inst := float64Observer{float64Observable: i} - return func(ctx context.Context) error { return f(ctx, inst) } -} - type float64Observer struct { embedded.Float64Observer - float64Observable + measures[float64] } func (o float64Observer) Observe(val float64, opts ...metric.ObserveOption) { diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/metricdata/data.go b/vendor/go.opentelemetry.io/otel/sdk/metric/metricdata/data.go index 995d42b38f..32c17934fc 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/metricdata/data.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/metricdata/data.go @@ -15,6 +15,7 @@ package metricdata // import "go.opentelemetry.io/otel/sdk/metric/metricdata" import ( + "encoding/json" "time" "go.opentelemetry.io/otel/attribute" @@ -211,6 +212,19 @@ type Extrema[N int64 | float64] struct { valid bool } +// MarshalText converts the Extrema value to text. +func (e Extrema[N]) MarshalText() ([]byte, error) { + if !e.valid { + return json.Marshal(nil) + } + return json.Marshal(e.value) +} + +// MarshalJSON converts the Extrema value to JSON number. +func (e *Extrema[N]) MarshalJSON() ([]byte, error) { + return e.MarshalText() +} + // NewExtrema returns an Extrema set to v. func NewExtrema[N int64 | float64](v N) Extrema[N] { return Extrema[N]{value: v, valid: true} diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/pipeline.go b/vendor/go.opentelemetry.io/otel/sdk/metric/pipeline.go index 48abcc8a7f..da39ab961c 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/pipeline.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/pipeline.go @@ -29,6 +29,7 @@ import ( "go.opentelemetry.io/otel/sdk/instrumentation" "go.opentelemetry.io/otel/sdk/metric/internal" "go.opentelemetry.io/otel/sdk/metric/internal/aggregate" + "go.opentelemetry.io/otel/sdk/metric/internal/x" "go.opentelemetry.io/otel/sdk/metric/metricdata" "go.opentelemetry.io/otel/sdk/resource" ) @@ -93,14 +94,6 @@ func (p *pipeline) addSync(scope instrumentation.Scope, iSync instrumentSync) { p.aggregations[scope] = append(p.aggregations[scope], iSync) } -// addCallback registers a single instrument callback to be run when -// `produce()` is called. -func (p *pipeline) addCallback(cback func(context.Context) error) { - p.Lock() - defer p.Unlock() - p.callbacks = append(p.callbacks, cback) -} - type multiCallback func(context.Context) error // addMultiCallback registers a multi-instrument callback to be run when @@ -281,6 +274,14 @@ func (i *inserter[N]) Instrument(inst Instrument, readerAggregation Aggregation) return measures, errs.errorOrNil() } +// addCallback registers a single instrument callback to be run when +// `produce()` is called. +func (i *inserter[N]) addCallback(cback func(context.Context) error) { + i.pipeline.Lock() + defer i.pipeline.Unlock() + i.pipeline.callbacks = append(i.pipeline.callbacks, cback) +} + var aggIDCount uint64 // aggVal is the cached value in an aggregators cache. @@ -358,9 +359,16 @@ func (i *inserter[N]) cachedAggregator(scope instrumentation.Scope, kind Instrum normID := id.normalize() cv := i.aggregators.Lookup(normID, func() aggVal[N] { b := aggregate.Builder[N]{ - Temporality: i.pipeline.reader.temporality(kind), + Temporality: i.pipeline.reader.temporality(kind), + ReservoirFunc: reservoirFunc[N](stream.Aggregation), } b.Filter = stream.AttributeFilter + // A value less than or equal to zero will disable the aggregation + // limits for the builder (an all the created aggregates). + // CardinalityLimit.Lookup returns 0 by default if unset (or + // unrecognized input). Use that value directly. + b.AggregationLimit, _ = x.CardinalityLimit.Lookup() + in, out, err := i.aggregateFunc(b, stream.Aggregation, kind) if err != nil { return aggVal[N]{0, nil, err} @@ -557,12 +565,6 @@ func newPipelines(res *resource.Resource, readers []Reader, views []View) pipeli return pipes } -func (p pipelines) registerCallback(cback func(context.Context) error) { - for _, pipe := range p { - pipe.addCallback(cback) - } -} - func (p pipelines) registerMultiCallback(c multiCallback) metric.Registration { unregs := make([]func(), len(p)) for i, pipe := range p { diff --git a/vendor/go.opentelemetry.io/otel/sdk/metric/version.go b/vendor/go.opentelemetry.io/otel/sdk/metric/version.go index edcf7cfc86..310fa5a530 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/metric/version.go +++ b/vendor/go.opentelemetry.io/otel/sdk/metric/version.go @@ -16,5 +16,5 @@ package metric // import "go.opentelemetry.io/otel/sdk/metric" // version is the current release version of the metric SDK in use. func version() string { - return "1.21.0" + return "1.24.0" } diff --git a/vendor/go.opentelemetry.io/otel/sdk/resource/auto.go b/vendor/go.opentelemetry.io/otel/sdk/resource/auto.go index 4279013be8..aed756c5e7 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/resource/auto.go +++ b/vendor/go.opentelemetry.io/otel/sdk/resource/auto.go @@ -41,8 +41,20 @@ type Detector interface { // must never be done outside of a new major release. } -// Detect calls all input detectors sequentially and merges each result with the previous one. -// It returns the merged error too. +// Detect returns a new [Resource] merged from all the Resources each of the +// detectors produces. Each of the detectors are called sequentially, in the +// order they are passed, merging the produced resource into the previous. +// +// This may return a partial Resource along with an error containing +// [ErrPartialResource] if that error is returned from a detector. It may also +// return a merge-conflicting Resource along with an error containing +// [ErrSchemaURLConflict] if merging Resources from different detectors results +// in a schema URL conflict. It is up to the caller to determine if this +// returned Resource should be used or not. +// +// If one of the detectors returns an error that is not [ErrPartialResource], +// the resource produced by the detector will not be merged and the returned +// error will wrap that detector's error. func Detect(ctx context.Context, detectors ...Detector) (*Resource, error) { r := new(Resource) return r, detect(ctx, r, detectors) @@ -50,6 +62,10 @@ func Detect(ctx context.Context, detectors ...Detector) (*Resource, error) { // detect runs all detectors using ctx and merges the result into res. This // assumes res is allocated and not nil, it will panic otherwise. +// +// If the detectors or merging resources produces any errors (i.e. +// [ErrPartialResource] [ErrSchemaURLConflict]), a single error wrapping all of +// these errors will be returned. Otherwise, nil is returned. func detect(ctx context.Context, res *Resource, detectors []Detector) error { var ( r *Resource @@ -78,6 +94,11 @@ func detect(ctx context.Context, res *Resource, detectors []Detector) error { if len(errs) == 0 { return nil } + if errors.Is(errs, ErrSchemaURLConflict) { + // If there has been a merge conflict, ensure the resource has no + // schema URL. + res.schemaURL = "" + } return errs } diff --git a/vendor/go.opentelemetry.io/otel/sdk/resource/builtin.go b/vendor/go.opentelemetry.io/otel/sdk/resource/builtin.go index c63a0dd1f8..6a2c08293a 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/resource/builtin.go +++ b/vendor/go.opentelemetry.io/otel/sdk/resource/builtin.go @@ -22,7 +22,7 @@ import ( "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/sdk" - semconv "go.opentelemetry.io/otel/semconv/v1.21.0" + semconv "go.opentelemetry.io/otel/semconv/v1.24.0" ) type ( diff --git a/vendor/go.opentelemetry.io/otel/sdk/resource/container.go b/vendor/go.opentelemetry.io/otel/sdk/resource/container.go index 3d53622828..c1b47193fe 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/resource/container.go +++ b/vendor/go.opentelemetry.io/otel/sdk/resource/container.go @@ -22,14 +22,14 @@ import ( "os" "regexp" - semconv "go.opentelemetry.io/otel/semconv/v1.21.0" + semconv "go.opentelemetry.io/otel/semconv/v1.24.0" ) type containerIDProvider func() (string, error) var ( containerID containerIDProvider = getContainerIDFromCGroup - cgroupContainerIDRe = regexp.MustCompile(`^.*/(?:.*-)?([0-9a-f]+)(?:\.|\s*$)`) + cgroupContainerIDRe = regexp.MustCompile(`^.*/(?:.*[-:])?([0-9a-f]+)(?:\.|\s*$)`) ) type cgroupContainerIDDetector struct{} diff --git a/vendor/go.opentelemetry.io/otel/sdk/resource/env.go b/vendor/go.opentelemetry.io/otel/sdk/resource/env.go index e29ae563a6..be4cbe423e 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/resource/env.go +++ b/vendor/go.opentelemetry.io/otel/sdk/resource/env.go @@ -23,7 +23,7 @@ import ( "go.opentelemetry.io/otel" "go.opentelemetry.io/otel/attribute" - semconv "go.opentelemetry.io/otel/semconv/v1.21.0" + semconv "go.opentelemetry.io/otel/semconv/v1.24.0" ) const ( diff --git a/vendor/go.opentelemetry.io/otel/sdk/resource/host_id.go b/vendor/go.opentelemetry.io/otel/sdk/resource/host_id.go index fb1ebf2cab..f579329c2c 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/resource/host_id.go +++ b/vendor/go.opentelemetry.io/otel/sdk/resource/host_id.go @@ -19,7 +19,7 @@ import ( "errors" "strings" - semconv "go.opentelemetry.io/otel/semconv/v1.21.0" + semconv "go.opentelemetry.io/otel/semconv/v1.24.0" ) type hostIDProvider func() (string, error) diff --git a/vendor/go.opentelemetry.io/otel/sdk/resource/os.go b/vendor/go.opentelemetry.io/otel/sdk/resource/os.go index 0cbd559739..8fbf071c17 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/resource/os.go +++ b/vendor/go.opentelemetry.io/otel/sdk/resource/os.go @@ -19,7 +19,7 @@ import ( "strings" "go.opentelemetry.io/otel/attribute" - semconv "go.opentelemetry.io/otel/semconv/v1.21.0" + semconv "go.opentelemetry.io/otel/semconv/v1.24.0" ) type osDescriptionProvider func() (string, error) diff --git a/vendor/go.opentelemetry.io/otel/sdk/resource/process.go b/vendor/go.opentelemetry.io/otel/sdk/resource/process.go index ecdd11dd76..739ea4512a 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/resource/process.go +++ b/vendor/go.opentelemetry.io/otel/sdk/resource/process.go @@ -22,7 +22,7 @@ import ( "path/filepath" "runtime" - semconv "go.opentelemetry.io/otel/semconv/v1.21.0" + semconv "go.opentelemetry.io/otel/semconv/v1.24.0" ) type ( diff --git a/vendor/go.opentelemetry.io/otel/sdk/resource/resource.go b/vendor/go.opentelemetry.io/otel/sdk/resource/resource.go index 176ff10666..cb1ee0a9ce 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/resource/resource.go +++ b/vendor/go.opentelemetry.io/otel/sdk/resource/resource.go @@ -17,6 +17,7 @@ package resource // import "go.opentelemetry.io/otel/sdk/resource" import ( "context" "errors" + "fmt" "sync" "go.opentelemetry.io/otel" @@ -40,9 +41,20 @@ var ( defaultResourceOnce sync.Once ) -var errMergeConflictSchemaURL = errors.New("cannot merge resource due to conflicting Schema URL") +// ErrSchemaURLConflict is an error returned when two Resources are merged +// together that contain different, non-empty, schema URLs. +var ErrSchemaURLConflict = errors.New("conflicting Schema URL") -// New returns a Resource combined from the user-provided detectors. +// New returns a [Resource] built using opts. +// +// This may return a partial Resource along with an error containing +// [ErrPartialResource] if options that provide a [Detector] are used and that +// error is returned from one or more of the Detectors. It may also return a +// merge-conflict Resource along with an error containing +// [ErrSchemaURLConflict] if merging Resources from the opts results in a +// schema URL conflict (see [Resource.Merge] for more information). It is up to +// the caller to determine if this returned Resource should be used or not +// based on these errors. func New(ctx context.Context, opts ...Option) (*Resource, error) { cfg := config{} for _, opt := range opts { @@ -98,7 +110,7 @@ func (r *Resource) String() string { return r.attrs.Encoded(attribute.DefaultEncoder()) } -// MarshalLog is the marshaling function used by the logging system to represent this exporter. +// MarshalLog is the marshaling function used by the logging system to represent this Resource. func (r *Resource) MarshalLog() interface{} { return struct { Attributes attribute.Set @@ -146,16 +158,29 @@ func (r *Resource) Equal(eq *Resource) bool { return r.Equivalent() == eq.Equivalent() } -// Merge creates a new resource by combining resource a and b. +// Merge creates a new [Resource] by merging a and b. +// +// If there are common keys between a and b, then the value from b will +// overwrite the value from a, even if b's value is empty. // -// If there are common keys between resource a and b, then the value -// from resource b will overwrite the value from resource a, even -// if resource b's value is empty. +// The SchemaURL of the resources will be merged according to the +// [OpenTelemetry specification rules]: // -// The SchemaURL of the resources will be merged according to the spec rules: -// https://github.com/open-telemetry/opentelemetry-specification/blob/v1.20.0/specification/resource/sdk.md#merge -// If the resources have different non-empty schemaURL an empty resource and an error -// will be returned. +// - If a's schema URL is empty then the returned Resource's schema URL will +// be set to the schema URL of b, +// - Else if b's schema URL is empty then the returned Resource's schema URL +// will be set to the schema URL of a, +// - Else if the schema URLs of a and b are the same then that will be the +// schema URL of the returned Resource, +// - Else this is a merging error. If the resources have different, +// non-empty, schema URLs an error containing [ErrSchemaURLConflict] will +// be returned with the merged Resource. The merged Resource will have an +// empty schema URL. It may be the case that some unintended attributes +// have been overwritten or old semantic conventions persisted in the +// returned Resource. It is up to the caller to determine if this returned +// Resource should be used or not. +// +// [OpenTelemetry specification rules]: https://github.com/open-telemetry/opentelemetry-specification/blob/v1.20.0/specification/resource/sdk.md#merge func Merge(a, b *Resource) (*Resource, error) { if a == nil && b == nil { return Empty(), nil @@ -167,19 +192,6 @@ func Merge(a, b *Resource) (*Resource, error) { return a, nil } - // Merge the schema URL. - var schemaURL string - switch true { - case a.schemaURL == "": - schemaURL = b.schemaURL - case b.schemaURL == "": - schemaURL = a.schemaURL - case a.schemaURL == b.schemaURL: - schemaURL = a.schemaURL - default: - return Empty(), errMergeConflictSchemaURL - } - // Note: 'b' attributes will overwrite 'a' with last-value-wins in attribute.Key() // Meaning this is equivalent to: append(a.Attributes(), b.Attributes()...) mi := attribute.NewMergeIterator(b.Set(), a.Set()) @@ -187,8 +199,23 @@ func Merge(a, b *Resource) (*Resource, error) { for mi.Next() { combine = append(combine, mi.Attribute()) } - merged := NewWithAttributes(schemaURL, combine...) - return merged, nil + + switch { + case a.schemaURL == "": + return NewWithAttributes(b.schemaURL, combine...), nil + case b.schemaURL == "": + return NewWithAttributes(a.schemaURL, combine...), nil + case a.schemaURL == b.schemaURL: + return NewWithAttributes(a.schemaURL, combine...), nil + } + // Return the merged resource with an appropriate error. It is up to + // the user to decide if the returned resource can be used or not. + return NewSchemaless(combine...), fmt.Errorf( + "%w: %s and %s", + ErrSchemaURLConflict, + a.schemaURL, + b.schemaURL, + ) } // Empty returns an instance of Resource with no attributes. It is diff --git a/vendor/go.opentelemetry.io/otel/sdk/version.go b/vendor/go.opentelemetry.io/otel/sdk/version.go index 422d4c964b..42de0b9a7c 100644 --- a/vendor/go.opentelemetry.io/otel/sdk/version.go +++ b/vendor/go.opentelemetry.io/otel/sdk/version.go @@ -16,5 +16,5 @@ package sdk // import "go.opentelemetry.io/otel/sdk" // Version is the current release version of the OpenTelemetry SDK in use. func Version() string { - return "1.21.0" + return "1.24.0" } diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/attribute_group.go b/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/attribute_group.go deleted file mode 100644 index e6cf895105..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/attribute_group.go +++ /dev/null @@ -1,1877 +0,0 @@ -// Copyright The OpenTelemetry Authors -// -// Licensed under the Apache License, Version 2.0 (the "License"); -// you may not use this file except in compliance with the License. -// You may obtain a copy of the License at -// -// http://www.apache.org/licenses/LICENSE-2.0 -// -// Unless required by applicable law or agreed to in writing, software -// distributed under the License is distributed on an "AS IS" BASIS, -// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -// See the License for the specific language governing permissions and -// limitations under the License. - -// Code generated from semantic convention specification. DO NOT EDIT. - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.21.0" - -import "go.opentelemetry.io/otel/attribute" - -// 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 does not 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 - unix domain - // socket name, IPv4 or IPv6 address. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '/tmp/my.sock', '10.1.2.80' - // Note: When observed from the server side, and when communicating through - // an intermediary, `client.address` SHOULD represent client address behind - // any intermediaries (e.g. 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 client port behind any - // intermediaries (e.g. proxies) if it's available. - ClientPortKey = attribute.Key("client.port") - - // ClientSocketAddressKey is the attribute Key conforming to the - // "client.socket.address" semantic conventions. It represents the - // immediate client peer address - unix domain socket name, IPv4 or IPv6 - // address. - // - // Type: string - // RequirementLevel: Recommended (If different than `client.address`.) - // Stability: stable - // Examples: '/tmp/my.sock', '127.0.0.1' - ClientSocketAddressKey = attribute.Key("client.socket.address") - - // ClientSocketPortKey is the attribute Key conforming to the - // "client.socket.port" semantic conventions. It represents the immediate - // client peer port number - // - // Type: int - // RequirementLevel: Recommended (If different than `client.port`.) - // Stability: stable - // Examples: 35555 - ClientSocketPortKey = attribute.Key("client.socket.port") -) - -// ClientAddress returns an attribute KeyValue conforming to the -// "client.address" semantic conventions. It represents the client address - -// unix domain socket name, IPv4 or IPv6 address. -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) -} - -// ClientSocketAddress returns an attribute KeyValue conforming to the -// "client.socket.address" semantic conventions. It represents the immediate -// client peer address - unix domain socket name, IPv4 or IPv6 address. -func ClientSocketAddress(val string) attribute.KeyValue { - return ClientSocketAddressKey.String(val) -} - -// ClientSocketPort returns an attribute KeyValue conforming to the -// "client.socket.port" semantic conventions. It represents the immediate -// client peer port number -func ClientSocketPort(val int) attribute.KeyValue { - return ClientSocketPortKey.Int(val) -} - -// Describes deprecated HTTP attributes. -const ( - // HTTPMethodKey is the attribute Key conforming to the "http.method" - // semantic conventions. It represents the deprecated, use - // `http.request.method` instead. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 'GET', 'POST', 'HEAD' - HTTPMethodKey = attribute.Key("http.method") - - // HTTPStatusCodeKey is the attribute Key conforming to the - // "http.status_code" semantic conventions. It represents the deprecated, - // use `http.response.status_code` instead. - // - // Type: int - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 200 - HTTPStatusCodeKey = attribute.Key("http.status_code") - - // HTTPSchemeKey is the attribute Key conforming to the "http.scheme" - // semantic conventions. It represents the deprecated, use `url.scheme` - // instead. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 'http', 'https' - HTTPSchemeKey = attribute.Key("http.scheme") - - // HTTPURLKey is the attribute Key conforming to the "http.url" semantic - // conventions. It represents the deprecated, use `url.full` instead. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 'https://www.foo.bar/search?q=OpenTelemetry#SemConv' - HTTPURLKey = attribute.Key("http.url") - - // HTTPTargetKey is the attribute Key conforming to the "http.target" - // semantic conventions. It represents the deprecated, use `url.path` and - // `url.query` instead. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: '/search?q=OpenTelemetry#SemConv' - HTTPTargetKey = attribute.Key("http.target") - - // HTTPRequestContentLengthKey is the attribute Key conforming to the - // "http.request_content_length" semantic conventions. It represents the - // deprecated, use `http.request.body.size` instead. - // - // Type: int - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 3495 - HTTPRequestContentLengthKey = attribute.Key("http.request_content_length") - - // HTTPResponseContentLengthKey is the attribute Key conforming to the - // "http.response_content_length" semantic conventions. It represents the - // deprecated, use `http.response.body.size` instead. - // - // Type: int - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 3495 - HTTPResponseContentLengthKey = attribute.Key("http.response_content_length") -) - -// HTTPMethod returns an attribute KeyValue conforming to the "http.method" -// semantic conventions. It represents the deprecated, use -// `http.request.method` instead. -func HTTPMethod(val string) attribute.KeyValue { - return HTTPMethodKey.String(val) -} - -// HTTPStatusCode returns an attribute KeyValue conforming to the -// "http.status_code" semantic conventions. It represents the deprecated, use -// `http.response.status_code` instead. -func HTTPStatusCode(val int) attribute.KeyValue { - return HTTPStatusCodeKey.Int(val) -} - -// HTTPScheme returns an attribute KeyValue conforming to the "http.scheme" -// semantic conventions. It represents the deprecated, use `url.scheme` -// instead. -func HTTPScheme(val string) attribute.KeyValue { - return HTTPSchemeKey.String(val) -} - -// HTTPURL returns an attribute KeyValue conforming to the "http.url" -// semantic conventions. It represents the deprecated, use `url.full` instead. -func HTTPURL(val string) attribute.KeyValue { - return HTTPURLKey.String(val) -} - -// HTTPTarget returns an attribute KeyValue conforming to the "http.target" -// semantic conventions. It represents the deprecated, use `url.path` and -// `url.query` instead. -func HTTPTarget(val string) attribute.KeyValue { - return HTTPTargetKey.String(val) -} - -// HTTPRequestContentLength returns an attribute KeyValue conforming to the -// "http.request_content_length" semantic conventions. It represents the -// deprecated, use `http.request.body.size` 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. It represents the -// deprecated, use `http.response.body.size` instead. -func HTTPResponseContentLength(val int) attribute.KeyValue { - return HTTPResponseContentLengthKey.Int(val) -} - -// These attributes may be used for any network related operation. -const ( - // NetSockPeerNameKey is the attribute Key conforming to the - // "net.sock.peer.name" semantic conventions. It represents the deprecated, - // use `server.socket.domain` on client spans. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: '/var/my.sock' - NetSockPeerNameKey = attribute.Key("net.sock.peer.name") - - // NetSockPeerAddrKey is the attribute Key conforming to the - // "net.sock.peer.addr" semantic conventions. It represents the deprecated, - // use `server.socket.address` on client spans and `client.socket.address` - // on server spans. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: '192.168.0.1' - NetSockPeerAddrKey = attribute.Key("net.sock.peer.addr") - - // NetSockPeerPortKey is the attribute Key conforming to the - // "net.sock.peer.port" semantic conventions. It represents the deprecated, - // use `server.socket.port` on client spans and `client.socket.port` on - // server spans. - // - // Type: int - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 65531 - NetSockPeerPortKey = attribute.Key("net.sock.peer.port") - - // NetPeerNameKey is the attribute Key conforming to the "net.peer.name" - // semantic conventions. It represents the deprecated, use `server.address` - // on client spans and `client.address` on server spans. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 'example.com' - NetPeerNameKey = attribute.Key("net.peer.name") - - // NetPeerPortKey is the attribute Key conforming to the "net.peer.port" - // semantic conventions. It represents the deprecated, use `server.port` on - // client spans and `client.port` on server spans. - // - // Type: int - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 8080 - NetPeerPortKey = attribute.Key("net.peer.port") - - // NetHostNameKey is the attribute Key conforming to the "net.host.name" - // semantic conventions. It represents the deprecated, use - // `server.address`. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 'example.com' - NetHostNameKey = attribute.Key("net.host.name") - - // NetHostPortKey is the attribute Key conforming to the "net.host.port" - // semantic conventions. It represents the deprecated, use `server.port`. - // - // Type: int - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 8080 - NetHostPortKey = attribute.Key("net.host.port") - - // NetSockHostAddrKey is the attribute Key conforming to the - // "net.sock.host.addr" semantic conventions. It represents the deprecated, - // use `server.socket.address`. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: '/var/my.sock' - NetSockHostAddrKey = attribute.Key("net.sock.host.addr") - - // NetSockHostPortKey is the attribute Key conforming to the - // "net.sock.host.port" semantic conventions. It represents the deprecated, - // use `server.socket.port`. - // - // Type: int - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 8080 - NetSockHostPortKey = attribute.Key("net.sock.host.port") - - // NetTransportKey is the attribute Key conforming to the "net.transport" - // semantic conventions. It represents the deprecated, use - // `network.transport`. - // - // Type: Enum - // RequirementLevel: Optional - // Stability: deprecated - NetTransportKey = attribute.Key("net.transport") - - // NetProtocolNameKey is the attribute Key conforming to the - // "net.protocol.name" semantic conventions. It represents the deprecated, - // use `network.protocol.name`. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: 'amqp', 'http', 'mqtt' - NetProtocolNameKey = attribute.Key("net.protocol.name") - - // NetProtocolVersionKey is the attribute Key conforming to the - // "net.protocol.version" semantic conventions. It represents the - // deprecated, use `network.protocol.version`. - // - // Type: string - // RequirementLevel: Optional - // Stability: deprecated - // Examples: '3.1.1' - NetProtocolVersionKey = attribute.Key("net.protocol.version") - - // NetSockFamilyKey is the attribute Key conforming to the - // "net.sock.family" semantic conventions. It represents the deprecated, - // use `network.transport` and `network.type`. - // - // Type: Enum - // RequirementLevel: Optional - // Stability: deprecated - NetSockFamilyKey = attribute.Key("net.sock.family") -) - -var ( - // ip_tcp - NetTransportTCP = NetTransportKey.String("ip_tcp") - // ip_udp - NetTransportUDP = NetTransportKey.String("ip_udp") - // Named or anonymous pipe - NetTransportPipe = NetTransportKey.String("pipe") - // In-process communication - NetTransportInProc = NetTransportKey.String("inproc") - // Something else (non IP-based) - NetTransportOther = NetTransportKey.String("other") -) - -var ( - // IPv4 address - NetSockFamilyInet = NetSockFamilyKey.String("inet") - // IPv6 address - NetSockFamilyInet6 = NetSockFamilyKey.String("inet6") - // Unix domain socket path - NetSockFamilyUnix = NetSockFamilyKey.String("unix") -) - -// NetSockPeerName returns an attribute KeyValue conforming to the -// "net.sock.peer.name" semantic conventions. It represents the deprecated, use -// `server.socket.domain` on client spans. -func NetSockPeerName(val string) attribute.KeyValue { - return NetSockPeerNameKey.String(val) -} - -// NetSockPeerAddr returns an attribute KeyValue conforming to the -// "net.sock.peer.addr" semantic conventions. It represents the deprecated, use -// `server.socket.address` on client spans and `client.socket.address` on -// server spans. -func NetSockPeerAddr(val string) attribute.KeyValue { - return NetSockPeerAddrKey.String(val) -} - -// NetSockPeerPort returns an attribute KeyValue conforming to the -// "net.sock.peer.port" semantic conventions. It represents the deprecated, use -// `server.socket.port` on client spans and `client.socket.port` on server -// spans. -func NetSockPeerPort(val int) attribute.KeyValue { - return NetSockPeerPortKey.Int(val) -} - -// NetPeerName returns an attribute KeyValue conforming to the -// "net.peer.name" semantic conventions. It represents the 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. It represents the deprecated, use -// `server.port` on client spans and `client.port` on server spans. -func NetPeerPort(val int) attribute.KeyValue { - return NetPeerPortKey.Int(val) -} - -// NetHostName returns an attribute KeyValue conforming to the -// "net.host.name" semantic conventions. It represents the 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. It represents the deprecated, use -// `server.port`. -func NetHostPort(val int) attribute.KeyValue { - return NetHostPortKey.Int(val) -} - -// NetSockHostAddr returns an attribute KeyValue conforming to the -// "net.sock.host.addr" semantic conventions. It represents the deprecated, use -// `server.socket.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. It represents the deprecated, use -// `server.socket.port`. -func NetSockHostPort(val int) attribute.KeyValue { - return NetSockHostPortKey.Int(val) -} - -// NetProtocolName returns an attribute KeyValue conforming to the -// "net.protocol.name" semantic conventions. It represents the 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. It represents the deprecated, -// use `network.protocol.version`. -func NetProtocolVersion(val string) attribute.KeyValue { - return NetProtocolVersionKey.String(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 does not expose a clear notion -// of client and server. -const ( - // DestinationDomainKey is the attribute Key conforming to the - // "destination.domain" semantic conventions. It represents the domain name - // of the destination system. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'foo.example.com' - // Note: This value may be a host name, a fully qualified domain name, or - // another host naming format. - DestinationDomainKey = attribute.Key("destination.domain") - - // DestinationAddressKey is the attribute Key conforming to the - // "destination.address" semantic conventions. It represents the peer - // address, for example IP address or UNIX socket name. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '10.5.3.2' - DestinationAddressKey = attribute.Key("destination.address") - - // DestinationPortKey is the attribute Key conforming to the - // "destination.port" semantic conventions. It represents the peer port - // number - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 3389, 2888 - DestinationPortKey = attribute.Key("destination.port") -) - -// DestinationDomain returns an attribute KeyValue conforming to the -// "destination.domain" semantic conventions. It represents the domain name of -// the destination system. -func DestinationDomain(val string) attribute.KeyValue { - return DestinationDomainKey.String(val) -} - -// DestinationAddress returns an attribute KeyValue conforming to the -// "destination.address" semantic conventions. It represents the peer address, -// for example IP address or UNIX 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 peer port number -func DestinationPort(val int) attribute.KeyValue { - return DestinationPortKey.Int(val) -} - -// Describes HTTP attributes. -const ( - // HTTPRequestMethodKey is the attribute Key conforming to the - // "http.request.method" semantic conventions. It represents the hTTP - // request method. - // - // Type: Enum - // RequirementLevel: Required - // 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` and, except if reporting - // a metric, MUST - // set the exact method received in the request line as value of the - // `http.request.method_original` attribute. - // - // 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") - - // 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: ConditionallyRequired (If and only if one was - // received/sent.) - // Stability: stable - // Examples: 200 - HTTPResponseStatusCodeKey = attribute.Key("http.response.status_code") -) - -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") -) - -// 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) -} - -// HTTP Server attributes -const ( - // HTTPRouteKey is the attribute Key conforming to the "http.route" - // semantic conventions. It represents the matched route (path template in - // the format used by the respective server framework). See note below - // - // Type: string - // RequirementLevel: ConditionallyRequired (If and only if it's available) - // 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") -) - -// HTTPRoute returns an attribute KeyValue conforming to the "http.route" -// semantic conventions. It represents the matched route (path template in the -// format used by the respective server framework). See note below -func HTTPRoute(val string) attribute.KeyValue { - return HTTPRouteKey.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 name identifies the event. - // - // Type: string - // RequirementLevel: Required - // Stability: stable - // Examples: 'click', 'exception' - EventNameKey = attribute.Key("event.name") - - // EventDomainKey is the attribute Key conforming to the "event.domain" - // semantic conventions. It represents the domain identifies the business - // context for the events. - // - // Type: Enum - // RequirementLevel: Required - // Stability: stable - // Note: Events across different domains may have same `event.name`, yet be - // unrelated events. - EventDomainKey = attribute.Key("event.domain") -) - -var ( - // Events from browser apps - EventDomainBrowser = EventDomainKey.String("browser") - // Events from mobile apps - EventDomainDevice = EventDomainKey.String("device") - // Events from Kubernetes - EventDomainK8S = EventDomainKey.String("k8s") -) - -// EventName returns an attribute KeyValue conforming to the "event.name" -// semantic conventions. It represents the name identifies the 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: stable - // 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: stable - 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: stable - // Examples: 'audit.log' - LogFileNameKey = attribute.Key("log.file.name") - - // 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: stable - // Examples: '/var/log/mysql/audit.log' - LogFilePathKey = attribute.Key("log.file.path") - - // 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: stable - // Examples: 'uuid.log' - LogFileNameResolvedKey = attribute.Key("log.file.name_resolved") - - // 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: stable - // 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) -} - -// 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) -} - -// 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) -} - -// 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 JVM memory metric attributes. -const ( - // TypeKey is the attribute Key conforming to the "type" semantic - // conventions. It represents the type of memory. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: stable - // Examples: 'heap', 'non_heap' - TypeKey = attribute.Key("type") - - // PoolKey is the attribute Key conforming to the "pool" 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()). - PoolKey = attribute.Key("pool") -) - -var ( - // Heap memory - TypeHeap = TypeKey.String("heap") - // Non-heap memory - TypeNonHeap = TypeKey.String("non_heap") -) - -// Pool returns an attribute KeyValue conforming to the "pool" semantic -// conventions. It represents the name of the memory pool. -func Pool(val string) attribute.KeyValue { - return PoolKey.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 does not 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 logical server hostname, matches - // server FQDN if available, and IP or socket address if FQDN is not known. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'example.com' - ServerAddressKey = attribute.Key("server.address") - - // ServerPortKey is the attribute Key conforming to the "server.port" - // semantic conventions. It represents the logical server port number - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 80, 8080, 443 - ServerPortKey = attribute.Key("server.port") - - // ServerSocketDomainKey is the attribute Key conforming to the - // "server.socket.domain" semantic conventions. It represents the domain - // name of an immediate peer. - // - // Type: string - // RequirementLevel: Recommended (If different than `server.address`.) - // Stability: stable - // Examples: 'proxy.example.com' - // Note: Typically observed from the client side, and represents a proxy or - // other intermediary domain name. - ServerSocketDomainKey = attribute.Key("server.socket.domain") - - // ServerSocketAddressKey is the attribute Key conforming to the - // "server.socket.address" semantic conventions. It represents the physical - // server IP address or Unix socket address. If set from the client, should - // simply use the socket's peer address, and not attempt to find any actual - // server IP (i.e., if set from client, this may represent some proxy - // server instead of the logical server). - // - // Type: string - // RequirementLevel: Recommended (If different than `server.address`.) - // Stability: stable - // Examples: '10.5.3.2' - ServerSocketAddressKey = attribute.Key("server.socket.address") - - // ServerSocketPortKey is the attribute Key conforming to the - // "server.socket.port" semantic conventions. It represents the physical - // server port. - // - // Type: int - // RequirementLevel: Recommended (If different than `server.port`.) - // Stability: stable - // Examples: 16456 - ServerSocketPortKey = attribute.Key("server.socket.port") -) - -// ServerAddress returns an attribute KeyValue conforming to the -// "server.address" semantic conventions. It represents the logical server -// hostname, matches server FQDN if available, and IP or socket address if FQDN -// is not known. -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 logical server port number -func ServerPort(val int) attribute.KeyValue { - return ServerPortKey.Int(val) -} - -// ServerSocketDomain returns an attribute KeyValue conforming to the -// "server.socket.domain" semantic conventions. It represents the domain name -// of an immediate peer. -func ServerSocketDomain(val string) attribute.KeyValue { - return ServerSocketDomainKey.String(val) -} - -// ServerSocketAddress returns an attribute KeyValue conforming to the -// "server.socket.address" semantic conventions. It represents the physical -// server IP address or Unix socket address. If set from the client, should -// simply use the socket's peer address, and not attempt to find any actual -// server IP (i.e., if set from client, this may represent some proxy server -// instead of the logical server). -func ServerSocketAddress(val string) attribute.KeyValue { - return ServerSocketAddressKey.String(val) -} - -// ServerSocketPort returns an attribute KeyValue conforming to the -// "server.socket.port" semantic conventions. It represents the physical server -// port. -func ServerSocketPort(val int) attribute.KeyValue { - return ServerSocketPortKey.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 does not expose a clear notion -// of client and server. -const ( - // SourceDomainKey is the attribute Key conforming to the "source.domain" - // semantic conventions. It represents the domain name of the source - // system. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'foo.example.com' - // Note: This value may be a host name, a fully qualified domain name, or - // another host naming format. - SourceDomainKey = attribute.Key("source.domain") - - // SourceAddressKey is the attribute Key conforming to the "source.address" - // semantic conventions. It represents the source address, for example IP - // address or Unix socket name. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '10.5.3.2' - 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: stable - // Examples: 3389, 2888 - SourcePortKey = attribute.Key("source.port") -) - -// SourceDomain returns an attribute KeyValue conforming to the -// "source.domain" semantic conventions. It represents the domain name of the -// source system. -func SourceDomain(val string) attribute.KeyValue { - return SourceDomainKey.String(val) -} - -// SourceAddress returns an attribute KeyValue conforming to the -// "source.address" semantic conventions. It represents the source address, for -// example IP address or Unix 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) -} - -// These attributes may be used for any network related operation. -const ( - // 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://en.wikipedia.org/wiki/Inter-process_communication). The - // value SHOULD be normalized to lowercase. - // - // Type: Enum - // RequirementLevel: Optional - // Stability: stable - // Examples: 'tcp', 'udp' - 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. The - // value SHOULD be normalized to lowercase. - // - // Type: Enum - // RequirementLevel: Optional - // Stability: stable - // Examples: 'ipv4', 'ipv6' - NetworkTypeKey = attribute.Key("network.type") - - // 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. The value SHOULD be normalized to lowercase. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'amqp', 'http', 'mqtt' - 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 application layer protocol used. See note below. - // - // 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 used 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") -) - -var ( - // TCP - NetworkTransportTCP = NetworkTransportKey.String("tcp") - // UDP - NetworkTransportUDP = NetworkTransportKey.String("udp") - // Named or anonymous pipe. See note below - NetworkTransportPipe = NetworkTransportKey.String("pipe") - // Unix domain socket - NetworkTransportUnix = NetworkTransportKey.String("unix") -) - -var ( - // IPv4 - NetworkTypeIpv4 = NetworkTypeKey.String("ipv4") - // IPv6 - NetworkTypeIpv6 = NetworkTypeKey.String("ipv6") -) - -// 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. The value SHOULD be normalized to lowercase. -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 application layer protocol used. See note below. -func NetworkProtocolVersion(val string) attribute.KeyValue { - return NetworkProtocolVersionKey.String(val) -} - -// These attributes may be used for any network related operation. -const ( - // NetworkConnectionTypeKey is the attribute Key conforming to the - // "network.connection.type" semantic conventions. It represents the - // internet connection type. - // - // Type: Enum - // RequirementLevel: Optional - // Stability: stable - // Examples: 'wifi' - NetworkConnectionTypeKey = attribute.Key("network.connection.type") - - // 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: stable - // Examples: 'LTE' - NetworkConnectionSubtypeKey = attribute.Key("network.connection.subtype") - - // 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: stable - // Examples: 'sprint' - NetworkCarrierNameKey = attribute.Key("network.carrier.name") - - // 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: stable - // 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: stable - // Examples: '001' - NetworkCarrierMncKey = attribute.Key("network.carrier.mnc") - - // 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: stable - // Examples: 'DE' - NetworkCarrierIccKey = attribute.Key("network.carrier.icc") -) - -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 ( - // 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") -) - -// 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) -} - -// 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) -} - -// 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) -} - -// Semantic conventions for HTTP client and server Spans. -const ( - // 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: ConditionallyRequired (If and only if it's different - // than `http.request.method`.) - // Stability: stable - // Examples: 'GeT', 'ACL', 'foo' - HTTPRequestMethodOriginalKey = attribute.Key("http.request.method_original") - - // 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: stable - // Examples: 3495 - HTTPRequestBodySizeKey = attribute.Key("http.request.body.size") - - // 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: stable - // Examples: 3495 - HTTPResponseBodySizeKey = attribute.Key("http.response.body.size") -) - -// 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) -} - -// 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) -} - -// 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) -} - -// Semantic convention describing per-message attributes populated on messaging -// spans or links. -const ( - // 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: stable - // Examples: '452a7c7c7c7048c2f887f61572b18fc2' - MessagingMessageIDKey = attribute.Key("messaging.message.id") - - // MessagingMessageConversationIDKey is the attribute Key conforming to the - // "messaging.message.conversation_id" semantic conventions. It represents - // the [conversation ID](#conversations) identifying the conversation to - // which the message belongs, represented as a string. Sometimes called - // "Correlation ID". - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'MyConversationID' - MessagingMessageConversationIDKey = attribute.Key("messaging.message.conversation_id") - - // MessagingMessagePayloadSizeBytesKey is the attribute Key conforming to - // the "messaging.message.payload_size_bytes" semantic conventions. It - // represents the (uncompressed) size of the message payload in bytes. Also - // use this attribute if it is unknown whether the compressed or - // uncompressed payload size is reported. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 2738 - MessagingMessagePayloadSizeBytesKey = attribute.Key("messaging.message.payload_size_bytes") - - // MessagingMessagePayloadCompressedSizeBytesKey is the attribute Key - // conforming to the "messaging.message.payload_compressed_size_bytes" - // semantic conventions. It represents the compressed size of the message - // payload in bytes. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 2048 - MessagingMessagePayloadCompressedSizeBytesKey = attribute.Key("messaging.message.payload_compressed_size_bytes") -) - -// 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) -} - -// MessagingMessageConversationID returns an attribute KeyValue conforming -// to the "messaging.message.conversation_id" semantic conventions. It -// represents the [conversation ID](#conversations) 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) -} - -// MessagingMessagePayloadSizeBytes returns an attribute KeyValue conforming -// to the "messaging.message.payload_size_bytes" semantic conventions. It -// represents the (uncompressed) size of the message payload in bytes. Also use -// this attribute if it is unknown whether the compressed or uncompressed -// payload size is reported. -func MessagingMessagePayloadSizeBytes(val int) attribute.KeyValue { - return MessagingMessagePayloadSizeBytesKey.Int(val) -} - -// MessagingMessagePayloadCompressedSizeBytes returns an attribute KeyValue -// conforming to the "messaging.message.payload_compressed_size_bytes" semantic -// conventions. It represents the compressed size of the message payload in -// bytes. -func MessagingMessagePayloadCompressedSizeBytes(val int) attribute.KeyValue { - return MessagingMessagePayloadCompressedSizeBytesKey.Int(val) -} - -// Semantic convention for attributes that describe messaging destination on -// broker -const ( - // MessagingDestinationNameKey is the attribute Key conforming to the - // "messaging.destination.name" semantic conventions. It represents the - // message destination name - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'MyQueue', 'MyTopic' - // Note: Destination name SHOULD uniquely identify a specific queue, topic - // or other entity within the broker. If - // the broker does not 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: stable - // 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: stable - MessagingDestinationTemporaryKey = attribute.Key("messaging.destination.temporary") - - // 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: stable - MessagingDestinationAnonymousKey = attribute.Key("messaging.destination.anonymous") -) - -// 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) -} - -// 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) -} - -// Attributes for RabbitMQ -const ( - // 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: ConditionallyRequired (If not empty.) - // Stability: stable - // Examples: 'myKey' - MessagingRabbitmqDestinationRoutingKeyKey = attribute.Key("messaging.rabbitmq.destination.routing_key") -) - -// 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) -} - -// Attributes for Apache Kafka -const ( - // 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: stable - // 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") - - // 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: stable - // 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: stable - // Examples: 2 - MessagingKafkaDestinationPartitionKey = attribute.Key("messaging.kafka.destination.partition") - - // 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: stable - // 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: ConditionallyRequired (If value is `true`. When - // missing, the value is assumed to be `false`.) - // Stability: stable - MessagingKafkaMessageTombstoneKey = attribute.Key("messaging.kafka.message.tombstone") -) - -// 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) -} - -// 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) -} - -// 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) -} - -// Attributes for Apache RocketMQ -const ( - // 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: Required - // Stability: stable - // Examples: 'myNamespace' - MessagingRocketmqNamespaceKey = attribute.Key("messaging.rocketmq.namespace") - - // 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: Required - // Stability: stable - // Examples: 'myConsumerGroup' - MessagingRocketmqClientGroupKey = attribute.Key("messaging.rocketmq.client_group") - - // 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: ConditionallyRequired (If the message type is delay - // and delay time level is not specified.) - // Stability: stable - // Examples: 1665987217045 - MessagingRocketmqMessageDeliveryTimestampKey = attribute.Key("messaging.rocketmq.message.delivery_timestamp") - - // 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: ConditionallyRequired (If the message type is delay - // and delivery timestamp is not specified.) - // Stability: stable - // Examples: 3 - MessagingRocketmqMessageDelayTimeLevelKey = attribute.Key("messaging.rocketmq.message.delay_time_level") - - // 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: ConditionallyRequired (If the message type is FIFO.) - // Stability: stable - // Examples: 'myMessageGroup' - MessagingRocketmqMessageGroupKey = attribute.Key("messaging.rocketmq.message.group") - - // 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: stable - MessagingRocketmqMessageTypeKey = attribute.Key("messaging.rocketmq.message.type") - - // 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: stable - // Examples: 'tagA' - MessagingRocketmqMessageTagKey = attribute.Key("messaging.rocketmq.message.tag") - - // 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: stable - // Examples: 'keyA', 'keyB' - MessagingRocketmqMessageKeysKey = attribute.Key("messaging.rocketmq.message.keys") - - // 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: stable - MessagingRocketmqConsumptionModelKey = attribute.Key("messaging.rocketmq.consumption_model") -) - -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 ( - // Clustering consumption model - MessagingRocketmqConsumptionModelClustering = MessagingRocketmqConsumptionModelKey.String("clustering") - // Broadcasting consumption model - MessagingRocketmqConsumptionModelBroadcasting = MessagingRocketmqConsumptionModelKey.String("broadcasting") -) - -// 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) -} - -// 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) -} - -// 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) -} - -// 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) -} - -// 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) -} - -// 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) -} - -// 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) -} - -// Attributes describing URL. -const ( - // 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") - - // 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' - // Note: When missing, the value is assumed to be `/` - 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") - - // 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") -) - -// 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) -} - -// 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) -} - -// 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) -} - -// 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' - 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) -} diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/attribute_group.go b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/attribute_group.go new file mode 100644 index 0000000000..31726598d6 --- /dev/null +++ b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/attribute_group.go @@ -0,0 +1,4398 @@ +// Copyright The OpenTelemetry Authors +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// 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) +} diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/doc.go b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/doc.go similarity index 91% rename from vendor/go.opentelemetry.io/otel/semconv/v1.21.0/doc.go rename to vendor/go.opentelemetry.io/otel/semconv/v1.24.0/doc.go index 7cf424855e..9b802db272 100644 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/doc.go +++ b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/doc.go @@ -15,6 +15,6 @@ // Package semconv implements OpenTelemetry semantic conventions. // // OpenTelemetry semantic conventions are agreed standardized naming -// patterns for OpenTelemetry things. This package represents the conventions -// as of the v1.21.0 version of the OpenTelemetry specification. -package semconv // import "go.opentelemetry.io/otel/semconv/v1.21.0" +// patterns for OpenTelemetry things. This package represents the v1.24.0 +// version of the OpenTelemetry semantic conventions. +package semconv // import "go.opentelemetry.io/otel/semconv/v1.24.0" diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/event.go b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/event.go similarity index 66% rename from vendor/go.opentelemetry.io/otel/semconv/v1.21.0/event.go rename to vendor/go.opentelemetry.io/otel/semconv/v1.24.0/event.go index 30ae34fe47..cd3c716295 100644 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/event.go +++ b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/event.go @@ -14,10 +14,65 @@ // Code generated from semantic convention specification. DO NOT EDIT. -package semconv // import "go.opentelemetry.io/otel/semconv/v1.21.0" +package semconv // import "go.opentelemetry.io/otel/semconv/v1.24.0" import "go.opentelemetry.io/otel/attribute" +// This event represents an occurrence of a lifecycle transition on the iOS +// platform. +const ( + // IosStateKey is the attribute Key conforming to the "ios.state" semantic + // conventions. It represents the this attribute represents the state the + // application has transitioned into at the occurrence of the event. + // + // Type: Enum + // RequirementLevel: Required + // Stability: experimental + // Note: The iOS lifecycle states are defined in the [UIApplicationDelegate + // documentation](https://developer.apple.com/documentation/uikit/uiapplicationdelegate#1656902), + // and from which the `OS terminology` column values are derived. + IosStateKey = attribute.Key("ios.state") +) + +var ( + // The app has become `active`. Associated with UIKit notification `applicationDidBecomeActive` + IosStateActive = IosStateKey.String("active") + // The app is now `inactive`. Associated with UIKit notification `applicationWillResignActive` + IosStateInactive = IosStateKey.String("inactive") + // The app is now in the background. This value is associated with UIKit notification `applicationDidEnterBackground` + IosStateBackground = IosStateKey.String("background") + // The app is now in the foreground. This value is associated with UIKit notification `applicationWillEnterForeground` + IosStateForeground = IosStateKey.String("foreground") + // The app is about to terminate. Associated with UIKit notification `applicationWillTerminate` + IosStateTerminate = IosStateKey.String("terminate") +) + +// This event represents an occurrence of a lifecycle transition on the Android +// platform. +const ( + // AndroidStateKey is the attribute Key conforming to the "android.state" + // semantic conventions. It represents the this attribute represents the + // state the application has transitioned into at the occurrence of the + // event. + // + // Type: Enum + // RequirementLevel: Required + // Stability: experimental + // Note: The Android lifecycle states are defined in [Activity lifecycle + // callbacks](https://developer.android.com/guide/components/activities/activity-lifecycle#lc), + // and from which the `OS identifiers` are derived. + AndroidStateKey = attribute.Key("android.state") +) + +var ( + // Any time before Activity.onResume() or, if the app has no Activity, Context.startService() has been called in the app for the first time + AndroidStateCreated = AndroidStateKey.String("created") + // Any time after Activity.onPause() or, if the app has no Activity, Context.stopService() has been called when the app was in the foreground state + AndroidStateBackground = AndroidStateKey.String("background") + // Any time after Activity.onResume() or, if the app has no Activity, Context.startService() has been called when the app was in either the created or background states + AndroidStateForeground = AndroidStateKey.String("foreground") +) + // This semantic convention defines the attributes used to represent a feature // flag evaluation as an event. const ( @@ -27,7 +82,7 @@ const ( // // Type: string // RequirementLevel: Required - // Stability: stable + // Stability: experimental // Examples: 'logo-color' FeatureFlagKeyKey = attribute.Key("feature_flag.key") @@ -37,7 +92,7 @@ const ( // // Type: string // RequirementLevel: Recommended - // Stability: stable + // Stability: experimental // Examples: 'Flag Manager' FeatureFlagProviderNameKey = attribute.Key("feature_flag.provider_name") @@ -48,7 +103,7 @@ const ( // // Type: string // RequirementLevel: Recommended - // Stability: stable + // Stability: experimental // Examples: 'red', 'true', 'on' // Note: A semantic identifier, commonly referred to as a variant, provides // a means @@ -86,14 +141,14 @@ func FeatureFlagVariant(val string) attribute.KeyValue { // RPC received/sent message. const ( - // MessageTypeKey is the attribute Key conforming to the "message.type" - // semantic conventions. It represents the whether this is a received or - // sent message. + // MessageCompressedSizeKey is the attribute Key conforming to the + // "message.compressed_size" semantic conventions. It represents the + // compressed size of the message in bytes. // - // Type: Enum + // Type: int // RequirementLevel: Optional - // Stability: stable - MessageTypeKey = attribute.Key("message.type") + // Stability: experimental + MessageCompressedSizeKey = attribute.Key("message.compressed_size") // MessageIDKey is the attribute Key conforming to the "message.id" // semantic conventions. It represents the mUST be calculated as two @@ -102,19 +157,19 @@ const ( // // Type: int // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Note: This way we guarantee that the values will be consistent between // different implementations. MessageIDKey = attribute.Key("message.id") - // MessageCompressedSizeKey is the attribute Key conforming to the - // "message.compressed_size" semantic conventions. It represents the - // compressed size of the message in bytes. + // MessageTypeKey is the attribute Key conforming to the "message.type" + // semantic conventions. It represents the whether this is a received or + // sent message. // - // Type: int + // Type: Enum // RequirementLevel: Optional - // Stability: stable - MessageCompressedSizeKey = attribute.Key("message.compressed_size") + // Stability: experimental + MessageTypeKey = attribute.Key("message.type") // MessageUncompressedSizeKey is the attribute Key conforming to the // "message.uncompressed_size" semantic conventions. It represents the @@ -122,7 +177,7 @@ const ( // // Type: int // RequirementLevel: Optional - // Stability: stable + // Stability: experimental MessageUncompressedSizeKey = attribute.Key("message.uncompressed_size") ) @@ -133,6 +188,13 @@ var ( MessageTypeReceived = MessageTypeKey.String("RECEIVED") ) +// MessageCompressedSize returns an attribute KeyValue conforming to the +// "message.compressed_size" semantic conventions. It represents the compressed +// size of the message in bytes. +func MessageCompressedSize(val int) attribute.KeyValue { + return MessageCompressedSizeKey.Int(val) +} + // MessageID returns an attribute KeyValue conforming to the "message.id" // semantic conventions. It represents the mUST be calculated as two different // counters starting from `1` one for sent messages and one for received @@ -141,59 +203,9 @@ func MessageID(val int) attribute.KeyValue { return MessageIDKey.Int(val) } -// MessageCompressedSize returns an attribute KeyValue conforming to the -// "message.compressed_size" semantic conventions. It represents the compressed -// size of the message in bytes. -func MessageCompressedSize(val int) attribute.KeyValue { - return MessageCompressedSizeKey.Int(val) -} - // MessageUncompressedSize returns an attribute KeyValue conforming to the // "message.uncompressed_size" semantic conventions. It represents the // uncompressed size of the message in bytes. func MessageUncompressedSize(val int) attribute.KeyValue { return MessageUncompressedSizeKey.Int(val) } - -// The attributes used to report a single exception associated with a span. -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: stable - // 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 above](#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") -) - -// 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) -} diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/exception.go b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/exception.go similarity index 99% rename from vendor/go.opentelemetry.io/otel/semconv/v1.21.0/exception.go rename to vendor/go.opentelemetry.io/otel/semconv/v1.24.0/exception.go index 93d3c1760c..ef9bbd37a8 100644 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/exception.go +++ b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/exception.go @@ -12,7 +12,7 @@ // See the License for the specific language governing permissions and // limitations under the License. -package semconv // import "go.opentelemetry.io/otel/semconv/v1.21.0" +package semconv // import "go.opentelemetry.io/otel/semconv/v1.24.0" const ( // ExceptionEventName is the name of the Span event representing an exception. diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/resource.go b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/resource.go similarity index 82% rename from vendor/go.opentelemetry.io/otel/semconv/v1.21.0/resource.go rename to vendor/go.opentelemetry.io/otel/semconv/v1.24.0/resource.go index b6d8935cf9..69eda1959f 100644 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/resource.go +++ b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/resource.go @@ -14,138 +14,68 @@ // Code generated from semantic convention specification. DO NOT EDIT. -package semconv // import "go.opentelemetry.io/otel/semconv/v1.21.0" +package semconv // import "go.opentelemetry.io/otel/semconv/v1.24.0" import "go.opentelemetry.io/otel/attribute" -// The web browser in which the application represented by the resource is -// running. The `browser.*` attributes MUST be used only for resources that -// represent applications running in a web browser (regardless of whether -// running on a mobile or desktop device). +// A cloud environment (e.g. GCP, Azure, AWS). const ( - // BrowserBrandsKey is the attribute Key conforming to the "browser.brands" - // semantic conventions. It represents the array of brand name and version - // separated by a space - // - // Type: string[] - // RequirementLevel: Optional - // Stability: stable - // Examples: ' Not A;Brand 99', 'Chromium 99', 'Chrome 99' - // Note: This value is intended to be taken from the [UA client hints - // API](https://wicg.github.io/ua-client-hints/#interface) - // (`navigator.userAgentData.brands`). - BrowserBrandsKey = attribute.Key("browser.brands") - - // BrowserPlatformKey is the attribute Key conforming to the - // "browser.platform" semantic conventions. It represents the platform on - // which the browser is running + // CloudAccountIDKey is the attribute Key conforming to the + // "cloud.account.id" semantic conventions. It represents the cloud account + // ID the resource is assigned to. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'Windows', 'macOS', 'Android' - // Note: This value is intended to be taken from the [UA client hints - // API](https://wicg.github.io/ua-client-hints/#interface) - // (`navigator.userAgentData.platform`). If unavailable, the legacy - // `navigator.platform` API SHOULD NOT be used instead and this attribute - // SHOULD be left unset in order for the values to be consistent. - // The list of possible values is defined in the [W3C User-Agent Client - // Hints - // specification](https://wicg.github.io/ua-client-hints/#sec-ch-ua-platform). - // Note that some (but not all) of these values can overlap with values in - // the [`os.type` and `os.name` attributes](./os.md). However, for - // consistency, the values in the `browser.platform` attribute should - // capture the exact value that the user agent provides. - BrowserPlatformKey = attribute.Key("browser.platform") + // Stability: experimental + // Examples: '111111111111', 'opentelemetry' + CloudAccountIDKey = attribute.Key("cloud.account.id") - // BrowserMobileKey is the attribute Key conforming to the "browser.mobile" - // semantic conventions. It represents a boolean that is true if the - // browser is running on a mobile device + // CloudAvailabilityZoneKey is the attribute Key conforming to the + // "cloud.availability_zone" semantic conventions. It represents the cloud + // regions often have multiple, isolated locations known as zones to + // increase availability. Availability zone represents the zone where the + // resource is running. // - // Type: boolean + // Type: string // RequirementLevel: Optional - // Stability: stable - // Note: This value is intended to be taken from the [UA client hints - // API](https://wicg.github.io/ua-client-hints/#interface) - // (`navigator.userAgentData.mobile`). If unavailable, this attribute - // SHOULD be left unset. - BrowserMobileKey = attribute.Key("browser.mobile") + // Stability: experimental + // Examples: 'us-east-1c' + // Note: Availability zones are called "zones" on Alibaba Cloud and Google + // Cloud. + CloudAvailabilityZoneKey = attribute.Key("cloud.availability_zone") - // BrowserLanguageKey is the attribute Key conforming to the - // "browser.language" semantic conventions. It represents the preferred - // language of the user using the browser + // CloudPlatformKey is the attribute Key conforming to the "cloud.platform" + // semantic conventions. It represents the cloud platform in use. // - // Type: string + // Type: Enum // RequirementLevel: Optional - // Stability: stable - // Examples: 'en', 'en-US', 'fr', 'fr-FR' - // Note: This value is intended to be taken from the Navigator API - // `navigator.language`. - BrowserLanguageKey = attribute.Key("browser.language") -) - -// BrowserBrands returns an attribute KeyValue conforming to the -// "browser.brands" semantic conventions. It represents the array of brand name -// and version separated by a space -func BrowserBrands(val ...string) attribute.KeyValue { - return BrowserBrandsKey.StringSlice(val) -} - -// BrowserPlatform returns an attribute KeyValue conforming to the -// "browser.platform" semantic conventions. It represents the platform on which -// the browser is running -func BrowserPlatform(val string) attribute.KeyValue { - return BrowserPlatformKey.String(val) -} - -// BrowserMobile returns an attribute KeyValue conforming to the -// "browser.mobile" semantic conventions. It represents a boolean that is true -// if the browser is running on a mobile device -func BrowserMobile(val bool) attribute.KeyValue { - return BrowserMobileKey.Bool(val) -} - -// BrowserLanguage returns an attribute KeyValue conforming to the -// "browser.language" semantic conventions. It represents the preferred -// language of the user using the browser -func BrowserLanguage(val string) attribute.KeyValue { - return BrowserLanguageKey.String(val) -} + // Stability: experimental + // Note: The prefix of the service SHOULD match the one specified in + // `cloud.provider`. + CloudPlatformKey = attribute.Key("cloud.platform") -// A cloud environment (e.g. GCP, Azure, AWS) -const ( // CloudProviderKey is the attribute Key conforming to the "cloud.provider" // semantic conventions. It represents the name of the cloud provider. // // Type: Enum // RequirementLevel: Optional - // Stability: stable + // Stability: experimental CloudProviderKey = attribute.Key("cloud.provider") - // CloudAccountIDKey is the attribute Key conforming to the - // "cloud.account.id" semantic conventions. It represents the cloud account - // ID the resource is assigned to. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '111111111111', 'opentelemetry' - CloudAccountIDKey = attribute.Key("cloud.account.id") - // CloudRegionKey is the attribute Key conforming to the "cloud.region" // semantic conventions. It represents the geographical region the resource // is running. // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'us-central1', 'us-east-1' // Note: Refer to your provider's docs to see the available regions, for // example [Alibaba Cloud // regions](https://www.alibabacloud.com/help/doc-detail/40654.htm), [AWS // regions](https://aws.amazon.com/about-aws/global-infrastructure/regions_az/), // [Azure - // regions](https://azure.microsoft.com/en-us/global-infrastructure/geographies/), + // regions](https://azure.microsoft.com/global-infrastructure/geographies/), // [Google Cloud regions](https://cloud.google.com/about/locations), or // [Tencent Cloud // regions](https://www.tencentcloud.com/document/product/213/6091). @@ -157,14 +87,14 @@ const ( // (e.g. an // [ARN](https://docs.aws.amazon.com/general/latest/gr/aws-arns-and-namespaces.html) // on AWS, a [fully qualified resource - // ID](https://learn.microsoft.com/en-us/rest/api/resources/resources/get-by-id) + // ID](https://learn.microsoft.com/rest/api/resources/resources/get-by-id) // on Azure, a [full resource // name](https://cloud.google.com/apis/design/resource_names#full_resource_name) // on GCP) // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'arn:aws:lambda:REGION:ACCOUNT_ID:function:my-function', // '//run.googleapis.com/projects/PROJECT_ID/locations/LOCATION_ID/services/SERVICE_ID', // '/subscriptions//resourceGroups//providers/Microsoft.Web/sites//functions/' @@ -189,7 +119,7 @@ const ( // * **GCP:** The [URI of the // resource](https://cloud.google.com/iam/docs/full-resource-names) // * **Azure:** The [Fully Qualified Resource - // ID](https://docs.microsoft.com/en-us/rest/api/resources/resources/get-by-id) + // ID](https://docs.microsoft.com/rest/api/resources/resources/get-by-id) // of the invoked function, // *not* the function app, having the form // `/subscriptions//resourceGroups//providers/Microsoft.Web/sites//functions/`. @@ -197,47 +127,6 @@ const ( // app can host multiple functions that would usually share // a TracerProvider. CloudResourceIDKey = attribute.Key("cloud.resource_id") - - // CloudAvailabilityZoneKey is the attribute Key conforming to the - // "cloud.availability_zone" semantic conventions. It represents the cloud - // regions often have multiple, isolated locations known as zones to - // increase availability. Availability zone represents the zone where the - // resource is running. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'us-east-1c' - // Note: Availability zones are called "zones" on Alibaba Cloud and Google - // Cloud. - CloudAvailabilityZoneKey = attribute.Key("cloud.availability_zone") - - // CloudPlatformKey is the attribute Key conforming to the "cloud.platform" - // semantic conventions. It represents the cloud platform in use. - // - // Type: Enum - // RequirementLevel: Optional - // Stability: stable - // Note: The prefix of the service SHOULD match the one specified in - // `cloud.provider`. - CloudPlatformKey = attribute.Key("cloud.platform") -) - -var ( - // Alibaba Cloud - CloudProviderAlibabaCloud = CloudProviderKey.String("alibaba_cloud") - // Amazon Web Services - CloudProviderAWS = CloudProviderKey.String("aws") - // Microsoft Azure - CloudProviderAzure = CloudProviderKey.String("azure") - // Google Cloud Platform - CloudProviderGCP = CloudProviderKey.String("gcp") - // Heroku Platform as a Service - CloudProviderHeroku = CloudProviderKey.String("heroku") - // IBM Cloud - CloudProviderIbmCloud = CloudProviderKey.String("ibm_cloud") - // Tencent Cloud - CloudProviderTencentCloud = CloudProviderKey.String("tencent_cloud") ) var ( @@ -297,6 +186,23 @@ var ( CloudPlatformTencentCloudScf = CloudPlatformKey.String("tencent_cloud_scf") ) +var ( + // Alibaba Cloud + CloudProviderAlibabaCloud = CloudProviderKey.String("alibaba_cloud") + // Amazon Web Services + CloudProviderAWS = CloudProviderKey.String("aws") + // Microsoft Azure + CloudProviderAzure = CloudProviderKey.String("azure") + // Google Cloud Platform + CloudProviderGCP = CloudProviderKey.String("gcp") + // Heroku Platform as a Service + CloudProviderHeroku = CloudProviderKey.String("heroku") + // IBM Cloud + CloudProviderIbmCloud = CloudProviderKey.String("ibm_cloud") + // Tencent Cloud + CloudProviderTencentCloud = CloudProviderKey.String("tencent_cloud") +) + // CloudAccountID returns an attribute KeyValue conforming to the // "cloud.account.id" semantic conventions. It represents the cloud account ID // the resource is assigned to. @@ -304,6 +210,15 @@ func CloudAccountID(val string) attribute.KeyValue { return CloudAccountIDKey.String(val) } +// CloudAvailabilityZone returns an attribute KeyValue conforming to the +// "cloud.availability_zone" semantic conventions. It represents the cloud +// regions often have multiple, isolated locations known as zones to increase +// availability. Availability zone represents the zone where the resource is +// running. +func CloudAvailabilityZone(val string) attribute.KeyValue { + return CloudAvailabilityZoneKey.String(val) +} + // CloudRegion returns an attribute KeyValue conforming to the // "cloud.region" semantic conventions. It represents the geographical region // the resource is running. @@ -316,999 +231,766 @@ func CloudRegion(val string) attribute.KeyValue { // provider-specific native identifier of the monitored cloud resource (e.g. an // [ARN](https://docs.aws.amazon.com/general/latest/gr/aws-arns-and-namespaces.html) // on AWS, a [fully qualified resource -// ID](https://learn.microsoft.com/en-us/rest/api/resources/resources/get-by-id) -// on Azure, a [full resource +// ID](https://learn.microsoft.com/rest/api/resources/resources/get-by-id) on +// Azure, a [full resource // name](https://cloud.google.com/apis/design/resource_names#full_resource_name) // on GCP) func CloudResourceID(val string) attribute.KeyValue { return CloudResourceIDKey.String(val) } -// CloudAvailabilityZone returns an attribute KeyValue conforming to the -// "cloud.availability_zone" semantic conventions. It represents the cloud -// regions often have multiple, isolated locations known as zones to increase -// availability. Availability zone represents the zone where the resource is -// running. -func CloudAvailabilityZone(val string) attribute.KeyValue { - return CloudAvailabilityZoneKey.String(val) -} - -// Resources used by AWS Elastic Container Service (ECS). +// A container instance. const ( - // AWSECSContainerARNKey is the attribute Key conforming to the - // "aws.ecs.container.arn" semantic conventions. It represents the Amazon - // Resource Name (ARN) of an [ECS container - // instance](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: - // 'arn:aws:ecs:us-west-1:123456789123:container/32624152-9086-4f0e-acae-1a75b14fe4d9' - AWSECSContainerARNKey = attribute.Key("aws.ecs.container.arn") - - // AWSECSClusterARNKey is the attribute Key conforming to the - // "aws.ecs.cluster.arn" semantic conventions. It represents the ARN of an - // [ECS - // cluster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/clusters.html). + // ContainerCommandKey is the attribute Key conforming to the + // "container.command" semantic conventions. It represents the command used + // to run the container (i.e. the command name). // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'arn:aws:ecs:us-west-2:123456789123:cluster/my-cluster' - AWSECSClusterARNKey = attribute.Key("aws.ecs.cluster.arn") + // Stability: experimental + // Examples: 'otelcontribcol' + // Note: If using embedded credentials or sensitive data, it is recommended + // to remove them to prevent potential leakage. + ContainerCommandKey = attribute.Key("container.command") - // AWSECSLaunchtypeKey is the attribute Key conforming to the - // "aws.ecs.launchtype" semantic conventions. It represents the [launch - // type](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/launch_types.html) - // for an ECS task. + // ContainerCommandArgsKey is the attribute Key conforming to the + // "container.command_args" semantic conventions. It represents the all the + // command arguments (including the command/executable itself) run by the + // container. [2] // - // Type: Enum + // Type: string[] // RequirementLevel: Optional - // Stability: stable - AWSECSLaunchtypeKey = attribute.Key("aws.ecs.launchtype") + // Stability: experimental + // Examples: 'otelcontribcol, --config, config.yaml' + ContainerCommandArgsKey = attribute.Key("container.command_args") - // AWSECSTaskARNKey is the attribute Key conforming to the - // "aws.ecs.task.arn" semantic conventions. It represents the ARN of an - // [ECS task - // definition](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html). + // ContainerCommandLineKey is the attribute Key conforming to the + // "container.command_line" semantic conventions. It represents the full + // command run by the container as a single string representing the full + // command. [2] // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: - // 'arn:aws:ecs:us-west-1:123456789123:task/10838bed-421f-43ef-870a-f43feacbbb5b' - AWSECSTaskARNKey = attribute.Key("aws.ecs.task.arn") + // Stability: experimental + // Examples: 'otelcontribcol --config config.yaml' + ContainerCommandLineKey = attribute.Key("container.command_line") - // AWSECSTaskFamilyKey is the attribute Key conforming to the - // "aws.ecs.task.family" semantic conventions. It represents the task - // definition family this task definition is a member of. + // ContainerIDKey is the attribute Key conforming to the "container.id" + // semantic conventions. It represents the container ID. Usually a UUID, as + // for example used to [identify Docker + // containers](https://docs.docker.com/engine/reference/run/#container-identification). + // The UUID might be abbreviated. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry-family' - AWSECSTaskFamilyKey = attribute.Key("aws.ecs.task.family") + // Stability: experimental + // Examples: 'a3bf90e006b2' + ContainerIDKey = attribute.Key("container.id") - // AWSECSTaskRevisionKey is the attribute Key conforming to the - // "aws.ecs.task.revision" semantic conventions. It represents the revision - // for this task definition. + // ContainerImageIDKey is the attribute Key conforming to the + // "container.image.id" semantic conventions. It represents the runtime + // specific image identifier. Usually a hash algorithm followed by a UUID. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '8', '26' - AWSECSTaskRevisionKey = attribute.Key("aws.ecs.task.revision") -) - -var ( - // ec2 - AWSECSLaunchtypeEC2 = AWSECSLaunchtypeKey.String("ec2") - // fargate - AWSECSLaunchtypeFargate = AWSECSLaunchtypeKey.String("fargate") -) - -// AWSECSContainerARN returns an attribute KeyValue conforming to the -// "aws.ecs.container.arn" semantic conventions. It represents the Amazon -// Resource Name (ARN) of an [ECS container -// instance](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html). -func AWSECSContainerARN(val string) attribute.KeyValue { - return AWSECSContainerARNKey.String(val) -} - -// AWSECSClusterARN returns an attribute KeyValue conforming to the -// "aws.ecs.cluster.arn" semantic conventions. It represents the ARN of an [ECS -// cluster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/clusters.html). -func AWSECSClusterARN(val string) attribute.KeyValue { - return AWSECSClusterARNKey.String(val) -} - -// AWSECSTaskARN returns an attribute KeyValue conforming to the -// "aws.ecs.task.arn" semantic conventions. It represents the ARN of an [ECS -// task -// definition](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html). -func AWSECSTaskARN(val string) attribute.KeyValue { - return AWSECSTaskARNKey.String(val) -} - -// AWSECSTaskFamily returns an attribute KeyValue conforming to the -// "aws.ecs.task.family" semantic conventions. It represents the task -// definition family this task definition is a member of. -func AWSECSTaskFamily(val string) attribute.KeyValue { - return AWSECSTaskFamilyKey.String(val) -} - -// AWSECSTaskRevision returns an attribute KeyValue conforming to the -// "aws.ecs.task.revision" semantic conventions. It represents the revision for -// this task definition. -func AWSECSTaskRevision(val string) attribute.KeyValue { - return AWSECSTaskRevisionKey.String(val) -} + // Stability: experimental + // Examples: + // 'sha256:19c92d0a00d1b66d897bceaa7319bee0dd38a10a851c60bcec9474aa3f01e50f' + // Note: Docker defines a sha256 of the image id; `container.image.id` + // corresponds to the `Image` field from the Docker container inspect + // [API](https://docs.docker.com/engine/api/v1.43/#tag/Container/operation/ContainerInspect) + // endpoint. + // K8S defines a link to the container registry repository with digest + // `"imageID": "registry.azurecr.io + // /namespace/service/dockerfile@sha256:bdeabd40c3a8a492eaf9e8e44d0ebbb84bac7ee25ac0cf8a7159d25f62555625"`. + // The ID is assinged by the container runtime and can vary in different + // environments. Consider using `oci.manifest.digest` if it is important to + // identify the same image in different environments/runtimes. + ContainerImageIDKey = attribute.Key("container.image.id") -// Resources used by AWS Elastic Kubernetes Service (EKS). -const ( - // AWSEKSClusterARNKey is the attribute Key conforming to the - // "aws.eks.cluster.arn" semantic conventions. It represents the ARN of an - // EKS cluster. + // ContainerImageNameKey is the attribute Key conforming to the + // "container.image.name" semantic conventions. It represents the name of + // the image the container was built on. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'arn:aws:ecs:us-west-2:123456789123:cluster/my-cluster' - AWSEKSClusterARNKey = attribute.Key("aws.eks.cluster.arn") -) - -// AWSEKSClusterARN returns an attribute KeyValue conforming to the -// "aws.eks.cluster.arn" semantic conventions. It represents the ARN of an EKS -// cluster. -func AWSEKSClusterARN(val string) attribute.KeyValue { - return AWSEKSClusterARNKey.String(val) -} + // Stability: experimental + // Examples: 'gcr.io/opentelemetry/operator' + ContainerImageNameKey = attribute.Key("container.image.name") -// Resources specific to Amazon Web Services. -const ( - // AWSLogGroupNamesKey is the attribute Key conforming to the - // "aws.log.group.names" semantic conventions. It represents the name(s) of - // the AWS log group(s) an application is writing to. + // ContainerImageRepoDigestsKey is the attribute Key conforming to the + // "container.image.repo_digests" semantic conventions. It represents the + // repo digests of the container image as provided by the container + // runtime. // // Type: string[] // RequirementLevel: Optional - // Stability: stable - // Examples: '/aws/lambda/my-function', 'opentelemetry-service' - // Note: Multiple log groups must be supported for cases like - // multi-container applications, where a single application has sidecar - // containers, and each write to their own log group. - AWSLogGroupNamesKey = attribute.Key("aws.log.group.names") - - // AWSLogGroupARNsKey is the attribute Key conforming to the - // "aws.log.group.arns" semantic conventions. It represents the Amazon - // Resource Name(s) (ARN) of the AWS log group(s). + // Stability: experimental + // Examples: + // 'example@sha256:afcc7f1ac1b49db317a7196c902e61c6c3c4607d63599ee1a82d702d249a0ccb', + // 'internal.registry.example.com:5000/example@sha256:b69959407d21e8a062e0416bf13405bb2b71ed7a84dde4158ebafacfa06f5578' + // Note: + // [Docker](https://docs.docker.com/engine/api/v1.43/#tag/Image/operation/ImageInspect) + // and + // [CRI](https://github.com/kubernetes/cri-api/blob/c75ef5b473bbe2d0a4fc92f82235efd665ea8e9f/pkg/apis/runtime/v1/api.proto#L1237-L1238) + // report those under the `RepoDigests` field. + ContainerImageRepoDigestsKey = attribute.Key("container.image.repo_digests") + + // ContainerImageTagsKey is the attribute Key conforming to the + // "container.image.tags" semantic conventions. It represents the container + // image tags. An example can be found in [Docker Image + // Inspect](https://docs.docker.com/engine/api/v1.43/#tag/Image/operation/ImageInspect). + // Should be only the `` section of the full name for example from + // `registry.example.com/my-org/my-image:`. // // Type: string[] // RequirementLevel: Optional - // Stability: stable - // Examples: - // 'arn:aws:logs:us-west-1:123456789012:log-group:/aws/my/group:*' - // Note: See the [log group ARN format - // documentation](https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/iam-access-control-overview-cwl.html#CWL_ARN_Format). - AWSLogGroupARNsKey = attribute.Key("aws.log.group.arns") + // Stability: experimental + // Examples: 'v1.27.1', '3.5.7-0' + ContainerImageTagsKey = attribute.Key("container.image.tags") - // AWSLogStreamNamesKey is the attribute Key conforming to the - // "aws.log.stream.names" semantic conventions. It represents the name(s) - // of the AWS log stream(s) an application is writing to. + // ContainerNameKey is the attribute Key conforming to the "container.name" + // semantic conventions. It represents the container name used by container + // runtime. // - // Type: string[] + // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'logs/main/10838bed-421f-43ef-870a-f43feacbbb5b' - AWSLogStreamNamesKey = attribute.Key("aws.log.stream.names") + // Stability: experimental + // Examples: 'opentelemetry-autoconf' + ContainerNameKey = attribute.Key("container.name") - // AWSLogStreamARNsKey is the attribute Key conforming to the - // "aws.log.stream.arns" semantic conventions. It represents the ARN(s) of - // the AWS log stream(s). + // ContainerRuntimeKey is the attribute Key conforming to the + // "container.runtime" semantic conventions. It represents the container + // runtime managing this container. // - // Type: string[] + // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: - // 'arn:aws:logs:us-west-1:123456789012:log-group:/aws/my/group:log-stream:logs/main/10838bed-421f-43ef-870a-f43feacbbb5b' - // Note: See the [log stream ARN format - // documentation](https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/iam-access-control-overview-cwl.html#CWL_ARN_Format). - // One log group can contain several log streams, so these ARNs necessarily - // identify both a log group and a log stream. - AWSLogStreamARNsKey = attribute.Key("aws.log.stream.arns") + // Stability: experimental + // Examples: 'docker', 'containerd', 'rkt' + ContainerRuntimeKey = attribute.Key("container.runtime") ) -// AWSLogGroupNames returns an attribute KeyValue conforming to the -// "aws.log.group.names" semantic conventions. It represents the name(s) of the -// AWS log group(s) an application is writing to. -func AWSLogGroupNames(val ...string) attribute.KeyValue { - return AWSLogGroupNamesKey.StringSlice(val) +// ContainerCommand returns an attribute KeyValue conforming to the +// "container.command" semantic conventions. It represents the command used to +// run the container (i.e. the command name). +func ContainerCommand(val string) attribute.KeyValue { + return ContainerCommandKey.String(val) } -// AWSLogGroupARNs returns an attribute KeyValue conforming to the -// "aws.log.group.arns" semantic conventions. It represents the Amazon Resource -// Name(s) (ARN) of the AWS log group(s). -func AWSLogGroupARNs(val ...string) attribute.KeyValue { - return AWSLogGroupARNsKey.StringSlice(val) +// ContainerCommandArgs returns an attribute KeyValue conforming to the +// "container.command_args" semantic conventions. It represents the all the +// command arguments (including the command/executable itself) run by the +// container. [2] +func ContainerCommandArgs(val ...string) attribute.KeyValue { + return ContainerCommandArgsKey.StringSlice(val) } -// AWSLogStreamNames returns an attribute KeyValue conforming to the -// "aws.log.stream.names" semantic conventions. It represents the name(s) of -// the AWS log stream(s) an application is writing to. -func AWSLogStreamNames(val ...string) attribute.KeyValue { - return AWSLogStreamNamesKey.StringSlice(val) +// ContainerCommandLine returns an attribute KeyValue conforming to the +// "container.command_line" semantic conventions. It represents the full +// command run by the container as a single string representing the full +// command. [2] +func ContainerCommandLine(val string) attribute.KeyValue { + return ContainerCommandLineKey.String(val) } -// AWSLogStreamARNs returns an attribute KeyValue conforming to the -// "aws.log.stream.arns" semantic conventions. It represents the ARN(s) of the -// AWS log stream(s). -func AWSLogStreamARNs(val ...string) attribute.KeyValue { - return AWSLogStreamARNsKey.StringSlice(val) +// ContainerID returns an attribute KeyValue conforming to the +// "container.id" semantic conventions. It represents the container ID. Usually +// a UUID, as for example used to [identify Docker +// containers](https://docs.docker.com/engine/reference/run/#container-identification). +// The UUID might be abbreviated. +func ContainerID(val string) attribute.KeyValue { + return ContainerIDKey.String(val) } -// Resource used by Google Cloud Run. -const ( - // GCPCloudRunJobExecutionKey is the attribute Key conforming to the - // "gcp.cloud_run.job.execution" semantic conventions. It represents the - // name of the Cloud Run - // [execution](https://cloud.google.com/run/docs/managing/job-executions) - // being run for the Job, as set by the - // [`CLOUD_RUN_EXECUTION`](https://cloud.google.com/run/docs/container-contract#jobs-env-vars) - // environment variable. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'job-name-xxxx', 'sample-job-mdw84' - GCPCloudRunJobExecutionKey = attribute.Key("gcp.cloud_run.job.execution") +// ContainerImageID returns an attribute KeyValue conforming to the +// "container.image.id" semantic conventions. It represents the runtime +// specific image identifier. Usually a hash algorithm followed by a UUID. +func ContainerImageID(val string) attribute.KeyValue { + return ContainerImageIDKey.String(val) +} - // GCPCloudRunJobTaskIndexKey is the attribute Key conforming to the - // "gcp.cloud_run.job.task_index" semantic conventions. It represents the - // index for a task within an execution as provided by the - // [`CLOUD_RUN_TASK_INDEX`](https://cloud.google.com/run/docs/container-contract#jobs-env-vars) - // environment variable. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 0, 1 - GCPCloudRunJobTaskIndexKey = attribute.Key("gcp.cloud_run.job.task_index") -) +// ContainerImageName returns an attribute KeyValue conforming to the +// "container.image.name" semantic conventions. It represents the name of the +// image the container was built on. +func ContainerImageName(val string) attribute.KeyValue { + return ContainerImageNameKey.String(val) +} -// GCPCloudRunJobExecution returns an attribute KeyValue conforming to the -// "gcp.cloud_run.job.execution" semantic conventions. It represents the name -// of the Cloud Run -// [execution](https://cloud.google.com/run/docs/managing/job-executions) being -// run for the Job, as set by the -// [`CLOUD_RUN_EXECUTION`](https://cloud.google.com/run/docs/container-contract#jobs-env-vars) -// environment variable. -func GCPCloudRunJobExecution(val string) attribute.KeyValue { - return GCPCloudRunJobExecutionKey.String(val) +// ContainerImageRepoDigests returns an attribute KeyValue conforming to the +// "container.image.repo_digests" semantic conventions. It represents the repo +// digests of the container image as provided by the container runtime. +func ContainerImageRepoDigests(val ...string) attribute.KeyValue { + return ContainerImageRepoDigestsKey.StringSlice(val) } -// GCPCloudRunJobTaskIndex returns an attribute KeyValue conforming to the -// "gcp.cloud_run.job.task_index" semantic conventions. It represents the index -// for a task within an execution as provided by the -// [`CLOUD_RUN_TASK_INDEX`](https://cloud.google.com/run/docs/container-contract#jobs-env-vars) -// environment variable. -func GCPCloudRunJobTaskIndex(val int) attribute.KeyValue { - return GCPCloudRunJobTaskIndexKey.Int(val) +// ContainerImageTags returns an attribute KeyValue conforming to the +// "container.image.tags" semantic conventions. It represents the container +// image tags. An example can be found in [Docker Image +// Inspect](https://docs.docker.com/engine/api/v1.43/#tag/Image/operation/ImageInspect). +// Should be only the `` section of the full name for example from +// `registry.example.com/my-org/my-image:`. +func ContainerImageTags(val ...string) attribute.KeyValue { + return ContainerImageTagsKey.StringSlice(val) } -// Resources used by Google Compute Engine (GCE). +// ContainerName returns an attribute KeyValue conforming to the +// "container.name" semantic conventions. It represents the container name used +// by container runtime. +func ContainerName(val string) attribute.KeyValue { + return ContainerNameKey.String(val) +} + +// ContainerRuntime returns an attribute KeyValue conforming to the +// "container.runtime" semantic conventions. It represents the container +// runtime managing this container. +func ContainerRuntime(val string) attribute.KeyValue { + return ContainerRuntimeKey.String(val) +} + +// Describes device attributes. const ( - // GCPGceInstanceNameKey is the attribute Key conforming to the - // "gcp.gce.instance.name" semantic conventions. It represents the instance - // name of a GCE instance. This is the value provided by `host.name`, the - // visible name of the instance in the Cloud Console UI, and the prefix for - // the default hostname of the instance as defined by the [default internal - // DNS - // name](https://cloud.google.com/compute/docs/internal-dns#instance-fully-qualified-domain-names). + // DeviceIDKey is the attribute Key conforming to the "device.id" semantic + // conventions. It represents a unique identifier representing the device // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'instance-1', 'my-vm-name' - GCPGceInstanceNameKey = attribute.Key("gcp.gce.instance.name") - - // GCPGceInstanceHostnameKey is the attribute Key conforming to the - // "gcp.gce.instance.hostname" semantic conventions. It represents the - // hostname of a GCE instance. This is the full value of the default or - // [custom - // hostname](https://cloud.google.com/compute/docs/instances/custom-hostname-vm). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'my-host1234.example.com', - // 'sample-vm.us-west1-b.c.my-project.internal' - GCPGceInstanceHostnameKey = attribute.Key("gcp.gce.instance.hostname") -) - -// GCPGceInstanceName returns an attribute KeyValue conforming to the -// "gcp.gce.instance.name" semantic conventions. It represents the instance -// name of a GCE instance. This is the value provided by `host.name`, the -// visible name of the instance in the Cloud Console UI, and the prefix for the -// default hostname of the instance as defined by the [default internal DNS -// name](https://cloud.google.com/compute/docs/internal-dns#instance-fully-qualified-domain-names). -func GCPGceInstanceName(val string) attribute.KeyValue { - return GCPGceInstanceNameKey.String(val) -} - -// GCPGceInstanceHostname returns an attribute KeyValue conforming to the -// "gcp.gce.instance.hostname" semantic conventions. It represents the hostname -// of a GCE instance. This is the full value of the default or [custom -// hostname](https://cloud.google.com/compute/docs/instances/custom-hostname-vm). -func GCPGceInstanceHostname(val string) attribute.KeyValue { - return GCPGceInstanceHostnameKey.String(val) -} + // Stability: experimental + // Examples: '2ab2916d-a51f-4ac8-80ee-45ac31a28092' + // Note: The device identifier MUST only be defined using the values + // outlined below. This value is not an advertising identifier and MUST NOT + // be used as such. On iOS (Swift or Objective-C), this value MUST be equal + // to the [vendor + // identifier](https://developer.apple.com/documentation/uikit/uidevice/1620059-identifierforvendor). + // On Android (Java or Kotlin), this value MUST be equal to the Firebase + // Installation ID or a globally unique UUID which is persisted across + // sessions in your application. More information can be found + // [here](https://developer.android.com/training/articles/user-data-ids) on + // best practices and exact implementation details. Caution should be taken + // when storing personal data or anything which can identify a user. GDPR + // and data protection laws may apply, ensure you do your own due + // diligence. + DeviceIDKey = attribute.Key("device.id") -// Heroku dyno metadata -const ( - // HerokuReleaseCreationTimestampKey is the attribute Key conforming to the - // "heroku.release.creation_timestamp" semantic conventions. It represents - // the time and date the release was created + // DeviceManufacturerKey is the attribute Key conforming to the + // "device.manufacturer" semantic conventions. It represents the name of + // the device manufacturer // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '2022-10-23T18:00:42Z' - HerokuReleaseCreationTimestampKey = attribute.Key("heroku.release.creation_timestamp") + // Stability: experimental + // Examples: 'Apple', 'Samsung' + // Note: The Android OS provides this field via + // [Build](https://developer.android.com/reference/android/os/Build#MANUFACTURER). + // iOS apps SHOULD hardcode the value `Apple`. + DeviceManufacturerKey = attribute.Key("device.manufacturer") - // HerokuReleaseCommitKey is the attribute Key conforming to the - // "heroku.release.commit" semantic conventions. It represents the commit - // hash for the current release + // DeviceModelIdentifierKey is the attribute Key conforming to the + // "device.model.identifier" semantic conventions. It represents the model + // identifier for the device // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'e6134959463efd8966b20e75b913cafe3f5ec' - HerokuReleaseCommitKey = attribute.Key("heroku.release.commit") + // Stability: experimental + // Examples: 'iPhone3,4', 'SM-G920F' + // Note: It's recommended this value represents a machine-readable version + // of the model identifier rather than the market or consumer-friendly name + // of the device. + DeviceModelIdentifierKey = attribute.Key("device.model.identifier") - // HerokuAppIDKey is the attribute Key conforming to the "heroku.app.id" - // semantic conventions. It represents the unique identifier for the - // application + // DeviceModelNameKey is the attribute Key conforming to the + // "device.model.name" semantic conventions. It represents the marketing + // name for the device model // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '2daa2797-e42b-4624-9322-ec3f968df4da' - HerokuAppIDKey = attribute.Key("heroku.app.id") + // Stability: experimental + // Examples: 'iPhone 6s Plus', 'Samsung Galaxy S6' + // Note: It's recommended this value represents a human-readable version of + // the device model rather than a machine-readable alternative. + DeviceModelNameKey = attribute.Key("device.model.name") ) -// HerokuReleaseCreationTimestamp returns an attribute KeyValue conforming -// to the "heroku.release.creation_timestamp" semantic conventions. It -// represents the time and date the release was created -func HerokuReleaseCreationTimestamp(val string) attribute.KeyValue { - return HerokuReleaseCreationTimestampKey.String(val) +// DeviceID returns an attribute KeyValue conforming to the "device.id" +// semantic conventions. It represents a unique identifier representing the +// device +func DeviceID(val string) attribute.KeyValue { + return DeviceIDKey.String(val) } -// HerokuReleaseCommit returns an attribute KeyValue conforming to the -// "heroku.release.commit" semantic conventions. It represents the commit hash -// for the current release -func HerokuReleaseCommit(val string) attribute.KeyValue { - return HerokuReleaseCommitKey.String(val) +// DeviceManufacturer returns an attribute KeyValue conforming to the +// "device.manufacturer" semantic conventions. It represents the name of the +// device manufacturer +func DeviceManufacturer(val string) attribute.KeyValue { + return DeviceManufacturerKey.String(val) } -// HerokuAppID returns an attribute KeyValue conforming to the -// "heroku.app.id" semantic conventions. It represents the unique identifier -// for the application -func HerokuAppID(val string) attribute.KeyValue { - return HerokuAppIDKey.String(val) +// DeviceModelIdentifier returns an attribute KeyValue conforming to the +// "device.model.identifier" semantic conventions. It represents the model +// identifier for the device +func DeviceModelIdentifier(val string) attribute.KeyValue { + return DeviceModelIdentifierKey.String(val) } -// A container instance. +// DeviceModelName returns an attribute KeyValue conforming to the +// "device.model.name" semantic conventions. It represents the marketing name +// for the device model +func DeviceModelName(val string) attribute.KeyValue { + return DeviceModelNameKey.String(val) +} + +// A host is defined as a computing instance. For example, physical servers, +// virtual machines, switches or disk array. const ( - // ContainerNameKey is the attribute Key conforming to the "container.name" - // semantic conventions. It represents the container name used by container - // runtime. + // HostArchKey is the attribute Key conforming to the "host.arch" semantic + // conventions. It represents the CPU architecture the host system is + // running on. + // + // Type: Enum + // RequirementLevel: Optional + // Stability: experimental + HostArchKey = attribute.Key("host.arch") + + // HostCPUCacheL2SizeKey is the attribute Key conforming to the + // "host.cpu.cache.l2.size" semantic conventions. It represents the amount + // of level 2 memory cache available to the processor (in Bytes). + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 12288000 + HostCPUCacheL2SizeKey = attribute.Key("host.cpu.cache.l2.size") + + // HostCPUFamilyKey is the attribute Key conforming to the + // "host.cpu.family" semantic conventions. It represents the family or + // generation of the CPU. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry-autoconf' - ContainerNameKey = attribute.Key("container.name") + // Stability: experimental + // Examples: '6', 'PA-RISC 1.1e' + HostCPUFamilyKey = attribute.Key("host.cpu.family") - // ContainerIDKey is the attribute Key conforming to the "container.id" - // semantic conventions. It represents the container ID. Usually a UUID, as - // for example used to [identify Docker - // containers](https://docs.docker.com/engine/reference/run/#container-identification). - // The UUID might be abbreviated. + // HostCPUModelIDKey is the attribute Key conforming to the + // "host.cpu.model.id" semantic conventions. It represents the model + // identifier. It provides more granular information about the CPU, + // distinguishing it from other CPUs within the same family. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'a3bf90e006b2' - ContainerIDKey = attribute.Key("container.id") + // Stability: experimental + // Examples: '6', '9000/778/B180L' + HostCPUModelIDKey = attribute.Key("host.cpu.model.id") - // ContainerRuntimeKey is the attribute Key conforming to the - // "container.runtime" semantic conventions. It represents the container - // runtime managing this container. + // HostCPUModelNameKey is the attribute Key conforming to the + // "host.cpu.model.name" semantic conventions. It represents the model + // designation of the processor. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'docker', 'containerd', 'rkt' - ContainerRuntimeKey = attribute.Key("container.runtime") + // Stability: experimental + // Examples: '11th Gen Intel(R) Core(TM) i7-1185G7 @ 3.00GHz' + HostCPUModelNameKey = attribute.Key("host.cpu.model.name") - // ContainerImageNameKey is the attribute Key conforming to the - // "container.image.name" semantic conventions. It represents the name of - // the image the container was built on. + // HostCPUSteppingKey is the attribute Key conforming to the + // "host.cpu.stepping" semantic conventions. It represents the stepping or + // core revisions. + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 1 + HostCPUSteppingKey = attribute.Key("host.cpu.stepping") + + // HostCPUVendorIDKey is the attribute Key conforming to the + // "host.cpu.vendor.id" semantic conventions. It represents the processor + // manufacturer identifier. A maximum 12-character string. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'gcr.io/opentelemetry/operator' - ContainerImageNameKey = attribute.Key("container.image.name") + // Stability: experimental + // Examples: 'GenuineIntel' + // Note: [CPUID](https://wiki.osdev.org/CPUID) command returns the vendor + // ID string in EBX, EDX and ECX registers. Writing these to memory in this + // order results in a 12-character string. + HostCPUVendorIDKey = attribute.Key("host.cpu.vendor.id") - // ContainerImageTagKey is the attribute Key conforming to the - // "container.image.tag" semantic conventions. It represents the container - // image tag. + // HostIDKey is the attribute Key conforming to the "host.id" semantic + // conventions. It represents the unique host ID. For Cloud, this must be + // the instance_id assigned by the cloud provider. For non-containerized + // systems, this should be the `machine-id`. See the table below for the + // sources to use to determine the `machine-id` based on operating system. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '0.1' - ContainerImageTagKey = attribute.Key("container.image.tag") + // Stability: experimental + // Examples: 'fdbf79e8af94cb7f9e8df36789187052' + HostIDKey = attribute.Key("host.id") - // ContainerImageIDKey is the attribute Key conforming to the - // "container.image.id" semantic conventions. It represents the runtime - // specific image identifier. Usually a hash algorithm followed by a UUID. + // HostImageIDKey is the attribute Key conforming to the "host.image.id" + // semantic conventions. It represents the vM image ID or host OS image ID. + // For Cloud, this value is from the provider. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: - // 'sha256:19c92d0a00d1b66d897bceaa7319bee0dd38a10a851c60bcec9474aa3f01e50f' - // Note: Docker defines a sha256 of the image id; `container.image.id` - // corresponds to the `Image` field from the Docker container inspect - // [API](https://docs.docker.com/engine/api/v1.43/#tag/Container/operation/ContainerInspect) - // endpoint. - // K8S defines a link to the container registry repository with digest - // `"imageID": "registry.azurecr.io - // /namespace/service/dockerfile@sha256:bdeabd40c3a8a492eaf9e8e44d0ebbb84bac7ee25ac0cf8a7159d25f62555625"`. - // OCI defines a digest of manifest. - ContainerImageIDKey = attribute.Key("container.image.id") + // Stability: experimental + // Examples: 'ami-07b06b442921831e5' + HostImageIDKey = attribute.Key("host.image.id") - // ContainerCommandKey is the attribute Key conforming to the - // "container.command" semantic conventions. It represents the command used - // to run the container (i.e. the command name). + // HostImageNameKey is the attribute Key conforming to the + // "host.image.name" semantic conventions. It represents the name of the VM + // image or OS install the host was instantiated from. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'otelcontribcol' - // Note: If using embedded credentials or sensitive data, it is recommended - // to remove them to prevent potential leakage. - ContainerCommandKey = attribute.Key("container.command") + // Stability: experimental + // Examples: 'infra-ami-eks-worker-node-7d4ec78312', 'CentOS-8-x86_64-1905' + HostImageNameKey = attribute.Key("host.image.name") - // ContainerCommandLineKey is the attribute Key conforming to the - // "container.command_line" semantic conventions. It represents the full - // command run by the container as a single string representing the full - // command. [2] + // HostImageVersionKey is the attribute Key conforming to the + // "host.image.version" semantic conventions. It represents the version + // string of the VM image or host OS as defined in [Version + // Attributes](/docs/resource/README.md#version-attributes). // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'otelcontribcol --config config.yaml' - ContainerCommandLineKey = attribute.Key("container.command_line") + // Stability: experimental + // Examples: '0.1' + HostImageVersionKey = attribute.Key("host.image.version") - // ContainerCommandArgsKey is the attribute Key conforming to the - // "container.command_args" semantic conventions. It represents the all the - // command arguments (including the command/executable itself) run by the - // container. [2] + // HostIPKey is the attribute Key conforming to the "host.ip" semantic + // conventions. It represents the available IP addresses of the host, + // excluding loopback interfaces. // // Type: string[] // RequirementLevel: Optional - // Stability: stable - // Examples: 'otelcontribcol, --config, config.yaml' - ContainerCommandArgsKey = attribute.Key("container.command_args") -) + // Stability: experimental + // Examples: '192.168.1.140', 'fe80::abc2:4a28:737a:609e' + // Note: IPv4 Addresses MUST be specified in dotted-quad notation. IPv6 + // addresses MUST be specified in the [RFC + // 5952](https://www.rfc-editor.org/rfc/rfc5952.html) format. + HostIPKey = attribute.Key("host.ip") -// ContainerName returns an attribute KeyValue conforming to the -// "container.name" semantic conventions. It represents the container name used -// by container runtime. -func ContainerName(val string) attribute.KeyValue { - return ContainerNameKey.String(val) -} + // HostMacKey is the attribute Key conforming to the "host.mac" semantic + // conventions. It represents the available MAC addresses of the host, + // excluding loopback interfaces. + // + // Type: string[] + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'AC-DE-48-23-45-67', 'AC-DE-48-23-45-67-01-9F' + // Note: MAC Addresses MUST be represented in [IEEE RA hexadecimal + // form](https://standards.ieee.org/wp-content/uploads/import/documents/tutorials/eui.pdf): + // as hyphen-separated octets in uppercase hexadecimal form from most to + // least significant. + HostMacKey = attribute.Key("host.mac") -// ContainerID returns an attribute KeyValue conforming to the -// "container.id" semantic conventions. It represents the container ID. Usually -// a UUID, as for example used to [identify Docker -// containers](https://docs.docker.com/engine/reference/run/#container-identification). -// The UUID might be abbreviated. -func ContainerID(val string) attribute.KeyValue { - return ContainerIDKey.String(val) -} + // HostNameKey is the attribute Key conforming to the "host.name" semantic + // conventions. It represents the name of the host. On Unix systems, it may + // contain what the hostname command returns, or the fully qualified + // hostname, or another name specified by the user. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'opentelemetry-test' + HostNameKey = attribute.Key("host.name") -// ContainerRuntime returns an attribute KeyValue conforming to the -// "container.runtime" semantic conventions. It represents the container -// runtime managing this container. -func ContainerRuntime(val string) attribute.KeyValue { - return ContainerRuntimeKey.String(val) -} + // HostTypeKey is the attribute Key conforming to the "host.type" semantic + // conventions. It represents the type of host. For Cloud, this must be the + // machine type. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'n1-standard-1' + HostTypeKey = attribute.Key("host.type") +) -// ContainerImageName returns an attribute KeyValue conforming to the -// "container.image.name" semantic conventions. It represents the name of the -// image the container was built on. -func ContainerImageName(val string) attribute.KeyValue { - return ContainerImageNameKey.String(val) -} +var ( + // AMD64 + HostArchAMD64 = HostArchKey.String("amd64") + // ARM32 + HostArchARM32 = HostArchKey.String("arm32") + // ARM64 + HostArchARM64 = HostArchKey.String("arm64") + // Itanium + HostArchIA64 = HostArchKey.String("ia64") + // 32-bit PowerPC + HostArchPPC32 = HostArchKey.String("ppc32") + // 64-bit PowerPC + HostArchPPC64 = HostArchKey.String("ppc64") + // IBM z/Architecture + HostArchS390x = HostArchKey.String("s390x") + // 32-bit x86 + HostArchX86 = HostArchKey.String("x86") +) -// ContainerImageTag returns an attribute KeyValue conforming to the -// "container.image.tag" semantic conventions. It represents the container -// image tag. -func ContainerImageTag(val string) attribute.KeyValue { - return ContainerImageTagKey.String(val) +// HostCPUCacheL2Size returns an attribute KeyValue conforming to the +// "host.cpu.cache.l2.size" semantic conventions. It represents the amount of +// level 2 memory cache available to the processor (in Bytes). +func HostCPUCacheL2Size(val int) attribute.KeyValue { + return HostCPUCacheL2SizeKey.Int(val) } -// ContainerImageID returns an attribute KeyValue conforming to the -// "container.image.id" semantic conventions. It represents the runtime -// specific image identifier. Usually a hash algorithm followed by a UUID. -func ContainerImageID(val string) attribute.KeyValue { - return ContainerImageIDKey.String(val) +// HostCPUFamily returns an attribute KeyValue conforming to the +// "host.cpu.family" semantic conventions. It represents the family or +// generation of the CPU. +func HostCPUFamily(val string) attribute.KeyValue { + return HostCPUFamilyKey.String(val) } -// ContainerCommand returns an attribute KeyValue conforming to the -// "container.command" semantic conventions. It represents the command used to -// run the container (i.e. the command name). -func ContainerCommand(val string) attribute.KeyValue { - return ContainerCommandKey.String(val) +// HostCPUModelID returns an attribute KeyValue conforming to the +// "host.cpu.model.id" semantic conventions. It represents the model +// identifier. It provides more granular information about the CPU, +// distinguishing it from other CPUs within the same family. +func HostCPUModelID(val string) attribute.KeyValue { + return HostCPUModelIDKey.String(val) } -// ContainerCommandLine returns an attribute KeyValue conforming to the -// "container.command_line" semantic conventions. It represents the full -// command run by the container as a single string representing the full -// command. [2] -func ContainerCommandLine(val string) attribute.KeyValue { - return ContainerCommandLineKey.String(val) +// HostCPUModelName returns an attribute KeyValue conforming to the +// "host.cpu.model.name" semantic conventions. It represents the model +// designation of the processor. +func HostCPUModelName(val string) attribute.KeyValue { + return HostCPUModelNameKey.String(val) } -// ContainerCommandArgs returns an attribute KeyValue conforming to the -// "container.command_args" semantic conventions. It represents the all the -// command arguments (including the command/executable itself) run by the -// container. [2] -func ContainerCommandArgs(val ...string) attribute.KeyValue { - return ContainerCommandArgsKey.StringSlice(val) +// HostCPUStepping returns an attribute KeyValue conforming to the +// "host.cpu.stepping" semantic conventions. It represents the stepping or core +// revisions. +func HostCPUStepping(val int) attribute.KeyValue { + return HostCPUSteppingKey.Int(val) } -// The software deployment. -const ( - // DeploymentEnvironmentKey is the attribute Key conforming to the - // "deployment.environment" semantic conventions. It represents the name of - // the [deployment - // environment](https://en.wikipedia.org/wiki/Deployment_environment) (aka - // deployment tier). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'staging', 'production' - DeploymentEnvironmentKey = attribute.Key("deployment.environment") -) - -// DeploymentEnvironment returns an attribute KeyValue conforming to the -// "deployment.environment" semantic conventions. It represents the name of the -// [deployment -// environment](https://en.wikipedia.org/wiki/Deployment_environment) (aka -// deployment tier). -func DeploymentEnvironment(val string) attribute.KeyValue { - return DeploymentEnvironmentKey.String(val) +// HostCPUVendorID returns an attribute KeyValue conforming to the +// "host.cpu.vendor.id" semantic conventions. It represents the processor +// manufacturer identifier. A maximum 12-character string. +func HostCPUVendorID(val string) attribute.KeyValue { + return HostCPUVendorIDKey.String(val) } -// The device on which the process represented by this resource is running. -const ( - // DeviceIDKey is the attribute Key conforming to the "device.id" semantic - // conventions. It represents a unique identifier representing the device - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '2ab2916d-a51f-4ac8-80ee-45ac31a28092' - // Note: The device identifier MUST only be defined using the values - // outlined below. This value is not an advertising identifier and MUST NOT - // be used as such. On iOS (Swift or Objective-C), this value MUST be equal - // to the [vendor - // identifier](https://developer.apple.com/documentation/uikit/uidevice/1620059-identifierforvendor). - // On Android (Java or Kotlin), this value MUST be equal to the Firebase - // Installation ID or a globally unique UUID which is persisted across - // sessions in your application. More information can be found - // [here](https://developer.android.com/training/articles/user-data-ids) on - // best practices and exact implementation details. Caution should be taken - // when storing personal data or anything which can identify a user. GDPR - // and data protection laws may apply, ensure you do your own due - // diligence. - DeviceIDKey = attribute.Key("device.id") +// HostID returns an attribute KeyValue conforming to the "host.id" semantic +// conventions. It represents the unique host ID. For Cloud, this must be the +// instance_id assigned by the cloud provider. For non-containerized systems, +// this should be the `machine-id`. See the table below for the sources to use +// to determine the `machine-id` based on operating system. +func HostID(val string) attribute.KeyValue { + return HostIDKey.String(val) +} - // DeviceModelIdentifierKey is the attribute Key conforming to the - // "device.model.identifier" semantic conventions. It represents the model - // identifier for the device - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'iPhone3,4', 'SM-G920F' - // Note: It's recommended this value represents a machine readable version - // of the model identifier rather than the market or consumer-friendly name - // of the device. - DeviceModelIdentifierKey = attribute.Key("device.model.identifier") +// HostImageID returns an attribute KeyValue conforming to the +// "host.image.id" semantic conventions. It represents the vM image ID or host +// OS image ID. For Cloud, this value is from the provider. +func HostImageID(val string) attribute.KeyValue { + return HostImageIDKey.String(val) +} - // DeviceModelNameKey is the attribute Key conforming to the - // "device.model.name" semantic conventions. It represents the marketing - // name for the device model - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'iPhone 6s Plus', 'Samsung Galaxy S6' - // Note: It's recommended this value represents a human readable version of - // the device model rather than a machine readable alternative. - DeviceModelNameKey = attribute.Key("device.model.name") +// HostImageName returns an attribute KeyValue conforming to the +// "host.image.name" semantic conventions. It represents the name of the VM +// image or OS install the host was instantiated from. +func HostImageName(val string) attribute.KeyValue { + return HostImageNameKey.String(val) +} - // DeviceManufacturerKey is the attribute Key conforming to the - // "device.manufacturer" semantic conventions. It represents the name of - // the device manufacturer - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'Apple', 'Samsung' - // Note: The Android OS provides this field via - // [Build](https://developer.android.com/reference/android/os/Build#MANUFACTURER). - // iOS apps SHOULD hardcode the value `Apple`. - DeviceManufacturerKey = attribute.Key("device.manufacturer") -) +// HostImageVersion returns an attribute KeyValue conforming to the +// "host.image.version" semantic conventions. It represents the version string +// of the VM image or host OS as defined in [Version +// Attributes](/docs/resource/README.md#version-attributes). +func HostImageVersion(val string) attribute.KeyValue { + return HostImageVersionKey.String(val) +} -// DeviceID returns an attribute KeyValue conforming to the "device.id" -// semantic conventions. It represents a unique identifier representing the -// device -func DeviceID(val string) attribute.KeyValue { - return DeviceIDKey.String(val) +// HostIP returns an attribute KeyValue conforming to the "host.ip" semantic +// conventions. It represents the available IP addresses of the host, excluding +// loopback interfaces. +func HostIP(val ...string) attribute.KeyValue { + return HostIPKey.StringSlice(val) } -// DeviceModelIdentifier returns an attribute KeyValue conforming to the -// "device.model.identifier" semantic conventions. It represents the model -// identifier for the device -func DeviceModelIdentifier(val string) attribute.KeyValue { - return DeviceModelIdentifierKey.String(val) +// HostMac returns an attribute KeyValue conforming to the "host.mac" +// semantic conventions. It represents the available MAC addresses of the host, +// excluding loopback interfaces. +func HostMac(val ...string) attribute.KeyValue { + return HostMacKey.StringSlice(val) } -// DeviceModelName returns an attribute KeyValue conforming to the -// "device.model.name" semantic conventions. It represents the marketing name -// for the device model -func DeviceModelName(val string) attribute.KeyValue { - return DeviceModelNameKey.String(val) +// HostName returns an attribute KeyValue conforming to the "host.name" +// semantic conventions. It represents the name of the host. On Unix systems, +// it may contain what the hostname command returns, or the fully qualified +// hostname, or another name specified by the user. +func HostName(val string) attribute.KeyValue { + return HostNameKey.String(val) } -// DeviceManufacturer returns an attribute KeyValue conforming to the -// "device.manufacturer" semantic conventions. It represents the name of the -// device manufacturer -func DeviceManufacturer(val string) attribute.KeyValue { - return DeviceManufacturerKey.String(val) +// HostType returns an attribute KeyValue conforming to the "host.type" +// semantic conventions. It represents the type of host. For Cloud, this must +// be the machine type. +func HostType(val string) attribute.KeyValue { + return HostTypeKey.String(val) } -// A serverless instance. +// Kubernetes resource attributes. const ( - // FaaSNameKey is the attribute Key conforming to the "faas.name" semantic - // conventions. It represents the name of the single function that this - // runtime instance executes. + // K8SClusterNameKey is the attribute Key conforming to the + // "k8s.cluster.name" semantic conventions. It represents the name of the + // cluster. // // Type: string - // RequirementLevel: Required - // Stability: stable - // Examples: 'my-function', 'myazurefunctionapp/some-function-name' - // Note: This is the name of the function as configured/deployed on the - // FaaS - // platform and is usually different from the name of the callback - // function (which may be stored in the - // [`code.namespace`/`code.function`](/docs/general/general-attributes.md#source-code-attributes) - // span attributes). - // - // For some cloud providers, the above definition is ambiguous. The - // following - // definition of function name MUST be used for this attribute - // (and consequently the span name) for the listed cloud - // providers/products: - // - // * **Azure:** The full name `/`, i.e., function app name - // followed by a forward slash followed by the function name (this form - // can also be seen in the resource JSON for the function). - // This means that a span attribute MUST be used, as an Azure function - // app can host multiple functions that would usually share - // a TracerProvider (see also the `cloud.resource_id` attribute). - FaaSNameKey = attribute.Key("faas.name") + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'opentelemetry-cluster' + K8SClusterNameKey = attribute.Key("k8s.cluster.name") - // FaaSVersionKey is the attribute Key conforming to the "faas.version" - // semantic conventions. It represents the immutable version of the - // function being executed. + // K8SClusterUIDKey is the attribute Key conforming to the + // "k8s.cluster.uid" semantic conventions. It represents a pseudo-ID for + // the cluster, set to the UID of the `kube-system` namespace. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '26', 'pinkfroid-00002' - // Note: Depending on the cloud provider and platform, use: + // Stability: experimental + // Examples: '218fc5a9-a5f1-4b54-aa05-46717d0ab26d' + // Note: K8S doesn't have support for obtaining a cluster ID. If this is + // ever + // added, we will recommend collecting the `k8s.cluster.uid` through the + // official APIs. In the meantime, we are able to use the `uid` of the + // `kube-system` namespace as a proxy for cluster ID. Read on for the + // rationale. // - // * **AWS Lambda:** The [function - // version](https://docs.aws.amazon.com/lambda/latest/dg/configuration-versions.html) - // (an integer represented as a decimal string). - // * **Google Cloud Run (Services):** The - // [revision](https://cloud.google.com/run/docs/managing/revisions) - // (i.e., the function name plus the revision suffix). - // * **Google Cloud Functions:** The value of the - // [`K_REVISION` environment - // variable](https://cloud.google.com/functions/docs/env-var#runtime_environment_variables_set_automatically). - // * **Azure Functions:** Not applicable. Do not set this attribute. - FaaSVersionKey = attribute.Key("faas.version") + // Every object created in a K8S cluster is assigned a distinct UID. The + // `kube-system` namespace is used by Kubernetes itself and will exist + // for the lifetime of the cluster. Using the `uid` of the `kube-system` + // namespace is a reasonable proxy for the K8S ClusterID as it will only + // change if the cluster is rebuilt. Furthermore, Kubernetes UIDs are + // UUIDs as standardized by + // [ISO/IEC 9834-8 and ITU-T + // X.667](https://www.itu.int/ITU-T/studygroups/com17/oid.html). + // Which states: + // + // > If generated according to one of the mechanisms defined in Rec. + // ITU-T X.667 | ISO/IEC 9834-8, a UUID is either guaranteed to be + // different from all other UUIDs generated before 3603 A.D., or is + // extremely likely to be different (depending on the mechanism chosen). + // + // Therefore, UIDs between clusters should be extremely unlikely to + // conflict. + K8SClusterUIDKey = attribute.Key("k8s.cluster.uid") - // FaaSInstanceKey is the attribute Key conforming to the "faas.instance" - // semantic conventions. It represents the execution environment ID as a - // string, that will be potentially reused for other invocations to the - // same function/function version. + // K8SContainerNameKey is the attribute Key conforming to the + // "k8s.container.name" semantic conventions. It represents the name of the + // Container from Pod specification, must be unique within a Pod. Container + // runtime usually uses different globally unique name (`container.name`). // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '2021/06/28/[$LATEST]2f399eb14537447da05ab2a2e39309de' - // Note: * **AWS Lambda:** Use the (full) log stream name. - FaaSInstanceKey = attribute.Key("faas.instance") + // Stability: experimental + // Examples: 'redis' + K8SContainerNameKey = attribute.Key("k8s.container.name") - // FaaSMaxMemoryKey is the attribute Key conforming to the - // "faas.max_memory" semantic conventions. It represents the amount of - // memory available to the serverless function converted to Bytes. + // K8SContainerRestartCountKey is the attribute Key conforming to the + // "k8s.container.restart_count" semantic conventions. It represents the + // number of times the container was restarted. This attribute can be used + // to identify a particular container (running or stopped) within a + // container spec. // // Type: int // RequirementLevel: Optional - // Stability: stable - // Examples: 134217728 - // Note: It's recommended to set this attribute since e.g. too little - // memory can easily stop a Java AWS Lambda function from working - // correctly. On AWS Lambda, the environment variable - // `AWS_LAMBDA_FUNCTION_MEMORY_SIZE` provides this information (which must - // be multiplied by 1,048,576). - FaaSMaxMemoryKey = attribute.Key("faas.max_memory") -) - -// FaaSName returns an attribute KeyValue conforming to the "faas.name" -// semantic conventions. It represents the name of the single function that -// this runtime instance executes. -func FaaSName(val string) attribute.KeyValue { - return FaaSNameKey.String(val) -} - -// FaaSVersion returns an attribute KeyValue conforming to the -// "faas.version" semantic conventions. It represents the immutable version of -// the function being executed. -func FaaSVersion(val string) attribute.KeyValue { - return FaaSVersionKey.String(val) -} - -// FaaSInstance returns an attribute KeyValue conforming to the -// "faas.instance" semantic conventions. It represents the execution -// environment ID as a string, that will be potentially reused for other -// invocations to the same function/function version. -func FaaSInstance(val string) attribute.KeyValue { - return FaaSInstanceKey.String(val) -} - -// FaaSMaxMemory returns an attribute KeyValue conforming to the -// "faas.max_memory" semantic conventions. It represents the amount of memory -// available to the serverless function converted to Bytes. -func FaaSMaxMemory(val int) attribute.KeyValue { - return FaaSMaxMemoryKey.Int(val) -} + // Stability: experimental + // Examples: 0, 2 + K8SContainerRestartCountKey = attribute.Key("k8s.container.restart_count") -// A host is defined as a computing instance. For example, physical servers, -// virtual machines, switches or disk array. -const ( - // HostIDKey is the attribute Key conforming to the "host.id" semantic - // conventions. It represents the unique host ID. For Cloud, this must be - // the instance_id assigned by the cloud provider. For non-containerized - // systems, this should be the `machine-id`. See the table below for the - // sources to use to determine the `machine-id` based on operating system. + // K8SCronJobNameKey is the attribute Key conforming to the + // "k8s.cronjob.name" semantic conventions. It represents the name of the + // CronJob. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'fdbf79e8af94cb7f9e8df36789187052' - HostIDKey = attribute.Key("host.id") + // Stability: experimental + // Examples: 'opentelemetry' + K8SCronJobNameKey = attribute.Key("k8s.cronjob.name") - // HostNameKey is the attribute Key conforming to the "host.name" semantic - // conventions. It represents the name of the host. On Unix systems, it may - // contain what the hostname command returns, or the fully qualified - // hostname, or another name specified by the user. + // K8SCronJobUIDKey is the attribute Key conforming to the + // "k8s.cronjob.uid" semantic conventions. It represents the UID of the + // CronJob. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry-test' - HostNameKey = attribute.Key("host.name") + // Stability: experimental + // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' + K8SCronJobUIDKey = attribute.Key("k8s.cronjob.uid") - // HostTypeKey is the attribute Key conforming to the "host.type" semantic - // conventions. It represents the type of host. For Cloud, this must be the - // machine type. + // K8SDaemonSetNameKey is the attribute Key conforming to the + // "k8s.daemonset.name" semantic conventions. It represents the name of the + // DaemonSet. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'n1-standard-1' - HostTypeKey = attribute.Key("host.type") + // Stability: experimental + // Examples: 'opentelemetry' + K8SDaemonSetNameKey = attribute.Key("k8s.daemonset.name") - // HostArchKey is the attribute Key conforming to the "host.arch" semantic - // conventions. It represents the CPU architecture the host system is - // running on. + // K8SDaemonSetUIDKey is the attribute Key conforming to the + // "k8s.daemonset.uid" semantic conventions. It represents the UID of the + // DaemonSet. // - // Type: Enum + // Type: string // RequirementLevel: Optional - // Stability: stable - HostArchKey = attribute.Key("host.arch") + // Stability: experimental + // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' + K8SDaemonSetUIDKey = attribute.Key("k8s.daemonset.uid") - // HostImageNameKey is the attribute Key conforming to the - // "host.image.name" semantic conventions. It represents the name of the VM - // image or OS install the host was instantiated from. + // K8SDeploymentNameKey is the attribute Key conforming to the + // "k8s.deployment.name" semantic conventions. It represents the name of + // the Deployment. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'infra-ami-eks-worker-node-7d4ec78312', 'CentOS-8-x86_64-1905' - HostImageNameKey = attribute.Key("host.image.name") + // Stability: experimental + // Examples: 'opentelemetry' + K8SDeploymentNameKey = attribute.Key("k8s.deployment.name") - // HostImageIDKey is the attribute Key conforming to the "host.image.id" - // semantic conventions. It represents the vM image ID or host OS image ID. - // For Cloud, this value is from the provider. + // K8SDeploymentUIDKey is the attribute Key conforming to the + // "k8s.deployment.uid" semantic conventions. It represents the UID of the + // Deployment. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'ami-07b06b442921831e5' - HostImageIDKey = attribute.Key("host.image.id") + // Stability: experimental + // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' + K8SDeploymentUIDKey = attribute.Key("k8s.deployment.uid") - // HostImageVersionKey is the attribute Key conforming to the - // "host.image.version" semantic conventions. It represents the version - // string of the VM image or host OS as defined in [Version - // Attributes](README.md#version-attributes). + // K8SJobNameKey is the attribute Key conforming to the "k8s.job.name" + // semantic conventions. It represents the name of the Job. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '0.1' - HostImageVersionKey = attribute.Key("host.image.version") -) - -var ( - // AMD64 - HostArchAMD64 = HostArchKey.String("amd64") - // ARM32 - HostArchARM32 = HostArchKey.String("arm32") - // ARM64 - HostArchARM64 = HostArchKey.String("arm64") - // Itanium - HostArchIA64 = HostArchKey.String("ia64") - // 32-bit PowerPC - HostArchPPC32 = HostArchKey.String("ppc32") - // 64-bit PowerPC - HostArchPPC64 = HostArchKey.String("ppc64") - // IBM z/Architecture - HostArchS390x = HostArchKey.String("s390x") - // 32-bit x86 - HostArchX86 = HostArchKey.String("x86") -) - -// HostID returns an attribute KeyValue conforming to the "host.id" semantic -// conventions. It represents the unique host ID. For Cloud, this must be the -// instance_id assigned by the cloud provider. For non-containerized systems, -// this should be the `machine-id`. See the table below for the sources to use -// to determine the `machine-id` based on operating system. -func HostID(val string) attribute.KeyValue { - return HostIDKey.String(val) -} - -// HostName returns an attribute KeyValue conforming to the "host.name" -// semantic conventions. It represents the name of the host. On Unix systems, -// it may contain what the hostname command returns, or the fully qualified -// hostname, or another name specified by the user. -func HostName(val string) attribute.KeyValue { - return HostNameKey.String(val) -} - -// HostType returns an attribute KeyValue conforming to the "host.type" -// semantic conventions. It represents the type of host. For Cloud, this must -// be the machine type. -func HostType(val string) attribute.KeyValue { - return HostTypeKey.String(val) -} - -// HostImageName returns an attribute KeyValue conforming to the -// "host.image.name" semantic conventions. It represents the name of the VM -// image or OS install the host was instantiated from. -func HostImageName(val string) attribute.KeyValue { - return HostImageNameKey.String(val) -} - -// HostImageID returns an attribute KeyValue conforming to the -// "host.image.id" semantic conventions. It represents the vM image ID or host -// OS image ID. For Cloud, this value is from the provider. -func HostImageID(val string) attribute.KeyValue { - return HostImageIDKey.String(val) -} - -// HostImageVersion returns an attribute KeyValue conforming to the -// "host.image.version" semantic conventions. It represents the version string -// of the VM image or host OS as defined in [Version -// Attributes](README.md#version-attributes). -func HostImageVersion(val string) attribute.KeyValue { - return HostImageVersionKey.String(val) -} + // Stability: experimental + // Examples: 'opentelemetry' + K8SJobNameKey = attribute.Key("k8s.job.name") -// A Kubernetes Cluster. -const ( - // K8SClusterNameKey is the attribute Key conforming to the - // "k8s.cluster.name" semantic conventions. It represents the name of the - // cluster. + // K8SJobUIDKey is the attribute Key conforming to the "k8s.job.uid" + // semantic conventions. It represents the UID of the Job. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry-cluster' - K8SClusterNameKey = attribute.Key("k8s.cluster.name") + // Stability: experimental + // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' + K8SJobUIDKey = attribute.Key("k8s.job.uid") - // K8SClusterUIDKey is the attribute Key conforming to the - // "k8s.cluster.uid" semantic conventions. It represents a pseudo-ID for - // the cluster, set to the UID of the `kube-system` namespace. + // K8SNamespaceNameKey is the attribute Key conforming to the + // "k8s.namespace.name" semantic conventions. It represents the name of the + // namespace that the pod is running in. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '218fc5a9-a5f1-4b54-aa05-46717d0ab26d' - // Note: K8S does not have support for obtaining a cluster ID. If this is - // ever - // added, we will recommend collecting the `k8s.cluster.uid` through the - // official APIs. In the meantime, we are able to use the `uid` of the - // `kube-system` namespace as a proxy for cluster ID. Read on for the - // rationale. - // - // Every object created in a K8S cluster is assigned a distinct UID. The - // `kube-system` namespace is used by Kubernetes itself and will exist - // for the lifetime of the cluster. Using the `uid` of the `kube-system` - // namespace is a reasonable proxy for the K8S ClusterID as it will only - // change if the cluster is rebuilt. Furthermore, Kubernetes UIDs are - // UUIDs as standardized by - // [ISO/IEC 9834-8 and ITU-T - // X.667](https://www.itu.int/ITU-T/studygroups/com17/oid.html). - // Which states: - // - // > If generated according to one of the mechanisms defined in Rec. - // ITU-T X.667 | ISO/IEC 9834-8, a UUID is either guaranteed to be - // different from all other UUIDs generated before 3603 A.D., or is - // extremely likely to be different (depending on the mechanism chosen). - // - // Therefore, UIDs between clusters should be extremely unlikely to - // conflict. - K8SClusterUIDKey = attribute.Key("k8s.cluster.uid") -) - -// K8SClusterName returns an attribute KeyValue conforming to the -// "k8s.cluster.name" semantic conventions. It represents the name of the -// cluster. -func K8SClusterName(val string) attribute.KeyValue { - return K8SClusterNameKey.String(val) -} - -// K8SClusterUID returns an attribute KeyValue conforming to the -// "k8s.cluster.uid" semantic conventions. It represents a pseudo-ID for the -// cluster, set to the UID of the `kube-system` namespace. -func K8SClusterUID(val string) attribute.KeyValue { - return K8SClusterUIDKey.String(val) -} + // Stability: experimental + // Examples: 'default' + K8SNamespaceNameKey = attribute.Key("k8s.namespace.name") -// A Kubernetes Node object. -const ( // K8SNodeNameKey is the attribute Key conforming to the "k8s.node.name" // semantic conventions. It represents the name of the Node. // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'node-1' K8SNodeNameKey = attribute.Key("k8s.node.name") @@ -1317,103 +999,83 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '1eb3a0c6-0477-4080-a9cb-0cb7db65c6a2' K8SNodeUIDKey = attribute.Key("k8s.node.uid") -) - -// K8SNodeName returns an attribute KeyValue conforming to the -// "k8s.node.name" semantic conventions. It represents the name of the Node. -func K8SNodeName(val string) attribute.KeyValue { - return K8SNodeNameKey.String(val) -} -// K8SNodeUID returns an attribute KeyValue conforming to the "k8s.node.uid" -// semantic conventions. It represents the UID of the Node. -func K8SNodeUID(val string) attribute.KeyValue { - return K8SNodeUIDKey.String(val) -} - -// A Kubernetes Namespace. -const ( - // K8SNamespaceNameKey is the attribute Key conforming to the - // "k8s.namespace.name" semantic conventions. It represents the name of the - // namespace that the pod is running in. + // K8SPodNameKey is the attribute Key conforming to the "k8s.pod.name" + // semantic conventions. It represents the name of the Pod. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'default' - K8SNamespaceNameKey = attribute.Key("k8s.namespace.name") -) - -// K8SNamespaceName returns an attribute KeyValue conforming to the -// "k8s.namespace.name" semantic conventions. It represents the name of the -// namespace that the pod is running in. -func K8SNamespaceName(val string) attribute.KeyValue { - return K8SNamespaceNameKey.String(val) -} + // Stability: experimental + // Examples: 'opentelemetry-pod-autoconf' + K8SPodNameKey = attribute.Key("k8s.pod.name") -// A Kubernetes Pod object. -const ( // K8SPodUIDKey is the attribute Key conforming to the "k8s.pod.uid" // semantic conventions. It represents the UID of the Pod. // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' K8SPodUIDKey = attribute.Key("k8s.pod.uid") - // K8SPodNameKey is the attribute Key conforming to the "k8s.pod.name" - // semantic conventions. It represents the name of the Pod. + // K8SReplicaSetNameKey is the attribute Key conforming to the + // "k8s.replicaset.name" semantic conventions. It represents the name of + // the ReplicaSet. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry-pod-autoconf' - K8SPodNameKey = attribute.Key("k8s.pod.name") -) - -// K8SPodUID returns an attribute KeyValue conforming to the "k8s.pod.uid" -// semantic conventions. It represents the UID of the Pod. -func K8SPodUID(val string) attribute.KeyValue { - return K8SPodUIDKey.String(val) -} + // Stability: experimental + // Examples: 'opentelemetry' + K8SReplicaSetNameKey = attribute.Key("k8s.replicaset.name") -// K8SPodName returns an attribute KeyValue conforming to the "k8s.pod.name" -// semantic conventions. It represents the name of the Pod. -func K8SPodName(val string) attribute.KeyValue { - return K8SPodNameKey.String(val) -} + // K8SReplicaSetUIDKey is the attribute Key conforming to the + // "k8s.replicaset.uid" semantic conventions. It represents the UID of the + // ReplicaSet. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' + K8SReplicaSetUIDKey = attribute.Key("k8s.replicaset.uid") -// A container in a -// [PodTemplate](https://kubernetes.io/docs/concepts/workloads/pods/#pod-templates). -const ( - // K8SContainerNameKey is the attribute Key conforming to the - // "k8s.container.name" semantic conventions. It represents the name of the - // Container from Pod specification, must be unique within a Pod. Container - // runtime usually uses different globally unique name (`container.name`). + // K8SStatefulSetNameKey is the attribute Key conforming to the + // "k8s.statefulset.name" semantic conventions. It represents the name of + // the StatefulSet. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'redis' - K8SContainerNameKey = attribute.Key("k8s.container.name") + // Stability: experimental + // Examples: 'opentelemetry' + K8SStatefulSetNameKey = attribute.Key("k8s.statefulset.name") - // K8SContainerRestartCountKey is the attribute Key conforming to the - // "k8s.container.restart_count" semantic conventions. It represents the - // number of times the container was restarted. This attribute can be used - // to identify a particular container (running or stopped) within a - // container spec. + // K8SStatefulSetUIDKey is the attribute Key conforming to the + // "k8s.statefulset.uid" semantic conventions. It represents the UID of the + // StatefulSet. // - // Type: int + // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 0, 2 - K8SContainerRestartCountKey = attribute.Key("k8s.container.restart_count") + // Stability: experimental + // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' + K8SStatefulSetUIDKey = attribute.Key("k8s.statefulset.uid") ) +// K8SClusterName returns an attribute KeyValue conforming to the +// "k8s.cluster.name" semantic conventions. It represents the name of the +// cluster. +func K8SClusterName(val string) attribute.KeyValue { + return K8SClusterNameKey.String(val) +} + +// K8SClusterUID returns an attribute KeyValue conforming to the +// "k8s.cluster.uid" semantic conventions. It represents a pseudo-ID for the +// cluster, set to the UID of the `kube-system` namespace. +func K8SClusterUID(val string) attribute.KeyValue { + return K8SClusterUIDKey.String(val) +} + // K8SContainerName returns an attribute KeyValue conforming to the // "k8s.container.name" semantic conventions. It represents the name of the // Container from Pod specification, must be unique within a Pod. Container @@ -1430,65 +1092,40 @@ func K8SContainerRestartCount(val int) attribute.KeyValue { return K8SContainerRestartCountKey.Int(val) } -// A Kubernetes ReplicaSet object. -const ( - // K8SReplicaSetUIDKey is the attribute Key conforming to the - // "k8s.replicaset.uid" semantic conventions. It represents the UID of the - // ReplicaSet. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' - K8SReplicaSetUIDKey = attribute.Key("k8s.replicaset.uid") - - // K8SReplicaSetNameKey is the attribute Key conforming to the - // "k8s.replicaset.name" semantic conventions. It represents the name of - // the ReplicaSet. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry' - K8SReplicaSetNameKey = attribute.Key("k8s.replicaset.name") -) +// K8SCronJobName returns an attribute KeyValue conforming to the +// "k8s.cronjob.name" semantic conventions. It represents the name of the +// CronJob. +func K8SCronJobName(val string) attribute.KeyValue { + return K8SCronJobNameKey.String(val) +} -// K8SReplicaSetUID returns an attribute KeyValue conforming to the -// "k8s.replicaset.uid" semantic conventions. It represents the UID of the -// ReplicaSet. -func K8SReplicaSetUID(val string) attribute.KeyValue { - return K8SReplicaSetUIDKey.String(val) +// K8SCronJobUID returns an attribute KeyValue conforming to the +// "k8s.cronjob.uid" semantic conventions. It represents the UID of the +// CronJob. +func K8SCronJobUID(val string) attribute.KeyValue { + return K8SCronJobUIDKey.String(val) } -// K8SReplicaSetName returns an attribute KeyValue conforming to the -// "k8s.replicaset.name" semantic conventions. It represents the name of the -// ReplicaSet. -func K8SReplicaSetName(val string) attribute.KeyValue { - return K8SReplicaSetNameKey.String(val) +// K8SDaemonSetName returns an attribute KeyValue conforming to the +// "k8s.daemonset.name" semantic conventions. It represents the name of the +// DaemonSet. +func K8SDaemonSetName(val string) attribute.KeyValue { + return K8SDaemonSetNameKey.String(val) } -// A Kubernetes Deployment object. -const ( - // K8SDeploymentUIDKey is the attribute Key conforming to the - // "k8s.deployment.uid" semantic conventions. It represents the UID of the - // Deployment. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' - K8SDeploymentUIDKey = attribute.Key("k8s.deployment.uid") +// K8SDaemonSetUID returns an attribute KeyValue conforming to the +// "k8s.daemonset.uid" semantic conventions. It represents the UID of the +// DaemonSet. +func K8SDaemonSetUID(val string) attribute.KeyValue { + return K8SDaemonSetUIDKey.String(val) +} - // K8SDeploymentNameKey is the attribute Key conforming to the - // "k8s.deployment.name" semantic conventions. It represents the name of - // the Deployment. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry' - K8SDeploymentNameKey = attribute.Key("k8s.deployment.name") -) +// K8SDeploymentName returns an attribute KeyValue conforming to the +// "k8s.deployment.name" semantic conventions. It represents the name of the +// Deployment. +func K8SDeploymentName(val string) attribute.KeyValue { + return K8SDeploymentNameKey.String(val) +} // K8SDeploymentUID returns an attribute KeyValue conforming to the // "k8s.deployment.uid" semantic conventions. It represents the UID of the @@ -1497,41 +1134,61 @@ func K8SDeploymentUID(val string) attribute.KeyValue { return K8SDeploymentUIDKey.String(val) } -// K8SDeploymentName returns an attribute KeyValue conforming to the -// "k8s.deployment.name" semantic conventions. It represents the name of the -// Deployment. -func K8SDeploymentName(val string) attribute.KeyValue { - return K8SDeploymentNameKey.String(val) +// K8SJobName returns an attribute KeyValue conforming to the "k8s.job.name" +// semantic conventions. It represents the name of the Job. +func K8SJobName(val string) attribute.KeyValue { + return K8SJobNameKey.String(val) } -// A Kubernetes StatefulSet object. -const ( - // K8SStatefulSetUIDKey is the attribute Key conforming to the - // "k8s.statefulset.uid" semantic conventions. It represents the UID of the - // StatefulSet. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' - K8SStatefulSetUIDKey = attribute.Key("k8s.statefulset.uid") +// K8SJobUID returns an attribute KeyValue conforming to the "k8s.job.uid" +// semantic conventions. It represents the UID of the Job. +func K8SJobUID(val string) attribute.KeyValue { + return K8SJobUIDKey.String(val) +} - // K8SStatefulSetNameKey is the attribute Key conforming to the - // "k8s.statefulset.name" semantic conventions. It represents the name of - // the StatefulSet. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry' - K8SStatefulSetNameKey = attribute.Key("k8s.statefulset.name") -) +// K8SNamespaceName returns an attribute KeyValue conforming to the +// "k8s.namespace.name" semantic conventions. It represents the name of the +// namespace that the pod is running in. +func K8SNamespaceName(val string) attribute.KeyValue { + return K8SNamespaceNameKey.String(val) +} -// K8SStatefulSetUID returns an attribute KeyValue conforming to the -// "k8s.statefulset.uid" semantic conventions. It represents the UID of the -// StatefulSet. -func K8SStatefulSetUID(val string) attribute.KeyValue { - return K8SStatefulSetUIDKey.String(val) +// K8SNodeName returns an attribute KeyValue conforming to the +// "k8s.node.name" semantic conventions. It represents the name of the Node. +func K8SNodeName(val string) attribute.KeyValue { + return K8SNodeNameKey.String(val) +} + +// K8SNodeUID returns an attribute KeyValue conforming to the "k8s.node.uid" +// semantic conventions. It represents the UID of the Node. +func K8SNodeUID(val string) attribute.KeyValue { + return K8SNodeUIDKey.String(val) +} + +// K8SPodName returns an attribute KeyValue conforming to the "k8s.pod.name" +// semantic conventions. It represents the name of the Pod. +func K8SPodName(val string) attribute.KeyValue { + return K8SPodNameKey.String(val) +} + +// K8SPodUID returns an attribute KeyValue conforming to the "k8s.pod.uid" +// semantic conventions. It represents the UID of the Pod. +func K8SPodUID(val string) attribute.KeyValue { + return K8SPodUIDKey.String(val) +} + +// K8SReplicaSetName returns an attribute KeyValue conforming to the +// "k8s.replicaset.name" semantic conventions. It represents the name of the +// ReplicaSet. +func K8SReplicaSetName(val string) attribute.KeyValue { + return K8SReplicaSetNameKey.String(val) +} + +// K8SReplicaSetUID returns an attribute KeyValue conforming to the +// "k8s.replicaset.uid" semantic conventions. It represents the UID of the +// ReplicaSet. +func K8SReplicaSetUID(val string) attribute.KeyValue { + return K8SReplicaSetUIDKey.String(val) } // K8SStatefulSetName returns an attribute KeyValue conforming to the @@ -1541,123 +1198,54 @@ func K8SStatefulSetName(val string) attribute.KeyValue { return K8SStatefulSetNameKey.String(val) } -// A Kubernetes DaemonSet object. +// K8SStatefulSetUID returns an attribute KeyValue conforming to the +// "k8s.statefulset.uid" semantic conventions. It represents the UID of the +// StatefulSet. +func K8SStatefulSetUID(val string) attribute.KeyValue { + return K8SStatefulSetUIDKey.String(val) +} + +// An OCI image manifest. const ( - // K8SDaemonSetUIDKey is the attribute Key conforming to the - // "k8s.daemonset.uid" semantic conventions. It represents the UID of the - // DaemonSet. + // OciManifestDigestKey is the attribute Key conforming to the + // "oci.manifest.digest" semantic conventions. It represents the digest of + // the OCI image manifest. For container images specifically is the digest + // by which the container image is known. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' - K8SDaemonSetUIDKey = attribute.Key("k8s.daemonset.uid") - - // K8SDaemonSetNameKey is the attribute Key conforming to the - // "k8s.daemonset.name" semantic conventions. It represents the name of the - // DaemonSet. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry' - K8SDaemonSetNameKey = attribute.Key("k8s.daemonset.name") -) - -// K8SDaemonSetUID returns an attribute KeyValue conforming to the -// "k8s.daemonset.uid" semantic conventions. It represents the UID of the -// DaemonSet. -func K8SDaemonSetUID(val string) attribute.KeyValue { - return K8SDaemonSetUIDKey.String(val) -} - -// K8SDaemonSetName returns an attribute KeyValue conforming to the -// "k8s.daemonset.name" semantic conventions. It represents the name of the -// DaemonSet. -func K8SDaemonSetName(val string) attribute.KeyValue { - return K8SDaemonSetNameKey.String(val) -} - -// A Kubernetes Job object. -const ( - // K8SJobUIDKey is the attribute Key conforming to the "k8s.job.uid" - // semantic conventions. It represents the UID of the Job. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' - K8SJobUIDKey = attribute.Key("k8s.job.uid") - - // K8SJobNameKey is the attribute Key conforming to the "k8s.job.name" - // semantic conventions. It represents the name of the Job. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry' - K8SJobNameKey = attribute.Key("k8s.job.name") -) - -// K8SJobUID returns an attribute KeyValue conforming to the "k8s.job.uid" -// semantic conventions. It represents the UID of the Job. -func K8SJobUID(val string) attribute.KeyValue { - return K8SJobUIDKey.String(val) -} - -// K8SJobName returns an attribute KeyValue conforming to the "k8s.job.name" -// semantic conventions. It represents the name of the Job. -func K8SJobName(val string) attribute.KeyValue { - return K8SJobNameKey.String(val) -} - -// A Kubernetes CronJob object. -const ( - // K8SCronJobUIDKey is the attribute Key conforming to the - // "k8s.cronjob.uid" semantic conventions. It represents the UID of the - // CronJob. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '275ecb36-5aa8-4c2a-9c47-d8bb681b9aff' - K8SCronJobUIDKey = attribute.Key("k8s.cronjob.uid") - - // K8SCronJobNameKey is the attribute Key conforming to the - // "k8s.cronjob.name" semantic conventions. It represents the name of the - // CronJob. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'opentelemetry' - K8SCronJobNameKey = attribute.Key("k8s.cronjob.name") + // Stability: experimental + // Examples: + // 'sha256:e4ca62c0d62f3e886e684806dfe9d4e0cda60d54986898173c1083856cfda0f4' + // Note: Follows [OCI Image Manifest + // Specification](https://github.com/opencontainers/image-spec/blob/main/manifest.md), + // and specifically the [Digest + // property](https://github.com/opencontainers/image-spec/blob/main/descriptor.md#digests). + // An example can be found in [Example Image + // Manifest](https://docs.docker.com/registry/spec/manifest-v2-2/#example-image-manifest). + OciManifestDigestKey = attribute.Key("oci.manifest.digest") ) -// K8SCronJobUID returns an attribute KeyValue conforming to the -// "k8s.cronjob.uid" semantic conventions. It represents the UID of the -// CronJob. -func K8SCronJobUID(val string) attribute.KeyValue { - return K8SCronJobUIDKey.String(val) -} - -// K8SCronJobName returns an attribute KeyValue conforming to the -// "k8s.cronjob.name" semantic conventions. It represents the name of the -// CronJob. -func K8SCronJobName(val string) attribute.KeyValue { - return K8SCronJobNameKey.String(val) +// OciManifestDigest returns an attribute KeyValue conforming to the +// "oci.manifest.digest" semantic conventions. It represents the digest of the +// OCI image manifest. For container images specifically is the digest by which +// the container image is known. +func OciManifestDigest(val string) attribute.KeyValue { + return OciManifestDigestKey.String(val) } // The operating system (OS) on which the process represented by this resource // is running. const ( - // OSTypeKey is the attribute Key conforming to the "os.type" semantic - // conventions. It represents the operating system type. + // OSBuildIDKey is the attribute Key conforming to the "os.build_id" + // semantic conventions. It represents the unique identifier for a + // particular build or compilation of the operating system. // - // Type: Enum - // RequirementLevel: Required - // Stability: stable - OSTypeKey = attribute.Key("os.type") + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'TQ3C.230805.001.B2', '20E247', '22621' + OSBuildIDKey = attribute.Key("os.build_id") // OSDescriptionKey is the attribute Key conforming to the "os.description" // semantic conventions. It represents the human readable (not intended to @@ -1666,7 +1254,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'Microsoft Windows [Version 10.0.18363.778]', 'Ubuntu 18.04.1 // LTS' OSDescriptionKey = attribute.Key("os.description") @@ -1676,10 +1264,18 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'iOS', 'Android', 'Ubuntu' OSNameKey = attribute.Key("os.name") + // OSTypeKey is the attribute Key conforming to the "os.type" semantic + // conventions. It represents the operating system type. + // + // Type: Enum + // RequirementLevel: Optional + // Stability: experimental + OSTypeKey = attribute.Key("os.type") + // OSVersionKey is the attribute Key conforming to the "os.version" // semantic conventions. It represents the version string of the operating // system as defined in [Version @@ -1687,7 +1283,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '14.2.1', '18.04.1' OSVersionKey = attribute.Key("os.version") ) @@ -1717,6 +1313,13 @@ var ( OSTypeZOS = OSTypeKey.String("z_os") ) +// OSBuildID returns an attribute KeyValue conforming to the "os.build_id" +// semantic conventions. It represents the unique identifier for a particular +// build or compilation of the operating system. +func OSBuildID(val string) attribute.KeyValue { + return OSBuildIDKey.String(val) +} + // OSDescription returns an attribute KeyValue conforming to the // "os.description" semantic conventions. It represents the human readable (not // intended to be parsed) OS version information, like e.g. reported by `ver` @@ -1741,24 +1344,44 @@ func OSVersion(val string) attribute.KeyValue { // An operating system process. const ( - // ProcessPIDKey is the attribute Key conforming to the "process.pid" - // semantic conventions. It represents the process identifier (PID). + // ProcessCommandKey is the attribute Key conforming to the + // "process.command" semantic conventions. It represents the command used + // to launch the process (i.e. the command name). On Linux based systems, + // can be set to the zeroth string in `proc/[pid]/cmdline`. On Windows, can + // be set to the first parameter extracted from `GetCommandLineW`. // - // Type: int + // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 1234 - ProcessPIDKey = attribute.Key("process.pid") + // Stability: experimental + // Examples: 'cmd/otelcol' + ProcessCommandKey = attribute.Key("process.command") - // ProcessParentPIDKey is the attribute Key conforming to the - // "process.parent_pid" semantic conventions. It represents the parent - // Process identifier (PID). + // ProcessCommandArgsKey is the attribute Key conforming to the + // "process.command_args" semantic conventions. It represents the all the + // command arguments (including the command/executable itself) as received + // by the process. On Linux-based systems (and some other Unixoid systems + // supporting procfs), can be set according to the list of null-delimited + // strings extracted from `proc/[pid]/cmdline`. For libc-based executables, + // this would be the full argv vector passed to `main`. // - // Type: int + // Type: string[] // RequirementLevel: Optional - // Stability: stable - // Examples: 111 - ProcessParentPIDKey = attribute.Key("process.parent_pid") + // Stability: experimental + // Examples: 'cmd/otecol', '--config=config.yaml' + ProcessCommandArgsKey = attribute.Key("process.command_args") + + // ProcessCommandLineKey is the attribute Key conforming to the + // "process.command_line" semantic conventions. It represents the full + // command used to launch the process as a single string representing the + // full command. On Windows, can be set to the result of `GetCommandLineW`. + // Do not set this if you have to assemble it just for monitoring; use + // `process.command_args` instead. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'C:\\cmd\\otecol --config="my directory\\config.yaml"' + ProcessCommandLineKey = attribute.Key("process.command_line") // ProcessExecutableNameKey is the attribute Key conforming to the // "process.executable.name" semantic conventions. It represents the name @@ -1767,9 +1390,8 @@ const ( // of `GetProcessImageFileNameW`. // // Type: string - // RequirementLevel: ConditionallyRequired (See alternative attributes - // below.) - // Stability: stable + // RequirementLevel: Optional + // Stability: experimental // Examples: 'otelcol' ProcessExecutableNameKey = attribute.Key("process.executable.name") @@ -1780,76 +1402,102 @@ const ( // `GetProcessImageFileNameW`. // // Type: string - // RequirementLevel: ConditionallyRequired (See alternative attributes - // below.) - // Stability: stable + // RequirementLevel: Optional + // Stability: experimental // Examples: '/usr/bin/cmd/otelcol' ProcessExecutablePathKey = attribute.Key("process.executable.path") - // ProcessCommandKey is the attribute Key conforming to the - // "process.command" semantic conventions. It represents the command used - // to launch the process (i.e. the command name). On Linux based systems, - // can be set to the zeroth string in `proc/[pid]/cmdline`. On Windows, can - // be set to the first parameter extracted from `GetCommandLineW`. + // ProcessOwnerKey is the attribute Key conforming to the "process.owner" + // semantic conventions. It represents the username of the user that owns + // the process. // // Type: string - // RequirementLevel: ConditionallyRequired (See alternative attributes - // below.) - // Stability: stable - // Examples: 'cmd/otelcol' - ProcessCommandKey = attribute.Key("process.command") + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'root' + ProcessOwnerKey = attribute.Key("process.owner") - // ProcessCommandLineKey is the attribute Key conforming to the - // "process.command_line" semantic conventions. It represents the full - // command used to launch the process as a single string representing the - // full command. On Windows, can be set to the result of `GetCommandLineW`. - // Do not set this if you have to assemble it just for monitoring; use - // `process.command_args` instead. + // ProcessParentPIDKey is the attribute Key conforming to the + // "process.parent_pid" semantic conventions. It represents the parent + // Process identifier (PPID). + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 111 + ProcessParentPIDKey = attribute.Key("process.parent_pid") + + // ProcessPIDKey is the attribute Key conforming to the "process.pid" + // semantic conventions. It represents the process identifier (PID). + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 1234 + ProcessPIDKey = attribute.Key("process.pid") + + // ProcessRuntimeDescriptionKey is the attribute Key conforming to the + // "process.runtime.description" semantic conventions. It represents an + // additional description about the runtime of the process, for example a + // specific vendor customization of the runtime environment. // // Type: string - // RequirementLevel: ConditionallyRequired (See alternative attributes - // below.) - // Stability: stable - // Examples: 'C:\\cmd\\otecol --config="my directory\\config.yaml"' - ProcessCommandLineKey = attribute.Key("process.command_line") + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'Eclipse OpenJ9 Eclipse OpenJ9 VM openj9-0.21.0' + ProcessRuntimeDescriptionKey = attribute.Key("process.runtime.description") - // ProcessCommandArgsKey is the attribute Key conforming to the - // "process.command_args" semantic conventions. It represents the all the - // command arguments (including the command/executable itself) as received - // by the process. On Linux-based systems (and some other Unixoid systems - // supporting procfs), can be set according to the list of null-delimited - // strings extracted from `proc/[pid]/cmdline`. For libc-based executables, - // this would be the full argv vector passed to `main`. + // ProcessRuntimeNameKey is the attribute Key conforming to the + // "process.runtime.name" semantic conventions. It represents the name of + // the runtime of this process. For compiled native binaries, this SHOULD + // be the name of the compiler. // - // Type: string[] - // RequirementLevel: ConditionallyRequired (See alternative attributes - // below.) - // Stability: stable - // Examples: 'cmd/otecol', '--config=config.yaml' - ProcessCommandArgsKey = attribute.Key("process.command_args") + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'OpenJDK Runtime Environment' + ProcessRuntimeNameKey = attribute.Key("process.runtime.name") - // ProcessOwnerKey is the attribute Key conforming to the "process.owner" - // semantic conventions. It represents the username of the user that owns - // the process. + // ProcessRuntimeVersionKey is the attribute Key conforming to the + // "process.runtime.version" semantic conventions. It represents the + // version of the runtime of this process, as returned by the runtime + // without modification. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'root' - ProcessOwnerKey = attribute.Key("process.owner") + // Stability: experimental + // Examples: '14.0.2' + ProcessRuntimeVersionKey = attribute.Key("process.runtime.version") ) -// ProcessPID returns an attribute KeyValue conforming to the "process.pid" -// semantic conventions. It represents the process identifier (PID). -func ProcessPID(val int) attribute.KeyValue { - return ProcessPIDKey.Int(val) +// ProcessCommand returns an attribute KeyValue conforming to the +// "process.command" semantic conventions. It represents the command used to +// launch the process (i.e. the command name). On Linux based systems, can be +// set to the zeroth string in `proc/[pid]/cmdline`. On Windows, can be set to +// the first parameter extracted from `GetCommandLineW`. +func ProcessCommand(val string) attribute.KeyValue { + return ProcessCommandKey.String(val) } -// ProcessParentPID returns an attribute KeyValue conforming to the -// "process.parent_pid" semantic conventions. It represents the parent Process -// identifier (PID). -func ProcessParentPID(val int) attribute.KeyValue { - return ProcessParentPIDKey.Int(val) +// ProcessCommandArgs returns an attribute KeyValue conforming to the +// "process.command_args" semantic conventions. It represents the all the +// command arguments (including the command/executable itself) as received by +// the process. On Linux-based systems (and some other Unixoid systems +// supporting procfs), can be set according to the list of null-delimited +// strings extracted from `proc/[pid]/cmdline`. For libc-based executables, +// this would be the full argv vector passed to `main`. +func ProcessCommandArgs(val ...string) attribute.KeyValue { + return ProcessCommandArgsKey.StringSlice(val) +} + +// ProcessCommandLine returns an attribute KeyValue conforming to the +// "process.command_line" semantic conventions. It represents the full command +// used to launch the process as a single string representing the full command. +// On Windows, can be set to the result of `GetCommandLineW`. Do not set this +// if you have to assemble it just for monitoring; use `process.command_args` +// instead. +func ProcessCommandLine(val string) attribute.KeyValue { + return ProcessCommandLineKey.String(val) } // ProcessExecutableName returns an attribute KeyValue conforming to the @@ -1870,101 +1518,675 @@ func ProcessExecutablePath(val string) attribute.KeyValue { return ProcessExecutablePathKey.String(val) } -// ProcessCommand returns an attribute KeyValue conforming to the -// "process.command" semantic conventions. It represents the command used to -// launch the process (i.e. the command name). On Linux based systems, can be -// set to the zeroth string in `proc/[pid]/cmdline`. On Windows, can be set to -// the first parameter extracted from `GetCommandLineW`. -func ProcessCommand(val string) attribute.KeyValue { - return ProcessCommandKey.String(val) +// ProcessOwner returns an attribute KeyValue conforming to the +// "process.owner" semantic conventions. It represents the username of the user +// that owns the process. +func ProcessOwner(val string) attribute.KeyValue { + return ProcessOwnerKey.String(val) } -// ProcessCommandLine returns an attribute KeyValue conforming to the -// "process.command_line" semantic conventions. It represents the full command -// used to launch the process as a single string representing the full command. -// On Windows, can be set to the result of `GetCommandLineW`. Do not set this -// if you have to assemble it just for monitoring; use `process.command_args` -// instead. -func ProcessCommandLine(val string) attribute.KeyValue { - return ProcessCommandLineKey.String(val) +// ProcessParentPID returns an attribute KeyValue conforming to the +// "process.parent_pid" semantic conventions. It represents the parent Process +// identifier (PPID). +func ProcessParentPID(val int) attribute.KeyValue { + return ProcessParentPIDKey.Int(val) } -// ProcessCommandArgs returns an attribute KeyValue conforming to the -// "process.command_args" semantic conventions. It represents the all the -// command arguments (including the command/executable itself) as received by -// the process. On Linux-based systems (and some other Unixoid systems -// supporting procfs), can be set according to the list of null-delimited -// strings extracted from `proc/[pid]/cmdline`. For libc-based executables, -// this would be the full argv vector passed to `main`. -func ProcessCommandArgs(val ...string) attribute.KeyValue { - return ProcessCommandArgsKey.StringSlice(val) +// ProcessPID returns an attribute KeyValue conforming to the "process.pid" +// semantic conventions. It represents the process identifier (PID). +func ProcessPID(val int) attribute.KeyValue { + return ProcessPIDKey.Int(val) +} + +// ProcessRuntimeDescription returns an attribute KeyValue conforming to the +// "process.runtime.description" semantic conventions. It represents an +// additional description about the runtime of the process, for example a +// specific vendor customization of the runtime environment. +func ProcessRuntimeDescription(val string) attribute.KeyValue { + return ProcessRuntimeDescriptionKey.String(val) +} + +// ProcessRuntimeName returns an attribute KeyValue conforming to the +// "process.runtime.name" semantic conventions. It represents the name of the +// runtime of this process. For compiled native binaries, this SHOULD be the +// name of the compiler. +func ProcessRuntimeName(val string) attribute.KeyValue { + return ProcessRuntimeNameKey.String(val) +} + +// ProcessRuntimeVersion returns an attribute KeyValue conforming to the +// "process.runtime.version" semantic conventions. It represents the version of +// the runtime of this process, as returned by the runtime without +// modification. +func ProcessRuntimeVersion(val string) attribute.KeyValue { + return ProcessRuntimeVersionKey.String(val) +} + +// The Android platform on which the Android application is running. +const ( + // AndroidOSAPILevelKey is the attribute Key conforming to the + // "android.os.api_level" semantic conventions. It represents the uniquely + // identifies the framework API revision offered by a version + // (`os.version`) of the android operating system. More information can be + // found + // [here](https://developer.android.com/guide/topics/manifest/uses-sdk-element#APILevels). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: '33', '32' + AndroidOSAPILevelKey = attribute.Key("android.os.api_level") +) + +// AndroidOSAPILevel returns an attribute KeyValue conforming to the +// "android.os.api_level" semantic conventions. It represents the uniquely +// identifies the framework API revision offered by a version (`os.version`) of +// the android operating system. More information can be found +// [here](https://developer.android.com/guide/topics/manifest/uses-sdk-element#APILevels). +func AndroidOSAPILevel(val string) attribute.KeyValue { + return AndroidOSAPILevelKey.String(val) +} + +// The web browser in which the application represented by the resource is +// running. The `browser.*` attributes MUST be used only for resources that +// represent applications running in a web browser (regardless of whether +// running on a mobile or desktop device). +const ( + // BrowserBrandsKey is the attribute Key conforming to the "browser.brands" + // semantic conventions. It represents the array of brand name and version + // separated by a space + // + // Type: string[] + // RequirementLevel: Optional + // Stability: experimental + // Examples: ' Not A;Brand 99', 'Chromium 99', 'Chrome 99' + // Note: This value is intended to be taken from the [UA client hints + // API](https://wicg.github.io/ua-client-hints/#interface) + // (`navigator.userAgentData.brands`). + BrowserBrandsKey = attribute.Key("browser.brands") + + // BrowserLanguageKey is the attribute Key conforming to the + // "browser.language" semantic conventions. It represents the preferred + // language of the user using the browser + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'en', 'en-US', 'fr', 'fr-FR' + // Note: This value is intended to be taken from the Navigator API + // `navigator.language`. + BrowserLanguageKey = attribute.Key("browser.language") + + // BrowserMobileKey is the attribute Key conforming to the "browser.mobile" + // semantic conventions. It represents a boolean that is true if the + // browser is running on a mobile device + // + // Type: boolean + // RequirementLevel: Optional + // Stability: experimental + // Note: This value is intended to be taken from the [UA client hints + // API](https://wicg.github.io/ua-client-hints/#interface) + // (`navigator.userAgentData.mobile`). If unavailable, this attribute + // SHOULD be left unset. + BrowserMobileKey = attribute.Key("browser.mobile") + + // BrowserPlatformKey is the attribute Key conforming to the + // "browser.platform" semantic conventions. It represents the platform on + // which the browser is running + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'Windows', 'macOS', 'Android' + // Note: This value is intended to be taken from the [UA client hints + // API](https://wicg.github.io/ua-client-hints/#interface) + // (`navigator.userAgentData.platform`). If unavailable, the legacy + // `navigator.platform` API SHOULD NOT be used instead and this attribute + // SHOULD be left unset in order for the values to be consistent. + // The list of possible values is defined in the [W3C User-Agent Client + // Hints + // specification](https://wicg.github.io/ua-client-hints/#sec-ch-ua-platform). + // Note that some (but not all) of these values can overlap with values in + // the [`os.type` and `os.name` attributes](./os.md). However, for + // consistency, the values in the `browser.platform` attribute should + // capture the exact value that the user agent provides. + BrowserPlatformKey = attribute.Key("browser.platform") +) + +// BrowserBrands returns an attribute KeyValue conforming to the +// "browser.brands" semantic conventions. It represents the array of brand name +// and version separated by a space +func BrowserBrands(val ...string) attribute.KeyValue { + return BrowserBrandsKey.StringSlice(val) +} + +// BrowserLanguage returns an attribute KeyValue conforming to the +// "browser.language" semantic conventions. It represents the preferred +// language of the user using the browser +func BrowserLanguage(val string) attribute.KeyValue { + return BrowserLanguageKey.String(val) +} + +// BrowserMobile returns an attribute KeyValue conforming to the +// "browser.mobile" semantic conventions. It represents a boolean that is true +// if the browser is running on a mobile device +func BrowserMobile(val bool) attribute.KeyValue { + return BrowserMobileKey.Bool(val) +} + +// BrowserPlatform returns an attribute KeyValue conforming to the +// "browser.platform" semantic conventions. It represents the platform on which +// the browser is running +func BrowserPlatform(val string) attribute.KeyValue { + return BrowserPlatformKey.String(val) +} + +// Resources used by AWS Elastic Container Service (ECS). +const ( + // AWSECSClusterARNKey is the attribute Key conforming to the + // "aws.ecs.cluster.arn" semantic conventions. It represents the ARN of an + // [ECS + // cluster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/clusters.html). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'arn:aws:ecs:us-west-2:123456789123:cluster/my-cluster' + AWSECSClusterARNKey = attribute.Key("aws.ecs.cluster.arn") + + // AWSECSContainerARNKey is the attribute Key conforming to the + // "aws.ecs.container.arn" semantic conventions. It represents the Amazon + // Resource Name (ARN) of an [ECS container + // instance](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: + // 'arn:aws:ecs:us-west-1:123456789123:container/32624152-9086-4f0e-acae-1a75b14fe4d9' + AWSECSContainerARNKey = attribute.Key("aws.ecs.container.arn") + + // AWSECSLaunchtypeKey is the attribute Key conforming to the + // "aws.ecs.launchtype" semantic conventions. It represents the [launch + // type](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/launch_types.html) + // for an ECS task. + // + // Type: Enum + // RequirementLevel: Optional + // Stability: experimental + AWSECSLaunchtypeKey = attribute.Key("aws.ecs.launchtype") + + // AWSECSTaskARNKey is the attribute Key conforming to the + // "aws.ecs.task.arn" semantic conventions. It represents the ARN of an + // [ECS task + // definition](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: + // 'arn:aws:ecs:us-west-1:123456789123:task/10838bed-421f-43ef-870a-f43feacbbb5b' + AWSECSTaskARNKey = attribute.Key("aws.ecs.task.arn") + + // AWSECSTaskFamilyKey is the attribute Key conforming to the + // "aws.ecs.task.family" semantic conventions. It represents the task + // definition family this task definition is a member of. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'opentelemetry-family' + AWSECSTaskFamilyKey = attribute.Key("aws.ecs.task.family") + + // AWSECSTaskRevisionKey is the attribute Key conforming to the + // "aws.ecs.task.revision" semantic conventions. It represents the revision + // for this task definition. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: '8', '26' + AWSECSTaskRevisionKey = attribute.Key("aws.ecs.task.revision") +) + +var ( + // ec2 + AWSECSLaunchtypeEC2 = AWSECSLaunchtypeKey.String("ec2") + // fargate + AWSECSLaunchtypeFargate = AWSECSLaunchtypeKey.String("fargate") +) + +// AWSECSClusterARN returns an attribute KeyValue conforming to the +// "aws.ecs.cluster.arn" semantic conventions. It represents the ARN of an [ECS +// cluster](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/clusters.html). +func AWSECSClusterARN(val string) attribute.KeyValue { + return AWSECSClusterARNKey.String(val) +} + +// AWSECSContainerARN returns an attribute KeyValue conforming to the +// "aws.ecs.container.arn" semantic conventions. It represents the Amazon +// Resource Name (ARN) of an [ECS container +// instance](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html). +func AWSECSContainerARN(val string) attribute.KeyValue { + return AWSECSContainerARNKey.String(val) +} + +// AWSECSTaskARN returns an attribute KeyValue conforming to the +// "aws.ecs.task.arn" semantic conventions. It represents the ARN of an [ECS +// task +// definition](https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html). +func AWSECSTaskARN(val string) attribute.KeyValue { + return AWSECSTaskARNKey.String(val) +} + +// AWSECSTaskFamily returns an attribute KeyValue conforming to the +// "aws.ecs.task.family" semantic conventions. It represents the task +// definition family this task definition is a member of. +func AWSECSTaskFamily(val string) attribute.KeyValue { + return AWSECSTaskFamilyKey.String(val) +} + +// AWSECSTaskRevision returns an attribute KeyValue conforming to the +// "aws.ecs.task.revision" semantic conventions. It represents the revision for +// this task definition. +func AWSECSTaskRevision(val string) attribute.KeyValue { + return AWSECSTaskRevisionKey.String(val) +} + +// Resources used by AWS Elastic Kubernetes Service (EKS). +const ( + // AWSEKSClusterARNKey is the attribute Key conforming to the + // "aws.eks.cluster.arn" semantic conventions. It represents the ARN of an + // EKS cluster. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'arn:aws:ecs:us-west-2:123456789123:cluster/my-cluster' + AWSEKSClusterARNKey = attribute.Key("aws.eks.cluster.arn") +) + +// AWSEKSClusterARN returns an attribute KeyValue conforming to the +// "aws.eks.cluster.arn" semantic conventions. It represents the ARN of an EKS +// cluster. +func AWSEKSClusterARN(val string) attribute.KeyValue { + return AWSEKSClusterARNKey.String(val) +} + +// Resources specific to Amazon Web Services. +const ( + // AWSLogGroupARNsKey is the attribute Key conforming to the + // "aws.log.group.arns" semantic conventions. It represents the Amazon + // Resource Name(s) (ARN) of the AWS log group(s). + // + // Type: string[] + // RequirementLevel: Optional + // Stability: experimental + // Examples: + // 'arn:aws:logs:us-west-1:123456789012:log-group:/aws/my/group:*' + // Note: See the [log group ARN format + // documentation](https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/iam-access-control-overview-cwl.html#CWL_ARN_Format). + AWSLogGroupARNsKey = attribute.Key("aws.log.group.arns") + + // AWSLogGroupNamesKey is the attribute Key conforming to the + // "aws.log.group.names" semantic conventions. It represents the name(s) of + // the AWS log group(s) an application is writing to. + // + // Type: string[] + // RequirementLevel: Optional + // Stability: experimental + // Examples: '/aws/lambda/my-function', 'opentelemetry-service' + // Note: Multiple log groups must be supported for cases like + // multi-container applications, where a single application has sidecar + // containers, and each write to their own log group. + AWSLogGroupNamesKey = attribute.Key("aws.log.group.names") + + // AWSLogStreamARNsKey is the attribute Key conforming to the + // "aws.log.stream.arns" semantic conventions. It represents the ARN(s) of + // the AWS log stream(s). + // + // Type: string[] + // RequirementLevel: Optional + // Stability: experimental + // Examples: + // 'arn:aws:logs:us-west-1:123456789012:log-group:/aws/my/group:log-stream:logs/main/10838bed-421f-43ef-870a-f43feacbbb5b' + // Note: See the [log stream ARN format + // documentation](https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/iam-access-control-overview-cwl.html#CWL_ARN_Format). + // One log group can contain several log streams, so these ARNs necessarily + // identify both a log group and a log stream. + AWSLogStreamARNsKey = attribute.Key("aws.log.stream.arns") + + // AWSLogStreamNamesKey is the attribute Key conforming to the + // "aws.log.stream.names" semantic conventions. It represents the name(s) + // of the AWS log stream(s) an application is writing to. + // + // Type: string[] + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'logs/main/10838bed-421f-43ef-870a-f43feacbbb5b' + AWSLogStreamNamesKey = attribute.Key("aws.log.stream.names") +) + +// AWSLogGroupARNs returns an attribute KeyValue conforming to the +// "aws.log.group.arns" semantic conventions. It represents the Amazon Resource +// Name(s) (ARN) of the AWS log group(s). +func AWSLogGroupARNs(val ...string) attribute.KeyValue { + return AWSLogGroupARNsKey.StringSlice(val) +} + +// AWSLogGroupNames returns an attribute KeyValue conforming to the +// "aws.log.group.names" semantic conventions. It represents the name(s) of the +// AWS log group(s) an application is writing to. +func AWSLogGroupNames(val ...string) attribute.KeyValue { + return AWSLogGroupNamesKey.StringSlice(val) +} + +// AWSLogStreamARNs returns an attribute KeyValue conforming to the +// "aws.log.stream.arns" semantic conventions. It represents the ARN(s) of the +// AWS log stream(s). +func AWSLogStreamARNs(val ...string) attribute.KeyValue { + return AWSLogStreamARNsKey.StringSlice(val) +} + +// AWSLogStreamNames returns an attribute KeyValue conforming to the +// "aws.log.stream.names" semantic conventions. It represents the name(s) of +// the AWS log stream(s) an application is writing to. +func AWSLogStreamNames(val ...string) attribute.KeyValue { + return AWSLogStreamNamesKey.StringSlice(val) +} + +// Resource used by Google Cloud Run. +const ( + // GCPCloudRunJobExecutionKey is the attribute Key conforming to the + // "gcp.cloud_run.job.execution" semantic conventions. It represents the + // name of the Cloud Run + // [execution](https://cloud.google.com/run/docs/managing/job-executions) + // being run for the Job, as set by the + // [`CLOUD_RUN_EXECUTION`](https://cloud.google.com/run/docs/container-contract#jobs-env-vars) + // environment variable. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'job-name-xxxx', 'sample-job-mdw84' + GCPCloudRunJobExecutionKey = attribute.Key("gcp.cloud_run.job.execution") + + // GCPCloudRunJobTaskIndexKey is the attribute Key conforming to the + // "gcp.cloud_run.job.task_index" semantic conventions. It represents the + // index for a task within an execution as provided by the + // [`CLOUD_RUN_TASK_INDEX`](https://cloud.google.com/run/docs/container-contract#jobs-env-vars) + // environment variable. + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 0, 1 + GCPCloudRunJobTaskIndexKey = attribute.Key("gcp.cloud_run.job.task_index") +) + +// GCPCloudRunJobExecution returns an attribute KeyValue conforming to the +// "gcp.cloud_run.job.execution" semantic conventions. It represents the name +// of the Cloud Run +// [execution](https://cloud.google.com/run/docs/managing/job-executions) being +// run for the Job, as set by the +// [`CLOUD_RUN_EXECUTION`](https://cloud.google.com/run/docs/container-contract#jobs-env-vars) +// environment variable. +func GCPCloudRunJobExecution(val string) attribute.KeyValue { + return GCPCloudRunJobExecutionKey.String(val) +} + +// GCPCloudRunJobTaskIndex returns an attribute KeyValue conforming to the +// "gcp.cloud_run.job.task_index" semantic conventions. It represents the index +// for a task within an execution as provided by the +// [`CLOUD_RUN_TASK_INDEX`](https://cloud.google.com/run/docs/container-contract#jobs-env-vars) +// environment variable. +func GCPCloudRunJobTaskIndex(val int) attribute.KeyValue { + return GCPCloudRunJobTaskIndexKey.Int(val) +} + +// Resources used by Google Compute Engine (GCE). +const ( + // GCPGceInstanceHostnameKey is the attribute Key conforming to the + // "gcp.gce.instance.hostname" semantic conventions. It represents the + // hostname of a GCE instance. This is the full value of the default or + // [custom + // hostname](https://cloud.google.com/compute/docs/instances/custom-hostname-vm). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'my-host1234.example.com', + // 'sample-vm.us-west1-b.c.my-project.internal' + GCPGceInstanceHostnameKey = attribute.Key("gcp.gce.instance.hostname") + + // GCPGceInstanceNameKey is the attribute Key conforming to the + // "gcp.gce.instance.name" semantic conventions. It represents the instance + // name of a GCE instance. This is the value provided by `host.name`, the + // visible name of the instance in the Cloud Console UI, and the prefix for + // the default hostname of the instance as defined by the [default internal + // DNS + // name](https://cloud.google.com/compute/docs/internal-dns#instance-fully-qualified-domain-names). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'instance-1', 'my-vm-name' + GCPGceInstanceNameKey = attribute.Key("gcp.gce.instance.name") +) + +// GCPGceInstanceHostname returns an attribute KeyValue conforming to the +// "gcp.gce.instance.hostname" semantic conventions. It represents the hostname +// of a GCE instance. This is the full value of the default or [custom +// hostname](https://cloud.google.com/compute/docs/instances/custom-hostname-vm). +func GCPGceInstanceHostname(val string) attribute.KeyValue { + return GCPGceInstanceHostnameKey.String(val) +} + +// GCPGceInstanceName returns an attribute KeyValue conforming to the +// "gcp.gce.instance.name" semantic conventions. It represents the instance +// name of a GCE instance. This is the value provided by `host.name`, the +// visible name of the instance in the Cloud Console UI, and the prefix for the +// default hostname of the instance as defined by the [default internal DNS +// name](https://cloud.google.com/compute/docs/internal-dns#instance-fully-qualified-domain-names). +func GCPGceInstanceName(val string) attribute.KeyValue { + return GCPGceInstanceNameKey.String(val) +} + +// Heroku dyno metadata +const ( + // HerokuAppIDKey is the attribute Key conforming to the "heroku.app.id" + // semantic conventions. It represents the unique identifier for the + // application + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: '2daa2797-e42b-4624-9322-ec3f968df4da' + HerokuAppIDKey = attribute.Key("heroku.app.id") + + // HerokuReleaseCommitKey is the attribute Key conforming to the + // "heroku.release.commit" semantic conventions. It represents the commit + // hash for the current release + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'e6134959463efd8966b20e75b913cafe3f5ec' + HerokuReleaseCommitKey = attribute.Key("heroku.release.commit") + + // HerokuReleaseCreationTimestampKey is the attribute Key conforming to the + // "heroku.release.creation_timestamp" semantic conventions. It represents + // the time and date the release was created + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: '2022-10-23T18:00:42Z' + HerokuReleaseCreationTimestampKey = attribute.Key("heroku.release.creation_timestamp") +) + +// HerokuAppID returns an attribute KeyValue conforming to the +// "heroku.app.id" semantic conventions. It represents the unique identifier +// for the application +func HerokuAppID(val string) attribute.KeyValue { + return HerokuAppIDKey.String(val) +} + +// HerokuReleaseCommit returns an attribute KeyValue conforming to the +// "heroku.release.commit" semantic conventions. It represents the commit hash +// for the current release +func HerokuReleaseCommit(val string) attribute.KeyValue { + return HerokuReleaseCommitKey.String(val) +} + +// HerokuReleaseCreationTimestamp returns an attribute KeyValue conforming +// to the "heroku.release.creation_timestamp" semantic conventions. It +// represents the time and date the release was created +func HerokuReleaseCreationTimestamp(val string) attribute.KeyValue { + return HerokuReleaseCreationTimestampKey.String(val) } -// ProcessOwner returns an attribute KeyValue conforming to the -// "process.owner" semantic conventions. It represents the username of the user -// that owns the process. -func ProcessOwner(val string) attribute.KeyValue { - return ProcessOwnerKey.String(val) +// The software deployment. +const ( + // DeploymentEnvironmentKey is the attribute Key conforming to the + // "deployment.environment" semantic conventions. It represents the name of + // the [deployment + // environment](https://wikipedia.org/wiki/Deployment_environment) (aka + // deployment tier). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'staging', 'production' + // Note: `deployment.environment` does not affect the uniqueness + // constraints defined through + // the `service.namespace`, `service.name` and `service.instance.id` + // resource attributes. + // This implies that resources carrying the following attribute + // combinations MUST be + // considered to be identifying the same service: + // + // * `service.name=frontend`, `deployment.environment=production` + // * `service.name=frontend`, `deployment.environment=staging`. + DeploymentEnvironmentKey = attribute.Key("deployment.environment") +) + +// DeploymentEnvironment returns an attribute KeyValue conforming to the +// "deployment.environment" semantic conventions. It represents the name of the +// [deployment environment](https://wikipedia.org/wiki/Deployment_environment) +// (aka deployment tier). +func DeploymentEnvironment(val string) attribute.KeyValue { + return DeploymentEnvironmentKey.String(val) } -// The single (language) runtime instance which is monitored. +// A serverless instance. const ( - // ProcessRuntimeNameKey is the attribute Key conforming to the - // "process.runtime.name" semantic conventions. It represents the name of - // the runtime of this process. For compiled native binaries, this SHOULD - // be the name of the compiler. + // FaaSInstanceKey is the attribute Key conforming to the "faas.instance" + // semantic conventions. It represents the execution environment ID as a + // string, that will be potentially reused for other invocations to the + // same function/function version. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'OpenJDK Runtime Environment' - ProcessRuntimeNameKey = attribute.Key("process.runtime.name") + // Stability: experimental + // Examples: '2021/06/28/[$LATEST]2f399eb14537447da05ab2a2e39309de' + // Note: * **AWS Lambda:** Use the (full) log stream name. + FaaSInstanceKey = attribute.Key("faas.instance") - // ProcessRuntimeVersionKey is the attribute Key conforming to the - // "process.runtime.version" semantic conventions. It represents the - // version of the runtime of this process, as returned by the runtime - // without modification. + // FaaSMaxMemoryKey is the attribute Key conforming to the + // "faas.max_memory" semantic conventions. It represents the amount of + // memory available to the serverless function converted to Bytes. // - // Type: string + // Type: int // RequirementLevel: Optional - // Stability: stable - // Examples: '14.0.2' - ProcessRuntimeVersionKey = attribute.Key("process.runtime.version") + // Stability: experimental + // Examples: 134217728 + // Note: It's recommended to set this attribute since e.g. too little + // memory can easily stop a Java AWS Lambda function from working + // correctly. On AWS Lambda, the environment variable + // `AWS_LAMBDA_FUNCTION_MEMORY_SIZE` provides this information (which must + // be multiplied by 1,048,576). + FaaSMaxMemoryKey = attribute.Key("faas.max_memory") - // ProcessRuntimeDescriptionKey is the attribute Key conforming to the - // "process.runtime.description" semantic conventions. It represents an - // additional description about the runtime of the process, for example a - // specific vendor customization of the runtime environment. + // FaaSNameKey is the attribute Key conforming to the "faas.name" semantic + // conventions. It represents the name of the single function that this + // runtime instance executes. + // + // Type: string + // RequirementLevel: Required + // Stability: experimental + // Examples: 'my-function', 'myazurefunctionapp/some-function-name' + // Note: This is the name of the function as configured/deployed on the + // FaaS + // platform and is usually different from the name of the callback + // function (which may be stored in the + // [`code.namespace`/`code.function`](/docs/general/attributes.md#source-code-attributes) + // span attributes). + // + // For some cloud providers, the above definition is ambiguous. The + // following + // definition of function name MUST be used for this attribute + // (and consequently the span name) for the listed cloud + // providers/products: + // + // * **Azure:** The full name `/`, i.e., function app name + // followed by a forward slash followed by the function name (this form + // can also be seen in the resource JSON for the function). + // This means that a span attribute MUST be used, as an Azure function + // app can host multiple functions that would usually share + // a TracerProvider (see also the `cloud.resource_id` attribute). + FaaSNameKey = attribute.Key("faas.name") + + // FaaSVersionKey is the attribute Key conforming to the "faas.version" + // semantic conventions. It represents the immutable version of the + // function being executed. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'Eclipse OpenJ9 Eclipse OpenJ9 VM openj9-0.21.0' - ProcessRuntimeDescriptionKey = attribute.Key("process.runtime.description") + // Stability: experimental + // Examples: '26', 'pinkfroid-00002' + // Note: Depending on the cloud provider and platform, use: + // + // * **AWS Lambda:** The [function + // version](https://docs.aws.amazon.com/lambda/latest/dg/configuration-versions.html) + // (an integer represented as a decimal string). + // * **Google Cloud Run (Services):** The + // [revision](https://cloud.google.com/run/docs/managing/revisions) + // (i.e., the function name plus the revision suffix). + // * **Google Cloud Functions:** The value of the + // [`K_REVISION` environment + // variable](https://cloud.google.com/functions/docs/env-var#runtime_environment_variables_set_automatically). + // * **Azure Functions:** Not applicable. Do not set this attribute. + FaaSVersionKey = attribute.Key("faas.version") ) -// ProcessRuntimeName returns an attribute KeyValue conforming to the -// "process.runtime.name" semantic conventions. It represents the name of the -// runtime of this process. For compiled native binaries, this SHOULD be the -// name of the compiler. -func ProcessRuntimeName(val string) attribute.KeyValue { - return ProcessRuntimeNameKey.String(val) +// FaaSInstance returns an attribute KeyValue conforming to the +// "faas.instance" semantic conventions. It represents the execution +// environment ID as a string, that will be potentially reused for other +// invocations to the same function/function version. +func FaaSInstance(val string) attribute.KeyValue { + return FaaSInstanceKey.String(val) } -// ProcessRuntimeVersion returns an attribute KeyValue conforming to the -// "process.runtime.version" semantic conventions. It represents the version of -// the runtime of this process, as returned by the runtime without -// modification. -func ProcessRuntimeVersion(val string) attribute.KeyValue { - return ProcessRuntimeVersionKey.String(val) +// FaaSMaxMemory returns an attribute KeyValue conforming to the +// "faas.max_memory" semantic conventions. It represents the amount of memory +// available to the serverless function converted to Bytes. +func FaaSMaxMemory(val int) attribute.KeyValue { + return FaaSMaxMemoryKey.Int(val) } -// ProcessRuntimeDescription returns an attribute KeyValue conforming to the -// "process.runtime.description" semantic conventions. It represents an -// additional description about the runtime of the process, for example a -// specific vendor customization of the runtime environment. -func ProcessRuntimeDescription(val string) attribute.KeyValue { - return ProcessRuntimeDescriptionKey.String(val) +// FaaSName returns an attribute KeyValue conforming to the "faas.name" +// semantic conventions. It represents the name of the single function that +// this runtime instance executes. +func FaaSName(val string) attribute.KeyValue { + return FaaSNameKey.String(val) +} + +// FaaSVersion returns an attribute KeyValue conforming to the +// "faas.version" semantic conventions. It represents the immutable version of +// the function being executed. +func FaaSVersion(val string) attribute.KeyValue { + return FaaSVersionKey.String(val) } // A service instance. @@ -1974,7 +2196,7 @@ const ( // // Type: string // RequirementLevel: Required - // Stability: stable + // Stability: experimental // Examples: 'shoppingcart' // Note: MUST be the same for all instances of horizontally scaled // services. If the value was not specified, SDKs MUST fallback to @@ -1991,7 +2213,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '2.0.0', 'a01dbef8a' ServiceVersionKey = attribute.Key("service.version") ) @@ -2013,31 +2235,13 @@ func ServiceVersion(val string) attribute.KeyValue { // A service instance. const ( - // ServiceNamespaceKey is the attribute Key conforming to the - // "service.namespace" semantic conventions. It represents a namespace for - // `service.name`. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'Shop' - // Note: A string value having a meaning that helps to distinguish a group - // of services, for example the team name that owns a group of services. - // `service.name` is expected to be unique within the same namespace. If - // `service.namespace` is not specified in the Resource then `service.name` - // is expected to be unique for all services that have no explicit - // namespace defined (so the empty/unspecified namespace is simply one more - // valid namespace). Zero-length namespace string is assumed equal to - // unspecified namespace. - ServiceNamespaceKey = attribute.Key("service.namespace") - // ServiceInstanceIDKey is the attribute Key conforming to the // "service.instance.id" semantic conventions. It represents the string ID // of the service instance. // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'my-k8s-pod-deployment-1', // '627cc493-f310-47de-96bd-71410b7dec09' // Note: MUST be unique for each instance of the same @@ -2054,14 +2258,25 @@ const ( // RFC 4122 UUID (services aiming for reproducible UUIDs may also use // Version 5, see RFC 4122 for more recommendations). ServiceInstanceIDKey = attribute.Key("service.instance.id") -) -// ServiceNamespace returns an attribute KeyValue conforming to the -// "service.namespace" semantic conventions. It represents a namespace for -// `service.name`. -func ServiceNamespace(val string) attribute.KeyValue { - return ServiceNamespaceKey.String(val) -} + // ServiceNamespaceKey is the attribute Key conforming to the + // "service.namespace" semantic conventions. It represents a namespace for + // `service.name`. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'Shop' + // Note: A string value having a meaning that helps to distinguish a group + // of services, for example the team name that owns a group of services. + // `service.name` is expected to be unique within the same namespace. If + // `service.namespace` is not specified in the Resource then `service.name` + // is expected to be unique for all services that have no explicit + // namespace defined (so the empty/unspecified namespace is simply one more + // valid namespace). Zero-length namespace string is assumed equal to + // unspecified namespace. + ServiceNamespaceKey = attribute.Key("service.namespace") +) // ServiceInstanceID returns an attribute KeyValue conforming to the // "service.instance.id" semantic conventions. It represents the string ID of @@ -2070,16 +2285,32 @@ func ServiceInstanceID(val string) attribute.KeyValue { return ServiceInstanceIDKey.String(val) } +// ServiceNamespace returns an attribute KeyValue conforming to the +// "service.namespace" semantic conventions. It represents a namespace for +// `service.name`. +func ServiceNamespace(val string) attribute.KeyValue { + return ServiceNamespaceKey.String(val) +} + // The telemetry SDK used to capture data recorded by the instrumentation // libraries. const ( + // TelemetrySDKLanguageKey is the attribute Key conforming to the + // "telemetry.sdk.language" semantic conventions. It represents the + // language of the telemetry SDK. + // + // Type: Enum + // RequirementLevel: Required + // Stability: experimental + TelemetrySDKLanguageKey = attribute.Key("telemetry.sdk.language") + // TelemetrySDKNameKey is the attribute Key conforming to the // "telemetry.sdk.name" semantic conventions. It represents the name of the // telemetry SDK as defined above. // // Type: string // RequirementLevel: Required - // Stability: stable + // Stability: experimental // Examples: 'opentelemetry' // Note: The OpenTelemetry SDK MUST set the `telemetry.sdk.name` attribute // to `opentelemetry`. @@ -2094,22 +2325,13 @@ const ( // implementation. TelemetrySDKNameKey = attribute.Key("telemetry.sdk.name") - // TelemetrySDKLanguageKey is the attribute Key conforming to the - // "telemetry.sdk.language" semantic conventions. It represents the - // language of the telemetry SDK. - // - // Type: Enum - // RequirementLevel: Required - // Stability: stable - TelemetrySDKLanguageKey = attribute.Key("telemetry.sdk.language") - // TelemetrySDKVersionKey is the attribute Key conforming to the // "telemetry.sdk.version" semantic conventions. It represents the version // string of the telemetry SDK. // // Type: string // RequirementLevel: Required - // Stability: stable + // Stability: experimental // Examples: '1.2.3' TelemetrySDKVersionKey = attribute.Key("telemetry.sdk.version") ) @@ -2158,33 +2380,67 @@ func TelemetrySDKVersion(val string) attribute.KeyValue { // The telemetry SDK used to capture data recorded by the instrumentation // libraries. const ( - // TelemetryAutoVersionKey is the attribute Key conforming to the - // "telemetry.auto.version" semantic conventions. It represents the version - // string of the auto instrumentation agent, if used. + // TelemetryDistroNameKey is the attribute Key conforming to the + // "telemetry.distro.name" semantic conventions. It represents the name of + // the auto instrumentation agent or distribution, if used. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'parts-unlimited-java' + // Note: Official auto instrumentation agents and distributions SHOULD set + // the `telemetry.distro.name` attribute to + // a string starting with `opentelemetry-`, e.g. + // `opentelemetry-java-instrumentation`. + TelemetryDistroNameKey = attribute.Key("telemetry.distro.name") + + // TelemetryDistroVersionKey is the attribute Key conforming to the + // "telemetry.distro.version" semantic conventions. It represents the + // version string of the auto instrumentation agent or distribution, if + // used. // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '1.2.3' - TelemetryAutoVersionKey = attribute.Key("telemetry.auto.version") + TelemetryDistroVersionKey = attribute.Key("telemetry.distro.version") ) -// TelemetryAutoVersion returns an attribute KeyValue conforming to the -// "telemetry.auto.version" semantic conventions. It represents the version -// string of the auto instrumentation agent, if used. -func TelemetryAutoVersion(val string) attribute.KeyValue { - return TelemetryAutoVersionKey.String(val) +// TelemetryDistroName returns an attribute KeyValue conforming to the +// "telemetry.distro.name" semantic conventions. It represents the name of the +// auto instrumentation agent or distribution, if used. +func TelemetryDistroName(val string) attribute.KeyValue { + return TelemetryDistroNameKey.String(val) +} + +// TelemetryDistroVersion returns an attribute KeyValue conforming to the +// "telemetry.distro.version" semantic conventions. It represents the version +// string of the auto instrumentation agent or distribution, if used. +func TelemetryDistroVersion(val string) attribute.KeyValue { + return TelemetryDistroVersionKey.String(val) } // Resource describing the packaged software running the application code. Web // engines are typically executed using process.runtime. const ( + // WebEngineDescriptionKey is the attribute Key conforming to the + // "webengine.description" semantic conventions. It represents the + // additional description of the web engine (e.g. detailed version and + // edition information). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'WildFly Full 21.0.0.Final (WildFly Core 13.0.1.Final) - + // 2.2.2.Final' + WebEngineDescriptionKey = attribute.Key("webengine.description") + // WebEngineNameKey is the attribute Key conforming to the "webengine.name" // semantic conventions. It represents the name of the web engine. // // Type: string // RequirementLevel: Required - // Stability: stable + // Stability: experimental // Examples: 'WildFly' WebEngineNameKey = attribute.Key("webengine.name") @@ -2194,23 +2450,19 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '21.0.0' WebEngineVersionKey = attribute.Key("webengine.version") - - // WebEngineDescriptionKey is the attribute Key conforming to the - // "webengine.description" semantic conventions. It represents the - // additional description of the web engine (e.g. detailed version and - // edition information). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'WildFly Full 21.0.0.Final (WildFly Core 13.0.1.Final) - - // 2.2.2.Final' - WebEngineDescriptionKey = attribute.Key("webengine.description") ) +// WebEngineDescription returns an attribute KeyValue conforming to the +// "webengine.description" semantic conventions. It represents the additional +// description of the web engine (e.g. detailed version and edition +// information). +func WebEngineDescription(val string) attribute.KeyValue { + return WebEngineDescriptionKey.String(val) +} + // WebEngineName returns an attribute KeyValue conforming to the // "webengine.name" semantic conventions. It represents the name of the web // engine. @@ -2225,14 +2477,6 @@ func WebEngineVersion(val string) attribute.KeyValue { return WebEngineVersionKey.String(val) } -// WebEngineDescription returns an attribute KeyValue conforming to the -// "webengine.description" semantic conventions. It represents the additional -// description of the web engine (e.g. detailed version and edition -// information). -func WebEngineDescription(val string) attribute.KeyValue { - return WebEngineDescriptionKey.String(val) -} - // Attributes used by non-OTLP exporters to represent OpenTelemetry Scope's // concepts. const ( @@ -2242,7 +2486,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'io.opentelemetry.contrib.mongodb' OTelScopeNameKey = attribute.Key("otel.scope.name") @@ -2252,7 +2496,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '1.0.0' OTelScopeVersionKey = attribute.Key("otel.scope.version") ) @@ -2275,36 +2519,38 @@ func OTelScopeVersion(val string) attribute.KeyValue { // Scope's concepts. const ( // OTelLibraryNameKey is the attribute Key conforming to the - // "otel.library.name" semantic conventions. It represents the deprecated, - // use the `otel.scope.name` attribute. + // "otel.library.name" semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: 'io.opentelemetry.contrib.mongodb' + // Deprecated: use the `otel.scope.name` attribute. OTelLibraryNameKey = attribute.Key("otel.library.name") // OTelLibraryVersionKey is the attribute Key conforming to the - // "otel.library.version" semantic conventions. It represents the - // deprecated, use the `otel.scope.version` attribute. + // "otel.library.version" semantic conventions. // // Type: string // RequirementLevel: Optional // Stability: deprecated // Examples: '1.0.0' + // Deprecated: use the `otel.scope.version` attribute. OTelLibraryVersionKey = attribute.Key("otel.library.version") ) // OTelLibraryName returns an attribute KeyValue conforming to the -// "otel.library.name" semantic conventions. It represents the deprecated, use -// the `otel.scope.name` attribute. +// "otel.library.name" semantic conventions. +// +// Deprecated: use the `otel.scope.name` attribute. func OTelLibraryName(val string) attribute.KeyValue { return OTelLibraryNameKey.String(val) } // OTelLibraryVersion returns an attribute KeyValue conforming to the -// "otel.library.version" semantic conventions. It represents the deprecated, -// use the `otel.scope.version` attribute. +// "otel.library.version" semantic conventions. +// +// Deprecated: use the `otel.scope.version` attribute. func OTelLibraryVersion(val string) attribute.KeyValue { return OTelLibraryVersionKey.String(val) } diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/schema.go b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/schema.go similarity index 93% rename from vendor/go.opentelemetry.io/otel/semconv/v1.21.0/schema.go rename to vendor/go.opentelemetry.io/otel/semconv/v1.24.0/schema.go index 66ffd5989f..9733ce888a 100644 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/schema.go +++ b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/schema.go @@ -12,9 +12,9 @@ // See the License for the specific language governing permissions and // limitations under the License. -package semconv // import "go.opentelemetry.io/otel/semconv/v1.21.0" +package semconv // import "go.opentelemetry.io/otel/semconv/v1.24.0" // SchemaURL is the schema URL that matches the version of the semantic conventions // that this package defines. Semconv packages starting from v1.4.0 must declare // non-empty schema URL in the form https://opentelemetry.io/schemas/ -const SchemaURL = "https://opentelemetry.io/schemas/1.21.0" +const SchemaURL = "https://opentelemetry.io/schemas/1.24.0" diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/trace.go b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/trace.go similarity index 52% rename from vendor/go.opentelemetry.io/otel/semconv/v1.21.0/trace.go rename to vendor/go.opentelemetry.io/otel/semconv/v1.24.0/trace.go index b5a91450d4..397174818b 100644 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.21.0/trace.go +++ b/vendor/go.opentelemetry.io/otel/semconv/v1.24.0/trace.go @@ -14,74 +14,260 @@ // Code generated from semantic convention specification. DO NOT EDIT. -package semconv // import "go.opentelemetry.io/otel/semconv/v1.21.0" +package semconv // import "go.opentelemetry.io/otel/semconv/v1.24.0" import "go.opentelemetry.io/otel/attribute" -// The shared attributes used to report a single exception associated with a -// span or log. +// Operations that access some remote service. +const ( + // PeerServiceKey is the attribute Key conforming to the "peer.service" + // semantic conventions. It represents the + // [`service.name`](/docs/resource/README.md#service) of the remote + // service. SHOULD be equal to the actual `service.name` resource attribute + // of the remote service if any. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'AuthTokenCache' + PeerServiceKey = attribute.Key("peer.service") +) + +// PeerService returns an attribute KeyValue conforming to the +// "peer.service" semantic conventions. It represents the +// [`service.name`](/docs/resource/README.md#service) of the remote service. +// SHOULD be equal to the actual `service.name` resource attribute of the +// remote service if any. +func PeerService(val string) attribute.KeyValue { + return PeerServiceKey.String(val) +} + +// These attributes may be used for any operation with an authenticated and/or +// authorized enduser. +const ( + // EnduserIDKey is the attribute Key conforming to the "enduser.id" + // semantic conventions. It represents the username or client_id extracted + // from the access token or + // [Authorization](https://tools.ietf.org/html/rfc7235#section-4.2) header + // in the inbound request from outside the system. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'username' + EnduserIDKey = attribute.Key("enduser.id") + + // EnduserRoleKey is the attribute Key conforming to the "enduser.role" + // semantic conventions. It represents the actual/assumed role the client + // is making the request under extracted from token or application security + // context. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'admin' + EnduserRoleKey = attribute.Key("enduser.role") + + // EnduserScopeKey is the attribute Key conforming to the "enduser.scope" + // semantic conventions. It represents the scopes or granted authorities + // the client currently possesses extracted from token or application + // security context. The value would come from the scope associated with an + // [OAuth 2.0 Access + // Token](https://tools.ietf.org/html/rfc6749#section-3.3) or an attribute + // value in a [SAML 2.0 + // Assertion](http://docs.oasis-open.org/security/saml/Post2.0/sstc-saml-tech-overview-2.0.html). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'read:message, write:files' + EnduserScopeKey = attribute.Key("enduser.scope") +) + +// EnduserID returns an attribute KeyValue conforming to the "enduser.id" +// semantic conventions. It represents the username or client_id extracted from +// the access token or +// [Authorization](https://tools.ietf.org/html/rfc7235#section-4.2) header in +// the inbound request from outside the system. +func EnduserID(val string) attribute.KeyValue { + return EnduserIDKey.String(val) +} + +// EnduserRole returns an attribute KeyValue conforming to the +// "enduser.role" semantic conventions. It represents the actual/assumed role +// the client is making the request under extracted from token or application +// security context. +func EnduserRole(val string) attribute.KeyValue { + return EnduserRoleKey.String(val) +} + +// EnduserScope returns an attribute KeyValue conforming to the +// "enduser.scope" semantic conventions. It represents the scopes or granted +// authorities the client currently possesses extracted from token or +// application security context. The value would come from the scope associated +// with an [OAuth 2.0 Access +// Token](https://tools.ietf.org/html/rfc6749#section-3.3) or an attribute +// value in a [SAML 2.0 +// Assertion](http://docs.oasis-open.org/security/saml/Post2.0/sstc-saml-tech-overview-2.0.html). +func EnduserScope(val string) attribute.KeyValue { + return EnduserScopeKey.String(val) +} + +// These attributes allow to report this unit of code and therefore to provide +// more context about the span. const ( - // 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. + // CodeColumnKey is the attribute Key conforming to the "code.column" + // semantic conventions. It represents the column number in `code.filepath` + // best representing the operation. It SHOULD point within the code unit + // named in `code.function`. + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 16 + CodeColumnKey = attribute.Key("code.column") + + // CodeFilepathKey is the attribute Key conforming to the "code.filepath" + // semantic conventions. It represents the source code file name that + // identifies the code unit as uniquely as possible (preferably an absolute + // file path). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: '/usr/local/MyApplication/content_root/app/index.php' + CodeFilepathKey = attribute.Key("code.filepath") + + // CodeFunctionKey is the attribute Key conforming to the "code.function" + // semantic conventions. It represents the method or function name, or + // equivalent (usually rightmost part of the code unit's name). // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'java.net.ConnectException', 'OSError' - ExceptionTypeKey = attribute.Key("exception.type") + // Stability: experimental + // Examples: 'serveRequest' + CodeFunctionKey = attribute.Key("code.function") + + // CodeLineNumberKey is the attribute Key conforming to the "code.lineno" + // semantic conventions. It represents the line number in `code.filepath` + // best representing the operation. It SHOULD point within the code unit + // named in `code.function`. + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 42 + CodeLineNumberKey = attribute.Key("code.lineno") - // ExceptionMessageKey is the attribute Key conforming to the - // "exception.message" semantic conventions. It represents the exception - // message. + // CodeNamespaceKey is the attribute Key conforming to the "code.namespace" + // semantic conventions. It represents the "namespace" within which + // `code.function` is defined. Usually the qualified class or module name, + // such that `code.namespace` + some separator + `code.function` form a + // unique identifier for the code unit. // // Type: string // RequirementLevel: Optional - // Stability: stable - // 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 + // Stability: experimental + // Examples: 'com.example.MyHTTPService' + CodeNamespaceKey = attribute.Key("code.namespace") + + // CodeStacktraceKey is the attribute Key conforming to the + // "code.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: stable - // Examples: 'Exception in thread "main" java.lang.RuntimeException: Test - // exception\\n at ' - // 'com.example.GenerateTrace.methodB(GenerateTrace.java:13)\\n at ' + // Stability: experimental + // Examples: '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") + CodeStacktraceKey = attribute.Key("code.stacktrace") ) -// 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) +// CodeColumn returns an attribute KeyValue conforming to the "code.column" +// semantic conventions. It represents the column number in `code.filepath` +// best representing the operation. It SHOULD point within the code unit named +// in `code.function`. +func CodeColumn(val int) attribute.KeyValue { + return CodeColumnKey.Int(val) +} + +// CodeFilepath returns an attribute KeyValue conforming to the +// "code.filepath" semantic conventions. It represents the source code file +// name that identifies the code unit as uniquely as possible (preferably an +// absolute file path). +func CodeFilepath(val string) attribute.KeyValue { + return CodeFilepathKey.String(val) +} + +// CodeFunction returns an attribute KeyValue conforming to the +// "code.function" semantic conventions. It represents the method or function +// name, or equivalent (usually rightmost part of the code unit's name). +func CodeFunction(val string) attribute.KeyValue { + return CodeFunctionKey.String(val) +} + +// CodeLineNumber returns an attribute KeyValue conforming to the "code.lineno" +// semantic conventions. It represents the line number in `code.filepath` best +// representing the operation. It SHOULD point within the code unit named in +// `code.function`. +func CodeLineNumber(val int) attribute.KeyValue { + return CodeLineNumberKey.Int(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) +// CodeNamespace returns an attribute KeyValue conforming to the +// "code.namespace" semantic conventions. It represents the "namespace" within +// which `code.function` is defined. Usually the qualified class or module +// name, such that `code.namespace` + some separator + `code.function` form a +// unique identifier for the code unit. +func CodeNamespace(val string) attribute.KeyValue { + return CodeNamespaceKey.String(val) } -// ExceptionStacktrace returns an attribute KeyValue conforming to the -// "exception.stacktrace" semantic conventions. It represents a stacktrace as a +// CodeStacktrace returns an attribute KeyValue conforming to the +// "code.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) +func CodeStacktrace(val string) attribute.KeyValue { + return CodeStacktraceKey.String(val) +} + +// These attributes may be used for any operation to store information about a +// thread that started a span. +const ( + // ThreadIDKey is the attribute Key conforming to the "thread.id" semantic + // conventions. It represents the current "managed" thread ID (as opposed + // to OS thread ID). + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 42 + ThreadIDKey = attribute.Key("thread.id") + + // ThreadNameKey is the attribute Key conforming to the "thread.name" + // semantic conventions. It represents the current thread name. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'main' + ThreadNameKey = attribute.Key("thread.name") +) + +// ThreadID returns an attribute KeyValue conforming to the "thread.id" +// semantic conventions. It represents the current "managed" thread ID (as +// opposed to OS thread ID). +func ThreadID(val int) attribute.KeyValue { + return ThreadIDKey.Int(val) +} + +// ThreadName returns an attribute KeyValue conforming to the "thread.name" +// semantic conventions. It represents the current thread name. +func ThreadName(val string) attribute.KeyValue { + return ThreadNameKey.String(val) } // Span attributes used by AWS Lambda (in addition to general `faas` @@ -95,7 +281,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'arn:aws:lambda:us-east-1:123456:function:myfunction:myalias' // Note: This may be different from `cloud.resource_id` if an alias is // involved. @@ -123,7 +309,7 @@ const ( // // Type: string // RequirementLevel: Required - // Stability: stable + // Stability: experimental // Examples: '123e4567-e89b-12d3-a456-426614174000', '0001' CloudeventsEventIDKey = attribute.Key("cloudevents.event_id") @@ -134,7 +320,7 @@ const ( // // Type: string // RequirementLevel: Required - // Stability: stable + // Stability: experimental // Examples: 'https://github.com/cloudevents', // '/cloudevents/spec/pull/123', 'my-service' CloudeventsEventSourceKey = attribute.Key("cloudevents.event_source") @@ -147,10 +333,22 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '1.0' CloudeventsEventSpecVersionKey = attribute.Key("cloudevents.event_spec_version") + // CloudeventsEventSubjectKey is the attribute Key conforming to the + // "cloudevents.event_subject" semantic conventions. It represents the + // [subject](https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#subject) + // of the event in the context of the event producer (identified by + // source). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'mynewfile.jpg' + CloudeventsEventSubjectKey = attribute.Key("cloudevents.event_subject") + // CloudeventsEventTypeKey is the attribute Key conforming to the // "cloudevents.event_type" semantic conventions. It represents the // [event_type](https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#type) @@ -159,22 +357,10 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'com.github.pull_request.opened', // 'com.example.object.deleted.v2' CloudeventsEventTypeKey = attribute.Key("cloudevents.event_type") - - // CloudeventsEventSubjectKey is the attribute Key conforming to the - // "cloudevents.event_subject" semantic conventions. It represents the - // [subject](https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#subject) - // of the event in the context of the event producer (identified by - // source). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'mynewfile.jpg' - CloudeventsEventSubjectKey = attribute.Key("cloudevents.event_subject") ) // CloudeventsEventID returns an attribute KeyValue conforming to the @@ -202,6 +388,14 @@ func CloudeventsEventSpecVersion(val string) attribute.KeyValue { return CloudeventsEventSpecVersionKey.String(val) } +// CloudeventsEventSubject returns an attribute KeyValue conforming to the +// "cloudevents.event_subject" semantic conventions. It represents the +// [subject](https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#subject) +// of the event in the context of the event producer (identified by source). +func CloudeventsEventSubject(val string) attribute.KeyValue { + return CloudeventsEventSubjectKey.String(val) +} + // CloudeventsEventType returns an attribute KeyValue conforming to the // "cloudevents.event_type" semantic conventions. It represents the // [event_type](https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#type) @@ -211,14 +405,6 @@ func CloudeventsEventType(val string) attribute.KeyValue { return CloudeventsEventTypeKey.String(val) } -// CloudeventsEventSubject returns an attribute KeyValue conforming to the -// "cloudevents.event_subject" semantic conventions. It represents the -// [subject](https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#subject) -// of the event in the context of the event producer (identified by source). -func CloudeventsEventSubject(val string) attribute.KeyValue { - return CloudeventsEventSubjectKey.String(val) -} - // Semantic conventions for the OpenTracing Shim const ( // OpentracingRefTypeKey is the attribute Key conforming to the @@ -227,7 +413,7 @@ const ( // // Type: Enum // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Note: The causal relationship between a child Span and a parent Span. OpentracingRefTypeKey = attribute.Key("opentracing.ref_type") ) @@ -235,688 +421,30 @@ const ( var ( // The parent Span depends on the child Span in some capacity OpentracingRefTypeChildOf = OpentracingRefTypeKey.String("child_of") - // The parent Span does not depend in any way on the result of the child Span + // The parent Span doesn't depend in any way on the result of the child Span OpentracingRefTypeFollowsFrom = OpentracingRefTypeKey.String("follows_from") ) -// The attributes used to perform database client calls. +// Span attributes used by non-OTLP exporters to represent OpenTelemetry Span's +// concepts. const ( - // 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. + // OTelStatusCodeKey is the attribute Key conforming to the + // "otel.status_code" semantic conventions. It represents the name of the + // code, either "OK" or "ERROR". MUST NOT be set if the status code is + // UNSET. // // Type: Enum - // RequirementLevel: Required - // Stability: stable - DBSystemKey = attribute.Key("db.system") + // RequirementLevel: Optional + // Stability: experimental + OTelStatusCodeKey = attribute.Key("otel.status_code") - // 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. + // OTelStatusDescriptionKey is the attribute Key conforming to the + // "otel.status_description" semantic conventions. It represents the + // description of the Status if it has a value, otherwise not set. // // Type: string // RequirementLevel: Optional - // Stability: stable - // Examples: 'Server=(localdb)\\v11.0;Integrated Security=true;' - DBConnectionStringKey = attribute.Key("db.connection_string") - - // 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: stable - // Examples: 'readonly_user', 'reporting_user' - DBUserKey = attribute.Key("db.user") - - // 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: stable - // Examples: 'org.postgresql.Driver', - // 'com.microsoft.sqlserver.jdbc.SQLServerDriver' - DBJDBCDriverClassnameKey = attribute.Key("db.jdbc.driver_classname") - - // 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: ConditionallyRequired (If applicable.) - // Stability: stable - // 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") - - // DBStatementKey is the attribute Key conforming to the "db.statement" - // semantic conventions. It represents the database statement being - // executed. - // - // Type: string - // RequirementLevel: Recommended (Should be collected by default only if - // there is sanitization that excludes sensitive information.) - // Stability: stable - // Examples: 'SELECT * FROM wuser_table', 'SET mykey "WuValue"' - DBStatementKey = attribute.Key("db.statement") - - // 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: ConditionallyRequired (If `db.statement` is not - // applicable.) - // Stability: stable - // 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") -) - -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") -) - -// 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) -} - -// 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) -} - -// 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) -} - -// 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) -} - -// 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) -} - -// 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) -} - -// Connection-level attributes for Microsoft SQL Server -const ( - // 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/en-us/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: stable - // 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") -) - -// 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/en-us/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) -} - -// Call-level attributes for Cassandra -const ( - // 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: stable - // Examples: 5000 - DBCassandraPageSizeKey = attribute.Key("db.cassandra.page_size") - - // 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: stable - DBCassandraConsistencyLevelKey = attribute.Key("db.cassandra.consistency_level") - - // DBCassandraTableKey is the attribute Key conforming to the - // "db.cassandra.table" semantic conventions. It represents the name of the - // primary table that the operation is acting upon, including the keyspace - // name (if applicable). - // - // Type: string - // RequirementLevel: Recommended - // Stability: stable - // 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") - - // 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: stable - DBCassandraIdempotenceKey = attribute.Key("db.cassandra.idempotence") - - // 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: stable - // Examples: 0, 2 - DBCassandraSpeculativeExecutionCountKey = attribute.Key("db.cassandra.speculative_execution_count") - - // 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: stable - // Examples: 'be13faa2-8574-4d71-926d-27f16cf8a7af' - DBCassandraCoordinatorIDKey = attribute.Key("db.cassandra.coordinator.id") - - // 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: stable - // Examples: 'us-west-2' - DBCassandraCoordinatorDCKey = attribute.Key("db.cassandra.coordinator.dc") -) - -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") -) - -// 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) -} - -// DBCassandraTable returns an attribute KeyValue conforming to the -// "db.cassandra.table" semantic conventions. It represents the name of the -// primary table that the operation is acting upon, including the keyspace name -// (if applicable). -func DBCassandraTable(val string) attribute.KeyValue { - return DBCassandraTableKey.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) -} - -// 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) -} - -// 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) -} - -// 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) -} - -// Call-level attributes for Redis -const ( - // 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: ConditionallyRequired (If other than the default - // database (`0`).) - // Stability: stable - // Examples: 0, 1, 15 - DBRedisDBIndexKey = attribute.Key("db.redis.database_index") -) - -// 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) -} - -// Call-level attributes for MongoDB -const ( - // DBMongoDBCollectionKey is the attribute Key conforming to the - // "db.mongodb.collection" semantic conventions. It represents the - // collection being accessed within the database stated in `db.name`. - // - // Type: string - // RequirementLevel: Required - // Stability: stable - // Examples: 'customers', 'products' - DBMongoDBCollectionKey = attribute.Key("db.mongodb.collection") -) - -// DBMongoDBCollection returns an attribute KeyValue conforming to the -// "db.mongodb.collection" semantic conventions. It represents the collection -// being accessed within the database stated in `db.name`. -func DBMongoDBCollection(val string) attribute.KeyValue { - return DBMongoDBCollectionKey.String(val) -} - -// Call-level attributes for SQL databases -const ( - // 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: Recommended - // Stability: stable - // 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") -) - -// 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) -} - -// Call-level attributes for Cosmos DB. -const ( - // 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: stable - // Examples: '3ba4827d-4422-483f-b59f-85b74211c11d' - DBCosmosDBClientIDKey = attribute.Key("db.cosmosdb.client_id") - - // DBCosmosDBOperationTypeKey is the attribute Key conforming to the - // "db.cosmosdb.operation_type" semantic conventions. It represents the - // cosmosDB Operation Type. - // - // Type: Enum - // RequirementLevel: ConditionallyRequired (when performing one of the - // operations in this list) - // Stability: stable - DBCosmosDBOperationTypeKey = attribute.Key("db.cosmosdb.operation_type") - - // DBCosmosDBConnectionModeKey is the attribute Key conforming to the - // "db.cosmosdb.connection_mode" semantic conventions. It represents the - // cosmos client connection mode. - // - // Type: Enum - // RequirementLevel: ConditionallyRequired (if not `direct` (or pick gw as - // default)) - // Stability: stable - 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: ConditionallyRequired (if available) - // Stability: stable - // Examples: 'anystring' - DBCosmosDBContainerKey = attribute.Key("db.cosmosdb.container") - - // 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: stable - 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: ConditionallyRequired (if response was received) - // Stability: stable - // 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: ConditionallyRequired (when response was received and - // contained sub-code.) - // Stability: stable - // Examples: 1000, 1002 - DBCosmosDBSubStatusCodeKey = attribute.Key("db.cosmosdb.sub_status_code") - - // 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: ConditionallyRequired (when available) - // Stability: stable - // Examples: 46.18, 1.0 - DBCosmosDBRequestChargeKey = attribute.Key("db.cosmosdb.request_charge") -) - -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 ( - // Gateway (HTTP) connections mode - DBCosmosDBConnectionModeGateway = DBCosmosDBConnectionModeKey.String("gateway") - // Direct connection - DBCosmosDBConnectionModeDirect = DBCosmosDBConnectionModeKey.String("direct") -) - -// 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) -} - -// 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) -} - -// 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) -} - -// Span attributes used by non-OTLP exporters to represent OpenTelemetry Span's -// concepts. -const ( - // OTelStatusCodeKey is the attribute Key conforming to the - // "otel.status_code" semantic conventions. It represents the name of the - // code, either "OK" or "ERROR". MUST NOT be set if the status code is - // UNSET. - // - // Type: Enum - // RequirementLevel: Optional - // Stability: stable - OTelStatusCodeKey = attribute.Key("otel.status_code") - - // OTelStatusDescriptionKey is the attribute Key conforming to the - // "otel.status_description" semantic conventions. It represents the - // description of the Status if it has a value, otherwise not set. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'resource not found' OTelStatusDescriptionKey = attribute.Key("otel.status_description") ) @@ -939,48 +467,17 @@ func OTelStatusDescription(val string) attribute.KeyValue { // without provisioning or managing of servers (also known as serverless // functions or Function as a Service (FaaS)) with spans. const ( - // 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: stable - // Note: For the server/consumer span on the incoming side, - // `faas.trigger` MUST be set. - // - // Clients invoking FaaS instances usually cannot set `faas.trigger`, - // since they would typically need to look in the payload to determine - // the event type. If clients set it, it should be the same as the - // trigger that corresponding incoming would have (i.e., this has - // nothing to do with the underlying transport used to make the API - // call to invoke the lambda, which is often HTTP). - FaaSTriggerKey = attribute.Key("faas.trigger") - // FaaSInvocationIDKey is the attribute Key conforming to the // "faas.invocation_id" semantic conventions. It represents the invocation // ID of the current function invocation. // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'af9d5aa4-a685-4c5f-a22b-444f80b3cc28' FaaSInvocationIDKey = attribute.Key("faas.invocation_id") ) -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") -) - // FaaSInvocationID returns an attribute KeyValue conforming to the // "faas.invocation_id" semantic conventions. It represents the invocation ID // of the current function invocation. @@ -999,17 +496,28 @@ const ( // // Type: string // RequirementLevel: Required - // Stability: stable + // Stability: experimental // Examples: 'myBucketName', 'myDBName' FaaSDocumentCollectionKey = attribute.Key("faas.document.collection") + // FaaSDocumentNameKey is the attribute Key conforming to the + // "faas.document.name" semantic conventions. It represents the document + // name/table subjected to the operation. For example, in Cloud Storage or + // S3 is the name of the file, and in Cosmos DB the table name. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'myFile.txt', 'myTableName' + FaaSDocumentNameKey = attribute.Key("faas.document.name") + // FaaSDocumentOperationKey is the attribute Key conforming to the // "faas.document.operation" semantic conventions. It represents the // describes the type of the operation that was performed on the data. // // Type: Enum // RequirementLevel: Required - // Stability: stable + // Stability: experimental FaaSDocumentOperationKey = attribute.Key("faas.document.operation") // FaaSDocumentTimeKey is the attribute Key conforming to the @@ -1020,20 +528,9 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '2020-01-23T13:47:06Z' FaaSDocumentTimeKey = attribute.Key("faas.document.time") - - // FaaSDocumentNameKey is the attribute Key conforming to the - // "faas.document.name" semantic conventions. It represents the document - // name/table subjected to the operation. For example, in Cloud Storage or - // S3 is the name of the file, and in Cosmos DB the table name. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'myFile.txt', 'myTableName' - FaaSDocumentNameKey = attribute.Key("faas.document.name") ) var ( @@ -1054,6 +551,14 @@ func FaaSDocumentCollection(val string) attribute.KeyValue { return FaaSDocumentCollectionKey.String(val) } +// FaaSDocumentName returns an attribute KeyValue conforming to the +// "faas.document.name" semantic conventions. It represents the document +// name/table subjected to the operation. For example, in Cloud Storage or S3 +// is the name of the file, and in Cosmos DB the table name. +func FaaSDocumentName(val string) attribute.KeyValue { + return FaaSDocumentNameKey.String(val) +} + // FaaSDocumentTime returns an attribute KeyValue conforming to the // "faas.document.time" semantic conventions. It represents a string containing // the time when the data was accessed in the [ISO @@ -1063,16 +568,19 @@ func FaaSDocumentTime(val string) attribute.KeyValue { return FaaSDocumentTimeKey.String(val) } -// FaaSDocumentName returns an attribute KeyValue conforming to the -// "faas.document.name" semantic conventions. It represents the document -// name/table subjected to the operation. For example, in Cloud Storage or S3 -// is the name of the file, and in Cosmos DB the table name. -func FaaSDocumentName(val string) attribute.KeyValue { - return FaaSDocumentNameKey.String(val) -} - // Semantic Convention for FaaS scheduled to be executed regularly. const ( + // FaaSCronKey is the attribute Key conforming to the "faas.cron" semantic + // conventions. It represents a string containing the schedule period as + // [Cron + // Expression](https://docs.oracle.com/cd/E12058_01/doc/doc.1014/e12030/cron_expressions.htm). + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: '0/5 * * * ? *' + FaaSCronKey = attribute.Key("faas.cron") + // FaaSTimeKey is the attribute Key conforming to the "faas.time" semantic // conventions. It represents a string containing the function invocation // time in the [ISO @@ -1081,31 +589,11 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '2020-01-23T13:47:06Z' FaaSTimeKey = attribute.Key("faas.time") - - // FaaSCronKey is the attribute Key conforming to the "faas.cron" semantic - // conventions. It represents a string containing the schedule period as - // [Cron - // Expression](https://docs.oracle.com/cd/E12058_01/doc/doc.1014/e12030/cron_expressions.htm). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '0/5 * * * ? *' - FaaSCronKey = attribute.Key("faas.cron") ) -// FaaSTime returns an attribute KeyValue conforming to the "faas.time" -// semantic conventions. It represents a string containing the function -// invocation time in the [ISO -// 8601](https://www.iso.org/iso-8601-date-and-time-format.html) format -// expressed in [UTC](https://www.w3.org/TR/NOTE-datetime). -func FaaSTime(val string) attribute.KeyValue { - return FaaSTimeKey.String(val) -} - // FaaSCron returns an attribute KeyValue conforming to the "faas.cron" // semantic conventions. It represents a string containing the schedule period // as [Cron @@ -1114,349 +602,32 @@ func FaaSCron(val string) attribute.KeyValue { return FaaSCronKey.String(val) } -// Contains additional attributes for incoming FaaS spans. -const ( - // FaaSColdstartKey is the attribute Key conforming to the "faas.coldstart" - // semantic conventions. It represents a boolean that is true if the - // serverless function is executed for the first time (aka cold-start). - // - // Type: boolean - // RequirementLevel: Optional - // Stability: stable - FaaSColdstartKey = attribute.Key("faas.coldstart") -) - -// FaaSColdstart returns an attribute KeyValue conforming to the -// "faas.coldstart" semantic conventions. It represents a boolean that is true -// if the serverless function is executed for the first time (aka cold-start). -func FaaSColdstart(val bool) attribute.KeyValue { - return FaaSColdstartKey.Bool(val) -} - -// Contains additional attributes for outgoing FaaS spans. -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: stable - // 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: stable - // 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: stable - // Examples: 'eu-central-1' - // Note: SHOULD be equal to the `cloud.region` resource attribute of the - // invoked function. - FaaSInvokedRegionKey = attribute.Key("faas.invoked_region") -) - -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") -) - -// 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) -} - -// Operations that access some remote service. -const ( - // PeerServiceKey is the attribute Key conforming to the "peer.service" - // semantic conventions. It represents the - // [`service.name`](/docs/resource/README.md#service) of the remote - // service. SHOULD be equal to the actual `service.name` resource attribute - // of the remote service if any. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'AuthTokenCache' - PeerServiceKey = attribute.Key("peer.service") -) - -// PeerService returns an attribute KeyValue conforming to the -// "peer.service" semantic conventions. It represents the -// [`service.name`](/docs/resource/README.md#service) of the remote service. -// SHOULD be equal to the actual `service.name` resource attribute of the -// remote service if any. -func PeerService(val string) attribute.KeyValue { - return PeerServiceKey.String(val) -} - -// These attributes may be used for any operation with an authenticated and/or -// authorized enduser. -const ( - // EnduserIDKey is the attribute Key conforming to the "enduser.id" - // semantic conventions. It represents the username or client_id extracted - // from the access token or - // [Authorization](https://tools.ietf.org/html/rfc7235#section-4.2) header - // in the inbound request from outside the system. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'username' - EnduserIDKey = attribute.Key("enduser.id") - - // EnduserRoleKey is the attribute Key conforming to the "enduser.role" - // semantic conventions. It represents the actual/assumed role the client - // is making the request under extracted from token or application security - // context. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'admin' - EnduserRoleKey = attribute.Key("enduser.role") - - // EnduserScopeKey is the attribute Key conforming to the "enduser.scope" - // semantic conventions. It represents the scopes or granted authorities - // the client currently possesses extracted from token or application - // security context. The value would come from the scope associated with an - // [OAuth 2.0 Access - // Token](https://tools.ietf.org/html/rfc6749#section-3.3) or an attribute - // value in a [SAML 2.0 - // Assertion](http://docs.oasis-open.org/security/saml/Post2.0/sstc-saml-tech-overview-2.0.html). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'read:message, write:files' - EnduserScopeKey = attribute.Key("enduser.scope") -) - -// EnduserID returns an attribute KeyValue conforming to the "enduser.id" -// semantic conventions. It represents the username or client_id extracted from -// the access token or -// [Authorization](https://tools.ietf.org/html/rfc7235#section-4.2) header in -// the inbound request from outside the system. -func EnduserID(val string) attribute.KeyValue { - return EnduserIDKey.String(val) -} - -// EnduserRole returns an attribute KeyValue conforming to the -// "enduser.role" semantic conventions. It represents the actual/assumed role -// the client is making the request under extracted from token or application -// security context. -func EnduserRole(val string) attribute.KeyValue { - return EnduserRoleKey.String(val) -} - -// EnduserScope returns an attribute KeyValue conforming to the -// "enduser.scope" semantic conventions. It represents the scopes or granted -// authorities the client currently possesses extracted from token or -// application security context. The value would come from the scope associated -// with an [OAuth 2.0 Access -// Token](https://tools.ietf.org/html/rfc6749#section-3.3) or an attribute -// value in a [SAML 2.0 -// Assertion](http://docs.oasis-open.org/security/saml/Post2.0/sstc-saml-tech-overview-2.0.html). -func EnduserScope(val string) attribute.KeyValue { - return EnduserScopeKey.String(val) -} - -// These attributes may be used for any operation to store information about a -// thread that started a span. -const ( - // ThreadIDKey is the attribute Key conforming to the "thread.id" semantic - // conventions. It represents the current "managed" thread ID (as opposed - // to OS thread ID). - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 42 - ThreadIDKey = attribute.Key("thread.id") - - // ThreadNameKey is the attribute Key conforming to the "thread.name" - // semantic conventions. It represents the current thread name. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'main' - ThreadNameKey = attribute.Key("thread.name") -) - -// ThreadID returns an attribute KeyValue conforming to the "thread.id" -// semantic conventions. It represents the current "managed" thread ID (as -// opposed to OS thread ID). -func ThreadID(val int) attribute.KeyValue { - return ThreadIDKey.Int(val) -} - -// ThreadName returns an attribute KeyValue conforming to the "thread.name" -// semantic conventions. It represents the current thread name. -func ThreadName(val string) attribute.KeyValue { - return ThreadNameKey.String(val) -} - -// These attributes allow to report this unit of code and therefore to provide -// more context about the span. -const ( - // CodeFunctionKey is the attribute Key conforming to the "code.function" - // semantic conventions. It represents the method or function name, or - // equivalent (usually rightmost part of the code unit's name). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'serveRequest' - CodeFunctionKey = attribute.Key("code.function") - - // CodeNamespaceKey is the attribute Key conforming to the "code.namespace" - // semantic conventions. It represents the "namespace" within which - // `code.function` is defined. Usually the qualified class or module name, - // such that `code.namespace` + some separator + `code.function` form a - // unique identifier for the code unit. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'com.example.MyHTTPService' - CodeNamespaceKey = attribute.Key("code.namespace") - - // CodeFilepathKey is the attribute Key conforming to the "code.filepath" - // semantic conventions. It represents the source code file name that - // identifies the code unit as uniquely as possible (preferably an absolute - // file path). - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: '/usr/local/MyApplication/content_root/app/index.php' - CodeFilepathKey = attribute.Key("code.filepath") - - // CodeLineNumberKey is the attribute Key conforming to the "code.lineno" - // semantic conventions. It represents the line number in `code.filepath` - // best representing the operation. It SHOULD point within the code unit - // named in `code.function`. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 42 - CodeLineNumberKey = attribute.Key("code.lineno") - - // CodeColumnKey is the attribute Key conforming to the "code.column" - // semantic conventions. It represents the column number in `code.filepath` - // best representing the operation. It SHOULD point within the code unit - // named in `code.function`. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 16 - CodeColumnKey = attribute.Key("code.column") -) - -// CodeFunction returns an attribute KeyValue conforming to the -// "code.function" semantic conventions. It represents the method or function -// name, or equivalent (usually rightmost part of the code unit's name). -func CodeFunction(val string) attribute.KeyValue { - return CodeFunctionKey.String(val) -} - -// CodeNamespace returns an attribute KeyValue conforming to the -// "code.namespace" semantic conventions. It represents the "namespace" within -// which `code.function` is defined. Usually the qualified class or module -// name, such that `code.namespace` + some separator + `code.function` form a -// unique identifier for the code unit. -func CodeNamespace(val string) attribute.KeyValue { - return CodeNamespaceKey.String(val) -} - -// CodeFilepath returns an attribute KeyValue conforming to the -// "code.filepath" semantic conventions. It represents the source code file -// name that identifies the code unit as uniquely as possible (preferably an -// absolute file path). -func CodeFilepath(val string) attribute.KeyValue { - return CodeFilepathKey.String(val) -} - -// CodeLineNumber returns an attribute KeyValue conforming to the "code.lineno" -// semantic conventions. It represents the line number in `code.filepath` best -// representing the operation. It SHOULD point within the code unit named in -// `code.function`. -func CodeLineNumber(val int) attribute.KeyValue { - return CodeLineNumberKey.Int(val) -} - -// CodeColumn returns an attribute KeyValue conforming to the "code.column" -// semantic conventions. It represents the column number in `code.filepath` -// best representing the operation. It SHOULD point within the code unit named -// in `code.function`. -func CodeColumn(val int) attribute.KeyValue { - return CodeColumnKey.Int(val) +// FaaSTime returns an attribute KeyValue conforming to the "faas.time" +// semantic conventions. It represents a string containing the function +// invocation time in the [ISO +// 8601](https://www.iso.org/iso-8601-date-and-time-format.html) format +// expressed in [UTC](https://www.w3.org/TR/NOTE-datetime). +func FaaSTime(val string) attribute.KeyValue { + return FaaSTimeKey.String(val) } -// Semantic Convention for HTTP Client +// Contains additional attributes for incoming FaaS spans. const ( - // HTTPResendCountKey is the attribute Key conforming to the - // "http.resend_count" semantic conventions. It represents the ordinal - // number of request resending attempt (for any reason, including - // redirects). + // FaaSColdstartKey is the attribute Key conforming to the "faas.coldstart" + // semantic conventions. It represents a boolean that is true if the + // serverless function is executed for the first time (aka cold-start). // - // Type: int - // RequirementLevel: Recommended (if and only if request was retried.) - // 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). - HTTPResendCountKey = attribute.Key("http.resend_count") + // Type: boolean + // RequirementLevel: Optional + // Stability: experimental + FaaSColdstartKey = attribute.Key("faas.coldstart") ) -// HTTPResendCount returns an attribute KeyValue conforming to the -// "http.resend_count" semantic conventions. It represents the ordinal number -// of request resending attempt (for any reason, including redirects). -func HTTPResendCount(val int) attribute.KeyValue { - return HTTPResendCountKey.Int(val) +// FaaSColdstart returns an attribute KeyValue conforming to the +// "faas.coldstart" semantic conventions. It represents a boolean that is true +// if the serverless function is executed for the first time (aka cold-start). +func FaaSColdstart(val bool) attribute.KeyValue { + return FaaSColdstartKey.Bool(val) } // The `aws` conventions apply to operations using the AWS SDK. They map @@ -1473,7 +644,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '79b9da39-b7ae-508a-a6bc-864b2829c622', 'C9ER4AJX75574TDJ' AWSRequestIDKey = attribute.Key("aws.request_id") ) @@ -1487,15 +658,24 @@ func AWSRequestID(val string) attribute.KeyValue { // Attributes that exist for multiple DynamoDB request types. const ( - // AWSDynamoDBTableNamesKey is the attribute Key conforming to the - // "aws.dynamodb.table_names" semantic conventions. It represents the keys - // in the `RequestItems` object field. + // AWSDynamoDBAttributesToGetKey is the attribute Key conforming to the + // "aws.dynamodb.attributes_to_get" semantic conventions. It represents the + // value of the `AttributesToGet` request parameter. // // Type: string[] // RequirementLevel: Optional - // Stability: stable - // Examples: 'Users', 'Cats' - AWSDynamoDBTableNamesKey = attribute.Key("aws.dynamodb.table_names") + // Stability: experimental + // Examples: 'lives', 'id' + AWSDynamoDBAttributesToGetKey = attribute.Key("aws.dynamodb.attributes_to_get") + + // AWSDynamoDBConsistentReadKey is the attribute Key conforming to the + // "aws.dynamodb.consistent_read" semantic conventions. It represents the + // value of the `ConsistentRead` request parameter. + // + // Type: boolean + // RequirementLevel: Optional + // Stability: experimental + AWSDynamoDBConsistentReadKey = attribute.Key("aws.dynamodb.consistent_read") // AWSDynamoDBConsumedCapacityKey is the attribute Key conforming to the // "aws.dynamodb.consumed_capacity" semantic conventions. It represents the @@ -1504,7 +684,7 @@ const ( // // Type: string[] // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '{ "CapacityUnits": number, "GlobalSecondaryIndexes": { // "string" : { "CapacityUnits": number, "ReadCapacityUnits": number, // "WriteCapacityUnits": number } }, "LocalSecondaryIndexes": { "string" : @@ -1515,6 +695,16 @@ const ( // "WriteCapacityUnits": number }' AWSDynamoDBConsumedCapacityKey = attribute.Key("aws.dynamodb.consumed_capacity") + // AWSDynamoDBIndexNameKey is the attribute Key conforming to the + // "aws.dynamodb.index_name" semantic conventions. It represents the value + // of the `IndexName` request parameter. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'name_to_group' + AWSDynamoDBIndexNameKey = attribute.Key("aws.dynamodb.index_name") + // AWSDynamoDBItemCollectionMetricsKey is the attribute Key conforming to // the "aws.dynamodb.item_collection_metrics" semantic conventions. It // represents the JSON-serialized value of the `ItemCollectionMetrics` @@ -1522,7 +712,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '{ "string" : [ { "ItemCollectionKey": { "string" : { "B": // blob, "BOOL": boolean, "BS": [ blob ], "L": [ "AttributeValue" ], "M": { // "string" : "AttributeValue" }, "N": "string", "NS": [ "string" ], @@ -1530,6 +720,27 @@ const ( // "SizeEstimateRangeGB": [ number ] } ] }' AWSDynamoDBItemCollectionMetricsKey = attribute.Key("aws.dynamodb.item_collection_metrics") + // AWSDynamoDBLimitKey is the attribute Key conforming to the + // "aws.dynamodb.limit" semantic conventions. It represents the value of + // the `Limit` request parameter. + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 10 + AWSDynamoDBLimitKey = attribute.Key("aws.dynamodb.limit") + + // AWSDynamoDBProjectionKey is the attribute Key conforming to the + // "aws.dynamodb.projection" semantic conventions. It represents the value + // of the `ProjectionExpression` request parameter. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'Title', 'Title, Price, Color', 'Title, Description, + // RelatedItems, ProductReviews' + AWSDynamoDBProjectionKey = attribute.Key("aws.dynamodb.projection") + // AWSDynamoDBProvisionedReadCapacityKey is the attribute Key conforming to // the "aws.dynamodb.provisioned_read_capacity" semantic conventions. It // represents the value of the `ProvisionedThroughput.ReadCapacityUnits` @@ -1537,7 +748,7 @@ const ( // // Type: double // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 1.0, 2.0 AWSDynamoDBProvisionedReadCapacityKey = attribute.Key("aws.dynamodb.provisioned_read_capacity") @@ -1548,76 +759,43 @@ const ( // // Type: double // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 1.0, 2.0 AWSDynamoDBProvisionedWriteCapacityKey = attribute.Key("aws.dynamodb.provisioned_write_capacity") - // AWSDynamoDBConsistentReadKey is the attribute Key conforming to the - // "aws.dynamodb.consistent_read" semantic conventions. It represents the - // value of the `ConsistentRead` request parameter. - // - // Type: boolean - // RequirementLevel: Optional - // Stability: stable - AWSDynamoDBConsistentReadKey = attribute.Key("aws.dynamodb.consistent_read") - - // AWSDynamoDBProjectionKey is the attribute Key conforming to the - // "aws.dynamodb.projection" semantic conventions. It represents the value - // of the `ProjectionExpression` request parameter. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'Title', 'Title, Price, Color', 'Title, Description, - // RelatedItems, ProductReviews' - AWSDynamoDBProjectionKey = attribute.Key("aws.dynamodb.projection") - - // AWSDynamoDBLimitKey is the attribute Key conforming to the - // "aws.dynamodb.limit" semantic conventions. It represents the value of - // the `Limit` request parameter. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 10 - AWSDynamoDBLimitKey = attribute.Key("aws.dynamodb.limit") - - // AWSDynamoDBAttributesToGetKey is the attribute Key conforming to the - // "aws.dynamodb.attributes_to_get" semantic conventions. It represents the - // value of the `AttributesToGet` request parameter. - // - // Type: string[] - // RequirementLevel: Optional - // Stability: stable - // Examples: 'lives', 'id' - AWSDynamoDBAttributesToGetKey = attribute.Key("aws.dynamodb.attributes_to_get") - - // AWSDynamoDBIndexNameKey is the attribute Key conforming to the - // "aws.dynamodb.index_name" semantic conventions. It represents the value - // of the `IndexName` request parameter. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'name_to_group' - AWSDynamoDBIndexNameKey = attribute.Key("aws.dynamodb.index_name") - // AWSDynamoDBSelectKey is the attribute Key conforming to the // "aws.dynamodb.select" semantic conventions. It represents the value of // the `Select` request parameter. // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'ALL_ATTRIBUTES', 'COUNT' AWSDynamoDBSelectKey = attribute.Key("aws.dynamodb.select") + + // AWSDynamoDBTableNamesKey is the attribute Key conforming to the + // "aws.dynamodb.table_names" semantic conventions. It represents the keys + // in the `RequestItems` object field. + // + // Type: string[] + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'Users', 'Cats' + AWSDynamoDBTableNamesKey = attribute.Key("aws.dynamodb.table_names") ) -// AWSDynamoDBTableNames returns an attribute KeyValue conforming to the -// "aws.dynamodb.table_names" semantic conventions. It represents the keys in -// the `RequestItems` object field. -func AWSDynamoDBTableNames(val ...string) attribute.KeyValue { - return AWSDynamoDBTableNamesKey.StringSlice(val) +// AWSDynamoDBAttributesToGet returns an attribute KeyValue conforming to +// the "aws.dynamodb.attributes_to_get" semantic conventions. It represents the +// value of the `AttributesToGet` request parameter. +func AWSDynamoDBAttributesToGet(val ...string) attribute.KeyValue { + return AWSDynamoDBAttributesToGetKey.StringSlice(val) +} + +// AWSDynamoDBConsistentRead returns an attribute KeyValue conforming to the +// "aws.dynamodb.consistent_read" semantic conventions. It represents the value +// of the `ConsistentRead` request parameter. +func AWSDynamoDBConsistentRead(val bool) attribute.KeyValue { + return AWSDynamoDBConsistentReadKey.Bool(val) } // AWSDynamoDBConsumedCapacity returns an attribute KeyValue conforming to @@ -1627,6 +805,13 @@ func AWSDynamoDBConsumedCapacity(val ...string) attribute.KeyValue { return AWSDynamoDBConsumedCapacityKey.StringSlice(val) } +// AWSDynamoDBIndexName returns an attribute KeyValue conforming to the +// "aws.dynamodb.index_name" semantic conventions. It represents the value of +// the `IndexName` request parameter. +func AWSDynamoDBIndexName(val string) attribute.KeyValue { + return AWSDynamoDBIndexNameKey.String(val) +} + // AWSDynamoDBItemCollectionMetrics returns an attribute KeyValue conforming // to the "aws.dynamodb.item_collection_metrics" semantic conventions. It // represents the JSON-serialized value of the `ItemCollectionMetrics` response @@ -1635,6 +820,20 @@ func AWSDynamoDBItemCollectionMetrics(val string) attribute.KeyValue { return AWSDynamoDBItemCollectionMetricsKey.String(val) } +// AWSDynamoDBLimit returns an attribute KeyValue conforming to the +// "aws.dynamodb.limit" semantic conventions. It represents the value of the +// `Limit` request parameter. +func AWSDynamoDBLimit(val int) attribute.KeyValue { + return AWSDynamoDBLimitKey.Int(val) +} + +// AWSDynamoDBProjection returns an attribute KeyValue conforming to the +// "aws.dynamodb.projection" semantic conventions. It represents the value of +// the `ProjectionExpression` request parameter. +func AWSDynamoDBProjection(val string) attribute.KeyValue { + return AWSDynamoDBProjectionKey.String(val) +} + // AWSDynamoDBProvisionedReadCapacity returns an attribute KeyValue // conforming to the "aws.dynamodb.provisioned_read_capacity" semantic // conventions. It represents the value of the @@ -1651,41 +850,6 @@ func AWSDynamoDBProvisionedWriteCapacity(val float64) attribute.KeyValue { return AWSDynamoDBProvisionedWriteCapacityKey.Float64(val) } -// AWSDynamoDBConsistentRead returns an attribute KeyValue conforming to the -// "aws.dynamodb.consistent_read" semantic conventions. It represents the value -// of the `ConsistentRead` request parameter. -func AWSDynamoDBConsistentRead(val bool) attribute.KeyValue { - return AWSDynamoDBConsistentReadKey.Bool(val) -} - -// AWSDynamoDBProjection returns an attribute KeyValue conforming to the -// "aws.dynamodb.projection" semantic conventions. It represents the value of -// the `ProjectionExpression` request parameter. -func AWSDynamoDBProjection(val string) attribute.KeyValue { - return AWSDynamoDBProjectionKey.String(val) -} - -// AWSDynamoDBLimit returns an attribute KeyValue conforming to the -// "aws.dynamodb.limit" semantic conventions. It represents the value of the -// `Limit` request parameter. -func AWSDynamoDBLimit(val int) attribute.KeyValue { - return AWSDynamoDBLimitKey.Int(val) -} - -// AWSDynamoDBAttributesToGet returns an attribute KeyValue conforming to -// the "aws.dynamodb.attributes_to_get" semantic conventions. It represents the -// value of the `AttributesToGet` request parameter. -func AWSDynamoDBAttributesToGet(val ...string) attribute.KeyValue { - return AWSDynamoDBAttributesToGetKey.StringSlice(val) -} - -// AWSDynamoDBIndexName returns an attribute KeyValue conforming to the -// "aws.dynamodb.index_name" semantic conventions. It represents the value of -// the `IndexName` request parameter. -func AWSDynamoDBIndexName(val string) attribute.KeyValue { - return AWSDynamoDBIndexNameKey.String(val) -} - // AWSDynamoDBSelect returns an attribute KeyValue conforming to the // "aws.dynamodb.select" semantic conventions. It represents the value of the // `Select` request parameter. @@ -1693,6 +857,13 @@ func AWSDynamoDBSelect(val string) attribute.KeyValue { return AWSDynamoDBSelectKey.String(val) } +// AWSDynamoDBTableNames returns an attribute KeyValue conforming to the +// "aws.dynamodb.table_names" semantic conventions. It represents the keys in +// the `RequestItems` object field. +func AWSDynamoDBTableNames(val ...string) attribute.KeyValue { + return AWSDynamoDBTableNamesKey.StringSlice(val) +} + // DynamoDB.CreateTable const ( // AWSDynamoDBGlobalSecondaryIndexesKey is the attribute Key conforming to @@ -1702,7 +873,7 @@ const ( // // Type: string[] // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '{ "IndexName": "string", "KeySchema": [ { "AttributeName": // "string", "KeyType": "string" } ], "Projection": { "NonKeyAttributes": [ // "string" ], "ProjectionType": "string" }, "ProvisionedThroughput": { @@ -1716,7 +887,7 @@ const ( // // Type: string[] // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '{ "IndexARN": "string", "IndexName": "string", // "IndexSizeBytes": number, "ItemCount": number, "KeySchema": [ { // "AttributeName": "string", "KeyType": "string" } ], "Projection": { @@ -1748,7 +919,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'Users', 'CatsTable' AWSDynamoDBExclusiveStartTableKey = attribute.Key("aws.dynamodb.exclusive_start_table") @@ -1758,7 +929,7 @@ const ( // // Type: int // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 20 AWSDynamoDBTableCountKey = attribute.Key("aws.dynamodb.table_count") ) @@ -1785,7 +956,7 @@ const ( // // Type: boolean // RequirementLevel: Optional - // Stability: stable + // Stability: experimental AWSDynamoDBScanForwardKey = attribute.Key("aws.dynamodb.scan_forward") ) @@ -1798,33 +969,13 @@ func AWSDynamoDBScanForward(val bool) attribute.KeyValue { // DynamoDB.Scan const ( - // AWSDynamoDBSegmentKey is the attribute Key conforming to the - // "aws.dynamodb.segment" semantic conventions. It represents the value of - // the `Segment` request parameter. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 10 - AWSDynamoDBSegmentKey = attribute.Key("aws.dynamodb.segment") - - // AWSDynamoDBTotalSegmentsKey is the attribute Key conforming to the - // "aws.dynamodb.total_segments" semantic conventions. It represents the - // value of the `TotalSegments` request parameter. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 100 - AWSDynamoDBTotalSegmentsKey = attribute.Key("aws.dynamodb.total_segments") - // AWSDynamoDBCountKey is the attribute Key conforming to the // "aws.dynamodb.count" semantic conventions. It represents the value of // the `Count` response parameter. // // Type: int // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 10 AWSDynamoDBCountKey = attribute.Key("aws.dynamodb.count") @@ -1834,24 +985,30 @@ const ( // // Type: int // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 50 AWSDynamoDBScannedCountKey = attribute.Key("aws.dynamodb.scanned_count") -) -// AWSDynamoDBSegment returns an attribute KeyValue conforming to the -// "aws.dynamodb.segment" semantic conventions. It represents the value of the -// `Segment` request parameter. -func AWSDynamoDBSegment(val int) attribute.KeyValue { - return AWSDynamoDBSegmentKey.Int(val) -} + // AWSDynamoDBSegmentKey is the attribute Key conforming to the + // "aws.dynamodb.segment" semantic conventions. It represents the value of + // the `Segment` request parameter. + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 10 + AWSDynamoDBSegmentKey = attribute.Key("aws.dynamodb.segment") -// AWSDynamoDBTotalSegments returns an attribute KeyValue conforming to the -// "aws.dynamodb.total_segments" semantic conventions. It represents the value -// of the `TotalSegments` request parameter. -func AWSDynamoDBTotalSegments(val int) attribute.KeyValue { - return AWSDynamoDBTotalSegmentsKey.Int(val) -} + // AWSDynamoDBTotalSegmentsKey is the attribute Key conforming to the + // "aws.dynamodb.total_segments" semantic conventions. It represents the + // value of the `TotalSegments` request parameter. + // + // Type: int + // RequirementLevel: Optional + // Stability: experimental + // Examples: 100 + AWSDynamoDBTotalSegmentsKey = attribute.Key("aws.dynamodb.total_segments") +) // AWSDynamoDBCount returns an attribute KeyValue conforming to the // "aws.dynamodb.count" semantic conventions. It represents the value of the @@ -1860,11 +1017,25 @@ func AWSDynamoDBCount(val int) attribute.KeyValue { return AWSDynamoDBCountKey.Int(val) } -// AWSDynamoDBScannedCount returns an attribute KeyValue conforming to the -// "aws.dynamodb.scanned_count" semantic conventions. It represents the value -// of the `ScannedCount` response parameter. -func AWSDynamoDBScannedCount(val int) attribute.KeyValue { - return AWSDynamoDBScannedCountKey.Int(val) +// AWSDynamoDBScannedCount returns an attribute KeyValue conforming to the +// "aws.dynamodb.scanned_count" semantic conventions. It represents the value +// of the `ScannedCount` response parameter. +func AWSDynamoDBScannedCount(val int) attribute.KeyValue { + return AWSDynamoDBScannedCountKey.Int(val) +} + +// AWSDynamoDBSegment returns an attribute KeyValue conforming to the +// "aws.dynamodb.segment" semantic conventions. It represents the value of the +// `Segment` request parameter. +func AWSDynamoDBSegment(val int) attribute.KeyValue { + return AWSDynamoDBSegmentKey.Int(val) +} + +// AWSDynamoDBTotalSegments returns an attribute KeyValue conforming to the +// "aws.dynamodb.total_segments" semantic conventions. It represents the value +// of the `TotalSegments` request parameter. +func AWSDynamoDBTotalSegments(val int) attribute.KeyValue { + return AWSDynamoDBTotalSegmentsKey.Int(val) } // DynamoDB.UpdateTable @@ -1876,7 +1047,7 @@ const ( // // Type: string[] // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '{ "AttributeName": "string", "AttributeType": "string" }' AWSDynamoDBAttributeDefinitionsKey = attribute.Key("aws.dynamodb.attribute_definitions") @@ -1887,7 +1058,7 @@ const ( // // Type: string[] // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: '{ "Create": { "IndexName": "string", "KeySchema": [ { // "AttributeName": "string", "KeyType": "string" } ], "Projection": { // "NonKeyAttributes": [ "string" ], "ProjectionType": "string" }, @@ -1922,7 +1093,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'some-bucket-name' // Note: The `bucket` attribute is applicable to all S3 operations that // reference a bucket, i.e. that require the bucket name as a mandatory @@ -1930,6 +1101,43 @@ const ( // This applies to almost all S3 operations except `list-buckets`. AWSS3BucketKey = attribute.Key("aws.s3.bucket") + // AWSS3CopySourceKey is the attribute Key conforming to the + // "aws.s3.copy_source" semantic conventions. It represents the source + // object (in the form `bucket`/`key`) for the copy operation. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'someFile.yml' + // Note: The `copy_source` attribute applies to S3 copy operations and + // corresponds to the `--copy-source` parameter + // of the [copy-object operation within the S3 + // API](https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html). + // This applies in particular to the following operations: + // + // - + // [copy-object](https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html) + // - + // [upload-part-copy](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html) + AWSS3CopySourceKey = attribute.Key("aws.s3.copy_source") + + // AWSS3DeleteKey is the attribute Key conforming to the "aws.s3.delete" + // semantic conventions. It represents the delete request container that + // specifies the objects to be deleted. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: + // 'Objects=[{Key=string,VersionID=string},{Key=string,VersionID=string}],Quiet=boolean' + // Note: The `delete` attribute is only applicable to the + // [delete-object](https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-object.html) + // operation. + // The `delete` attribute corresponds to the `--delete` parameter of the + // [delete-objects operation within the S3 + // API](https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-objects.html). + AWSS3DeleteKey = attribute.Key("aws.s3.delete") + // AWSS3KeyKey is the attribute Key conforming to the "aws.s3.key" semantic // conventions. It represents the S3 object key the request refers to. // Corresponds to the `--key` parameter of the [S3 @@ -1938,7 +1146,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'someFile.yml' // Note: The `key` attribute is applicable to all object-related S3 // operations, i.e. that require the object key as a mandatory parameter. @@ -1972,25 +1180,25 @@ const ( // [upload-part-copy](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html) AWSS3KeyKey = attribute.Key("aws.s3.key") - // AWSS3CopySourceKey is the attribute Key conforming to the - // "aws.s3.copy_source" semantic conventions. It represents the source - // object (in the form `bucket`/`key`) for the copy operation. + // AWSS3PartNumberKey is the attribute Key conforming to the + // "aws.s3.part_number" semantic conventions. It represents the part number + // of the part being uploaded in a multipart-upload operation. This is a + // positive integer between 1 and 10,000. // - // Type: string + // Type: int // RequirementLevel: Optional - // Stability: stable - // Examples: 'someFile.yml' - // Note: The `copy_source` attribute applies to S3 copy operations and - // corresponds to the `--copy-source` parameter - // of the [copy-object operation within the S3 - // API](https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html). - // This applies in particular to the following operations: - // - // - - // [copy-object](https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html) - // - + // Stability: experimental + // Examples: 3456 + // Note: The `part_number` attribute is only applicable to the + // [upload-part](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html) + // and // [upload-part-copy](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html) - AWSS3CopySourceKey = attribute.Key("aws.s3.copy_source") + // operations. + // The `part_number` attribute corresponds to the `--part-number` parameter + // of the + // [upload-part operation within the S3 + // API](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html). + AWSS3PartNumberKey = attribute.Key("aws.s3.part_number") // AWSS3UploadIDKey is the attribute Key conforming to the // "aws.s3.upload_id" semantic conventions. It represents the upload ID @@ -1998,7 +1206,7 @@ const ( // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'dfRtDYWFbkRONycy.Yxwh66Yjlx.cph0gtNBtJ' // Note: The `upload_id` attribute applies to S3 multipart-upload // operations and corresponds to the `--upload-id` parameter @@ -2018,43 +1226,6 @@ const ( // - // [upload-part-copy](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html) AWSS3UploadIDKey = attribute.Key("aws.s3.upload_id") - - // AWSS3DeleteKey is the attribute Key conforming to the "aws.s3.delete" - // semantic conventions. It represents the delete request container that - // specifies the objects to be deleted. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: - // 'Objects=[{Key=string,VersionID=string},{Key=string,VersionID=string}],Quiet=boolean' - // Note: The `delete` attribute is only applicable to the - // [delete-object](https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-object.html) - // operation. - // The `delete` attribute corresponds to the `--delete` parameter of the - // [delete-objects operation within the S3 - // API](https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-objects.html). - AWSS3DeleteKey = attribute.Key("aws.s3.delete") - - // AWSS3PartNumberKey is the attribute Key conforming to the - // "aws.s3.part_number" semantic conventions. It represents the part number - // of the part being uploaded in a multipart-upload operation. This is a - // positive integer between 1 and 10,000. - // - // Type: int - // RequirementLevel: Optional - // Stability: stable - // Examples: 3456 - // Note: The `part_number` attribute is only applicable to the - // [upload-part](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html) - // and - // [upload-part-copy](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html) - // operations. - // The `part_number` attribute corresponds to the `--part-number` parameter - // of the - // [upload-part operation within the S3 - // API](https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html). - AWSS3PartNumberKey = attribute.Key("aws.s3.part_number") ) // AWSS3Bucket returns an attribute KeyValue conforming to the @@ -2066,15 +1237,6 @@ func AWSS3Bucket(val string) attribute.KeyValue { return AWSS3BucketKey.String(val) } -// AWSS3Key returns an attribute KeyValue conforming to the "aws.s3.key" -// semantic conventions. It represents the S3 object key the request refers to. -// Corresponds to the `--key` parameter of the [S3 -// API](https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html) -// operations. -func AWSS3Key(val string) attribute.KeyValue { - return AWSS3KeyKey.String(val) -} - // AWSS3CopySource returns an attribute KeyValue conforming to the // "aws.s3.copy_source" semantic conventions. It represents the source object // (in the form `bucket`/`key`) for the copy operation. @@ -2082,13 +1244,6 @@ func AWSS3CopySource(val string) attribute.KeyValue { return AWSS3CopySourceKey.String(val) } -// AWSS3UploadID returns an attribute KeyValue conforming to the -// "aws.s3.upload_id" semantic conventions. It represents the upload ID that -// identifies the multipart upload. -func AWSS3UploadID(val string) attribute.KeyValue { - return AWSS3UploadIDKey.String(val) -} - // AWSS3Delete returns an attribute KeyValue conforming to the // "aws.s3.delete" semantic conventions. It represents the delete request // container that specifies the objects to be deleted. @@ -2096,6 +1251,15 @@ func AWSS3Delete(val string) attribute.KeyValue { return AWSS3DeleteKey.String(val) } +// AWSS3Key returns an attribute KeyValue conforming to the "aws.s3.key" +// semantic conventions. It represents the S3 object key the request refers to. +// Corresponds to the `--key` parameter of the [S3 +// API](https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html) +// operations. +func AWSS3Key(val string) attribute.KeyValue { + return AWSS3KeyKey.String(val) +} + // AWSS3PartNumber returns an attribute KeyValue conforming to the // "aws.s3.part_number" semantic conventions. It represents the part number of // the part being uploaded in a multipart-upload operation. This is a positive @@ -2104,16 +1268,34 @@ func AWSS3PartNumber(val int) attribute.KeyValue { return AWSS3PartNumberKey.Int(val) } +// AWSS3UploadID returns an attribute KeyValue conforming to the +// "aws.s3.upload_id" semantic conventions. It represents the upload ID that +// identifies the multipart upload. +func AWSS3UploadID(val string) attribute.KeyValue { + return AWSS3UploadIDKey.String(val) +} + // Semantic conventions to apply when instrumenting the GraphQL implementation. // They map GraphQL operations to attributes on a Span. const ( + // GraphqlDocumentKey is the attribute Key conforming to the + // "graphql.document" semantic conventions. It represents the GraphQL + // document being executed. + // + // Type: string + // RequirementLevel: Optional + // Stability: experimental + // Examples: 'query findBookByID { bookByID(id: ?) { name } }' + // Note: The value may be sanitized to exclude sensitive information. + GraphqlDocumentKey = attribute.Key("graphql.document") + // GraphqlOperationNameKey is the attribute Key conforming to the // "graphql.operation.name" semantic conventions. It represents the name of // the operation being executed. // // Type: string // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'findBookByID' GraphqlOperationNameKey = attribute.Key("graphql.operation.name") @@ -2123,20 +1305,9 @@ const ( // // Type: Enum // RequirementLevel: Optional - // Stability: stable + // Stability: experimental // Examples: 'query', 'mutation', 'subscription' GraphqlOperationTypeKey = attribute.Key("graphql.operation.type") - - // GraphqlDocumentKey is the attribute Key conforming to the - // "graphql.document" semantic conventions. It represents the GraphQL - // document being executed. - // - // Type: string - // RequirementLevel: Optional - // Stability: stable - // Examples: 'query findBookByID { bookByID(id: ?) { name } }' - // Note: The value may be sanitized to exclude sensitive information. - GraphqlDocumentKey = attribute.Key("graphql.document") ) var ( @@ -2148,13 +1319,6 @@ var ( GraphqlOperationTypeSubscription = GraphqlOperationTypeKey.String("subscription") ) -// GraphqlOperationName returns an attribute KeyValue conforming to the -// "graphql.operation.name" semantic conventions. It represents the name of the -// operation being executed. -func GraphqlOperationName(val string) attribute.KeyValue { - return GraphqlOperationNameKey.String(val) -} - // GraphqlDocument returns an attribute KeyValue conforming to the // "graphql.document" semantic conventions. It represents the GraphQL document // being executed. @@ -2162,334 +1326,9 @@ func GraphqlDocument(val string) attribute.KeyValue { return GraphqlDocumentKey.String(val) } -// General attributes used in messaging systems. -const ( - // MessagingSystemKey is the attribute Key conforming to the - // "messaging.system" semantic conventions. It represents a string - // identifying the messaging system. - // - // Type: string - // RequirementLevel: Required - // Stability: stable - // Examples: 'kafka', 'rabbitmq', 'rocketmq', 'activemq', 'AmazonSQS' - MessagingSystemKey = attribute.Key("messaging.system") - - // MessagingOperationKey is the attribute Key conforming to the - // "messaging.operation" semantic conventions. It represents a string - // identifying the kind of messaging operation as defined in the [Operation - // names](#operation-names) section above. - // - // Type: Enum - // RequirementLevel: Required - // Stability: stable - // Note: If a custom value is used, it MUST be of low cardinality. - MessagingOperationKey = attribute.Key("messaging.operation") - - // 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: ConditionallyRequired (If the span describes an - // operation on a batch of messages.) - // Stability: stable - // 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: Recommended (If a client id is available) - // Stability: stable - // Examples: 'client-5', 'myhost@8742@s8083jm' - MessagingClientIDKey = attribute.Key("messaging.client_id") -) - -var ( - // publish - MessagingOperationPublish = MessagingOperationKey.String("publish") - // receive - MessagingOperationReceive = MessagingOperationKey.String("receive") - // process - MessagingOperationProcess = MessagingOperationKey.String("process") -) - -// MessagingSystem returns an attribute KeyValue conforming to the -// "messaging.system" semantic conventions. It represents a string identifying -// the messaging system. -func MessagingSystem(val string) attribute.KeyValue { - return MessagingSystemKey.String(val) -} - -// 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) -} - -// Semantic conventions for remote procedure calls. -const ( - // 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: Required - // Stability: stable - RPCSystemKey = attribute.Key("rpc.system") - - // 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: Recommended - // Stability: stable - // 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") - - // 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: Recommended - // Stability: stable - // 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") -) - -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") -) - -// 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) -} - -// 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) -} - -// Tech-specific attributes for gRPC. -const ( - // 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: Required - // Stability: stable - RPCGRPCStatusCodeKey = attribute.Key("rpc.grpc.status_code") -) - -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) -) - -// Tech-specific attributes for [JSON RPC](https://www.jsonrpc.org/). -const ( - // 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 - // does not specify this, the value can be omitted. - // - // Type: string - // RequirementLevel: ConditionallyRequired (If other than the default - // version (`1.0`)) - // Stability: stable - // Examples: '2.0', '1.0' - RPCJsonrpcVersionKey = attribute.Key("rpc.jsonrpc.version") - - // 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: stable - // Examples: '10', 'request-7', '' - RPCJsonrpcRequestIDKey = attribute.Key("rpc.jsonrpc.request_id") - - // 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: ConditionallyRequired (If response is not successful.) - // Stability: stable - // 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: stable - // Examples: 'Parse error', 'User already exists' - RPCJsonrpcErrorMessageKey = attribute.Key("rpc.jsonrpc.error_message") -) - -// 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 -// does not specify this, the value can be omitted. -func RPCJsonrpcVersion(val string) attribute.KeyValue { - return RPCJsonrpcVersionKey.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) -} - -// 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) +// GraphqlOperationName returns an attribute KeyValue conforming to the +// "graphql.operation.name" semantic conventions. It represents the name of the +// operation being executed. +func GraphqlOperationName(val string) attribute.KeyValue { + return GraphqlOperationNameKey.String(val) } - -// Tech-specific attributes for Connect RPC. -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: ConditionallyRequired (If response is not successful - // and if error code available.) - // Stability: stable - RPCConnectRPCErrorCodeKey = attribute.Key("rpc.connect_rpc.error_code") -) - -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") -) diff --git a/vendor/go.opentelemetry.io/otel/trace/tracestate.go b/vendor/go.opentelemetry.io/otel/trace/tracestate.go index d1e47ca2fa..db936ba5b7 100644 --- a/vendor/go.opentelemetry.io/otel/trace/tracestate.go +++ b/vendor/go.opentelemetry.io/otel/trace/tracestate.go @@ -17,20 +17,14 @@ package trace // import "go.opentelemetry.io/otel/trace" import ( "encoding/json" "fmt" - "regexp" "strings" ) const ( maxListMembers = 32 - listDelimiter = "," - - // based on the W3C Trace Context specification, see - // https://www.w3.org/TR/trace-context-1/#tracestate-header - noTenantKeyFormat = `[a-z][_0-9a-z\-\*\/]*` - withTenantKeyFormat = `[a-z0-9][_0-9a-z\-\*\/]*@[a-z][_0-9a-z\-\*\/]*` - valueFormat = `[\x20-\x2b\x2d-\x3c\x3e-\x7e]*[\x21-\x2b\x2d-\x3c\x3e-\x7e]` + listDelimiters = "," + memberDelimiter = "=" errInvalidKey errorConst = "invalid tracestate key" errInvalidValue errorConst = "invalid tracestate value" @@ -39,43 +33,128 @@ const ( errDuplicate errorConst = "duplicate list-member in tracestate" ) -var ( - noTenantKeyRe = regexp.MustCompile(`^` + noTenantKeyFormat + `$`) - withTenantKeyRe = regexp.MustCompile(`^` + withTenantKeyFormat + `$`) - valueRe = regexp.MustCompile(`^` + valueFormat + `$`) - memberRe = regexp.MustCompile(`^\s*((?:` + noTenantKeyFormat + `)|(?:` + withTenantKeyFormat + `))=(` + valueFormat + `)\s*$`) -) - type member struct { Key string Value string } -func newMember(key, value string) (member, error) { - if len(key) > 256 { - return member{}, fmt.Errorf("%w: %s", errInvalidKey, key) +// according to (chr = %x20 / (nblk-char = %x21-2B / %x2D-3C / %x3E-7E) ) +// means (chr = %x20-2B / %x2D-3C / %x3E-7E) . +func checkValueChar(v byte) bool { + return v >= '\x20' && v <= '\x7e' && v != '\x2c' && v != '\x3d' +} + +// according to (nblk-chr = %x21-2B / %x2D-3C / %x3E-7E) . +func checkValueLast(v byte) bool { + return v >= '\x21' && v <= '\x7e' && v != '\x2c' && v != '\x3d' +} + +// based on the W3C Trace Context specification +// +// value = (0*255(chr)) nblk-chr +// nblk-chr = %x21-2B / %x2D-3C / %x3E-7E +// chr = %x20 / nblk-chr +// +// see https://www.w3.org/TR/trace-context-1/#value +func checkValue(val string) bool { + n := len(val) + if n == 0 || n > 256 { + return false + } + for i := 0; i < n-1; i++ { + if !checkValueChar(val[i]) { + return false + } } - if !noTenantKeyRe.MatchString(key) { - if !withTenantKeyRe.MatchString(key) { - return member{}, fmt.Errorf("%w: %s", errInvalidKey, key) + return checkValueLast(val[n-1]) +} + +func checkKeyRemain(key string) bool { + // ( lcalpha / DIGIT / "_" / "-"/ "*" / "/" ) + for _, v := range key { + if isAlphaNum(byte(v)) { + continue } - atIndex := strings.LastIndex(key, "@") - if atIndex > 241 || len(key)-1-atIndex > 14 { - return member{}, fmt.Errorf("%w: %s", errInvalidKey, key) + switch v { + case '_', '-', '*', '/': + continue } + return false + } + return true +} + +// according to +// +// simple-key = lcalpha (0*255( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) +// system-id = lcalpha (0*13( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) +// +// param n is remain part length, should be 255 in simple-key or 13 in system-id. +func checkKeyPart(key string, n int) bool { + if len(key) == 0 { + return false + } + first := key[0] // key's first char + ret := len(key[1:]) <= n + ret = ret && first >= 'a' && first <= 'z' + return ret && checkKeyRemain(key[1:]) +} + +func isAlphaNum(c byte) bool { + if c >= 'a' && c <= 'z' { + return true } - if len(value) > 256 || !valueRe.MatchString(value) { - return member{}, fmt.Errorf("%w: %s", errInvalidValue, value) + return c >= '0' && c <= '9' +} + +// according to +// +// tenant-id = ( lcalpha / DIGIT ) 0*240( lcalpha / DIGIT / "_" / "-"/ "*" / "/" ) +// +// param n is remain part length, should be 240 exactly. +func checkKeyTenant(key string, n int) bool { + if len(key) == 0 { + return false + } + return isAlphaNum(key[0]) && len(key[1:]) <= n && checkKeyRemain(key[1:]) +} + +// based on the W3C Trace Context specification +// +// key = simple-key / multi-tenant-key +// simple-key = lcalpha (0*255( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) +// multi-tenant-key = tenant-id "@" system-id +// tenant-id = ( lcalpha / DIGIT ) (0*240( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) +// system-id = lcalpha (0*13( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) +// lcalpha = %x61-7A ; a-z +// +// see https://www.w3.org/TR/trace-context-1/#tracestate-header. +func checkKey(key string) bool { + tenant, system, ok := strings.Cut(key, "@") + if !ok { + return checkKeyPart(key, 255) + } + return checkKeyTenant(tenant, 240) && checkKeyPart(system, 13) +} + +func newMember(key, value string) (member, error) { + if !checkKey(key) { + return member{}, errInvalidKey + } + if !checkValue(value) { + return member{}, errInvalidValue } return member{Key: key, Value: value}, nil } func parseMember(m string) (member, error) { - matches := memberRe.FindStringSubmatch(m) - if len(matches) != 3 { + key, val, ok := strings.Cut(m, memberDelimiter) + if !ok { return member{}, fmt.Errorf("%w: %s", errInvalidMember, m) } - result, e := newMember(matches[1], matches[2]) + key = strings.TrimLeft(key, " \t") + val = strings.TrimRight(val, " \t") + result, e := newMember(key, val) if e != nil { return member{}, fmt.Errorf("%w: %s", errInvalidMember, m) } @@ -85,7 +164,7 @@ func parseMember(m string) (member, error) { // String encodes member into a string compliant with the W3C Trace Context // specification. func (m member) String() string { - return fmt.Sprintf("%s=%s", m.Key, m.Value) + return m.Key + "=" + m.Value } // TraceState provides additional vendor-specific trace identification @@ -109,8 +188,8 @@ var _ json.Marshaler = TraceState{} // ParseTraceState attempts to decode a TraceState from the passed // string. It returns an error if the input is invalid according to the W3C // Trace Context specification. -func ParseTraceState(tracestate string) (TraceState, error) { - if tracestate == "" { +func ParseTraceState(ts string) (TraceState, error) { + if ts == "" { return TraceState{}, nil } @@ -120,7 +199,9 @@ func ParseTraceState(tracestate string) (TraceState, error) { var members []member found := make(map[string]struct{}) - for _, memberStr := range strings.Split(tracestate, listDelimiter) { + for ts != "" { + var memberStr string + memberStr, ts, _ = strings.Cut(ts, listDelimiters) if len(memberStr) == 0 { continue } @@ -153,11 +234,29 @@ func (ts TraceState) MarshalJSON() ([]byte, error) { // Trace Context specification. The returned string will be invalid if the // TraceState contains any invalid members. func (ts TraceState) String() string { - members := make([]string, len(ts.list)) - for i, m := range ts.list { - members[i] = m.String() + if len(ts.list) == 0 { + return "" + } + var n int + n += len(ts.list) // member delimiters: '=' + n += len(ts.list) - 1 // list delimiters: ',' + for _, mem := range ts.list { + n += len(mem.Key) + n += len(mem.Value) } - return strings.Join(members, listDelimiter) + + var sb strings.Builder + sb.Grow(n) + _, _ = sb.WriteString(ts.list[0].Key) + _ = sb.WriteByte('=') + _, _ = sb.WriteString(ts.list[0].Value) + for i := 1; i < len(ts.list); i++ { + _ = sb.WriteByte(listDelimiters[0]) + _, _ = sb.WriteString(ts.list[i].Key) + _ = sb.WriteByte('=') + _, _ = sb.WriteString(ts.list[i].Value) + } + return sb.String() } // Get returns the value paired with key from the corresponding TraceState @@ -189,15 +288,25 @@ func (ts TraceState) Insert(key, value string) (TraceState, error) { if err != nil { return ts, err } - - cTS := ts.Delete(key) - if cTS.Len()+1 <= maxListMembers { - cTS.list = append(cTS.list, member{}) + n := len(ts.list) + found := n + for i := range ts.list { + if ts.list[i].Key == key { + found = i + } + } + cTS := TraceState{} + if found == n && n < maxListMembers { + cTS.list = make([]member, n+1) + } else { + cTS.list = make([]member, n) } - // When the number of members exceeds capacity, drop the "right-most". - copy(cTS.list[1:], cTS.list) cTS.list[0] = m - + // When the number of members exceeds capacity, drop the "right-most". + copy(cTS.list[1:], ts.list[0:found]) + if found < n { + copy(cTS.list[1+found:], ts.list[found+1:]) + } return cTS, nil } diff --git a/vendor/go.opentelemetry.io/otel/version.go b/vendor/go.opentelemetry.io/otel/version.go index e2f743585d..7b2993a1fe 100644 --- a/vendor/go.opentelemetry.io/otel/version.go +++ b/vendor/go.opentelemetry.io/otel/version.go @@ -16,5 +16,5 @@ package otel // import "go.opentelemetry.io/otel" // Version is the current release version of OpenTelemetry in use. func Version() string { - return "1.21.0" + return "1.24.0" } diff --git a/vendor/go.opentelemetry.io/otel/versions.yaml b/vendor/go.opentelemetry.io/otel/versions.yaml index 3c153c9d6f..1b556e6782 100644 --- a/vendor/go.opentelemetry.io/otel/versions.yaml +++ b/vendor/go.opentelemetry.io/otel/versions.yaml @@ -14,19 +14,25 @@ module-sets: stable-v1: - version: v1.21.0 + version: v1.24.0 modules: - go.opentelemetry.io/otel + - go.opentelemetry.io/otel/bridge/opencensus + - go.opentelemetry.io/otel/bridge/opencensus/test - go.opentelemetry.io/otel/bridge/opentracing - go.opentelemetry.io/otel/bridge/opentracing/test - go.opentelemetry.io/otel/example/dice - go.opentelemetry.io/otel/example/namedtracer + - go.opentelemetry.io/otel/example/opencensus - go.opentelemetry.io/otel/example/otel-collector - go.opentelemetry.io/otel/example/passthrough - go.opentelemetry.io/otel/example/zipkin + - go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc + - go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp - go.opentelemetry.io/otel/exporters/otlp/otlptrace - go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc - go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracehttp + - go.opentelemetry.io/otel/exporters/stdout/stdoutmetric - go.opentelemetry.io/otel/exporters/stdout/stdouttrace - go.opentelemetry.io/otel/exporters/zipkin - go.opentelemetry.io/otel/metric @@ -34,16 +40,14 @@ module-sets: - go.opentelemetry.io/otel/sdk/metric - go.opentelemetry.io/otel/trace experimental-metrics: - version: v0.44.0 + version: v0.46.0 modules: - - go.opentelemetry.io/otel/bridge/opencensus - - go.opentelemetry.io/otel/bridge/opencensus/test - - go.opentelemetry.io/otel/example/opencensus - go.opentelemetry.io/otel/example/prometheus - - go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc - - go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp - go.opentelemetry.io/otel/exporters/prometheus - - go.opentelemetry.io/otel/exporters/stdout/stdoutmetric + experimental-logs: + version: v0.0.1-alpha + modules: + - go.opentelemetry.io/otel/log experimental-schema: version: v0.0.7 modules: diff --git a/vendor/golang.org/x/sys/unix/mkerrors.sh b/vendor/golang.org/x/sys/unix/mkerrors.sh index c6492020ec..fdcaa974d2 100644 --- a/vendor/golang.org/x/sys/unix/mkerrors.sh +++ b/vendor/golang.org/x/sys/unix/mkerrors.sh @@ -584,7 +584,7 @@ ccflags="$@" $2 ~ /^KEY_(SPEC|REQKEY_DEFL)_/ || $2 ~ /^KEYCTL_/ || $2 ~ /^PERF_/ || - $2 ~ /^SECCOMP_MODE_/ || + $2 ~ /^SECCOMP_/ || $2 ~ /^SEEK_/ || $2 ~ /^SCHED_/ || $2 ~ /^SPLICE_/ || diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux.go b/vendor/golang.org/x/sys/unix/zerrors_linux.go index a5d3ff8df9..36bf8399f4 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux.go @@ -1785,6 +1785,8 @@ const ( LANDLOCK_ACCESS_FS_REMOVE_FILE = 0x20 LANDLOCK_ACCESS_FS_TRUNCATE = 0x4000 LANDLOCK_ACCESS_FS_WRITE_FILE = 0x2 + LANDLOCK_ACCESS_NET_BIND_TCP = 0x1 + LANDLOCK_ACCESS_NET_CONNECT_TCP = 0x2 LANDLOCK_CREATE_RULESET_VERSION = 0x1 LINUX_REBOOT_CMD_CAD_OFF = 0x0 LINUX_REBOOT_CMD_CAD_ON = 0x89abcdef @@ -2465,6 +2467,7 @@ const ( PR_MCE_KILL_GET = 0x22 PR_MCE_KILL_LATE = 0x0 PR_MCE_KILL_SET = 0x1 + PR_MDWE_NO_INHERIT = 0x2 PR_MDWE_REFUSE_EXEC_GAIN = 0x1 PR_MPX_DISABLE_MANAGEMENT = 0x2c PR_MPX_ENABLE_MANAGEMENT = 0x2b @@ -2669,8 +2672,9 @@ const ( RTAX_FEATURES = 0xc RTAX_FEATURE_ALLFRAG = 0x8 RTAX_FEATURE_ECN = 0x1 - RTAX_FEATURE_MASK = 0xf + RTAX_FEATURE_MASK = 0x1f RTAX_FEATURE_SACK = 0x2 + RTAX_FEATURE_TCP_USEC_TS = 0x10 RTAX_FEATURE_TIMESTAMP = 0x4 RTAX_HOPLIMIT = 0xa RTAX_INITCWND = 0xb @@ -2913,9 +2917,38 @@ const ( SCM_RIGHTS = 0x1 SCM_TIMESTAMP = 0x1d SC_LOG_FLUSH = 0x100000 + SECCOMP_ADDFD_FLAG_SEND = 0x2 + SECCOMP_ADDFD_FLAG_SETFD = 0x1 + SECCOMP_FILTER_FLAG_LOG = 0x2 + SECCOMP_FILTER_FLAG_NEW_LISTENER = 0x8 + SECCOMP_FILTER_FLAG_SPEC_ALLOW = 0x4 + SECCOMP_FILTER_FLAG_TSYNC = 0x1 + SECCOMP_FILTER_FLAG_TSYNC_ESRCH = 0x10 + SECCOMP_FILTER_FLAG_WAIT_KILLABLE_RECV = 0x20 + SECCOMP_GET_ACTION_AVAIL = 0x2 + SECCOMP_GET_NOTIF_SIZES = 0x3 + SECCOMP_IOCTL_NOTIF_RECV = 0xc0502100 + SECCOMP_IOCTL_NOTIF_SEND = 0xc0182101 + SECCOMP_IOC_MAGIC = '!' SECCOMP_MODE_DISABLED = 0x0 SECCOMP_MODE_FILTER = 0x2 SECCOMP_MODE_STRICT = 0x1 + SECCOMP_RET_ACTION = 0x7fff0000 + SECCOMP_RET_ACTION_FULL = 0xffff0000 + SECCOMP_RET_ALLOW = 0x7fff0000 + SECCOMP_RET_DATA = 0xffff + SECCOMP_RET_ERRNO = 0x50000 + SECCOMP_RET_KILL = 0x0 + SECCOMP_RET_KILL_PROCESS = 0x80000000 + SECCOMP_RET_KILL_THREAD = 0x0 + SECCOMP_RET_LOG = 0x7ffc0000 + SECCOMP_RET_TRACE = 0x7ff00000 + SECCOMP_RET_TRAP = 0x30000 + SECCOMP_RET_USER_NOTIF = 0x7fc00000 + SECCOMP_SET_MODE_FILTER = 0x1 + SECCOMP_SET_MODE_STRICT = 0x0 + SECCOMP_USER_NOTIF_FD_SYNC_WAKE_UP = 0x1 + SECCOMP_USER_NOTIF_FLAG_CONTINUE = 0x1 SECRETMEM_MAGIC = 0x5345434d SECURITYFS_MAGIC = 0x73636673 SEEK_CUR = 0x1 @@ -3075,6 +3108,7 @@ const ( SOL_TIPC = 0x10f SOL_TLS = 0x11a SOL_UDP = 0x11 + SOL_VSOCK = 0x11f SOL_X25 = 0x106 SOL_XDP = 0x11b SOMAXCONN = 0x1000 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_386.go b/vendor/golang.org/x/sys/unix/zerrors_linux_386.go index 4920821cf3..42ff8c3c1b 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_386.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_386.go @@ -281,6 +281,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x40182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x40082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x40082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_amd64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_amd64.go index a0c1e41127..dca436004f 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_amd64.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_amd64.go @@ -282,6 +282,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x40182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x40082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x40082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_arm.go b/vendor/golang.org/x/sys/unix/zerrors_linux_arm.go index c63985560f..5cca668ac3 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_arm.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_arm.go @@ -288,6 +288,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x40182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x40082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x40082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_arm64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_arm64.go index 47cc62e25c..d8cae6d153 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_arm64.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_arm64.go @@ -278,6 +278,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x40182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x40082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x40082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_loong64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_loong64.go index 27ac4a09e2..28e39afdcb 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_loong64.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_loong64.go @@ -275,6 +275,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x40182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x40082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x40082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_mips.go b/vendor/golang.org/x/sys/unix/zerrors_linux_mips.go index 54694642a5..cd66e92cb4 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_mips.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_mips.go @@ -281,6 +281,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x80182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x80082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x80082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x80 SIOCATMARK = 0x40047307 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_mips64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_mips64.go index 3adb81d758..c1595eba78 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_mips64.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_mips64.go @@ -281,6 +281,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x80182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x80082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x80082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x80 SIOCATMARK = 0x40047307 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_mips64le.go b/vendor/golang.org/x/sys/unix/zerrors_linux_mips64le.go index 2dfe98f0d1..ee9456b0da 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_mips64le.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_mips64le.go @@ -281,6 +281,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x80182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x80082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x80082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x80 SIOCATMARK = 0x40047307 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_mipsle.go b/vendor/golang.org/x/sys/unix/zerrors_linux_mipsle.go index f5398f84f0..8cfca81e1b 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_mipsle.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_mipsle.go @@ -281,6 +281,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x80182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x80082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x80082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x80 SIOCATMARK = 0x40047307 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc.go b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc.go index c54f152d68..60b0deb3af 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc.go @@ -336,6 +336,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x80182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x80082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x80082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64.go index 76057dc72f..f90aa7281b 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64.go @@ -340,6 +340,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x80182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x80082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x80082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64le.go b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64le.go index e0c3725e2b..ba9e015033 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64le.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64le.go @@ -340,6 +340,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x80182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x80082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x80082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_riscv64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_riscv64.go index 18f2813ed5..07cdfd6e9f 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_riscv64.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_riscv64.go @@ -272,6 +272,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x40182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x40082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x40082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_s390x.go b/vendor/golang.org/x/sys/unix/zerrors_linux_s390x.go index 11619d4ec8..2f1dd214a7 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_s390x.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_s390x.go @@ -344,6 +344,9 @@ const ( SCM_TIMESTAMPNS = 0x23 SCM_TXTIME = 0x3d SCM_WIFI_STATUS = 0x29 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x40182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x40082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x40082104 SFD_CLOEXEC = 0x80000 SFD_NONBLOCK = 0x800 SIOCATMARK = 0x8905 diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_sparc64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_sparc64.go index 396d994da7..f40519d901 100644 --- a/vendor/golang.org/x/sys/unix/zerrors_linux_sparc64.go +++ b/vendor/golang.org/x/sys/unix/zerrors_linux_sparc64.go @@ -335,6 +335,9 @@ const ( SCM_TIMESTAMPNS = 0x21 SCM_TXTIME = 0x3f SCM_WIFI_STATUS = 0x25 + SECCOMP_IOCTL_NOTIF_ADDFD = 0x80182103 + SECCOMP_IOCTL_NOTIF_ID_VALID = 0x80082102 + SECCOMP_IOCTL_NOTIF_SET_FLAGS = 0x80082104 SFD_CLOEXEC = 0x400000 SFD_NONBLOCK = 0x4000 SF_FP = 0x38 diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_386.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_386.go index fcf3ecbdde..0cc3ce496e 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_386.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_386.go @@ -448,4 +448,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_amd64.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_amd64.go index f56dc2504a..856d92d69e 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_amd64.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_amd64.go @@ -371,4 +371,7 @@ const ( SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_arm.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_arm.go index 974bf24676..8d467094cf 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_arm.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_arm.go @@ -412,4 +412,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_arm64.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_arm64.go index 39a2739e23..edc173244d 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_arm64.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_arm64.go @@ -315,4 +315,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_loong64.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_loong64.go index cf9c9d77e1..445eba2061 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_loong64.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_loong64.go @@ -309,4 +309,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_mips.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_mips.go index 10b7362ef4..adba01bca7 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_mips.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_mips.go @@ -432,4 +432,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 4450 SYS_CACHESTAT = 4451 SYS_FCHMODAT2 = 4452 + SYS_MAP_SHADOW_STACK = 4453 + SYS_FUTEX_WAKE = 4454 + SYS_FUTEX_WAIT = 4455 + SYS_FUTEX_REQUEUE = 4456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_mips64.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_mips64.go index cd4d8b4fd3..014c4e9c7a 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_mips64.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_mips64.go @@ -362,4 +362,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 5450 SYS_CACHESTAT = 5451 SYS_FCHMODAT2 = 5452 + SYS_MAP_SHADOW_STACK = 5453 + SYS_FUTEX_WAKE = 5454 + SYS_FUTEX_WAIT = 5455 + SYS_FUTEX_REQUEUE = 5456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_mips64le.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_mips64le.go index 2c0efca818..ccc97d74d0 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_mips64le.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_mips64le.go @@ -362,4 +362,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 5450 SYS_CACHESTAT = 5451 SYS_FCHMODAT2 = 5452 + SYS_MAP_SHADOW_STACK = 5453 + SYS_FUTEX_WAKE = 5454 + SYS_FUTEX_WAIT = 5455 + SYS_FUTEX_REQUEUE = 5456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_mipsle.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_mipsle.go index a72e31d391..ec2b64a95d 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_mipsle.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_mipsle.go @@ -432,4 +432,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 4450 SYS_CACHESTAT = 4451 SYS_FCHMODAT2 = 4452 + SYS_MAP_SHADOW_STACK = 4453 + SYS_FUTEX_WAKE = 4454 + SYS_FUTEX_WAIT = 4455 + SYS_FUTEX_REQUEUE = 4456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc.go index c7d1e37471..21a839e338 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc.go @@ -439,4 +439,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc64.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc64.go index f4d4838c87..c11121ec3b 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc64.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc64.go @@ -411,4 +411,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc64le.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc64le.go index b64f0e5911..909b631fcb 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc64le.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_ppc64le.go @@ -411,4 +411,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_riscv64.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_riscv64.go index 95711195a0..e49bed16ea 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_riscv64.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_riscv64.go @@ -316,4 +316,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_s390x.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_s390x.go index f94e943bc4..66017d2d32 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_s390x.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_s390x.go @@ -377,4 +377,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_sparc64.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_sparc64.go index ba0c2bc515..47bab18dce 100644 --- a/vendor/golang.org/x/sys/unix/zsysnum_linux_sparc64.go +++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_sparc64.go @@ -390,4 +390,8 @@ const ( SYS_SET_MEMPOLICY_HOME_NODE = 450 SYS_CACHESTAT = 451 SYS_FCHMODAT2 = 452 + SYS_MAP_SHADOW_STACK = 453 + SYS_FUTEX_WAKE = 454 + SYS_FUTEX_WAIT = 455 + SYS_FUTEX_REQUEUE = 456 ) diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux.go b/vendor/golang.org/x/sys/unix/ztypes_linux.go index bbf8399ff5..dc0c955eec 100644 --- a/vendor/golang.org/x/sys/unix/ztypes_linux.go +++ b/vendor/golang.org/x/sys/unix/ztypes_linux.go @@ -174,7 +174,8 @@ type FscryptPolicyV2 struct { Contents_encryption_mode uint8 Filenames_encryption_mode uint8 Flags uint8 - _ [4]uint8 + Log2_data_unit_size uint8 + _ [3]uint8 Master_key_identifier [16]uint8 } @@ -455,60 +456,63 @@ type Ucred struct { } type TCPInfo struct { - State uint8 - Ca_state uint8 - Retransmits uint8 - Probes uint8 - Backoff uint8 - Options uint8 - Rto uint32 - Ato uint32 - Snd_mss uint32 - Rcv_mss uint32 - Unacked uint32 - Sacked uint32 - Lost uint32 - Retrans uint32 - Fackets uint32 - Last_data_sent uint32 - Last_ack_sent uint32 - Last_data_recv uint32 - Last_ack_recv uint32 - Pmtu uint32 - Rcv_ssthresh uint32 - Rtt uint32 - Rttvar uint32 - Snd_ssthresh uint32 - Snd_cwnd uint32 - Advmss uint32 - Reordering uint32 - Rcv_rtt uint32 - Rcv_space uint32 - Total_retrans uint32 - Pacing_rate uint64 - Max_pacing_rate uint64 - Bytes_acked uint64 - Bytes_received uint64 - Segs_out uint32 - Segs_in uint32 - Notsent_bytes uint32 - Min_rtt uint32 - Data_segs_in uint32 - Data_segs_out uint32 - Delivery_rate uint64 - Busy_time uint64 - Rwnd_limited uint64 - Sndbuf_limited uint64 - Delivered uint32 - Delivered_ce uint32 - Bytes_sent uint64 - Bytes_retrans uint64 - Dsack_dups uint32 - Reord_seen uint32 - Rcv_ooopack uint32 - Snd_wnd uint32 - Rcv_wnd uint32 - Rehash uint32 + State uint8 + Ca_state uint8 + Retransmits uint8 + Probes uint8 + Backoff uint8 + Options uint8 + Rto uint32 + Ato uint32 + Snd_mss uint32 + Rcv_mss uint32 + Unacked uint32 + Sacked uint32 + Lost uint32 + Retrans uint32 + Fackets uint32 + Last_data_sent uint32 + Last_ack_sent uint32 + Last_data_recv uint32 + Last_ack_recv uint32 + Pmtu uint32 + Rcv_ssthresh uint32 + Rtt uint32 + Rttvar uint32 + Snd_ssthresh uint32 + Snd_cwnd uint32 + Advmss uint32 + Reordering uint32 + Rcv_rtt uint32 + Rcv_space uint32 + Total_retrans uint32 + Pacing_rate uint64 + Max_pacing_rate uint64 + Bytes_acked uint64 + Bytes_received uint64 + Segs_out uint32 + Segs_in uint32 + Notsent_bytes uint32 + Min_rtt uint32 + Data_segs_in uint32 + Data_segs_out uint32 + Delivery_rate uint64 + Busy_time uint64 + Rwnd_limited uint64 + Sndbuf_limited uint64 + Delivered uint32 + Delivered_ce uint32 + Bytes_sent uint64 + Bytes_retrans uint64 + Dsack_dups uint32 + Reord_seen uint32 + Rcv_ooopack uint32 + Snd_wnd uint32 + Rcv_wnd uint32 + Rehash uint32 + Total_rto uint16 + Total_rto_recoveries uint16 + Total_rto_time uint32 } type CanFilter struct { @@ -551,7 +555,7 @@ const ( SizeofIPv6MTUInfo = 0x20 SizeofICMPv6Filter = 0x20 SizeofUcred = 0xc - SizeofTCPInfo = 0xf0 + SizeofTCPInfo = 0xf8 SizeofCanFilter = 0x8 SizeofTCPRepairOpt = 0x8 ) @@ -3399,7 +3403,7 @@ const ( DEVLINK_PORT_FN_ATTR_STATE = 0x2 DEVLINK_PORT_FN_ATTR_OPSTATE = 0x3 DEVLINK_PORT_FN_ATTR_CAPS = 0x4 - DEVLINK_PORT_FUNCTION_ATTR_MAX = 0x4 + DEVLINK_PORT_FUNCTION_ATTR_MAX = 0x5 ) type FsverityDigest struct { @@ -4183,7 +4187,8 @@ const ( ) type LandlockRulesetAttr struct { - Access_fs uint64 + Access_fs uint64 + Access_net uint64 } type LandlockPathBeneathAttr struct { @@ -5134,7 +5139,7 @@ const ( NL80211_FREQUENCY_ATTR_GO_CONCURRENT = 0xf NL80211_FREQUENCY_ATTR_INDOOR_ONLY = 0xe NL80211_FREQUENCY_ATTR_IR_CONCURRENT = 0xf - NL80211_FREQUENCY_ATTR_MAX = 0x1b + NL80211_FREQUENCY_ATTR_MAX = 0x1c NL80211_FREQUENCY_ATTR_MAX_TX_POWER = 0x6 NL80211_FREQUENCY_ATTR_NO_10MHZ = 0x11 NL80211_FREQUENCY_ATTR_NO_160MHZ = 0xc @@ -5547,7 +5552,7 @@ const ( NL80211_REGDOM_TYPE_CUSTOM_WORLD = 0x2 NL80211_REGDOM_TYPE_INTERSECTION = 0x3 NL80211_REGDOM_TYPE_WORLD = 0x1 - NL80211_REG_RULE_ATTR_MAX = 0x7 + NL80211_REG_RULE_ATTR_MAX = 0x8 NL80211_REKEY_DATA_AKM = 0x4 NL80211_REKEY_DATA_KCK = 0x2 NL80211_REKEY_DATA_KEK = 0x1 diff --git a/vendor/golang.org/x/sys/windows/env_windows.go b/vendor/golang.org/x/sys/windows/env_windows.go index b8ad192506..d4577a4238 100644 --- a/vendor/golang.org/x/sys/windows/env_windows.go +++ b/vendor/golang.org/x/sys/windows/env_windows.go @@ -37,14 +37,17 @@ func (token Token) Environ(inheritExisting bool) (env []string, err error) { return nil, err } defer DestroyEnvironmentBlock(block) - blockp := unsafe.Pointer(block) - for { - entry := UTF16PtrToString((*uint16)(blockp)) - if len(entry) == 0 { - break + size := unsafe.Sizeof(*block) + for *block != 0 { + // find NUL terminator + end := unsafe.Pointer(block) + for *(*uint16)(end) != 0 { + end = unsafe.Add(end, size) } - env = append(env, entry) - blockp = unsafe.Add(blockp, 2*(len(entry)+1)) + + entry := unsafe.Slice(block, (uintptr(end)-uintptr(unsafe.Pointer(block)))/size) + env = append(env, UTF16ToString(entry)) + block = (*uint16)(unsafe.Add(end, size)) } return env, nil } diff --git a/vendor/golang.org/x/sys/windows/syscall_windows.go b/vendor/golang.org/x/sys/windows/syscall_windows.go index ffb8708ccf..6395a031d4 100644 --- a/vendor/golang.org/x/sys/windows/syscall_windows.go +++ b/vendor/golang.org/x/sys/windows/syscall_windows.go @@ -125,8 +125,7 @@ func UTF16PtrToString(p *uint16) string { for ptr := unsafe.Pointer(p); *(*uint16)(ptr) != 0; n++ { ptr = unsafe.Pointer(uintptr(ptr) + unsafe.Sizeof(*p)) } - - return string(utf16.Decode(unsafe.Slice(p, n))) + return UTF16ToString(unsafe.Slice(p, n)) } func Getpagesize() int { return 4096 } diff --git a/vendor/modules.txt b/vendor/modules.txt index cb2c57ef3f..bc8b3c87e9 100644 --- a/vendor/modules.txt +++ b/vendor/modules.txt @@ -591,7 +591,7 @@ go.mongodb.org/mongo-driver/bson/bsonrw go.mongodb.org/mongo-driver/bson/bsontype go.mongodb.org/mongo-driver/bson/primitive go.mongodb.org/mongo-driver/x/bsonx/bsoncore -# go.opentelemetry.io/otel v1.21.0 +# go.opentelemetry.io/otel v1.24.0 ## explicit; go 1.20 go.opentelemetry.io/otel go.opentelemetry.io/otel/attribute @@ -606,28 +606,30 @@ go.opentelemetry.io/otel/semconv/internal go.opentelemetry.io/otel/semconv/internal/v2 go.opentelemetry.io/otel/semconv/v1.17.0 go.opentelemetry.io/otel/semconv/v1.17.0/httpconv -go.opentelemetry.io/otel/semconv/v1.21.0 +go.opentelemetry.io/otel/semconv/v1.24.0 go.opentelemetry.io/otel/semconv/v1.4.0 # go.opentelemetry.io/otel/exporters/prometheus v0.44.0 ## explicit; go 1.20 go.opentelemetry.io/otel/exporters/prometheus -# go.opentelemetry.io/otel/metric v1.21.0 +# go.opentelemetry.io/otel/metric v1.24.0 ## explicit; go 1.20 go.opentelemetry.io/otel/metric go.opentelemetry.io/otel/metric/embedded go.opentelemetry.io/otel/metric/noop -# go.opentelemetry.io/otel/sdk v1.21.0 +# go.opentelemetry.io/otel/sdk v1.24.0 ## explicit; go 1.20 go.opentelemetry.io/otel/sdk go.opentelemetry.io/otel/sdk/instrumentation go.opentelemetry.io/otel/sdk/resource -# go.opentelemetry.io/otel/sdk/metric v1.21.0 +# go.opentelemetry.io/otel/sdk/metric v1.24.0 ## explicit; go 1.20 go.opentelemetry.io/otel/sdk/metric go.opentelemetry.io/otel/sdk/metric/internal go.opentelemetry.io/otel/sdk/metric/internal/aggregate +go.opentelemetry.io/otel/sdk/metric/internal/exemplar +go.opentelemetry.io/otel/sdk/metric/internal/x go.opentelemetry.io/otel/sdk/metric/metricdata -# go.opentelemetry.io/otel/trace v1.21.0 +# go.opentelemetry.io/otel/trace v1.24.0 ## explicit; go 1.20 go.opentelemetry.io/otel/trace go.opentelemetry.io/otel/trace/embedded @@ -695,7 +697,7 @@ golang.org/x/oauth2/internal ## explicit; go 1.18 golang.org/x/sync/errgroup golang.org/x/sync/semaphore -# golang.org/x/sys v0.16.0 +# golang.org/x/sys v0.17.0 ## explicit; go 1.18 golang.org/x/sys/plan9 golang.org/x/sys/unix