The Rust special interest group (SIG) meets weekly on Tuesdays at 9 AM Pacific Time. The meeting is subject to change depending on contributors' availability. Check the OpenTelemetry community calendar for specific dates and for Zoom meeting links. "OTel Rust SIG" is the name of meeting for this group.
Meeting notes are available as a public Google doc. If you have trouble accessing the doc, please get in touch on Slack.
The meeting is open for all to join. We invite everyone to join our meeting, regardless of your experience level. Whether you're a seasoned OpenTelemetry developer, just starting your journey, or simply curious about the work we do, you're more than welcome to participate!
Even though, anybody can contribute, there are benefits of being a member of our community. See to the community membership document on how to become a Member, Approver and Maintainer.
Crate opentelemetry-otlp
uses gRPC + Protocol Buffers.
You can provide the protocol compiler protoc path programmatically (only works with tonic) or build it from source
export PROTOC=$(which protoc)
It is recommended to use "3.15" or newer of protoc, as some of the proto definitions include "optional" fields, that are not supported in older versions, resulting in errors as shown here.
Prerequisites to build the protocol compiler protoc from source
- protoc
- cmake
- llvm (and
LIBCLANG_PATH
environment variable pointing to thebin
directory of LLVM install)
Everyone is welcome to contribute code to opentelemetry-rust
via
GitHub pull requests (PRs).
git clone --recurse-submodule https://github.com/open-telemetry/opentelemetry-rust
Enter the newly created directory and add your fork as a new remote:
git remote add <YOUR_FORK> [email protected]:<YOUR_GITHUB_USERNAME>/opentelemetry-rust
Check out a new branch, make modifications, run linters and tests, and push the branch to your fork:
$ git checkout -b <YOUR_BRANCH_NAME>
# edit files
$ git add -p
$ git commit
$ git push <YOUR_FORK> <YOUR_BRANCH_NAME>
Open a pull request against the main opentelemetry-rust repo.
Note It is recommended to run pre-commit script from the root of the repo to catch any issues locally.
- If the PR is not ready for review, please put
[WIP]
in the title or mark it asdraft
. - Make sure CLA is signed and all required CI checks are clear.
- Submit small, focused PRs addressing a single concern/issue.
- Make sure the PR title reflects the contribution.
- Write a summary that helps understand the change.
- Include usage examples in the summary, where applicable.
- Include benchmarks (before/after) in the summary, for contributions that are performance enhancements.
A PR is considered to be ready to merge when:
- It has received approval from Approvers. / Maintainers.
- Major feedbacks are resolved.
Any Maintainer can merge the PR once it is ready to merge. Note, that some PRs may not be merged immediately if the repo is in the process of a release and the maintainers decided to defer the PR to the next release train. Also, maintainers may decide to wait for more than one approval for certain PRs, particularly ones that are affecting multiple areas, or topics that may warrant more discussion.
As with other OpenTelemetry clients, opentelemetry-rust follows the opentelemetry-specification.
It's especially valuable to read through the library guidelines.
OpenTelemetry is an evolving specification, one where the desires and use cases are clear, but the method to satisfy those uses cases are not.
As such, Contributions should provide functionality and behavior that conforms to the specification, but the interface and structure is flexible.
It is preferable to have contributions follow the idioms of the language rather than conform to specific API names or argument patterns in the spec.
For a deeper discussion, see: open-telemetry/opentelemetry-specification#165
Currently, the Opentelemetry Rust SDK has two ways to handle errors. In the situation where errors are not allowed to return. One should call global error handler to process the errors. Otherwise, one should return the errors.
The Opentelemetry Rust SDK comes with an error type opentelemetry::Error
. For different function, one error has been defined. All error returned by trace module MUST be wrapped in opentelemetry::trace::TraceError
. All errors returned by metrics module MUST be wrapped in opentelemetry::metrics::MetricError
. All errors returned by logs module MUST be wrapped in opentelemetry::logs::LogsError
.
For users that want to implement their own exporters. It's RECOMMENDED to wrap all errors from the exporter into a crate-level error type, and implement ExporterError
trait.
OpenTelemetry supports multiple ways to configure the API, SDK and other components. The priority of configurations is as follows:
- Environment variables
- Compiling time configurations provided in the source code
Use otel_unstable
feature flag for implementation of specification with experimental status. This approach ensures clear demarcation and safe integration of new or evolving features. Utilize the following structure:
#[cfg(feature = "otel_unstable")]
{
// Your feature implementation
}
It's important to regularly review and remove the otel_unstable
flag from the code once the feature becomes stable. This cleanup process is crucial to maintain the overall code quality and to ensure that stable features are accurately reflected in the main build.
The potential features include:
- Stable and non-experimental features that compliant to specification, and have a feature flag to minimize compilation size. Example: feature flags for signals (like
logs
,traces
,metrics
) and runtimes (rt-tokio
,rt-tokio-current-thread
,rt-async-std
). - Stable and non-experimental features, although not part of the specification, are crucial for enhancing the tracing/log crate's functionality or boosting performance. These features are also subject to discussion and approval by the OpenTelemetry Rust Maintainers.
All such features should adhere to naming convention <signal>_<feature_name>
- Run
cargo clippy --all
- this will catch common mistakes and improve your Rust code - Run
cargo fmt
- this will find and fix code formatting issues.
- Run
cargo test --all
- this will execute code and doc tests for all projects in this workspace. - Run
cargo bench
- this will run benchmarks to show performance - Run
cargo bench
- this will run benchmarks to show performance regressions
As of now, the specification classify the propagators into three categories: Fully opened standards, platform-specific standards, proprietary headers. The conclusion is only the fully opened standards should live in SDK packages/repos. So here, only fully opened standards should live as independent crate. For more detail and discussion, see this pr.