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CONTRIBUTING.md

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Contributing

We love receiving PRs from the community with features and fixed. For big feature it's advised to raise an issue to discuss it first.

TLDR

  • Install the .NET SDKs
  • Install PowerShell
  • Install Xcode
  • Restore workloads with dotnet workload restore (needs sudo on a Mac)
  • To quickly get up and running, you can just run dotnet build SentryNoMobile.slnf (you're skipping the mobile targets)
  • To run a full build in Release mode and test, before pushing, run ./build.sh or ./build.cmd

Minimal Dependencies

  • The latest versions of the following .NET SDKs:

    Technically, you only need the full SDK install for the latest version (8.0). If you like, you can install the smaller ASP.NET Core Runtime packages for .NET 6.0. However, installing the full SDKs will also give you the runtimes.

  • pwsh Core version 6 or later on PATH.

  • CMake on PATH. On Windows you can install the C++ CMake tools for Windows. On macOS you can use your favourite package manager (e.g. brew install cmake).

  • On Windows:

  • On macOS/Linux

.NET MAUI Requirements

To build any of Sentry.Maui, Sentry.Maui.Tests, or Sentry.Samples.Maui, we recommend you have .NET SDK 8 and have the MAUI workloads installed. You can do so by running dotnet workload restore (or dotnet workload install maui) from the root of the SDK's repository.

See https://docs.microsoft.com/dotnet/maui/ for details. JetBrains also have a great blog post if you're developing on a Mac: https://blog.jetbrains.com/dotnet/2022/05/25/macos-environment-setup-for-maui-development/

Basically, if you can build and run the MyMauiApp example you should also be able to build and run the Sentry MAUI sample app.

Targeting Android, iOS and Mac Catalyst

  • Targeting the mobile platforms requires aditional dependencies.
    • Java is required for building the Android bindings. If you're building Sentry using an IDE you provide the path to your Java installation via the IDE settings (open the settings for Visual Studio or Rider and search for "android"). Building Sentry from the command line (using dotnet build) requires JAVA_HOME to be available on the environment.
    • Compiling for iOS and Mac Catalyst happens on macOS only.

Although the files in /src/Sentry/Platforms/ are part of the Sentry project, they are conditionally targeted when the platform is Android, iOS, or Mac Catalyst. We build for Android on all platforms.

<!-- Platform-specific props included here -->
  <Import Project="Platforms\Android\Sentry.Android.props" Condition="'$(TargetPlatformIdentifier)' == 'android'" />
  <Import Project="Platforms\Cocoa\Sentry.Cocoa.props" Condition="'$(TargetPlatformIdentifier)' == 'ios' Or '$(TargetPlatformIdentifier)' == 'maccatalyst'" />

These *.props files are used to add platform-specific files, such as references to the binding projects for each native SDK. These binding projects are .NET wrappers around native Android or Cocoa SDK functions.

Also note /Directory.Build.targets contains some convention based rules to exclude code that is not relevant for the target platform. Developers using Visual Studio will need to enable Show All Files in order to be able to see these files, when working with the solution.

Legacy ASP.NET solutions

When debugging a legacy ASP.NET application with project references to Sentry.AspNet, you may need the following workarounds to tooling issues:

Microsoft.WebApplication.targets not found

CodeTaskFactory not supported

Solution Filters

TLDR; when working with the the Sentry codebase, you should use the solution filters (not the solutions).

Full explanation:

The Sentry.sln solution contains all of the projects required to build Sentry, it's integrations and samples for every platform. However the repository contains various solution filters that will be more practical for day to day tasks.

These solution filters get generated automatically by /scripts/generate-solution-filters.ps1 so, although you can certainly create your own solution filters and manage these how you wish, don't try to modify any of the *.slnf files that are committed to source control. Instead, changes to these can be made by modifying /scripts/generate-solution-filters-config.yml and re-running the script that generates these.

Also note that script generates a .generated.NoMobile.sln solution, which is an identical copy of Sentry.sln. Again, we don't recommend opening this directly. It exists as a round about way to conditionally set build properties based on the solution name in certain solution filters. You should instead use those solution filters (e.g. SentryNoMobile.slnf) when working in the Sentry codebase.

API changes approval process

This repository uses Verify to store the public API diffs in snapshot files. When a change involves modifying the public API area (by for example adding a public method), that change will need to be approved, otherwise the CI process will fail.

To do that, run the build locally (i.e: ./build.sh or build.cmd) and commit the verify files that were changed.

Changelog

We'd love for users to update the SDK everytime and as soon as we make a new release. But in reality most users rarely update the SDK. To help users see value in updating the SDK, we maintain a changelog file with entries split between two headings:

  1. ### Features
  2. ### Fixes

We add the heading in the first PR that's adding either a feature or fixes in the current release. After a release, the changelog file will contain only the last release entries.

When you open a PR in such case, you need to add a heading 2 named ## Unreleased, which is replaced during release with the version number chosen. Below that, you'll add the heading 3 mentioned above. For example, if you're adding a feature "Attach screenshots when capturing errors on WPF", right after a release, you'd add to the changelog:

## Unreleased

### Features

* Attach screenshots when capturing errors on WPF (#PR number)

There's a GitHub action check to verify if an entry was added. If the entry isn't a user-facing change, you can skip the verification with #skip-changelog written to the PR description. The bot writes a comment in the PR with a suggestion entry to the changelog based on the PR title.

Naming tests

Ideally we like tests to be named following the convention Method_Context_Expectation.

For example:

    [Fact]
    public void PushScope_BreadcrumbWithinScope_NotVisibleOutside()

Verify tests

Some tests use Verify to check returned objects against snapshots that are part of the repo. In case you're making code changes that produce many (intended) changes in those snapshots, you can use accept-verifier-changes.ps1 like this:

dotnet test
pwsh ./scripts/accept-verifier-changes.ps1

You may need to run this multiple times because dotnet test stops after a certain number of failures.

Integration tests

Directory ./integration-test contains Pester-based integration tests. These tests create sample apps with dotnet new and run against local nuget packages (.nuget files). In CI, these packages are expected to be present, while locally, scripts will run nuget pack automatically.

Running integration tests locally

You can run individual tests either via Pester integration (e.g. in VS Code), or from command line: ./integration-test/cli.Tests.ps1. Consult Pester docs for details on how to write tests.

Because these tests rely on a Sentry server mock (Invoke-SentryServer) from https://github.com/getsentry/github-workflows/tree/main/sentry-cli/integration-test, you need to check out getsentry/github-workflows as a sibling directory next to your getsentry/sentry-dotnet checkout.