This is a GitHub repository template for Go. It has been created for ease-of-use for anyone who wants to:
- quickly get into Go without losing too much time on environment setup,
- create a new repoisitory with basic Continous Integration.
It includes:
- continous integration via GitHub Actions,
- build automation via Make,
- dependency management using Go Modules,
- code formatting using gofumpt,
- linting with golangci-lint,
- unit testing with testify, race detector, code covarage HTML report and Codecov report,
- releasing using GoReleaser,
- dependencies scanning and updating thanks to Dependabot,
- security code analysis using CodeQL Action,
- Visual Studio Code configuration with Go and Remote Container support.
Star
this repository if you find it valuable and worth maintaining.
Watch
this repository to get notified about new releases, issues, etc.
- Sign up on Codecov and configure Codecov GitHub Application for all repositories.
- Click the
Use this template
button (alt. clone or download this repository). - Replace all occurences of
golang-templates/seed
toyour_org/repo_name
in all files. - Replace all occurences of
seed
torepo_name
in Dockerfile. - Update the following files:
Below you can find sample instructions on how to set up the development environment. Of course you can use other tools like GoLand, Vim, Emacs. However take notice that the Visual Studio Go extension is officially supported by the Go team.
Follow these steps if you are OK installing and using Go on your machine.
- Install Go.
- Install Visual Studio Code.
- Install Go extension.
- Clone and open this repository.
F1
->Go: Install/Update Tools
-> (select all) -> OK.
Follow these steps if you do not want to install Go on your machine and you prefer to use a Development Container instead.
- Install Visual Studio Code.
- Follow Developing inside a Container - Getting Started.
- Clone and open this repository.
F1
->Remote-Containers: Reopen in Container
.F1
->Go: Install/Update Tools
-> (select all) -> OK.
The Development Container configuration mixes Docker in Docker and Go definitions. Thanks to it you can use go
, docker
, docker-compose
inside the container.
make
- execute the build pipeline.make help
- print help for the Make targets.
F1
→ Tasks: Run Build Task (Ctrl+Shift+B or ⇧⌘B)
to execute the build pipeline.
The release workflow is triggered each time a tag with v
prefix is pushed.
CAUTION: Make sure to understand the consequences before you bump the major version. More info: Go Wiki, Go Blog.
Remember to update Go version in .github/workflows, Makefile and devcontainer.json.
Notable files:
- devcontainer.json - Visual Studio Code Remote Container configuration,
- .github/workflows - GitHub Actions workflows,
- .github/dependabot.yml - Dependabot configuration,
- .vscode - Visual Studio Code configuration files,
- .golangci.yml - golangci-lint configuration,
- .goreleaser.yml - GoReleaser configuration,
- Dockerfile - Dockerfile used by GoReleaser to create a container image,
- Makefile - Make targets used for development, CI build and .vscode/tasks.json,
- go.mod - Go module definition,
- tools.go - build tools.
Developers that use Visual Studio Code can take advantage of the editor configuration. While others do not have to care about it. Setting configs for each repo is unnecessary time consuming. VS Code is the most popular Go editor (survey) and it is officially supported by the Go team.
You can always remove the .devcontainer and .vscode directories if it really does not help you.
GitHub Actions is out-of-the-box if you are already using GitHub. Here you can learn how to use it for Go.
However, changing to any other CI server should be very simple, because this repository has build logic and tooling installation in Makefile.
Install tdm-gcc and copy C:\TDM-GCC-64\bin\mingw32-make.exe
to C:\TDM-GCC-64\bin\make.exe
. Alternatively, you may install mingw-w64 and copy mingw32-make.exe
accordingly.
Alternatively use WSL (Windows Subsystem for Linux) or develop inside a Remote Container. However, take into consideration that then you are not going to use "bare-metal" Windows.
-
Install GoDownloader.
-
Execute:
godownloader --repo=your_org/repo_name > ./install.sh
-
Push
install.sh
to your repository. -
Add installation instructions to your
README.md
e.g.:curl -sSfL https://raw.githubusercontent.com/your_org/repo_name/main/install.sh | sh -s -- -b /usr/local/bin
Take a look at GoReleaser docs as well as its repo how it is dogfooding its functionality.
You can change the .goreleaser.yml to contain:
build:
skip: true
release:
github:
prerelease: auto
Alternatively, you can completly remove the usage of GoReleaser if you prefer handcrafted release notes. Take a look how it is done in taskflow.
By default go test
records code coverage for the package that is currently tested. If you want to get more accurate (cross-package) coverage, then consider using go-acc. Read more.
Auto-tagging can be done in many ways e.g. by using GitHub Actions like:
However, creating a release tag manually is often the optimal approach. Take notice that this template executes a release workflow each time a git tag with v
prefix is pushed.
Simply create an issue or a pull request.