- Linux, Mac OS X, or Windows.
- git (used for source version control).
- An ssh client (used to authenticate with GitHub).
- An IDE such as Android Studio or Visual Studio Code.
- Flutter with proper IDE configuration.
flutter_plugin_tools
locally activated.clang-format
(available via brew on macOS, apt on Ubuntu, maybe via llvm on chocolatey for Windows)
- Ensure all the dependencies described in the previous section are installed.
- Fork
https://github.com/flutternetwork/WiFiFlutter
into your own GitHub account. If you already have a fork, and are now installing a development environment on a new machine, make sure you've updated your fork so that you don't use stale configuration options from long ago. - If you haven't configured your machine with an SSH key that's known to github, then follow GitHub's directions to generate an SSH key.
git clone [email protected]:<your_name_here>/WiFiFlutter.git
git remote add upstream [email protected]:flutternetwork/WiFiFlutter.git
(So that you fetch from the master repository, not your clone, when runninggit fetch
et al.)
WiFiFlutter uses Melos to manage the project and dependencies.
To install Melos, run the following command from your SSH client:
pub global activate melos
Next, at the root of your locally cloned repository bootstrap the projects dependencies:
melos bootstrap
The bootstrap command locally links all dependencies within the project without having to
provide manual dependency_overrides
. This allows all
plugins, examples and tests to build from the local clone project.
You do not need to run
flutter pub get
once bootstrap has been completed.
Each plugin provides an example app which aims to showcase the main use-cases of each plugin.
To run an example, run the flutter run
command from the example
directory of each plugins main
directory. For example, for WiFi For IoT example:
cd packages/wifi_iot/example
flutter run
Using Melos (installed in step 3), any changes made to the plugins locally will also be reflected within all example applications code automatically.
WiFiFlutter comprises of a number of tests for each plugin, either end-to-end (e2e) or unit tests.
Unit tests are responsible for ensuring expected behavior whilst developing the plugins Dart code. Unit tests do not
interact with platform, and mock where possible. To run unit tests for a specific plugin, run the
flutter test
command from the plugins root directory. For example, WiFi For IoT platform interface tests can be run
with the following commands:
cd packages/wifi_iot
flutter test
To help aid developer workflow, Melos provides a number of commands to quickly run tests against plugins. For example, to analyze all plugins at once, run the following command from the root of your cloned repository:
melos run analyze
A full list of all commands can be found within the melos.yaml
file.
We gladly accept contributions via GitHub pull requests.
Please peruse the Flutter style guide and design principles before working on anything non-trivial. These guidelines are intended to keep the code consistent and avoid common pitfalls.
To start working on a patch:
git fetch upstream
git checkout upstream/master -b <name_of_your_branch>
- Hack away!
Once you have made your changes, ensure that it passes the internal analyzer & formatting checks. The following commands can be run locally to highlight any issues before committing your code:
# Run the analyze check
melos run analyze
# Format code
melos run format
Assuming all is successful, commit and push your code:
git commit -a -m "<your informative commit message>"
git push origin <name_of_your_branch>
To send us a pull request:
git pull-request
(if you are using Hub) or go tohttps://github.com/flutternetwork/WiFiFlutter
and click the "Compare & pull request" button
Please make sure all your check-ins have detailed commit messages explaining the patch.
When naming the title of your pull request, please follow the Conventional Commits guide. For example, for a fix to the WiFi For IoT plugin:
fix(wifi_iot): fixed a bug!
Plugins tests are run automatically on contributions using GitHub Actions. Depending on your code contributions, various tests will be run against your updated code automatically.
Once you've gotten an LGTM from a project maintainer and once your PR has received the green light from all our automated testing, wait for one the package maintainers to merge the pull request.
Newly opened PRs first go through initial triage which results in one of:
- Merging the PR - if the PR can be quickly reviewed and looks good.
- Closing the PR - if the PR maintainer decides that the PR should not be merged.
- Moving the PR to the backlog - if the review requires non trivial effort and the issue isn't a priority; in this case the maintainer will:
- Make sure that the PR has an associated issue labeled with "plugin".
- Add the "backlog" label to the issue.
- Leave a comment on the PR explaining that the review is not trivial and that the issue will be looked at according to priority order.
- Starting a non trivial review - if the review requires non trivial effort and the issue is a priority; in this case the maintainer will:
- Add the "in review" label to the issue.
- Self assign the PR.
We push releases manually, using Melos to take care of the hard work.
Changelogs and version updates are automatically updated by a project maintainer (via Melos). The new version is automatically generated via the commit types and changelogs via the commit messages.
Some things to keep in mind before publishing the release:
- Has CI ran on the master commit and gone green? Even if CI shows as green on the PR it's still possible for it to fail on merge, for multiple reasons. There may have been some bug in the merge that introduced new failures. CI runs on PRs as it's configured on their branch state, and not on tip of tree. CI on PRs also only runs tests for packages that it detects have been directly changed, vs running on every single package on master.
- Publishing is forever. Hopefully any bugs or breaking in changes in this PR have already been caught in PR review, but now's a second chance to revert before anything goes live.
- "Don't deploy on a Friday." Consider carefully whether or not it's worth immediately publishing an update before a stretch of time where you're going to be unavailable. There may be bugs with the release or questions about it from people that immediately adopt it, and uncovering and resolving those support issues will take more time if you're unavailable.
- Switch to
master
branch locally. - Run 'git pull origin master'.
- Run
git fetch --all
to make sure all tags and commits are fetched. - Run
melos version
. This will auto commit, update the changelogs using git commit messages from the last release, and also tag the release for versioning. - Run
git push --follow-tags
to push the auto commits and tags to the remote repository. - Run
melos publish
to dry run and confirm all packages are publishable. - Run
melos publish --no-dry-run
to now publish to Pub.dev.
To run a release and manually edit the change log, do the following steps:
- Switch to
master
branch locally. - Run 'git pull origin master'.
- Run
git fetch --all
to make sure all tags and commits are fetched. - Run
melos version --no-git-tag-version
. This will skip auto commiting and git tagging, leaving your git tree dirty with version bumps and changelog entry changes. - Update the
CHANGELOG.md
files that you manually want to edit/reword. - Add and commit all the
CHANGELOG.md
andpubspec.yaml
files that were modified bymelos version
(using the standard release commit message, e.g.chore(release): publish packages
). melos publish
to dry run and confirm all packages are publishable.melos publish --no-dry-run --git-tag-version
to now publish to Pub.dev (--git-tag-version
will add missing git tags since we skipped tagging in step 1).- Push your changes to
master
;git push --follow-tags
.
Sometimes you may need to 'graduate' a package from a 'dev' or 'beta' (versions tagged like this: 0.10.0-dev.4
) to a stable version. Melos can also be used
to graduate multiple packages using the following steps:
- Switch to
master
branch locally. - Run 'git pull origin master'.
- Run
git fetch --all
to make sure all tags and commits are fetched. - Run
melos version --graduate
to prompt a list of all packages to be graduated (You may also specifically select packages using the scope flag like this:--scope="*wifi_iot*"
) - Run
git push --follow-tags
to push the auto commits and tags to the remote repository. - Run
melos publish
to dry run and confirm all packages are publishable. - Run
melos publish --no-dry-run
to now publish to Pub.dev.