ceph-csi/docs/development-guide.md

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# Development Guide
## New to Go
Ceph-csi is written in Go and if you are new to the language,
it is **highly** encouraged to:
* Take the [A Tour of Go](http://tour.golang.org/welcome/1) course.
* [Set up](https://golang.org/doc/code.html) Go development environment on your machine.
* Read [Effective Go](https://golang.org/doc/effective_go.html) for best practices.
## Development Workflow
### Workspace and repository setup
* [Download](https://golang.org/dl/) Go (>=1.13.x) and
[install](https://golang.org/doc/install) it on your system.
* Setup the [GOPATH](http://www.g33knotes.org/2014/07/60-second-count-down-to-go.html)
environment.
* `CGO_ENABLED` is enabled by default, if `CGO_ENABLED` is set to `0` we need
to set it to `1` as we need to build with go-ceph bindings.
* `GO111MODULE` is enabled by default, if `GO111MODULE` is set to `off` we need
to set it to `on` as cephcsi uses go modules for dependency.
* Ceph-CSI uses the native Ceph libaries through the [go-ceph
package](https://github.com/ceph/go-ceph). It is required to install the
Ceph C headers in order to compile Ceph-CSI. The packages are called
`libcephfs-devel`, `librados-devel` and `librbd-devel` on many Linux
distributions. See the [go-ceph installaton
instructions](https://github.com/ceph/go-ceph#installation) for more
details.
* Run `$ go get -d github.com/ceph/ceph-csi`
This will just download the source and not build it. The downloaded source
will be at `$GOPATH/src/github.com/ceph/ceph-csi`
* Fork the [ceph-csi repo](https://github.com/ceph/ceph-csi) on Github.
* Add your fork as a git remote:
`$ git remote add fork https://github.com/<your-github-username>/ceph-csi`
* Set up a pre-commit hook to catch issues locally.
`$ pip install pre-commit==2.5.1`
`$ pre-commit install`
See the [pre-commit installation
instructions](https://pre-commit.com/#installation) for more
details.
Pre-commit will be now be triggered next time we commit changes.
This will catch some trivial style nitpicks (if any),
which will then need resolving. Once the warnings are resolved,
the user will be allowed to proceed with the commit.
> Editors: Our favorite editor is vim with the [vim-go](https://github.com/fatih/vim-go)
> plugin, but there are many others like [vscode](https://github.com/Microsoft/vscode-go)
### Building Ceph-CSI
To build ceph-csi locally run:
`$ make`
To build ceph-csi in a container:
`$ make containerized-build`
The built binary will be present under `_output/` directory.
### Running Ceph-CSI tests in a container
Once the changes to the sources compile, it is good practise to run the tests
that validate the style and other basics of the source code. Execute the unit
tests (in the `*_test.go` files) and check the formatting of YAML files,
MarkDown documents and shell scripts:
`$ make containerized-test`
It is also possible to run only selected tests, these are the targets in the
`Makefile` in the root of the project. For example, run the different static
checks with:
`$ make containerized-test TARGET=static-check`
In addition to running tests locally, each Pull Request that is created will
trigger Continous Integration tests that include the `containerized-test`, but
also additional functionality tests that are defined under the `e2e/`
directory.
### Code contribution workflow
ceph-csi repository currently follows GitHub's
[Fork & Pull] (<https://help.github.com/articles/about-pull-requests/>) workflow
for code contributions.
Please read the [coding guidelines](coding.md) document before submitting a PR.
#### Certificate of Origin
By contributing to this project you agree to the Developer Certificate of
Origin (DCO). This document was created by the Linux Kernel community and is a
simple statement that you, as a contributor, have the legal right to make the
contribution. See the [DCO](DCO) file for details.
Contributors sign-off that they adhere to these requirements by adding a
Signed-off-by line to commit messages. For example:
```text
subsystem: This is my commit message
More details on what this commit does
Signed-off-by: Random J Developer <random@developer.example.org>
```
If you have already made a commit and forgot to include the sign-off, you can
amend your last commit to add the sign-off with the following command, which
can then be force pushed.
```console
git commit --amend -s
```
We use a [DCO bot](https://github.com/apps/dco) to enforce the DCO on each pull
request and branch commits.
#### Commit Messages
We follow a rough convention for commit messages that is designed to answer two
questions: what changed and why? The subject line should feature the what and
the body of the commit should describe the why.
```text
cephfs: update cephfs resize
use cephfs resize to resize subvolume
Signed-off-by: Random J Developer <random@developer.example.org>
```
The format can be described more formally as follows:
```text
<component>: <subject of the change>
<BLANK LINE>
<paragraph(s) with reason/description>
<BLANK LINE>
<signed-off-by>
```
The `component` in the subject of the commit message can be one of the following:
* `cephfs`: bugs or enhancements related to CephFS
* `rbd`: bugs or enhancements related to RBD
* `doc`: documentation updates
* `util`: utilities shared between components use `cephfs` or `rbd` if the
change is only relevant for one of the type of storage
* `journal`: any of the journalling functionalities
* `helm`: deployment changes for the Helm charts
* `deploy`: updates to Kubernetes templates for deploying components
* `build`: anything related to building Ceph-CSI, the executable or container
images
* `ci`: changes related to the Continuous Integration, or testing
* `e2e`: end-to-end testing updates
* `cleanup`: general maintenance and cleanup changes
* `revert`: undo a commit that was merged by mistake, use of one of the other
components is in most cases recommended
The first line is the subject and should be no longer than 70 characters, the
second line is always blank, and other lines should be wrapped at 80 characters.
This allows the message to be easier to read on GitHub as well as in various
git tools.
Here is a short guide on how to work on a new patch. In this example, we will
work on a patch called *hellopatch*:
* `$ git checkout master`
* `$ git pull`
* `$ git checkout -b hellopatch`
Do your work here and commit.
Run the test suite, which includes linting checks, static code check, and unit
tests:
`$ make test`
Certain unit tests may require extended permissions or other external resources
that are not available by default. To run these tests as well, export the
environment variable `CEPH_CSI_RUN_ALL_TESTS=1` before running the tests.
You will need to provide unit tests and functional tests for your changes
wherever applicable.
Once you are ready to push, you will type the following:
`$ git push fork hellopatch`
**Creating A Pull Request:**
When you are satisfied with your changes, you will then need to go to your repo
in GitHub.com and create a pull request for your branch. Automated tests will
be run against the pull request. Your pull request will be reviewed and merged.
If you are planning on making a large set of changes or a major architectural
change it is often desirable to first build a consensus in an issue discussion
and/or create an initial design doc PR. Once the design has been agreed upon
one or more PRs implementing the plan can be made.
Pull requests get labelled by maintainers of the repository. Labels help
reviewers with selecting the pull requests of interest based on components:
* component/build: Issues and PRs related to compiling Ceph-CSI
* component/cephfs: Issues related to CephFS
* component/deployment: Helm chart, kubernetes templates and configuration Issues/PRs
* component/docs: Issues and PRs related to documentation
* component/journal: This PR has a change in volume journal
* component/rbd: Issues related to RBD
* component/testing: Additional test cases or CI work
* component/util: Utility functions shared between CephFS and RBD
There are other labels as well, to indicate dependencies between projects:
* dependency/ceph: depends on core Ceph functionality
* dependency/go-ceph: depends on go-ceph functionality
* dependency/k8s: depends on Kubernetes features
* dependency/rook: depends on, or requires changes in Rook
* rebase: update the version of an external component
A few labels interact with automation around the pull requests:
* ready-to-merge: This PR is ready to be merged and it doesn't need second review
* DNM: DO NOT MERGE (Mergify will not merge this PR)
* ci/skip/e2e: skip running e2e CI jobs
**Review Process:**
Once your PR has been submitted for review the following criteria will
need to be met before it will be merged:
* Each PR needs reviews accepting the change from at least two developers for merging.
* It is common to request reviews from those reviewers automatically suggested
by GitHub.
* Each PR needs to have been open for at least 24 working hours to allow for
community feedback.
* The 24 working hours counts hours occurring Mon-Fri in the local timezone
of the submitter.
* Each PR must be fully updated to master and tests must have passed
* If the PR is having trivial changes or the reviewer is confident enough that
PR doesn't need a second review, the reviewer can set `ready-to-merge` label
on the PR. The bot will merge the PR if it's having one approval and the
label `ready-to-merge`.
When the criteria are met, a project maintainer can merge your changes into
the project's master branch.
### Backport a Fix to a Release Branch
The flow for getting a fix into a release branch is:
1. Open a PR to merge the changes to master following the process outlined above.
1. Add the backport label to that PR such as `backport-to-release-vX.Y.Z`
1. After your PR is merged to master, the mergify bot will automatically open a
PR with your commits backported to the release branch
1. If there are any conflicts you will need to resolve them by pulling the
branch, resolving the conflicts and force push back the branch
1. After the CI is green, the bot will automatically merge the backport PR.
### Retriggering the CI Jobs
The CI Jobs gets triggered automatically on these events, such as on
opening fresh PRs, rebase of PRs and force pushing changes to existing PRs.
Right now, we also have below commands to manually retrigger the CI jobs
1. To retrigger all the CI jobs, comment the PR with command: `/retest all`
**Note**:
This will rerun all the jobs including the jobs which are already passed
1. To retrigger a specific CI job, comment the PR with command: `/retest <job-name>`
example:
```
/retest ci/centos/containerized-tests
```
**Caution**: Please do not retrigger the CI jobs without an understanding of
the root cause, because:
* We may miss some of the important corner cases which are true negatives,
and hard to reproduce
* Retriggering jobs for known failures can unnecessarily put CI resources
under pressure
Hence it is recommended that you please go through the CI logs first, if you
are certain about the flaky test failure behavior, then comment on the PR
indicating the logs about a particular test that went flaky and use the
appropriate command to retrigger the job[s].
If you are uncertain about the CI failure, we prefer that you ping us on
[Slack channel #ci](https://cephcsi.slack.com) with more details on
failures before retriggering the jobs, we will be happy to help.