Alex
1c0ba930b8
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This PR should be merged after the new website is deployed. - [x] Rename files - [x] Add front matter section to all `.md` files in the book (necessary for Zola) - [x] Change all internal links to use Zola's linking system that checks broken links - [x] Some updates to documentation contents and organization Co-authored-by: Alex Auvolat <alex@adnab.me> Reviewed-on: #213 Co-authored-by: Alex <alex@adnab.me> Co-committed-by: Alex <alex@adnab.me>
198 lines
6.7 KiB
Markdown
198 lines
6.7 KiB
Markdown
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title = "Release process"
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weight = 15
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Before releasing a new version of Garage, our code pass through a succession of checks and transformations.
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We define them as our release process.
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## Trigger and classify a release
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While we run some tests on every commits, we do not make a release for all of them.
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A release can be triggered manually by "promoting" a successful build.
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Otherwise, every weeks, a release build is triggered on the `main` branch.
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If the build is from a tag following the regex: `v[0-9]+\.[0-9]+\.[0-9]+`, it will be listed as stable.
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If it is a tag but with a different format, it will be listed as Extra.
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Otherwise, if it is a commit, it will be listed as development.
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This logic is defined in `nix/build_index.nix`.
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## Testing
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For each commit, we first pass the code to a formatter (rustfmt) and a linter (clippy).
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Then we try to build it in debug mode and run both unit tests and our integration tests.
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Additionnaly, when releasing, our integration tests are run on the release build for amd64 and i686.
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## Generated Artifacts
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We generate the following binary artifacts for now:
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- **architecture**: amd64, i686, aarch64, armv6
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- **os**: linux
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- **format**: static binary, docker container
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Additionnaly we also build two web pages:
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- the documentation (this website)
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- [the release page](https://garagehq.deuxfleurs.fr/_releases.html)
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We publish the static binaries on our own garage cluster (you can access them through the releases page)
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and the docker containers on Docker Hub.
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## Automation
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We automated our release process with Nix and Drone to make it more reliable.
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Here we describe how we have done in case you want to debug or improve it.
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### Caching build steps
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To speed up the CI, we use the caching feature provided by Nix.
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You can benefit from it by using our provided `nix.conf` as recommended or by simply adding the following lines to your file:
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```toml
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substituters = https://cache.nixos.org https://nix.web.deuxfleurs.fr
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trusted-public-keys = cache.nixos.org-1:6NCHdD59X431o0gWypbMrAURkbJ16ZPMQFGspcDShjY= nix.web.deuxfleurs.fr:eTGL6kvaQn6cDR/F9lDYUIP9nCVR/kkshYfLDJf1yKs=
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```
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Sending to the cache is done through `nix copy`, for example:
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```bash
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nix copy --to 's3://nix?endpoint=garage.deuxfleurs.fr®ion=garage&secret-key=/etc/nix/signing-key.sec' result
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```
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*Note that you need the signing key. In our case, it is stored as a secret in Drone.*
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The previous command will only send the built packet and not its dependencies.
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To send its dependency, a tool named `nix-copy-closure` has been created but it is not compatible with the S3 protocol.
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Instead, you can use the following commands to list all the runtime dependencies:
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```bash
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nix copy \
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--to 's3://nix?endpoint=garage.deuxfleurs.fr®ion=garage&secret-key=/etc/nix/signing-key.sec' \
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$(nix-store -qR result/)
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```
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*We could also write this expression with xargs but this tool is not available in our container.*
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But in certain cases, we want to cache compile time dependencies also.
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For example, the Nix project does not provide binaries for cross compiling to i686 and thus we need to compile gcc on our own.
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We do not want to compile gcc each time, so even if it is a compile time dependency, we want to cache it.
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This time, the command is a bit more involved:
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```bash
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nix copy --to \
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's3://nix?endpoint=garage.deuxfleurs.fr®ion=garage&secret-key=/etc/nix/signing-key.sec' \
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$(nix-store -qR --include-outputs \
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$(nix-instantiate))
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```
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This is the command we use in our CI as we expect the final binary to change, so we mainly focus on
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caching our development dependencies.
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*Currently there is no automatic garbage collection of the cache: we should monitor its growth.
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Hopefully, we can erase it totally without breaking any build, the next build will only be slower.*
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In practise, we concluded that we do not want to cache all the compilation dependencies.
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Instead, we want to cache the toolchain we use to build Garage each time we change it.
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So we removed from Drone any automatic update of the cache and instead handle them manually with:
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```
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source ~/.awsrc
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nix-shell --run 'refresh_toolchain'
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```
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Internally, it will run `nix-build` on `nix/toolchain.nix` and send the output plus its depedencies to the cache.
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To erase the cache:
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```
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mc rm --recursive --force 'garage/nix/'
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```
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### Publishing Garage
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We defined our publishing logic in Nix, mostly as shell hooks.
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You can inspect them in `shell.nix` to see exactly how.
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Here, we will give a quick explanation on how to use them to manually publish a release.
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Supposing you just have built garage as follow:
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```bash
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nix-build --arg release true
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```
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To publish a static binary in `result/bin` on garagehq, run:
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```bash
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export AWS_ACCESS_KEY_ID=xxx
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export AWS_SECRET_ACCESS_KEY=xxx
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export DRONE_TAG=handcrafted-1.0.0 # or DRONE_COMMIT
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export TARGET=x86_64-unknown-linux-musl
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nix-shell --run to_s3
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```
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To create and publish a docker container, run:
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```bash
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export DOCKER_AUTH='{ "auths": { "https://index.docker.io/v1/": { "auth": "xxxx" }}}'
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export DOCKER_PLATFORM='linux/amd64' # check GOARCH and GOOS from golang.org
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export CONTAINER_NAME='me/amd64_garage'
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export CONTAINER_TAG='handcrafted-1.0.0'
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nix-shell --run to_docker
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```
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To rebuild the release page, run:
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```bash
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export AWS_ACCESS_KEY_ID=xxx
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export AWS_SECRET_ACCESS_KEY=xxx
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nix-shell --run refresh_index
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```
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If you want to compile for different architectures, you will need to repeat all these commands for each architecture.
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**In practise, and except for debugging, you will never directly run these commands. Release is handled by drone**
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### Drone
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Our instance is available at [https://drone.deuxfleurs.fr](https://drone.deuxfleurs.fr).
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You need an account on [https://git.deuxfleurs.fr](https://git.deuxfleurs.fr) to use it.
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**Drone CLI** - Drone has a CLI tool to interact with.
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It can be downloaded from its Github [release page](https://github.com/drone/drone-cli/releases).
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To communicate with our instance, you must setup some environment variables.
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You can get them from your [Account Settings](https://drone.deuxfleurs.fr/account).
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To make drone easier to use, you could create a `~/.dronerc` that you could source each time you want to use it.
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```
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export DRONE_SERVER=https://drone.deuxfleurs.fr
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export DRONE_TOKEN=xxx
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drone info
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```
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The CLI tool is very self-discoverable, just append `--help` to each subcommands.
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Start with:
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```bash
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drone --help
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```
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**.drone.yml** - The builds steps are defined in `.drone.yml`.
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You can not edit this file without resigning it.
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To sign it, you must be a maintainer and then run:
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```bash
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drone sign --save Deuxfleurs/garage
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```
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Looking at the file, you will see that most of the commands are `nix-shell` and `nix-build` commands with various parameters.
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