# ReleaseKit
ReleaseKit builds deployment-neutral artifacts from Mix OTP releases.
It is for Elixir applications that want a repeatable build product without tying
that build product to a deploy tool. ReleaseKit produces ordinary files:
- an OTP release tarball;
- an ETF manifest describing the tarball, runtime command, runtime environment
hints, and optional HTTP health check.
Deployment tools such as HostKit can consume the manifest, but ReleaseKit does
not know about systemd, users, Caddy, hosts, or filesystem layouts.
## Why use ReleaseKit?
A deploy pipeline usually needs two separate responsibilities:
1. **Build an application artifact** from source.
2. **Install and supervise that artifact** on a host.
ReleaseKit handles only the first responsibility. It gives downstream deploy
systems a small, stable manifest instead of asking every application to invent a
custom release tarball format or wrapper Mix task.
## Installation
```elixir
def deps do
[
{:release_kit, "~> 0.2.0", only: [:dev, :prod], runtime: false}
]
end
```
## Quick start
Build a production artifact for the default Mix release:
```sh
MIX_ENV=prod mix release_kit.artifact --out-dir _build/prod/artifacts
```
For a web service, record health-check metadata:
```sh
MIX_ENV=prod mix release_kit.artifact \
--out-dir _build/prod/artifacts \
--port 4000 \
--health-path /
```
The output names are stable for deployment tooling and include a checksum sidecar:
```text
_build/prod/artifacts/my_app-20260620-abcdef0.tar.gz
_build/prod/artifacts/my_app-20260620-abcdef0.tar.gz.sha256
_build/prod/artifacts/my_app.etf
```
## Configuration
You can put artifact defaults in application config and keep the command short:
```elixir
# config/config.exs
config :release_kit, :artifact,
port: 4000,
health_path: "/",
env_clear: %{
"MY_APP_WEB" => "true",
"MY_APP_PORT" => "4000",
"RELEASE_DISTRIBUTION" => "none"
}
```
Then build with:
```sh
MIX_ENV=prod mix release_kit.artifact --out-dir _build/prod/artifacts
```
CLI flags override config values when provided.
## Phoenix and Volt assets
Phoenix applications that use Volt can configure a first-class asset preset.
ReleaseKit installs locked npm packages, runs `mix volt.build`, records asset
metadata in the manifest, and then packages the OTP release:
```elixir
config :release_kit, :artifact,
port: 4000,
health_path: "/",
assets: [
volt: [profile: :my_app_web, tailwind: true, root: "assets", production: true, frozen: true]
]
```
For a flat Volt config, omit the profile:
```elixir
config :release_kit, :artifact,
assets: [volt: [tailwind: true]]
```
For umbrellas or multiple web apps, build multiple profiles:
```elixir
config :release_kit, :artifact,
assets: [
volt: [
profiles: [
[profile: :public_web, root: "apps/public_web/assets", tailwind: true],
[profile: :admin_web, root: "apps/admin_web/assets", tailwind: true]
]
]
]
```
## Lifecycle steps
Some applications need generated files inside the OTP release, such as frontend
assets or generated config. Configure lifecycle steps and still use the same
ReleaseKit task:
```elixir
config :release_kit, :artifact,
steps: [
before_compile: [],
before_release: [{MyApp.ReleaseStep, mode: :prod}],
after_release: [],
before_package: [],
after_package: []
]
```
A lifecycle step is any module that implements the `ReleaseKit.Step` behaviour:
```elixir
defmodule MyApp.ReleaseStep do
@behaviour ReleaseKit.Step
@impl true
def run(opts) do
# build generated files before mix release runs
:ok
end
end
```
`ReleaseKit.Step.Volt` is compiled only when both optional dependencies `:volt`
and `:npm` are available in the consuming project. It installs locked npm
packages from the configured asset root, removes Volt's output directory, and
runs `mix volt.build` before the OTP release is assembled. It supports Volt
named profiles, `--tailwind`, source map mode, public directory, asset URL
prefix, and the production build toggles exposed by Volt's Mix task.
See `examples/vanilla` for a minimal Phoenix/Volt app that builds with plain:
```sh
MIX_ENV=prod mix release_kit.artifact --out-dir _build/prod/artifacts
```
## Manifest shape
The manifest is an ETF-encoded `%ReleaseKit.Manifest{}` struct:
```elixir
%ReleaseKit.Manifest{
tool: "release_kit",
format: :beam_release_artifact,
format_version: 2,
app: "my_app",
release: "my_app",
version: "20260620-abcdef0",
mix_env: "prod",
tarball: "/absolute/path/to/my_app-20260620-abcdef0.tar.gz",
artifact: %ReleaseKit.ArtifactInfo{
path: "/absolute/path/to/my_app-20260620-abcdef0.tar.gz",
size: 1_234_567,
compression: :gzip,
checksum: %{
algorithm: :sha256,
value: "...",
sidecar: "/absolute/path/to/my_app-20260620-abcdef0.tar.gz.sha256"
}
},
target: %ReleaseKit.Target{os: "linux", arch: "x86_64", libc: "glibc"},
build: %ReleaseKit.BuildInfo{
release_kit_version: "0.2.0",
elixir_version: "1.20.0",
otp_version: "28",
git_revision: "abcdef0",
git_dirty?: false
},
assets: [
%ReleaseKit.AssetInfo{
tool: :volt,
profile: :my_app_web,
outdir: "priv/static/assets",
manifest: "priv/static/assets/manifest.json",
asset_url_prefix: "/assets",
tailwind?: true
}
],
runtime: %{command: ["bin/my_app", "start"]},
env: %{
clear: %{"MY_APP_WEB" => "true"},
secret: []
},
health_check: %{
path: "/",
port: 4000,
url: "http://127.0.0.1:4000/"
}
}
```
## Task options
```text
--out-dir PATH Directory for the tarball and manifest
--release NAME Mix release name; defaults to the app name
--version VERSION Artifact version; defaults to YYYYMMDD-gitsha
--port PORT HTTP port recorded in health-check metadata
--health-path PATH HTTP path recorded in health-check metadata
--skip-release Package an existing _build/.../rel release directory
--target-os OS Override the manifest target OS
--target-arch ARCH Override the manifest target architecture
--target-libc LIBC Override the manifest target libc
--target-suffix Include the target in artifact and manifest filenames
```
## Deployment tool contract
ReleaseKit intentionally stops after producing files. A deployment system should:
1. read the ETF manifest with `:erlang.binary_to_term/1`;
2. verify `artifact.checksum` against the tarball or `.sha256` sidecar;
3. unpack the tarball into the deployment-specific release directory;
4. materialize `env.clear` and resolve secret names from `env.secret`;
5. start `runtime.command` from the unpacked release root;
6. supervise the release with the host's process manager;
7. poll `health_check.url` when present before promoting traffic.
Manifest fields are additive. Consumers should ignore unknown keys whose
`format_version` they support.