cargo-chef
was initially developed for the deployment chapter of Zero to Production In Rust, a hands-on introduction to backend development using the Rust programming language.
You can install cargo-chef
from crates.io with
cargo install cargo-chef --locked
⚠️ cargo-chef is not meant to be run locally
Its primary use-case is to speed up container builds by running BEFORE the actual source code is copied over. Don't run it on existing codebases to avoid having files being overwritten.
cargo-chef
exposes two commands: prepare
and cook
:
cargo chef --help
cargo-chef
USAGE:
cargo chef <SUBCOMMAND>
SUBCOMMANDS:
cook Re-hydrate the minimum project skeleton identified by `cargo chef prepare` and
build it to cache dependencies
prepare Analyze the current project to determine the minimum subset of files (Cargo.lock
and Cargo.toml manifests) required to build it and cache dependencies
prepare
examines your project and builds a recipe that captures the set of information required to build your dependencies.
cargo chef prepare --recipe-path recipe.json
Nothing too mysterious going on here, you can examine the recipe.json
file: it contains the skeleton of your project (e.g. all the Cargo.toml
files with their relative path, the Cargo.lock
file is available) plus a few additional pieces of information.
In particular it makes sure that all libraries and binaries are explicitly declared in their respective Cargo.toml
files even if they can be found at the canonical default location (src/main.rs
for a binary, src/lib.rs
for a library).
The recipe.json
is the equivalent of the Python requirements.txt
file - it is the only input required for cargo chef cook
, the command that will build out our dependencies:
cargo chef cook --recipe-path recipe.json
If you want to build in --release
mode:
cargo chef cook --release --recipe-path recipe.json
You can also choose to override which Rust toolchain should be used. E.g., to force the nightly
toolchain:
cargo +nightly chef cook --recipe-path recipe.json
cargo-chef
is designed to be leveraged in Dockerfiles:
FROM lukemathwalker/cargo-chef:latest-rust-1 AS chef
WORKDIR /app
FROM chef AS planner
COPY . .
RUN cargo chef prepare --recipe-path recipe.json
FROM chef AS builder
COPY --from=planner /app/recipe.json recipe.json
# Build dependencies - this is the caching Docker layer!
RUN cargo chef cook --release --recipe-path recipe.json
# Build application
COPY . .
RUN cargo build --release --bin app
# We do not need the Rust toolchain to run the binary!
FROM debian:bookworm-slim AS runtime
WORKDIR /app
COPY --from=builder /app/target/release/app /usr/local/bin
ENTRYPOINT ["/usr/local/bin/app"]
We are using three stages: the first computes the recipe file, the second caches our dependencies and builds the binary, the third is our runtime environment.
As long as your dependencies do not change the recipe.json
file will stay the same, therefore the outcome of cargo chef cook --release --recipe-path recipe.json
will be cached, massively speeding up your builds (up to 5x measured on some commercial projects).
We offer lukemathwalker/cargo-chef
as a pre-built Docker image equipped with both Rust and cargo-chef
.
The tagging scheme is <cargo-chef version>-rust-<rust version>
.
For example, 0.1.22-rust-1.56.0
.
You can choose to get the latest version of either cargo-chef
or rust
by using:
latest-rust-1.56.0
(use latestcargo-chef
with specific Rust version);0.1.22-rust-latest
(use latest Rust with specificcargo-chef
version). You can find all the available tags on Dockerhub.
⚠️ You must use the same Rust version in all stages
If you use a different Rust version in one of the stages caching will not work as expected.
If you do not want to use the lukemathwalker/cargo-chef
image, you can simply install the CLI within the Dockerfile:
FROM rust:1 AS chef
# We only pay the installation cost once,
# it will be cached from the second build onwards
RUN cargo install cargo-chef
WORKDIR app
FROM chef AS planner
COPY . .
RUN cargo chef prepare --recipe-path recipe.json
FROM chef AS builder
COPY --from=planner /app/recipe.json recipe.json
# Build dependencies - this is the caching Docker layer!
RUN cargo chef cook --release --recipe-path recipe.json
# Build application
COPY . .
RUN cargo build --release --bin app
# We do not need the Rust toolchain to run the binary!
FROM debian:bookworm-slim AS runtime
WORKDIR app
COPY --from=builder /app/target/release/app /usr/local/bin
ENTRYPOINT ["/usr/local/bin/app"]
If you want to run your application using the alpine
distribution you need to create a fully static binary.
The recommended approach is to build for the x86_64-unknown-linux-musl
target using muslrust
.
cargo-chef
works for x86_64-unknown-linux-musl
, but we are cross-compiling - the target
toolchain must be explicitly specified.
A sample Dockerfile looks like this:
# Using the `rust-musl-builder` as base image, instead of
# the official Rust toolchain
FROM clux/muslrust:stable AS chef
USER root
RUN cargo install cargo-chef
WORKDIR /app
FROM chef AS planner
COPY . .
RUN cargo chef prepare --recipe-path recipe.json
FROM chef AS builder
COPY --from=planner /app/recipe.json recipe.json
# Notice that we are specifying the --target flag!
RUN cargo chef cook --release --target x86_64-unknown-linux-musl --recipe-path recipe.json
COPY . .
RUN cargo build --release --target x86_64-unknown-linux-musl --bin app
FROM alpine AS runtime
RUN addgroup -S myuser && adduser -S myuser -G myuser
COPY --from=builder /app/target/x86_64-unknown-linux-musl/release/app /usr/local/bin/
USER myuser
CMD ["/usr/local/bin/app"]
cargo-chef
has been tested on a few OpenSource projects and some of commercial projects, but our testing has definitely not exhausted the range of possibilities when it comes to cargo build
customisations and we are sure that there are a few rough edges that will have to be smoothed out - please file issues on GitHub.
A common alternative is to load a minimal main.rs
into a container with Cargo.toml
and Cargo.lock
to build a Docker layer that consists of only your dependencies (more info here). This is fragile compared to cargo-chef
which will instead:
- automatically pick up all crates in a workspace (and new ones as they are added)
- keep working when files or crates are moved around, which would instead require manual edits to the
Dockerfile
using the "manual" approach - generate fewer intermediate Docker layers (for workspaces)
cargo cook
andcargo build
must be executed from the same working directory. If you examine the*.d
files undertarget/debug/deps
for one of your projects usingcat
you will notice that they contain absolute paths referring to the projecttarget
directory. If moved around,cargo
will not leverage them as cached dependencies;cargo build
will build local dependencies (outside of the current project) from scratch, even if they are unchanged, due to the reliance of its fingerprinting logic on timestamps (see this long issue oncargo
's repository);
Licensed under either of Apache License, Version 2.0 or MIT license at your option. Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in this crate by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.