4.6 KiB
rust-musl-builder: Docker container for easily building static Rust binaries
Do you want to compile a completely static Rust binary with no external dependencies? If so, try:
alias rust-musl-builder='docker run --rm -it -v "$(pwd)":/home/rust/src ekidd/rust-musl-builder'
rust-musl-builder cargo build --release
This command assumes that $(pwd) is readable and writable by uid 1000,
gid 1000. It will output binaries in
target/x86_64-unknown-linux-musl/release. At the moment, it doesn't
attempt to cache libraries between builds, so this is best reserved for
making final release builds.
Deploying your Rust application
With a bit of luck, you should be able to just copy your application binary
from target/x86_64-unknown-linux-musl/release, and install it directly on
any reasonably modern x86_64 Linux machine. In particular, you should be
able to copy your Rust application into an
Alpine Linux container.
How it works
rust-musl-builder uses musl-libc, musl-gcc, and the new
rustup target support. It includes static versions of several
libraries:
- The standard
musl-libclibraries. - OpenSSL, which is needed by many Rust applications.
Making OpenSSL work
If your application uses OpenSSL, you will also need to take a few extra steps to make sure that it can find OpenSSL's list of trusted certificates, which is stored in different locations on different Linux distributions. You can do this using openssl-probe as follows:
extern crate openssl_probe;
fn main() {
openssl_probe::init_ssl_cert_env_vars();
//... your code
}
Adding more C libraries
If you're using Docker crates which require specific C libraries to be
installed, you can create a Dockerfile based on this one, and use
musl-gcc to compile the libraries you need. For example:
FROM ekidd/rust-musl-builder
RUN VERS=1.2.8 && \
cd /home/rust/libs && \
curl -LO http://zlib.net/zlib-$VERS.tar.gz && \
tar xzf zlib-$VERS.tar.gz && cd zlib-$VERS && \
CC=musl-gcc ./configure --static --prefix=/usr/local/musl && \
make && sudo make install && \
cd .. && rm -rf zlib-$VERS.tar.gz zlib-$VERS
This usually involves a bit of experimentation for each new library, but it seems to work well for most simple, standalone libraries.
If you need an especially common library, please feel free to submit a pull
request adding it to the main Dockerfile! We'd like to support popular
Rust crates out of the box.
Making static releases with Travis CI and GitHub
These instructions are inspired by rust-cross.
First, read the Travis CI: GitHub Releases Uploading page, and
run travis setup releases as instructed. Then add the following lines to
your existing .travis.yml file, replacing myapp with the name of your
package:
language: rust
sudo: required
os:
- linux
- osx
rust:
- stable
services:
- docker
before_deploy: "./build-release myapp ${TRAVIS_TAG}-${TRAVIS_OS_NAME}"
deploy:
provider: releases
api_key:
secure: "..."
file_glob: true
file: "myapp-${TRAVIS_TAG}-${TRAVIS_OS_NAME}.*"
skip_cleanup: true
on:
rust: stable
tags: true
Next, copy build-release into your project
and run chmod +x build-release.
When you push a new tag to your project, build-release will automatically
build new Linux binaries using rust-musl-builder, and new Mac binaries
with Cargo, and it will upload both to the GitHub releases page for your
repository.
For a working example, see faradayio/conductor.
Development notes
After modifying the image, run ./test-image to make sure that everything
works.
MAINTAINERS ONLY: After making changes, they must be pushed to the stable
branch to build the official stable and latest images on Docker Hub.
Tagged versions of Rust (such as 1.11) must be given their own branches
and manually configured on Docker Hub.
git push origin master:stable
git push origin master:rust-$(rustc --version | awk '{ print $2 }')
License
Either the Apache 2.0 license, or the MIT license.