"Distroless" images contain only your application and its runtime dependencies. They do not contain package managers, shells or any other programs you would expect to find in a standard Linux distribution.
Restricting what's in your runtime container to precisely what's necessary for your app is a best practice employed by Google and other tech giants that have used containers in production for many years. It improves the signal to noise of scanners (e.g. CVE) and reduces the burden of establishing provenance to just what you need.
These images are built using the bazel tool, but they can also be used through other Docker image build tooling.
All distroless images are signed by cosign. We recommend verifying any distroless image you use before building your image.
Once you've installed cosign, you can use the distroless public key to verify any distroless image with:
cat cosign.pub -----BEGIN PUBLIC KEY----- MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEWZzVzkb8A+DbgDpaJId/bOmV8n7Q OqxYbK0Iro6GzSmOzxkn+N2AKawLyXi84WSwJQBK//psATakCgAQKkNTAA== -----END PUBLIC KEY----- cosign verify -key cosign.pub $IMAGE_NAME
Note that distroless images by default do not contain a shell.
That means the Dockerfile
ENTRYPOINT command, when defined, must be specified in
vector form, to avoid the container runtime prefixing with a shell.
But this does not work:
For the same reasons, if the entrypoint is left to the default empty vector, the CMD command should be specified in
vector form (see examples below).
Docker multi-stage builds make using distroless images easy. Follow these steps to get started:
Pick the right base image for your application stack.
We publish the following distroless base images on
The following images are also published on
gcr.io, but are considered experimental and not recommended for production usage:
Write a multi-stage docker file. Note: This requires Docker 17.05 or higher.
The basic idea is that you'll have one stage to build your application artifacts, and insert them into your runtime distroless image. If you'd like to learn more, please see the documentation on multi-stage builds.
Here's a quick example for go:
# Start by building the application. FROM golang:1.13-buster as build WORKDIR /go/src/app ADD . /go/src/app RUN go get -d -v ./... RUN go build -o /go/bin/app # Now copy it into our base image. FROM gcr.io/distroless/base-debian10 COPY --from=build /go/bin/app / CMD ["/app"]
You can find other examples here:
To run any example, go to the directory for the language and run
docker build -t myapp . docker run -t myapp
To run the Node.js Express app node-express and expose the container's ports:
npm install #Install express and its transitive dependencies docker build -t myexpressapp . # Normal build command docker run -p 3000:3000 -t myexpressapp
This should expose the Express application to your localhost:3000
For full documentation on how to use bazel to generate Docker images, see the bazelbuild/rules_docker repository.
For documentation and examples on how to use the bazel package manager rules, see ./package_manager
Examples can be found in this repository in the examples directory.
We have some examples on how to run some common application stacks in the /examples directory. See here for:
See here for examples on how to complete some common tasks in your image:
See here for more information on how these images are built and released.
For full documentation on how to use Jib to generate Docker images from Maven and Gradle, see the GoogleContainerTools/jib repository.
Originally these images were based on Debian 9 (stretch). We now also provide images based on Debian 10 (buster), and tag images with
-debian10 suffixes. We recommend referencing the appropriate distribution explicitly, since otherwise your build will break when the next Debian version is released.
Distroless tracks Debian 9 (stretch, oldstable currently) and Debian 10. A commit is needed in this repository to update the snapshot version when security fixes are release. Check https://www.debian.org/security/ for any patches to address security issues and update. Check issues and PRs for the patch and update your builds.
Distroless images are minimal and lack shell access. The
:debug image set for each language provides a busybox shell to enter.
Dockerfile to change the final image to
FROM gcr.io/distroless/python2.7:debug COPY . /app WORKDIR /app CMD ["hello.py", "/etc"]
then build and launch with an shell entrypoint:
$ docker build -t my_debug_image .
$ docker run --entrypoint=sh -ti my_debug_image /app # ls BUILD Dockerfile hello.py
Note: If the image you are using already has a tag, for example
gcr.io/distroless/java-debian10:11, use the tag
<existing tag>-debuginstead, for example
Note: ldd is not installed in the base image as it's a shell script, you can copy it in or download it.