distroless
docker-alpine
distroless | docker-alpine | |
---|---|---|
124 | 7 | |
19,185 | 1,108 | |
1.4% | 1.5% | |
9.2 | 3.4 | |
5 days ago | 2 months ago | |
Starlark | Lua | |
Apache License 2.0 | MIT License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
distroless
- Distroless: Language focused Docker images, minus the operating system
-
Docker, Linux, Security. Kinda.
That's how we get distroless. Distroless base images follow the same pattern as alpine base docker images, as in, less functionality while still keeping enough functionality to be able to do the job and minimize the attack surface. Minimizing a base image like this means that the base images are very specialized so we have base images for golang, python, java and the like.
-
Chainguard Images now available on Docker Hub
lots of questions here regarding what this product is. I guess i can provide some information for the context, from a perspective of an outside contributor.
Chainguard Images is a set of hardened container images.
They were built by the original team that brought you Google's Distroless (https://github.com/GoogleContainerTools/distroless)
However, there were few problems with Distroless:
1. distroless were based on Debian - which in turn, limited to Debian's release cadence for fixing CVE.
2. distroless is using bazelbuild, which is not exactly easy to contrib, customize, etc...
3. distroless images are hard to extend.
Chainguard built a new "undistro" OS for container workload, named Wolfi, using their OSS projects like melange (for packaging pkgs) and apko (for building images).
The idea is (from my understanding) is that
1. You don't have to rely on upstream to cut a release. Chainguard will be doing that, with lots of automation & guardrails in placed. This allow them to fix vulnerabilties extremely fast.
- Language focused Docker images, minus the operating system
-
Using Alpine can make Python Docker builds 50Γ slower
> If you have one image based on Ubuntu in your stack, you may as well base them all on Ubuntu, because you only need to download (and store!) the common base image once
This is only true if your infrastructure is static. If your infrastructure is highly elastic, image size has an impact on your time to scale up.
Of course, there are better choices than Alpine to optimize image size. Distroless (https://github.com/GoogleContainerTools/distroless) is a good example.
- Smaller and Safer Clojure Containers: Minimizing the Software Bill of Materials
-
Long Term Ownership of an Event-Driven System
The same as our code dependencies, container updates can include security patches and bug fixes and improvements. However, they can also include breaking changes and it is crucial you test them thoroughly before putting them into production. Wherever possible, I recommend using the distroless base image which will drastically reduce both your image size, your risk vector, and therefore your maintenance version going forward.
-
Minimizing Nuxt 3 Docker Images
# Use a large Node.js base image to build the application and name it "build" FROM node:18-alpine as build WORKDIR /app # Copy the package.json and package-lock.json files into the working directory before copying the rest of the files # This will cache the dependencies and speed up subsequent builds if the dependencies don't change COPY package*.json /app # You might want to use yarn or pnpm instead RUN npm install COPY . /app RUN npm run build # Instead of using a node:18-alpine image, we are using a distroless image. These are provided by google: https://github.com/GoogleContainerTools/distroless FROM gcr.io/distroless/nodejs:18 as prod WORKDIR /app # Copy the built application from the "build" image into the "prod" image COPY --from=build /app/.output /app/.output # Since this image only contains node.js, we do not need to specify the node command and simply pass the path to the index.mjs file! CMD ["/app/.output/server/index.mjs"]
-
Build Your Own Docker with Linux Namespaces, Cgroups, and Chroot
Lots of examples without the entire OS as other comments mention, an example would be Googles distroless[0]
[0]: https://github.com/GoogleContainerTools/distroless
-
Reddit temporarily ban subreddit and user advertising rival self-hosted platform (Lemmy)
Docker doesn't do this all the time. Distroless Docker containers are relatively common. https://github.com/GoogleContainerTools/distroless
docker-alpine
-
Intermittent DNS issues in EKS
Are you perhaps hitting some flavor of this issue ? https://github.com/alpinelinux/docker-alpine/issues/165
- Docker buildx: How to build multiarch images with base image named like riscv64/alpine
-
Managing upstream security fixes in uselagoon docker images
The Dockerfile used to build the Alpine image is also available - this just unzips the relevant Alpine tarball into an empty "scratch" image and sets the shell
-
Should docker be treated similar to virtual environments? How are you able to edit source code when editing source code? How do I containerize as I please?
The source image is build by an individual or a company. Some might have it open source. IE. alpine image are maintained here https://github.com/alpinelinux/docker-alpine
-
AWS Img. scan found a vulnerability in my (golang) container - how can I find which package is using the lib with vulnerability?
package: musl:1.2.2-r3vulnerability: CVE-2020-28928Wasn't able to find it with go mod graph nor with go mod why, checked Google and it seems like on of the layers of the docker has this valnerability:https://github.com/alpinelinux/docker-alpine/issues/123
-
How did they build the image for Alpine?
Here is the official Alpine Linux Docker image repo. Basically it downloads a alpine-minirootfs tarball from https://cz.alpinelinux.org/alpine/.
-
Setting up an internet speed monitor using a Raspberry Pi and Docker
See here: https://github.com/alpinelinux/docker-alpine/issues/135
What are some alternatives?
iron-alpine - Hardened alpine linux baseimage for Docker.
pi-speed-monitor - Project for tracking internet download and upload speeds
spring-boot-jib - This project is about Containerizing a Spring Boot Application With Jib
docker-node - Official Docker Image for Node.js :whale: :turtle: :rocket:
jib - π Build container images for your Java applications.
lagoon-images - This repository builds the images used in Lagoon and local development environments
dockerfiles - Various Dockerfiles I use on the desktop and on servers.
podman - Podman: A tool for managing OCI containers and pods.
whalebrew - Homebrew, but with Docker images
fpm - Effing package management! Build packages for multiple platforms (deb, rpm, etc) with great ease and sanity.
example-bazel-monorepo - πΏπ Example Bazel-ified monorepo, supporting Golang, Java, Python, Scala, and Typescript
Sandboxie - Sandboxie Plus & Classic