nanos
distroless
nanos | distroless | |
---|---|---|
27 | 122 | |
2,468 | 17,749 | |
1.4% | 1.2% | |
9.2 | 9.4 | |
7 days ago | 7 days ago | |
C | Starlark | |
Apache License 2.0 | Apache License 2.0 |
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.
nanos
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Nanos – A Unikernel
I am a bit confused, there are three sites:
* https://nanos.org/
* https://nanovms.com/
* https://ops.city/
And I am not sure what "thing" I am using. Is there some disambiguation? I know is OPS is the orchestration CLI, but I am confused at the difference between Nanos and NanoVMs. What should I call the section of my README that deals with this tech? Currently gone with Nanos/OPS but I am confused.
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Kolibri OS: fits on a floppy disk, programmed using interrupts
I work with https://nanos.org && https://ops.city - we can run thousands of these on commodity hardware.
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Mirage – A programming framework for building type-safe, modular systems
Unik was just a build tool that utilized other projects like Rump, Mirage, IncludeOS, etc. It's now dead since Solo pivoted a very long time ago to service mesh/api gateways.
The GoRump port they use was from us and then we realized we needed to code our own from the ground up for many reasons so we wrote https://nanos.org (runs as a go unikernel in GCP).
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Building a unikernel that runs WebAssembly – part 1
A couple unikernel projects that caught my eye in the past may be of interest to you. I have no experience with them, so I can't speak to their quality though.
https://unikraft.org/
https://github.com/nanovms/nanos
- Build Your Own Docker with Linux Namespaces, Cgroups, and Chroot
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Running Postgres as a Unikernel
Definitely agree with the top part, however, I should note that, ops, the tool's, whole existence is to create disk images and upload them to any cloud, any hypervisor.
In particular, both https://ops.city && https://nanos.org are Go unikernels running on GCP and their deploys take just a few seconds to push out. AWS can be even faster cause we skip the s3 upload part. We also have lots of people using Azure which would be utilizing vhdx.
- Ask HN: Resources for Building a Webserver in C?
- A kernel designed to run only one application in a virtualized environment
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Applications available in unikernels?
I'm with that organization that works on https://nanos.org and https://ops.city . If you aren't a software engineer but still would like to use unikernels you're in luck - we also have a package repository at https://repo.ops.city/ (running as a go unikernel on GCP) that will allow you to run and deploy pre-made applications. If you don't see something that you'd like to us there's also a way of importing docker containers into unikernels via ops which works for most (but not all) applications.
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Ask HN: Software with biggest potential for positive impact in 5 years?
I think Unikernels like NanoVMs (https://nanos.org/) will become more important. They are more efficient and more secure than than full operating systems. Right now, I think there are no good monitoring solutions available (or at least I am not aware of any). You can't just ssh to your server, so if something goes wrong, it can be hard to debug. And they are certainly not integrated into bigger monitoring solutions like Dynatrace. But once the infrastructure is available, I would expect a large percentage of Linux servers to be replaced with unikernels.
distroless
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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
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Using Alpine can make Python Docker builds 50× 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
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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.
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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"]
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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
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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
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Why elixir over Golang
Deployment: https://github.com/GoogleContainerTools/distroless
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Reviews
Or use distroless image as it includes one, among others. https://github.com/GoogleContainerTools/distroless/blob/main/base/README.md
What are some alternatives?
unikraft - A next-generation cloud native kernel designed to unlock best-in-class performance, security primitives and efficiency savings.
iron-alpine - Hardened alpine linux baseimage for Docker.
rusty-hermit - Hermit for Rust. [Moved to: https://github.com/hermit-os/hermit-rs]
spring-boot-jib - This project is about Containerizing a Spring Boot Application With Jib
OPS - ops - build and run nanos unikernels
jib - 🏗 Build container images for your Java applications.
linuxkit - A toolkit for building secure, portable and lean operating systems for containers
podman - Podman: A tool for managing OCI containers and pods.
unik - The Unikernel & MicroVM Compilation and Deployment Platform
dockerfiles - Various Dockerfiles I use on the desktop and on servers.
dark - Darklang main repo, including language, backend, and infra
docker-alpine - Official Alpine Linux Docker image. Win at minimalism!