• sp3ctr4l
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    fedilink
    44 months ago

    I believe the original idea was mainly focused around making software developer’s lives easier, by (as you say) making versions of linux os’s with known, static, unchanging, immutable, standard system configurations, which could not be altered by the user.

    Again, I think the main idea here was basically focused around making either new distros, or sort of locked down versions of distros such that they could be deployed in I guess an enterprise or some kind of group environment, so as to greatly streamline the process of software development.

    You say ‘can receive updates’, and I am not sure if you mean higher level app updates, or lower level system updates.

    When people attempted to evangelize this immutable concept to me a few years back, they would say the whole point is that lower level updates on which many other things depend do not happen, that you would have to do basically a completely new install of a new immutable version when one comes out.

    Kind of like ‘more stable than stable.’

    But… judging by other comments here, it would appear that this concept of immutable has uh… changed, lol.

    Also, for what its worth, the Steam Deck OS is basically just a standardized version of Arch, upon which sits the whole nifty Steam Deck UI and Controller mappings, with the system set to read only by default.

    You can change this and then do whatever the hell you want, if you so please.

    I think its just one line in the terminal after you have set up your user as a system admin.

    • @[email protected]
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      4 months ago

      Immutable distros were originally very focused on servers, and more recently distros for workstations has stated gaining more interest as the concept has matured.

      With the advent of cloud computing “immutable infrastructure” started becoming more and more popular. This concept started out as someone sitting down and grabbing a normal Linux distribution, and installing all the necessary bits for the server purpose they needed. Then baking that into an image. Now you could launch new copies of that machine whenever you felt like it, and they would behave exactly the same. If any of them started doing something wonky, you just destroyed it and launched a new copy. This was very useful for software developers and operations people who could now more easily reason about how things behaved. And be sure that the difference in behaviour wasn’t because someone forgot to enable a setting, install a tool, or skipped a step in the setup.

      On the software development side, you also simultaneously saw more and more developers make use of functional programming methods, and al’ng with those immutable data structures. Fundamentally, instead of adding an item to a list, you make a new list with all the old and the new items in it. You never change the data after it’s creation. Each “change” is a new copy, with the difference already built in.

      Then containers started becoming popular. Which allowed software developers to build a container image on their local computer, and then ship that image to a server, where the image behaved exactly as it did on their local machine. This also meant that the actual OS became less and less important, as everything needed by the container was already bundled in the container. The containers also worked as “immutable”, since everything you would install or change within the containers would be immediately lost when the container was destroyed, and recreating it would be exactly as when the image was built.

      The advent of containerised workloads, gave rise to a lot of different Linux distributions. Since the containers pretty much only needed the Linux kernel from the OS, it was pretty easy to make a container-centric operating system. And in turn lock down everything else, even completely omitting having a package manager. Stuff like CoreOS, Flatcar, Rancher OS, and many others were immutable linuxes that only catered to containers. I don’t know the exact mechanism for all of these, but at least the original CoreOS and Flatcar make the actual system read only, and on top of that had two man partitions, one of the partitions would be the current system, and the other would be where updates were downloaded. Once an update was downloaded and ready, you just rebooted the machine, and it would be running off the updated partition. Which also meant easy rollback if you got a broken update. You could just boot off the other unupdated partition.

      Containers were however rather ill suited for desktop applications, as there were no good way to provide a GUI. You could serve up a Web page, but native GUI apps were tricky.

      That’s where Flatpak, Snaps and all that came, which essentially brings the container mentality to normal desktop apps. This brought immutability to individual apps, as they brought their own dependencies. And therefore didn’t have to rely on the correct versions of dependencies being available on the machine.

      The logical next step was of course to add immutability to workstation distributions. This is where the popularity of Fedora Silverblue, NixOS, and many others really started taking shape.

      I believe Fedora Silverblue uses ostree to make the system “immutable”. Of course you can still make changes to your system, but the system is built to be completely aware of the state before and the state after, this is what’s called “atomic”. There’s no such thing as a partially installed package. There is only the state before installing something, and the state when the thing is fully installed. You can roll back to any of the previous states, to recover from a broken update or misconfiguration. This also makes trying out new things with no risk. Trying out a new desktop environment, and it broke your system? Just roll back. Accidentally uninstalled a critical package? Just roll back. What to try out a new display manager? Just apply the config and roll back if you don’t like it.

      SteamOS also does the thing with multiple partitions, and even allows you to turn off the immutability. Other distributions aren’t as lenient. There’s no way to turn off the immutability in NixOS or Fedora Silverblue.