Why the Linux ecosystem cannot be considered “standardized”, unlike Windows and Mac?
Because it’s not, in my opinion.
Linux has standards, but virtually none of them are all-encompassing across all the installs. For example: Which distribution? Which desktop manager? Which package manager? Which kernel version?
A Windows install at one location looks and feels — and has the same code and dependencies and is compatible with the same installs and management functions — as any other location, barring specific policy considerations. Same for macOS. Not for Linux.
One can build a Linux standard for their environment, yes; but in my opinion considering Linux itself as “standardized” just isn’t there.
So, at one point there was 14 competing standards. That was too many, so a bunch of nerds got together and made one all encompassing standard. One that had all the best parts of each other standard.
Now we have 15 competing standards.
Thank you. I was too lazy to find it.
Outsourcing your work… Genius!
That’s just a straight-shooter that’s got management written all over him!
You can remember it’s 927 because 1927 is the year the chinese civil war started
Because it’s too flexible, and assumes everyone has source code to glue it all together. There’s endless choices you can make to have a functional system.
- Before you even compile the kernel, you have to provide a C compiler. That can be GCC or LLVM/clang.
- Before you even build the kernel, you have to pick a CPU architecture and subsystems to enable.
- Before you can even boot the kernel in any useful manner, you need to select a partition table format, one or more filesystems to put on the drive, all with varying amounts of features, but are at least mostly all POSIX compliant. Or a ramdisk.
- Even just starting at the very core of userspace, the C standard library, you have glibc, musl, uClibc. That can only be dealt with at compile time.
- Then on top of that, for the core utilities, you have the GNU coreutils, uutils, busybox, toybox, the BSD coreutils.
- Great, we can start booting now. Wait, now there’s the choice of init system: systemd, sysvinit, OpenRC, runit, upstart, dinit, and a lot more. Good, we’re booted.
- Now we need a login prompt, which can be agetty, greetd, mingetty, GDM, SDDM, LightDM. You’ve entered your password: that may or may not trigger a PAM session, which can verify your password from just about anywhere (locally, Kerberos, LDAP), start a D-Bus session, register a session with logind, that can trigger decryption and mounting of a drive, which itself could be local or remote or removable.
- We’re logged in! Now we need a shell. There’s bash, dash, zsh, ash with their own small differences, and that’s just the POSIX compatible ones. There’s also fish, nu, ksh, csh and more.
- We have a prompt! Now we should probably install some software. Is it gonna be apt, yum/dnf, zipper, pacman, apk, xbps, emerge, port? What’s the package names? Depends on the distro!
- We have a way to install software, now we need network to get it. How’s the network configured? ifupdown, systemd-networkd, NetworkManager, Connman, dhclient, dhcpcd, netplan, netctl. If you have WiFi, there’s iwd and wpa_supplicant.
- Lets get a graphical session. Xorg or Wayland based? ALSA, PulseAudio or PipeWire? Window manager or desktop environment?
- You want to mount a drive. systemd can do that, udev can do that, fstab can do that.
That’s just the basics to make it to a desktop. Now there’s some stuff to help that a lot, like Flatpak which aims to provide a known base system for apps to target. The portals help get access to resources with varying backends. PipeWire supports pretty much every audio protocol in existence so that’s alright. Flatpak is a pretty good standard/ABI to target. For server software we have similar things in the form of Docker and Podman. But all of these solutions are basically “lets just ship the distro with the software”.
The only really standard interface is the Linux kernel’s public interface. If you’re writing a driver, you better be ready to maintain it because stuff moves around a lot internally, the kernel doesn’t care not to break out of tree modules. Go makes use of the stable kernel API and skips the libc entirely, so Go binaries are usually fairly portable as long as the kernel is somewhat sane.
The only real standard you can target is POSIX, which is fine if you’re writing CLI or server software, but if you want to write GUIs, you just have to make choices. Most Linux stuff runs fine on FreeBSD too, they have Wayland, PipeWire and Mesa there too, so technically at this point you’re not even targetting Linux per-se, more like generally POSIX-y systems with software that’s just very commonly used and target that.
On Windows and Mac, you have what Microsoft/Apple provides and if you want anything else you bring it yourself. However, technically you can install PulseAudio on those, install an X server (Xming, Xquartz), run most DEs in there, run browsers and quite a bit of Linux-y stuff, natively on Windows and Mac in their respective binary formats.
The thing with FOSS is there isn’t a single standard it targets, we just port everything to everything as needed. The closest thing we have to a standard is targeting specific versions of specific distros, usually Debian/Ubuntu or RHEL and derivatives because that’s what the enterprise customers that pays for the development tends to run. That’s why Davinci Resolve is a pain to run on anything other than Rocky Linux. Thankfully, it’s also just software and dependencies, so if you just give it everything it uses from Rocky, it’ll work just fine on other distros. And that’s why source code is important: you can make everything work with everything with enough time and patience. That’s what powers the ecosystem.
There isn’t any one single entity calling the shots like Microsoft or Apple.
Because freedom.
Windows is one OS, with limited ability to customize. Mac is one OS, with limited ability to customize.
Linux, as a core concept, is hundreds of OSes that anyone can customize any of, at will, to meet their requirements. Different versions of Linux diverge because different people/projects want different things.
There’s only one windows desktop enviroment, window manager, etc. Same for Mac OS.
With Linux damn near everything can change depending on your distro of choice. There’s no one “linux” that you install. Linux is just the kernal and everything is piled on top of to make the entire OS.
You could consider Ubuntu, Red Hat Linux and Oracle Linux to be about as standardized as Windows or Mac. These distributions are usually what larger enterprises use for servers and sometimes for software development, IT operations etc. These are about as standardized things get in the linux world.
Now when it comes to using Linux as daily driver there are so many options out there and none of the distributions have really yet hit the mainstream. For my understanding it’s been long been battle between Ubuntu and Fedora with their derivatives but with SteamOS using Arch Linux would not be surprised if some sort of Arch based distribution with maximum Proton combatibility would gain popularity.
Arch itself seems too minimal to be considered as “standardized” operating system.
battle between Ubuntu and Fedora with their derivative
Agreed in general. Except that Ubuntu is itself a derivative, of Debian. Technically it’s Debian that’s the peer of Fedora.
Mentioned Ubuntu since its backed by Canocial and fairly popular desktop distro. Mentioned Fedora instead of RHEL because RHEL is mostly used for servers and maybe in schools or high security environments.
Same reason “clothes” cannot be considered standardized. Someone will think standard is jeans and T-shirt, for others it’s a suit, and for others a dress, some will change clothes regularly, and others will only wear Nike shoes. If you try to define what everyone should wear you’ll get people pissed off, and they will still wear what they want.
I guess it depends on how “standard” is defined. Ie, its pretty standard for shirts to have 2 arm holes, one head/neck hole, and one body hole and therefore they work for the vast majority of users.
Yes, but that’s like saying “it’s pretty standard for DE to have one minimize button, one maximize button and a close button”. I chose clothes because they can’t be standardized for the same reason as Linux, i.e. they’re modular and people have different tastes on each of the modules, so the full thing can never be standardized even if some of the modules are quite similar among themselves.
The attraction of Linux is precisely that it isn’t one of the two ‘standards’. Your working environment doesn’t get determined by some product manager in a far-away office, who has a set of target users in mind, which he’s given fictional names, biographies and mugshots.
It is standardized. Just tge circles need to be drawn differently. Microsoft DOS was not the only DOS, and they had compatibility issues.
Red Hat Enterprise Linux is one standard. Mac OS Unix. Ubuntu Linux. Microsoft Windows OS. OS/2 Warp OS.
All different, all standardized, often not compatible or interchangeable.
To me I’d consider Linux not standardized since anything outside the kernel can be swapped out. Want a GUI? There are competing standards, X vs Wayland, with multiple implementations with different feature sets. Want audio? There’s ALSA or OSS, then on top of those there is pulse audio, or jack, or pipewire. Multiple desktop environments, which don’t just change the look and feel but also how apps need to be written. Heck there are even multiple C/POSIX libraries that can be used.
It certainly can be a strength for flexibility, and distros attempt to create a stable and reliable setup of one set of systems.
Because linux doesn’t have an “ecosystem”. You have to either make your existing ecosystem work with linux or center your ecosystem around apps and things that work with linux. I do that and I’d say it’s more standardized than both the windows and the mac ones…
Bcs nobody is monetising it that hard from the ecosystem-monopoly pov.
And “standardised” prob isn’t the best word to use imho.
Linux offers much better backwards & current compatibility that the other two/three just do not. Saying ‘it’s not supported’ does “standardise” things much quicker.
Also there are diffident distros by different people or companies - a bit like saying how Windows & MacOS arent standardised and look/operate differently.
But you can make your own Linux distro or modify it’s kernel or window/packet/etc manager all you wish.Also the point about how Windows and Android keeps changing stupid shit for no reason (un-standardising the UI experience though time) but an average user like my father prob didn’t even know when his Debian got upgraded (even between distros he didn’t notice that much, now I have him on a rolling distro & it’s even more seamless tho others basically do the same).
Oh, and if by ‘standardised’ you mean the look & feel … well thats for nerds and power users, people like to optimise stuff for themselves. A bit like car seats where one fixed seat won’t fit all.
I don’t understand the question. There are definitely standards like POSIX that exist.
There was a the POSIX standard…