Context for newbies: Linux refers to network adapters (wifi cards, ethernet cards, etc.) by so called “interfaces”. For the longest time, the interface names were assigned based on the type of device and the order in which the system discovered it. So, eth0
, eth1
, wlan0
, and wwan0
are all possible interface names. This, however, can be an issue: “the order in which the system discovered it” is not deterministic, which means hardware can switch interface names across reboots. This can be a real issue for things like servers that rely on interface names staying the same.
The solution to this issue is to assign custom names based on MAC address. The MAC address is hardcoded into the network adaptor, and will not change. (There are other ways to do this as well, such as setting udev rules).
Redhat, however, found this solution too simple and instead devised their own scheme for assigning network interface names. It fails at solving the problem it was created to solve while making it much harder to type and remember interface names.
To disable predictable interface naming and switch back to the old scheme, add net.ifnames=0
and biosdevname=0
to your boot paramets.
The template for this meme is called “stop doing math”.
Personally I’d do away with NetworkManager too and just configure the interfaces directly, but that might just be me being old and grumpy!
I think most distros go along because their upstream did. There are comparatively few ‘top level’ distributions, the main ones (by usage) being Redhat and Debian. Most everything else branches from those. Redhat’s got enough clout on the market that there’s a sort of pull towards complying with it just to not be left put.
I use Debian, but I think they’re crazy for swallowing everything Redhat pushes, they could easily stick to the cleaner options and have a better system for it. At least they let you opt out of systemd, so life is a little more tolerable.
Connman and iwd have nice graphical interfaces btw. I got that route after nm disbehaved and i couldn’t figure out why (same for systemd and s6/dinit after systemd-dnsd threw a fit).
I tried using connman to setup a wireguard connection once. It was not a good experience and ultimately led nowhere, due to missing feature support.
I’d do away with network-manager on a stationary system too, but I’m on a laptop, and unless there’s some trick I don’t know about, configuring wifi by hand for every new network I come across sounds like a bit of a pain. Especially for corporate/institution network that use fancy things like PEAP
That’s fair, it does make sense to use it on a laptop, but it really should be the sort of thing you add when needed rather than having it jammed in whether it’s useful or not.
Every time I need to do something even slightly different to a basic setup I find myself inventing new curses for those who screwed things up with these overblown, over complex, minimally functional abominations. Just give me vi and the basic configuration files and let me get on with it!
Gosh, tell me about it. I once tried writing a custom wifi signal strength indicator app that got its information from network-manager. Apparently the only way to programmatically communicate with network-manager is through dbus, which is just terrible. Scarce to no documentation, poor support for any language other than C/C++, and once you do get it working, it’s the most disgusting and overly verbose code you’ve ever seen, just to query the status of the wifi card. Could’ve exposed the API through raw unix sockets or something, but nope, they had to reinvent the wheel on that one as well.
I’ll take this opportunity to shill for Void Linux, it sounds like exactly what you’re describing. I’ve been a happy user for like 5 years now. I particularly like how nothing ever breaks, because there’s not much to break on such a minimal system.
…well, actually, a few things did break over the years, but most of those were due to user error haha.
In news that will shock no-one, dbus was, of course, initially created by a Redhat engineer. I get the idea of having a general purpose bus that everything can communicate on, but they somehow managed to even make that complex.
You make a compelling case for Void Linux. I use Debian or a RHEL derivative for work, primarily so there’s at least a chance to hand systems off to someone else to maintain, the less known distros seem to meet with blank looks.
I want to give NixOS a try sometime, as I like the idea of declaritively defining the system
That seems to be even more convoluted and complex.
“Just one more abstraction layer, I swear!”
I’m a NixOS noob bytheway, so please correct me if I’m wrong.
I think the difference is the level it’s happening at. As I said, I haven’t tried it yet, but it looks like a simple, unfussy and minimal distribution that you then add functionality to via configuration. Having that declarative configuration means it’s easy to test new setups, roll back changes and even easily create modified configuration for other servers.