Linux Archive

With its latest reales qemu added the Venus patches so that virtio-gpu now support venus encapsulation for vulkan. This is one more piece to the puzzle towards full Vulkan support. An outdated blog post on clollabora described in 2021 how to enable 3D acceleration of Vulkan applications in QEMU through the Venus experimental Vulkan driver for VirtIO-GPU with a local development environment. Following up on the outdated write up, this is how its done today. ↫ Pepper Gray A major milestone, and for the adventurous, you can get it working today. Give it a few more months, and many of the versions required will be part of your ditribution’s package repositories, making the process a bit easier. On a related note, Linux kernel developers are considering removing 32-bit x86 KVM host support for all architectures that support it – PowerPC, MIPS, RISC-V, and x86-64 – because nobody is using this functionality. This support was dropped from 32bit ARM a few years ago, and the remaining architectures mentioned above have orders of magnitude fewer users still. If nobody is using this functionality, it really makes no sense to keep it around, and as such, the calls to remove it. In other words, if your custom workflow of opening your garage door through your fridge light’s flicker frequency and the alignment of the planets and custom scripts on a Raspberry Pi 2 requires this support, let the kernel developers know, or forever hold your peace.

Ah, the Common Hardware Reference Platform, IBM’s and Apple’s ill-fated attempt at taking on the PC market with a reference PowerPC platform anybody could build and expand upon while remaining (mostly) compatible with one another. Sadly, like so many other things Apple was trying to do before Steve Jobs returned, it never took off, and even Apple itself never implemented CHRP in any meaningful way. Only a few random IBM and Motorola computers ever fully implemented it, and Apple didn’t get any further than basic CHRP support in Mac OS 8, and some PowerPC Macs were based on CHRP, without actually being compatible with it. We’re roughly three decades down the line now, and pretty much everyone except weird nerds like us have forgotten CHRP was ever even a thing, but Linux has continued to support CHRP all this time. This support, too, though, is coming to an end, as Michael Ellerman has informed the Linux kernel community that they’re thinking of getting rid of it. Only a very small number of machines are supported by CHRP in Linux: the IBM B50, bplan/Genesi’s Pegasos/Pegasos2 boards, the Total Impact briQ, and maybe some Motorola machines, and that’s it. Ellerman notes that these machines seem to have zero active users, and anyone wanting to bring CHRP support back can always go back in the git history. CHRP is one of the many, many footnotes in computing history, and with so few machines out there that supported it, and so few machines Linux’ CHRP support could even be used for, it makes perfect sense to remove this from the kernel, while obviously keeping it in git’s history in case anyone wants to work with it on their hardware in the future. Still, it’s always fun to see references to such old, obscure hardware and platforms in 2024, even if it’s technically sad news.

Torvalds said that the current state of AI technology is 90 percent marketing and 10 percent factual reality. The developer, who won Finland’s Millennium Technology Prize for the creation of the Linux kernel, was interviewed during the Open Source Summit held in Vienna, where he had the chance to talk about both the open-source world and the latest technology trends. ↫ Alfonso Maruccia at Techspot Well, he’s not wrong. “AI” definitely feels like a bubble at the moment, and while there’s probably eventually going to be useful implementations people might actually want to actively use to produce quality content, most “AI” features today produce a stream of obviously fake diarrhea full of malformed hands, lies, and misinformation. Maybe we’ll eventually work out these serious kinks, but for now, it’s mostly just a gimmick providing us with an endless source of memes. Which is fun, but not exactly what we’re being sold, and not something worth destroying the planet for even faster. Meanwhile, Google is going utterly bananas with its use of “AI” inside the company, with Sundar Pichai claiming 25% of code inside Google is now “AI”-generated. ↫ Sundar Pichai We’re also using AI internally to improve our coding processes, which is boosting productivity and efficiency. Today, more than a quarter of all new code at Google is generated by AI, then reviewed and accepted by engineers. This helps our engineers do more and move faster. So much here feels wrong. First, who wants to bet those engineers care a whole lot less about the generated code than they do about code they write themselves? Second, who wants to bet that generated code is entirely undocumented? Third, who wants to bet what the additional costs will be a few years from now when the next batch of engineers tries to make sense of that undocumented generated code? Sure, Google might save a bit on engineers’ salaries now, but how much extra will they have to spend to unspaghettify that diarrhea code in the future? It will be very interesting to keep an eye on this, and check back in, say, five years, and hear from the Google engineers of the future how much of their time is spent fixing undocumented “AI”-generated code. I can’t wait.

Can you run Linux on the Intel 4004, the first commercially produced microprocessor, released to the world in 1971? Well, Dmitry Grinberg, the genius engineer who got Linux to run on all kinds of incredibly underpowered hardware, sought to answer this very important question. In short, yes, you can run Linux on the 4004, but much as with other extremely limited and barebones chips, you have to get… Creative. Very creative. Of course, Linux cannot and will not boot on a 4004 directly. There is no C compiler targeting the 4004, nor could one be created due to the limitations of the architecture. The amount of ROM and RAM that is addressable is also simply too low. So, same as before, I would have to resort to emulation. My initial goal was to fit into 4KB of code, as that is what an unmodified unassisted 4004 can address. 4KB of code is not much at all to emulate a complete system. After studying the options, it became clear that MIPS R3000 would be the winner here. Every other architecture I considered would be harder to emulate in some way. Some architectures had arbitrarily-shifted operands all the time (ARM), some have shitty addressing modes necessitating that they would be slow (RISCV), some would need more than 4KB to even decode instructions (x86), and some were just too complex to emulate in so little space (PPC). … so … MIPS again… OK! ↫ Dmitry Grinberg This is just one very small aspect of this massive undertaking, and the article and videos accompanying his success are incredibly detailed and definitely not for the faint of heart. The amount of skill, knowledge, creativity, and persistence on display here is stunning, and many of us can only dream of being able to do stuff like this. I absolutely love it. Of course, the Linux kernel had to be slimmed down considerably, as a lot of stuff currently in the kernel are of absolutely no use on such an old system. Boot time is measured in days, still, but it helped a lot. Grinberg also turned the whole setup into what is effectively an art piece you can hang on the wall, where you can have it run and, well, do things – not much, of course, but he did include a small program that draws mandelbrot set on the VFD and serial port, which is a neat trick. He plans on offering the whole thing as a kit, but a lot of it depends on getting enough of the old chips to offer a complete, ready-to-assemble kit in the first place.

A. Wilcox, the original creator of Adélie Linux, has ported systemd to musl, the glibc alternative. I have completed an initial new port of systemd to musl. This patch set does not share much in common with the existing OpenEmbedded patchset. I wanted to make a fully updated patch series targeting more current releases of systemd and musl, taking advantage of the latest features and updates in both. I also took a focus on writing patches that could be sent for consideration of inclusion upstream. The final result is a system that appears to be surprisingly reliable considering the newness of the port, and very fast to boot. ↫ A. Wilcox I absolutely adore Adélie Linux as a project, even if I don’t run it myself, since they have a very practical approach to software. Systemd is popular for a reason – it’s fast and capable – and it only makes sense for Adélie to offer it as a potential option, even when using musl. Choice is a core value of the open source and Linux world, and that includes the choice to use systemd, even for a distribution that has traditionally used something else. The port is already quite capable, and Wilcox managed to replace OpenRC on her system with systemd in-place, and it booted up just fine, and it also happened to boot in about a third of the time OpenRC did. It’s not ready for prime time yet, though, and most services are not yet packaged for systemd, an effort for which Adélie Linux intends to rely on upstream and cooperation with systemd experts from Gentoo and Fedora. They’re also working together with systemd, musl, and others to make any switching a user might want to do as easy as possible. A beta or anything like that is still a ways off, but it’s an impressive amount of progress already.

Most application on GNU/Linux by convention delegate to xdg-open when they need to open a file or a URL. This ensures consistent behavior between applications and desktop environments: URLs are always opened in our preferred browser, images are always opened in the same preferred viewer. However, there are situations when this consistent behavior is not desired: for example, if we need to override default browser just for one application and only temporarily. This is where xdg-override helps: it replaces xdg-open with itself to alter the behavior without changing system settings. ↫ xdg-override GitHub page I love this project ever since I came across it a few days ago. Not because I need it – I really don’t – but because of the story behind its creation. The author of the tool, Dmytro Kostiuchenko, wanted Slack, which he only uses for work, to only open his work browser – which is a different browser from his default browser. For example, imagine you normally use Firefox for everything, but for all your work-related things, you use Chrome. So, when you open a link sent to you in Slack by a colleague, you want that specific link to open in Chrome. Well, this is not easily achieved in Linux. Applications on Linux tend to use freedesktop.org’s xdg-open for this, which looks at the file mimeapps.list to learn which application opens which file type or URL. To solve Kostiuchenko’s issue, changing the variable $XDG_CONFIG_HOME just for Slack to point xdg-open to a different configuration file doesn’t work, because the setting will be inherited by everything else spwaned from Slack itself. Changing mimeapps.list doesn’t work either, of course, since that would affect all other applications, too. So, what’s the actual solution? We’d like also not to change xdg-open implementation globally in our system: ideally, the change should only affect Slack, not all other apps. But foremost, diverging from upstream is very unpractical. However, in the spirit of this solution, we can introduce a proxy implementation of xdg-open, which we’ll “inject” into Slack by adding it to PATH. ↫ Dmytro Kostiuchenko xdg-override takes this idea and runs with it: It is based on the idea described above, but the script won’t generate proxy implementation. Instead, xdg-override will copy itself to /tmp/xdg-override-$USER/xdg-open and will set a few $XDG_OVERRIDE_* variables and the $PATH. When xdg-override is invoked from this new location as xdg-open, it’ll operate in a different mode, parsing $XDG_OVERRIDE_MATCH and dispatching the call appropriately. I tested this script briefly, but automated tests are missing, so expect some rough edges and bugs. ↫ Dmytro Kostiuchenko I don’t fully understand how it works, but I get the overall gist of what it’s doing. I think it’s quite clever, and solves a very specific issue in a non-destructive way. While it’s not something most people will ever need, it feels like something that if you do need it, it will quickly become a default part of your toolbox or workflow.