506
One Of The Rust Linux Kernel Maintainers Steps Down - Cites "Nontechnical Nonsense"
(www.phoronix.com)
From Wikipedia, the free encyclopedia
Linux is a family of open source Unix-like operating systems based on the Linux kernel, an operating system kernel first released on September 17, 1991 by Linus Torvalds. Linux is typically packaged in a Linux distribution (or distro for short).
Distributions include the Linux kernel and supporting system software and libraries, many of which are provided by the GNU Project. Many Linux distributions use the word "Linux" in their name, but the Free Software Foundation uses the name GNU/Linux to emphasize the importance of GNU software, causing some controversy.
Community icon by Alpár-Etele Méder, licensed under CC BY 3.0
The kernel is mostly written in C, by C developers... understandably they're rather refactor C code to make it better instead of rewritting everything in the current fancy language that'll save the world this time (especially considering proponents of said language always, at every chance they get, sell it as C is crap, this is better).
Linux is over 30yo and keeps getting better and more stable, that's the power of open-source.
This sounds exactly like the type of nontechnical nonsense they're complaining about: attacking a strawman ("they're trying to prevent people from refactoring C code and making them rewrite everything in the current fancy language") even after explicitly calling out that that was not going to happen ("and to reiterate, no one is trying force anyone else to learn Rust nor prevent refactorings of C code").
Most reasonable people say c is good, rust is better
Better in what ways? Rust's strong points are not to just make a program more stable, but more secure from a memory standpoint and I don't think Linux keeps improving on that
From other discussions I've seen, the guy stepping down was frustrated by having C code rejected that made lifetime guarantees more explicit. No rust involved. The patch was in service of rust bindings, but there was 0 rust code being reviewed by maintainers.
For 'sendmail' values of $C, this resembles another argument. Also, of course for $C=sysvinit.
C is crap for anything where security matters. I'll happily take that debate with anyone who thinks differently.
No idea what you’re being downvoted. Just take a look at all the critical CVSS scored vulnerabilities in the Linux kernel over the past decade. They’re all overwhelmingly due to pitfalls of the C language - they’re rarely architectural issues but instead because some extra fluff wasn’t added to double check the size of an int or a struct etc resulting in memory corruption. Use after frees, out of bounds reads, etc.
These are pretty much wiped out entirely by Rust and caught at compile time (or at runtime with a panic).
The cognitive load of writing safe C, and the volume of extra code it requires, is the problem of C.
You can write safe C, if you know what you’re doing (but as shown by the volume of vulns, even the world’s best C programmers still make slip ups).
Rust forces safe(r) code without any of the cognitive load of C and without having to go out of your way to learn it and religiously implement it.
They're being downvoted because it's a silly comment that is basically unrelated and also extremely unhelpful. Everyone can agree that C has footguns and isn't memory safe, but writing a kernel isn't memory safe. A kernel written in Rust will have tons of unsafe, just look at Redox: https://github.com/search?q=repo%3Aredox-os%2Fkernel%20unsafe&type=code That doesn't mean it isn't safer, even in kernel space, but the issues with introducing Rust into the kernel, which is already written in C and a massive project, are more nuanced than "C bad". The religious "C bad" and "C good" arguments are kinda exactly the issue on display in the OP.
I say this as someone who writes mostly Rust instead of C and is in favor of Rust in the kernel.
The difference is that now you have a scope of where the memory unsafe code might be(unsafe keyword) and you look there instead of all the C code.
I agree and think that should be helpful, but I hesitate to say how much easier that actually makes writing sound unsafe code. I'd think most experienced C developers also implicitly know when they're doing unsafe things, with or without an
unsafe
block in the language -- although I think the explicitunsafe
should likely help code reviewers and tired developers.It is possible to write highly unsafe code in Rust while each individual
unsafe
block appears sound. As a simple example: https://play.rust-lang.org/?version=stable&mode=debug&edition=2021&gist=6a1428d9cae5b9343b464709573648b4 [1] Run that onDebug
andRelease
builds. Notice the output is different? Don't take that example as some sort of difficult case, you wouldn't write this code, but the concepts in it are a bit worrisome. That code is a silly example, but each individualunsafe
block appears sound when trying to reason only within the block. There is unsafe behavior happening outside of theunsafe
blocks (thedo_some_things
function should raise eyebrows), and the function we ultimately end up in has no idea something unsafe has happened.Unsafe code in Rust is not easy, and to some extent it breaks abstractions (maybe pointers in general break abstractions to some extent?).
noaliases
in that playground code rightly assumes you can't have a&ref
and&mut ref
to the same thing, that's undefined behavior in Rust. Yet to understand the cause of that bug you have to look at all function calls on the way, just as you would have to in C, and one of the biggest issues in the code exists outside of anunsafe
block.[1]: If you don't want to click that link or it breaks, here is the code:
Look! I painted the mona lisa in ketchup.
I think most people would agree with you, but that isn't really the issue. Rather the question is where the threshold for rewriting in Rust vs maintaining in C lies. Rewriting in any language is costly and error-prone, so at what point do the benefits outweigh that cost and risk? For a legacy, battle-tested codebase (possibly one of the most widely tested codebases out there), the benefit is probably on the lower side.
Isn't that exactly the strawman the maintainer got tired of?
Hmm... I admit I didn't follow the video and who was speaking very well and didn't notice hostility that others seem to pick up on. I've worked with plenty of people who turn childish when a technical discussion doesn't go their way, and I've had the luxury of mostly ignoring them, I guess.
It sounded like he was asking for deeper specification than others were willing or able to provide. That's a constant stalemate in software development. He's right to push for better specs, but if there aren't any then they have to work with what they've got.
My first response here was responding to the direct comparison of languages, which is kind of apples and oranges in this context, and I guess the languages involved aren't even really the issue.
Part of the hostility was the other maintainer misunderstanding the presenter, going on a diatribe about how the kernel Rust maintainers are going to force the C code to become unrefactorable and stagnate, and rudely interrupting the presenter with another tangent whenever he (the presenter) tried to clarify anything.
An unpleasant mix of DM railroading and gish galloping, essentially.
~~I wouldn't quite call it a strawman, but~~ the guy was clearly not engaging in good faith. He made up hypothetical scenarios that nobody asked about, and then denigrated Rust by attacking the scenarios he came up with.
Edit: I was thinking of the wrong fallacy. It is a strawman, yes.
This seems to be the textbook description of a strawman argument.
Wait, yeah. I was thinking of ad hominem when i wrote that, sorry. Correct, that is a strawman.
If the timeline is long enough then it's always worth the refactor.
Seeing as how 40% of the security issues that have been found over the years wouldn't exist in a memory-safe language, I would say a re-write is extremely worth it.
Agree. I'm an absolutely awesome software dev myself - and I know C by heart (being my favorite language after assembler). However, with age comes humility and the ability to recognize that I will write buggy code every now and then.
Better the language saves me when I can't, in security critical situations.
Even if you manage to keep all memory accesses in your memory, while writing the code, there's a good chance you'll forget something when reviewing another person's MR. That's probably the main problem creator.
Still, a language that you are familiar with, is better than a new language that you haven't finished reading the specifications of. And considering that adding new maintainers comes with a major effort of verifying trustworthiness, I get how it would be harder to switch.
such a weird dichotomy in Windows – secure kernel space and privacy-nightmare user space … “we’re the only ones allowed to steal your data”
Maybe when you build some little application or whatever. When building the most used kernel in the world, there are probably some considerations that very few people can even try to understand.
What debate? You offered zero arguments and "C bad tho" isn't one.
Do you believe C isn't crap when it comes to security? Please explain why and I'll happily debate you.
/fw hacker, reverse engineer
That's not how it works. You said:
Argue for your point.
Figure 2: https://sci-hub.se/https://link.springer.com/article/10.1007/s11416-021-00379-x
Lots of categories which Rust doesn't prevent, and in the kernel you'll end up with a lot of
unsafe
Rust, so it can't guarantee memory-safety in all cases.The biggest items on the graph are all out of bounds accesses, use-after-free and overflows. It is undeniable that memory safe languages help reducing vulnerabilities, we know for decades that memory corruption vulnerabilities are both the most common and the most severe in programs written in memory-unsafe languages.
Unsafe rust is also not turning off every safety feature, and it's much better to have clear highlighted and isolated parts of code that are unsafe, which can be more easily reviewed and tested, compared to everything suffering from those problems.
I don't think there is debate here, rewriting is a huge effort, but the fact that using C is prone to memory corruption vulnerabilities and memory-safe languages are better from that regard is a fact.
Link dropping is also not arguing.
Citing scientific research is. Now, please post your gut feeling in response.
My gut feeling is you didn't hook a programmer but a debate pervert (maybe shouldn't have dropped the D word lol). Some people hear that word and turn they minds off cuz debates are simply a game for them to win. I'd just let this one swim brother
True for people misusing it. If you want to argue the ease of mis-use, it's a fun talk.
Yea, it's not C that is crap, but that it has zero guard rails. Like blaming a knife for not having a guard... Is it a bad knife without a guard? Depends on how sharp it is. The guard is orthogonal to the knife's purpose, but might still be important when the knife is used.
Just because something doesn't help prevent accidents does not mean it cannot serve its actual purpose well, unless its actual purpose is safety.
Some next level deaf going on. That's not what was being discussed.
The defensiveness proves just how out of touch and unqualified to comment some people are.