Thanks, lol. I hope they realize soon that Rust is not forced to be used. Also the US government didn't even talk about Rust only, but memory safe languages and listed Rust as an example.
As someone who learned Ada for a defense job years ago, I've been wondering how long it was going to take until I saw others comparing Rust to it, both in the sense of the language "safety" goals and the USG pushing for it.
While the rust compiler is leagues better than any Ada compiler I ever had the misfortune of dealing with, the day to day pain that Rust incurs will probably always be a thorn in it's side
I don't get why we're taking a swing at Linus here. The article only mentions him in relation to the rust for Linux project being slow going. But, it IS going and the US government has only stated that "you need a plan to move to a memory safe language by 2025 or you might be liable if something bad happens as a result of the classics (use after free/double free/buffer overflow/etc.)" but I don't think Linux would count it's free software and it does have a plan.
The report on Product Security Bad Practices warns software manufacturers about developing "new product lines for use in **service of critical infrastructure or [national critical functions] **NCFs in a memory-unsafe language (eg, C or C++) where there are readily available alternative memory-safe languages that could be used is dangerous and significantly elevates risk to national security, national economic security, and national public health and safety."
It's for new products that are very important to critical infrastructure and need to be safe as possible. The article writer seem not to be aware of this context:
Take Rust in Linux, for example. Even with support from Linux's creator, Linus Torvalds, Rust is moving into Linux at a snail's pace.
Because Linux is the biggest software in the entire world and they do lot of stuff their own way. Rust is integrated slowly for future new projects. It makes sense to move in snail pace. The government doesn't suggest the Linux project to stop using C entirely. The government "recommends" to start new projects in memory safe languages, if it is a critical software. That makes sense to me.
You see, people who've spent years and sometimes decades mastering C don't want to master the very different Rust. They don't see the point.
No, totally wrong. C programmers in Linux do not NEED to learn or master Rust. They just need to cooperate. The problem is, that some C programmers refuse to cooperate with Rust. They just want Rust to disappear. That has nothing to do with mastering the language. They refuse to make changes to their C code, so it can cooperate with Rust code via bindings.
After all, they can write memory-safe code in C, so why can't you?
Nonsense argument, and false too. If that was the case, why do we have memory safe languages? Clearly people make mistake, old and new. Besides Linux is not the only software in the world.
Converting existing large codebases to memory-safe languages can be an enormous undertaking.
Nobody says old code should be rewritten in Rust. Neither the government, nor the Rust programmers in Linux suggest that. It's not about rewriting code in memory-safe languages, its about new projects.
Either this article is a misrepresentation or misunderstanding. Or I misunderstand the article or government. I don't know anymore...
Take Rust in Linux, for example. Even with support from Linux’s creator, Linus Torvalds, Rust is moving into Linux at a snail’s pace.
Because Linux is the biggest software in the entire world and they do lot of stuff their own way. Rust is integrated slowly for future new projects. It makes sense to move in snail pace. The government doesn’t suggest the Linux project to stop using C entirely. The government “recommends” to start new projects in memory safe languages, if it is a critical software. That makes sense to me.
Doubly so... Don't care what the language is, or what the advantages are... Even if there's a considerable security advantage to a new language... There's no such thing as a language that's advantages outweigh the security risks of rushed development to convert decades of tested code.
There’s no such thing as a language that’s advantages outweigh the security risks of rushed development to convert decades of tested code.
Who said or suggested that anyway? Other than bringing this up now. Who says to convert decades of tested code to rushed code of new language?? Do people read the stuff before they reply?
They refuse to make changes to their C code, so it can cooperate with Rust code via bindings.
I don't even think the rust devs where asking for that. They are refusing changes by rust devs that help with rust while making the c code clearer and even refuse to answer questions about the semantics behind the c code. At least as far as I can see from the outside.
...asking the maintainers to lock down APIs which the C devs purposefully leave malleable, in part, to avoid binary blob drivers being feasible.
...asking maintainers to accept code into their subsystem whilst being told, you don't need to know Rust to an expert level...trust us. Cross language interfaces always have nuance and make good attack vectors. Understandable that maintainers are cautious.
...creating quite a lot of hassle for no a lot of improvement. Systems are only as resilient as their weakest components. The cross language interface is always going to be weak. Introducing a weakness to get improvements probably only succeeds at making the whole weaker.
No, totally wrong. C programmers in Linux do not NEED to learn or master Rust. They just need to cooperate. The problem is, that some C programmers refuse to cooperate with Rust. They just want Rust to disappear. That has nothing to do with mastering the language. They refuse to make changes to their C code, so it can cooperate with Rust code via bindings.
I would argue that's not the biggest problem, the biggest problem is that for you to refactor a function to work with rust, you need to refactor all the subsystems that rely on that function, and that take time, and you need to explain for the C dev why it need to be done, try to explain that for the amount of C devs in the kernel
The main issue I have with rust is the lack of a rust abi for shared libraries, which makes big dependencies shitty to work with. Another is a lot of the big, nearly ubiquitous libraries don't have great documentation, what's getting put up on crates.io is insufficient to quickly get an understanding of the library. It'd also be nice if the error messages coming out of rust analyzer were as verbose as what the compiler will give you. Other than that it's a really interesting language with a lot of great ideas. The iterator paradigm is really convenient, and the way enums work leads to really expressive code.
Documentation is generally considered one of the stronger points of rust libraries. Crates.io is not a documentation site you want https://docs.rs/ for that though it is generally linked to on crates.io. A lot of bigger crates also have their own online books for more in depth stuff. It is not that common to find a larger crate with bad documentation.
As someone that have worked in software for 30 years, and deplying complicated software, shared libraries is a misstake. You think you get the benefit of size and easy security upgrades, but due to deployment hell you end up using docker and now your deployment actually added a whole OS in size and you need to do security upgrades for this OS instead of just your application.
I use rust for some software now, and I build it with musl, and is struck by how small things get in relation to the regular deployment, and it feels like magic that I no longer get glibc incompatibility issues.
Rust is definitely a really cool language (as someone who has played with it just a little) but it's quite headache inducing, at least for me at the moment.
To address this concern, CISA recommends that developers transition to memory-safe programming languages such as Rust, Java, C#, Go, Python, and Swift.
If only it were that easy to snap your fingers and magically transform your code base from C to Rust.
guy_butterfly_meme.jpg is this unbiased journalism?
Because they want to replace them with more corporate-controlled languages.
Just add @safe: after your module declaration, and you'll be safe by default if you don't want to wait until D3.
Also, unlike in Rust, you can opt-out from RAII with int foo = void;, although it primarily has a performance advantage with arrays, not singleton variables (might be also useful for aquiring an RNG seed in a dumb way).
Eventually, painfully, slowly, we'll move to memory-safe languages. It really is a good idea. Personally, though, I don't expect it to happen this decade. In the 2030s? Yes, 2020s? No.
This. Unless the government starts introducing fines or financial incentives (like fines) to force the use of memory-safe languages, ain't nothing gonna happen.
Who cares? Just like most things your average programmer relies on, they are written by smarter or at least more specialised people to make your job easier. They have learned to write memory-safe code so you don't have to.
I don't think those are the problem, but rather how they are used. And in case of managed languages like C#, it's almost impossible to shoot yourself in the foot when it comes to memory management. You still can, if you really wish, but you have to be very explicit in that. 🤷♂️