QEMU makes it pretty painless to hook up gdb just FYI; you should look into that. I think you can also have it provide a memory mapped UART for I/O which you can use with newlib to get printf debugging

I feel seen

Pretty much everyone I work with uses vim, emacs, sublime, or vscode. I like IDEs and use them for… well Java, but I wouldn’t argue that they’ve made the other tools obsolete or you’re a fool for sticking with the old ones. If it ain’t broke and all that. It actually seems like more people are moving back to pluggable text editors over IDEs

I’ve used AI tools a bit. They’ve really helped drop in code that would previously just be a bunch of TODOs; they get you up and writing the core parts much faster to see if the idea even works. They’ve also really helped answer specific questions or lead me towards the answer. They’ve also straight up lied to me quite a bit. It’s a weird tool.

I think the OP image is pretty wrong with the comparison it makes. LLMs/AI are a class of technology that are most definitely not going anywhere unless something dramatic happens. Some people, myself included, feel uneasy about the way they’re created and the fact that people in powerful positions completely misunderstand them, and I think that leads to the hope that they’re just a fad.

Could be a variable from somewhere else in the code. It should throw type error of some sort if it’s not going to handle a float correctly

TIL I didn’t realize Java used UTF16 for its internal representation. Looks like it’s a bit more complicated than that after Java 9 too

Android defaults to UTF16

In some build modes clang will simply put a trap where it sees undefined behavior. https://clang.llvm.org/docs/UndefinedBehaviorSanitizer.html

Not saying your wrong, just a fun fact I guess

Lol I drove at least a mile with my Thinkpad on top of the car. Some dude next to me at a stop light honking and miming saved me. Got up to 40mph with it still on top though!

Also did this with my cell phone and numerous water bottles. I really need to stop considering the roof a viable temporary storage location.

As long as it’s installed on a device you control it’s pretty easy to sniff TLS traffic from an Android application, even if they’re pinning certs. I do this all the time for work. Frida makes it extremely easy, even giving you the ability to edit boringssl if something important is happening in native code. I’ve had to do this a couple times.

If you don’t have root you’ll have to recompile the application though which could matter if you need the signature to not change, but that isn’t a common requirement.

It’d be nice to have a better way to test though; I’ve wanted to check out Waydroid. Some coworkers just use an emulator which works great if it doesn’t need specific hardware.

Redox also takes some inspiration from Plan9 and https://doc.redox-os.org/book/ch05-00-schemes-resources.html is interesting. Also reading https://drewdevault.com/2022/11/12/In-praise-of-Plan-9.html made me a bit more interested in things trying to be more Plan9-like than Unix-like.

This doesn’t seem to be a Rust problem, but a modern development trend appearing in a Rust tool shipped with Cargo. The issue appears to be the way things are versioned and (reading between the lines maybe?) vendoring and/or lockfiles. Lockfiles exist in a lot of modern languages and package managers: Go has go.sum, Rust has Cargo which has Cargo.lock, Python has pip which gives a few different ways to pin versions, JavaScript has npm and yarn with lock files. I’m sure there are tons of others. I’m actually surprised this doesn’t happen all the time with newer projects. Maybe it does actually and this instance just gains traction because people get to say “look Rust bad Debian doesn’t like it”.

This seems like a big issue if you want your code to be packaged by Debian, and it doesn’t seem easy to resolve if you also want to use the modern packaging tools. I’m not actually sure how they resolve this? There are real benefits to pinning versions, but there are also real benefits to Debian’s model (of controlling all the dependencies themselves, to some extent Debian is a lockfile implemented on the OS level). Seems like a tough problem and seems like it’ll end up with a lot of newer tools just not being available in Debian (by that I mean just not packaged by Debian, they’ll likely all run fine on Debian).

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 explicit unsafe 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 on Debug and Release 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 individual unsafe block appears sound when trying to reason only within the block. There is unsafe behavior happening outside of the unsafe blocks (the do_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 an unsafe block.

[1]: If you don’t want to click that link or it breaks, here is the code:

fn uhoh() {
    let val = 9;
    let val_ptr: *const usize = &val;
    do_some_things(val_ptr);
    println!("{}", val);
}

fn do_some_things(val: *const usize) {
    let valref = unsafe { val.as_ref().unwrap() };
    let mut_ptr: *mut usize = val as *mut usize;
    do_some_other_things(mut_ptr, valref);
}

fn do_some_other_things(val: *mut usize, normalref: &usize) {
    let mutref = unsafe { val.as_mut().unwrap() };
    noaliases(normalref, mutref);
}

fn noaliases(input: &usize, output: &mut usize) {
    if *input < 10 {
        *output = 15;
    }
    if *input > 10 {
        *output = 5;
    }
}

fn main() {
    uhoh();
}

No intention of validating that behavior, it’s uncalled for and childish, but I think there is another bit of “nontechnical nonsense” on the opposite side of this silly religious war: the RIIR crowd. Longstanding C projects (sometimes even projects written in dynamic languages…?) get people that know very little about the project, or at least have never contributed, asking for it to be rewritten or refactored in Rust, and that’s likely just as tiring as the defensive C people when you want to include Rust in the kernel.

People need to chill out on both sides of this weird religious war. A programming language is just a tool: its merits in a given situation should be discussed logically.

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 unsafe&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 vast majority wouldn’t be able to be pulled into the kernel since they rely on the existence of the kernel via syscalls.

You can use ~/.local/lib and LD_LIBRARY_PATH for shared libs.

Or better yet just give in and use the nix package manager, it is basically a virtual environment for your C programs.

Yes for example Python implements them using semaphores.

It doesn’t violate any rules… Imagine both the “speaker” and the “text” are being updated by separate threads. A program that would eventually display the behavior in this meme is simple, and I’m a bit embarrassed to have written it because of this comment:

#include <pthread.h>
#include <stdio.h>

char* speakers[] = {
    "Alice",
    "Bob"
};
int speaker = 0;

void* change_speaker(void* arg)
{
    (void)arg;

    for (;;) {
        speaker = speaker == 0 ? 1 : 0;
    }
}

char* texts[] = {
    "Hi Bob",
    "Hi Alice, what's up?",
    "Not much Bob",
};
int text = 0;

void* change_text(void* arg)
{
    (void)arg;
    for (;;) {
        switch (text) {
        case 0:
            text = 1;
            break;
        case 1:
            text = 2;
            break;
        case 2:
            text = 0;
            break;
        }
    }
}

int main(int argc, char* argv[])
{
    pthread_t speaker_swapper, text_swapper;

    pthread_create(&text_swapper, NULL, change_text, NULL);
    pthread_create(&speaker_swapper, NULL, change_speaker, NULL);
    for (int i = 0; i < 3; ++i) {
        printf("%s: %s\n", speakers[speaker], texts[text]);
    }
}