m1n1
awesome-embedded-rust
Our great sponsors
m1n1 | awesome-embedded-rust | |
---|---|---|
17 | 37 | |
3,376 | 5,605 | |
2.2% | 4.2% | |
8.9 | 7.3 | |
20 days ago | 5 days ago | |
Python | ||
MIT License | GNU General Public License v3.0 or later |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
m1n1
-
Asahi Linux project's OpenGL support on Apple Silicon officially surpasses Apple
One of the coolest things (IMO) about the entire Asahi effort, and why I'm not at all surprised that they surpassed Apple, was the dedicated effort to build bespoke developer-friendly Python tooling early in the reverse engineering process.
https://asahilinux.org/2021/08/progress-report-august-2021/
> Since the hypervisor is built on m1n1, it works together with Python code running on a separate host machine. Effectively, the Python host can “puppeteer” the M1 and its guest OS remotely. The hypervisor itself is partially written in Python! This allows us to have a very fast test cycle, and we can even update parts of the hypervisor itself live during guest execution, without a reboot.
> We then started building a Python implementation of this RPC protocol and marshaling system. This implementation serves a triple purpose: it allows us to parse the DCP logs from the hypervisor to understand what macOS does, it allows us to build a prototype DCP driver entirely in Python, and it will in the future be used to automatically generate marshaling code for the Linux kernel DCP driver.
Code here: https://github.com/AsahiLinux/m1n1/blob/main/proxyclient/m1n...
If you watch any of Asahi Lina's streams from the time before they had working drivers, she's able to weave together complex bitflag-manipulating pipelines at the speed of thought with self-documenting code, all in Python running on the host machine, all while joking with viewers via her adorable avatar. I've never seen anything like it before. The whole workflow is a tremendous and unprecedented accomplishment by the entire Asahi team.
-
Strange (scheduling?) latency on the host when KVM guest runs something demanding
I wrote a m1n1 experiment to test IRQ delivery in EL1 and noticed something was weird. I already knew about that IRQ control register (3 masks IRQs entirely and is the default, that whole thing took like a day or two back when I first added M1 Pro/Max support), so I tried other values and 2 fixed it.
-
Apple Silicon - iBoot
They have not dropped hardly any official documentation on iBoot. The best safe documentation is in: https://github.com/AsahiLinux/m1n1/ There's a lot of tainted docs out there because the source to iBoot was illegally leaked a while back, but marcan is known for being a bit of a hardass when it comes to legal reverse engineering (thankfully).
- Everything we know about the Apple Neural Engine (ANE)
-
Dumb question - is it possible to install Windows on top of Asahi?
No its uefi boot manager “https://github.com/AsahiLinux/m1n1 “
-
Updates galore! November 2022 Progress Report
What makes you say there isn't community participation? The repo for m1n1, at least, has 42 contributors according to Github[1]. There's plenty more reporting bugs and such, and their IRC channel seems relatively active.
1: https://github.com/AsahiLinux/m1n1
-
A Secret Apple Silicon (M1) Extension to Accommodate an Intel 8080 Artifact
I can confirm that’s pretty much exactly what happens. I did some digging with the help of m1n1 a while back, and essentially yeah, this is almost exactly what it does. The only difference is that, rather than tracking which cores are running emulated code, the scheduler keeps track of which processes are running in emulation mode, and prior to returning to userland after a context switch, the kernel sets control register bits for features like TSO (which is what I was interested in looking into at the time; I believe that specifically is controlled somewhere in the actlr_el1 register). Although only the P-cores actually implement the necessary x86 emulation behavior, the scheduler of course wants to ensure that a process is not pinned to any one core, and that native and emulated processes alike can preempt and interleave with each other on the P-cores just as they would if there were no emulation.
-
Asahi Lina (Linux Developer VTuber) wants to write the new Apple Silicon GPU driver for Linux in Rust!
That shim/stub is m1n1. It is the bootloader for Asahi Linux, but also makes it possible to talk to the hardware over USB as just described by Lina. marcan even implemented a small hypervisor in m1n1, so it can be used to run MacOS and trace how MacOS is accessing the hardware.
-
questions about the new architecture
Windows 11 ARM dualboot will come to M1 macs in the near future. See m1n1 for progress.
- First triangle ever rendered on an M1 Mac with a fully open-source driver
awesome-embedded-rust
- Arduino e Rust
-
C++ is everywhere, but noone really talks about it. What are people's thoughts?
Are you saying that this book is a hallucination? And this? And all of this?
- Rust – Are We Game Yet?
-
Embedded Rust tutorials on the ESP32-C3
Feel free to PR them to the awesome embedded rust list, and the matrix rooms for embedded rust and esp32 (linked on that page) are super active, so feel free to plug this there too :)
-
Embedded multiplexer
If you haven't already, feel free to PR it to the awesome embedded rust list!
-
what in the gods name
list of curated rust microcontroller resources
-
What the HAL? The Quest for Finding a Suitable Embedded Rust HAL
embedded-hal trait-based HALs: There could be a better description than this. However, this category has the widest base of implementations with more options than can be mentioned here. A more comprehensive list can be found on the awesome embedded Rust repository.
- Most loved language
- [Question] What technologies and crates do you use when development with microcontrollers?
-
Using Rust for Embedded Development
For what it's worth, the ecosystem is definitely growing. See here: https://github.com/rust-embedded/awesome-embedded-rust, there are quite a few drivers for a pretty wide variety of sensors/periphs, and almost every large SoC line is supported.
What are some alternatives?
HelloSilicon - An introduction to ARM64 assembly on Apple Silicon Macs
MicroPython - MicroPython - a lean and efficient Python implementation for microcontrollers and constrained systems
unix-history-repo - Continuous Unix commit history from 1970 until today
tock - A secure embedded operating system for microcontrollers
pdp7-unix - A project to resurrect Unix on the PDP-7 from a scan of the original assembly code
TIC-80 - TIC-80 is a fantasy computer for making, playing and sharing tiny games.
freebsd-src - The FreeBSD src tree publish-only repository. Experimenting with 'simple' pull requests....
stm32-hal - This library provides access to STM32 peripherals in Rust.
rss-proxy - RSS-proxy allows you to do create an RSS or ATOM feed of almost any website, just by analyzing just the static HTML structure.
pico-blink-rs - World's first, but possibly worst, blinky for the pico in Rust
nixos-apple-silicon - Resources to install NixOS bare metal on Apple Silicon Macs
AtomVM - Tiny Erlang VM