You handle DMA the same way as on any other system - e.x. you mark the memory as system/uncached (and pin it if you have virtual memory on), you use memory barriers when you are told data has arrived to get the memory controller up to speed with what happened behind its back, and so on. You’re still writing the same code that controls the hardware in the same way, nothing about that is especially different in C vs Rust.
I think there is very much a learning curve, and that friction is real - hiring people and teaching them Rust is harder than just hiring C devs. People on HN tend to take this almost like a religious question - “how could you dare to write memory unsafe code in 2025? You’re evil!” But pragmatically this is a real concern.
https://github.com/rust-embedded/cortex-m/blob/master/cortex...
You can look at asynch and things like https://github.com/rtic-rs/rtic and https://github.com/embassy-rs/embassy for common embedded patterns.
You handle DMA the same way as on any other system - e.x. you mark the memory as system/uncached (and pin it if you have virtual memory on), you use memory barriers when you are told data has arrived to get the memory controller up to speed with what happened behind its back, and so on. You’re still writing the same code that controls the hardware in the same way, nothing about that is especially different in C vs Rust.
I think there is very much a learning curve, and that friction is real - hiring people and teaching them Rust is harder than just hiring C devs. People on HN tend to take this almost like a religious question - “how could you dare to write memory unsafe code in 2025? You’re evil!” But pragmatically this is a real concern.