//! Multicore support //! //! This module handles setup of the 2nd cpu core on the rp2040, which we refer to as core1. //! It provides functionality for setting up the stack, and starting core1. //! //! The options for an entrypoint for core1 are //! - a function that never returns - eg //! `fn core1_task() -> ! { loop{} }; ` //! - a lambda (note: This requires a global allocator which requires a nightly compiler. Not recommended for beginners) //! //! # Usage //! //! ```no_run //! static mut CORE1_STACK: Stack<4096> = Stack::new(); //! fn core1_task() -> ! { //! loop{} //! } //! // fn main() -> ! { //! use rp2040_hal::{pac, gpio::Pins, sio::Sio, multicore::{Multicore, Stack}}; //! let mut pac = pac::Peripherals::take().unwrap(); //! let mut sio = Sio::new(pac.SIO); //! // Other init code above this line //! let mut mc = Multicore::new(&mut pac.PSM, &mut pac.PPB, &mut sio); //! let cores = mc.cores(); //! let core1 = &mut cores[1]; //! let _test = core1.spawn(core1_task, unsafe { &mut CORE1_STACK.mem }); //! // The rest of your application below this line //! //} //! //! ``` //! //! For inter-processor communications, see [`crate::sio::SioFifo`] and [`crate::sio::Spinlock0`] //! //! For a detailed example, see [examples/multicore_fifo_blink.rs](https://github.com/rp-rs/rp-hal/tree/main/rp2040-hal/examples/multicore_fifo_blink.rs) use crate::pac; #[cfg(feature = "alloc")] extern crate alloc; /// Errors for multicore operations. #[derive(Debug)] pub enum Error { /// Operation is invalid on this core. InvalidCore, /// Core was unresposive to commands. Unresponsive, } // We pass data to cores via the stack, so we read // the data off the stack and into parameters that // rust can read here. Ideally this would be a // #[naked] function but that is not stable yet. static MULTICORE_TRAMPOLINE: [u16; 2] = [ 0xbd03, // pop {r0, r1, pc} - call wrapper (pc) with r0 and r1 0x46c0, // nop - pad this out to 32 bits long ]; #[inline(always)] fn install_stack_guard(stack_bottom: *mut usize) { let core = unsafe { pac::CorePeripherals::steal() }; // Trap if MPU is already configured if core.MPU.ctrl.read() != 0 { cortex_m::asm::udf(); } // The minimum we can protect is 32 bytes on a 32 byte boundary, so round up which will // just shorten the valid stack range a tad. let addr = (stack_bottom as u32 + 31) & !31; // Mask is 1 bit per 32 bytes of the 256 byte range... clear the bit for the segment we want let subregion_select = 0xff ^ (1 << ((addr >> 5) & 7)); unsafe { core.MPU.ctrl.write(5); // enable mpu with background default map core.MPU.rbar.write((addr & !0xff) | 0x8); core.MPU.rasr.write( 1 // enable region | (0x7 << 1) // size 2^(7 + 1) = 256 | (subregion_select << 8) | 0x10000000, // XN = disable instruction fetch; no other bits means no permissions ); } } #[inline(always)] fn core1_setup(stack_bottom: *mut usize) { install_stack_guard(stack_bottom); // TODO: irq priorities } /// Multicore execution management. pub struct Multicore<'p> { cores: [Core<'p>; 2], } /// Data type for a properly aligned stack of N 32-bit (usize) words #[repr(C, align(32))] pub struct Stack { /// Memory to be used for the stack pub mem: [usize; SIZE], } impl Stack { /// Construct a stack of length SIZE, initialized to 0 pub const fn new() -> Stack { Stack { mem: [0; SIZE] } } } impl<'p> Multicore<'p> { /// Create a new |Multicore| instance. pub fn new(psm: &'p mut pac::PSM, ppb: &'p mut pac::PPB, sio: &'p mut crate::Sio) -> Self { Self { cores: [ Core { inner: None }, Core { inner: Some((psm, ppb, sio)), }, ], } } /// Get the available |Core| instances. pub fn cores(&mut self) -> &'p mut [Core] { &mut self.cores } } /// A handle for controlling a logical core. pub struct Core<'p> { inner: Option<(&'p mut pac::PSM, &'p mut pac::PPB, &'p mut crate::Sio)>, } impl<'p> Core<'p> { /// Get the id of this core. pub fn id(&self) -> u8 { match self.inner { None => 0, Some(..) => 1, } } fn inner_spawn( &mut self, wrapper: *mut (), entry: *mut (), stack: &'static mut [usize], ) -> Result<(), Error> { if let Some((psm, ppb, sio)) = self.inner.as_mut() { // Reset the core psm.frce_off.modify(|_, w| w.proc1().set_bit()); while !psm.frce_off.read().proc1().bit_is_set() { cortex_m::asm::nop(); } psm.frce_off.modify(|_, w| w.proc1().clear_bit()); // Set up the stack let mut stack_ptr = unsafe { stack.as_mut_ptr().add(stack.len()) }; let mut push = |v: usize| unsafe { stack_ptr = stack_ptr.sub(1); stack_ptr.write(v); }; push(wrapper as usize); push(stack.as_mut_ptr() as usize); push(entry as usize); let vector_table = ppb.vtor.read().bits(); // After reset, core 1 is waiting to receive commands over FIFO. // This is the sequence to have it jump to some code. let cmd_seq = [ 0, 0, 1, vector_table as usize, stack_ptr as usize, MULTICORE_TRAMPOLINE.as_ptr() as usize + 1, ]; let mut seq = 0; let mut fails = 0; loop { let cmd = cmd_seq[seq] as u32; if cmd == 0 { sio.fifo.drain(); cortex_m::asm::sev(); } sio.fifo.write_blocking(cmd); let response = sio.fifo.read_blocking(); if cmd == response { seq += 1; } else { seq = 0; fails += 1; if fails > 16 { return Err(Error::Unresponsive); } } if seq >= cmd_seq.len() { break; } } Ok(()) } else { Err(Error::InvalidCore) } } /// Spawn a function on this core. #[cfg(not(feature = "alloc"))] pub fn spawn(&mut self, entry: fn() -> !, stack: &'static mut [usize]) -> Result<(), Error> { #[allow(improper_ctypes_definitions)] extern "C" fn core1_no_alloc(entry: fn() -> !, stack_bottom: *mut usize) -> ! { core1_setup(stack_bottom); entry(); } self.inner_spawn(core1_no_alloc as _, entry as _, stack) } /// Spawn a function on this core. #[cfg(feature = "alloc")] pub fn spawn(&mut self, entry: F, stack: &'static mut [usize]) -> Result<(), Error> where F: FnOnce() -> bad::Never, F: Send + 'static, { use alloc::boxed::Box; let main: Box bad::Never> = Box::new(move || entry()); let p = Box::into_raw(Box::new(main)); extern "C" fn core1_alloc(entry: *mut (), stack_bottom: *mut usize) -> ! { core1_setup(stack_bottom); let main = unsafe { Box::from_raw(entry as *mut Box bad::Never>) }; main(); } self.inner_spawn(core1_alloc as _, p as _, stack) } } // https://github.com/nvzqz/bad-rs/blob/master/src/never.rs #[cfg(feature = "alloc")] mod bad { pub(crate) type Never = ::Output; pub trait HasOutput { type Output; } impl HasOutput for fn() -> O { type Output = O; } type F = fn() -> !; }