Merge pull request #208 from VictorKoenders/spinlock

Added spinlocks
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Jonathan Pallant 2021-11-25 14:44:46 +00:00 committed by GitHub
commit ed860ed106
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@ -17,7 +17,9 @@
//! # let sio = Sio::new(peripherals.SIO); //! # let sio = Sio::new(peripherals.SIO);
//! let pins = Pins::new(peripherals.IO_BANK0, peripherals.PADS_BANK0, sio.gpio_bank0, &mut peripherals.RESETS); //! let pins = Pins::new(peripherals.IO_BANK0, peripherals.PADS_BANK0, sio.gpio_bank0, &mut peripherals.RESETS);
//! ``` //! ```
use super::*; use super::*;
use core::convert::Infallible;
/// Marker struct for ownership of SIO gpio bank0 /// Marker struct for ownership of SIO gpio bank0
pub struct SioGpioBank0 { pub struct SioGpioBank0 {
@ -110,3 +112,130 @@ impl HwDivider {
} }
} }
} }
/// Trait for all the spinlock. See the documentation of e.g. [`Spinlock0`] for more information
pub trait Spinlock: typelevel::Sealed + Sized {
/// Try to claim the spinlock. Will return `Some(Self)` if the lock is obtained, and `None` if the lock is
/// already in use somewhere else.
fn try_claim() -> Option<Self>;
/// Claim the spinlock, will block the current thread until the lock is available.
///
/// Note that calling this multiple times in a row will cause a deadlock
fn claim() -> Self {
loop {
if let Some(result) = Self::try_claim() {
break result;
}
}
}
/// Try to claim the spinlock. Will return `WouldBlock` until the spinlock is available.
fn claim_async() -> nb::Result<Self, Infallible> {
Self::try_claim().ok_or(nb::Error::WouldBlock)
}
}
macro_rules! impl_spinlock {
($($spinlock_name:ident => $register:ident,)*) => {
$(
/// Hardware based spinlock.
///
/// You can claim this lock by calling either [`claim`], [`try_claim`] or [`claim_async`].
/// This will automatically lock ALL spinlocks of type `
#[doc = stringify!($spinlock_name)]
/// `.
///
/// When the obtained spinlock goes out of scope, it is automatically unlocked.
///
/// **warning**: These spinlocks are not re-entrant, meaning that the following code will cause a deadlock:
///
/// ```no_run
/// use rp2040_hal::sio::{Spinlock0, Spinlock};
/// let lock_1 = Spinlock0::claim();
/// let lock_2 = Spinlock0::claim(); // deadlock here
/// ```
///
/// [`claim`]: #method.claim
/// [`try_claim`]: #method.try_claim
/// [`claim_async`]: #method.claim_async
pub struct $spinlock_name(core::marker::PhantomData<()>);
impl Spinlock for $spinlock_name {
fn try_claim() -> Option<$spinlock_name> {
// Safety: We're only reading from this register
let sio = unsafe { &*pac::SIO::ptr() };
let lock = sio.$register.read().bits();
if lock > 0 {
Some(Self(core::marker::PhantomData))
} else {
None
}
}
}
impl typelevel::Sealed for $spinlock_name {}
impl Drop for $spinlock_name {
fn drop(&mut self) {
// Safety: At this point we should be the only one accessing this spinlock register
// so writing to this address is fine
let sio = unsafe { &*pac::SIO::ptr() };
// Write (any value): release the lock
sio.$register.write(|b| unsafe { b.bits(1) });
}
}
)*
}
}
impl_spinlock! {
Spinlock0 => spinlock0,
Spinlock1 => spinlock1,
Spinlock2 => spinlock2,
Spinlock3 => spinlock3,
Spinlock4 => spinlock4,
Spinlock5 => spinlock5,
Spinlock6 => spinlock6,
Spinlock7 => spinlock7,
Spinlock8 => spinlock8,
Spinlock9 => spinlock9,
Spinlock10 => spinlock10,
Spinlock11 => spinlock11,
Spinlock12 => spinlock12,
Spinlock13 => spinlock13,
Spinlock14 => spinlock14,
Spinlock15 => spinlock15,
Spinlock16 => spinlock16,
Spinlock17 => spinlock17,
Spinlock18 => spinlock18,
Spinlock19 => spinlock19,
Spinlock20 => spinlock20,
Spinlock21 => spinlock21,
Spinlock22 => spinlock22,
Spinlock23 => spinlock23,
Spinlock24 => spinlock24,
Spinlock25 => spinlock25,
Spinlock26 => spinlock26,
Spinlock27 => spinlock27,
Spinlock28 => spinlock28,
Spinlock29 => spinlock29,
Spinlock30 => spinlock30,
Spinlock31 => spinlock31,
}
/// Returns the current state of the spinlocks. Each index corresponds to the associated spinlock, e.g. if index `5` is set to `true`, it means that [`Spinlock5`] is currently locked.
///
/// Note that spinlocks can be claimed or released at any point, so this function cannot guarantee the spinlock is actually available right after calling this function. This function is mainly intended for debugging.
pub fn spinlock_state() -> [bool; 32] {
// Safety: we're only reading from a register
let sio = unsafe { &*pac::SIO::ptr() };
// A bitmap containing the state of all 32 spinlocks (1=locked).
let register = sio.spinlock_st.read().bits();
let mut result = [false; 32];
#[allow(clippy::needless_range_loop)]
for i in 0..32 {
result[i] = (register & (1 << i)) > 0;
}
result
}