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Add simple interrupt_disable+spinlock critical-section impl (#151)
* Add basic interrupt_disable+spinlock critical-section * Update impl based on feedback from jannic * Get rid of count variable, switch to AtomicU8 for lock state * Remove interrupt::disable that isn't necessary for safety * Rename variables, re-write most of the comments * Add fences to ensure ordering
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@ -23,6 +23,7 @@ usb-device = "0.2.8"
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vcell = "0.1"
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vcell = "0.1"
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void = { version = "1.0.2", default-features = false }
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void = { version = "1.0.2", default-features = false }
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rand_core = "0.6.3"
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rand_core = "0.6.3"
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critical-section = { version = "0.2.4", features = ["custom-impl"] }
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futures = { version = "0.3", default-features = false, optional = true }
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futures = { version = "0.3", default-features = false, optional = true }
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chrono = { version = "0.4", default-features = false, optional = true }
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chrono = { version = "0.4", default-features = false, optional = true }
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79
rp2040-hal/src/critical_section_impl.rs
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79
rp2040-hal/src/critical_section_impl.rs
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@ -0,0 +1,79 @@
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use core::sync::atomic::{AtomicU8, Ordering};
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struct RpSpinlockCs;
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critical_section::custom_impl!(RpSpinlockCs);
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/// Marker value to indicate no-one has the lock.
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///
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/// Initialising `LOCK_OWNER` to 0 means cheaper static initialisation so it's the best choice
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const LOCK_UNOWNED: u8 = 0;
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/// Indicates which core owns the lock so that we can call critical_section recursively.
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///
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/// 0 = no one has the lock, 1 = core0 has the lock, 2 = core1 has the lock
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static mut LOCK_OWNER: AtomicU8 = AtomicU8::new(LOCK_UNOWNED);
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/// Marker value to indicate that we already owned the lock when we started the `critical_section`.
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///
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/// Since we can't take the spinlock when we already have it, we need some other way to keep track of `critical_section` ownership.
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/// `critical_section` provides a token for communicating between `acquire` and `release` so we use that.
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/// If we're the outermost call to `critical_section` we use the values 0 and 1 to indicate we should release the spinlock and set the interrupts back to disabled and enabled, respectively.
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/// The value 2 indicates that we aren't the outermost call, and should not release the spinlock or re-enable interrupts in `release`
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const LOCK_ALREADY_OWNED: u8 = 2;
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unsafe impl critical_section::Impl for RpSpinlockCs {
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unsafe fn acquire() -> u8 {
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// Store the initial interrupt state and current core id in stack variables
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let interrupts_active = cortex_m::register::primask::read().is_active();
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// We reserved 0 as our `LOCK_UNOWNED` value, so add 1 to core_id so we get 1 for core0, 2 for core1.
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let core = (*pac::SIO::ptr()).cpuid.read().bits() as u8 + 1_u8;
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// Do we already own the spinlock?
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if LOCK_OWNER.load(Ordering::Acquire) == core {
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// We already own the lock, so we must have called acquire within a critical_section.
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// Return the magic inner-loop value so that we know not to re-enable interrupts in release()
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LOCK_ALREADY_OWNED
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} else {
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// Spin until we get the lock
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loop {
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// Need to disable interrupts to ensure that we will not deadlock
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// if an interrupt enters critical_section::Impl after we acquire the lock
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cortex_m::interrupt::disable();
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// Ensure the compiler doesn't re-order accesses and violate safety here
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core::sync::atomic::compiler_fence(Ordering::SeqCst);
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// Read the spinlock reserved for `critical_section`
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if (*pac::SIO::ptr()).spinlock31.read().bits() != 0 {
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// We just acquired the lock.
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// Store which core we are so we can tell if we're called recursively
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LOCK_OWNER.store(core, Ordering::Relaxed);
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break;
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}
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// We didn't get the lock, enable interrupts if they were enabled before we started
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if interrupts_active {
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cortex_m::interrupt::enable();
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}
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}
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// If we broke out of the loop we have just acquired the lock
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// As the outermost loop, we want to return the interrupt status to restore later
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interrupts_active as _
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}
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}
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unsafe fn release(token: u8) {
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// Did we already own the lock at the start of the `critical_section`?
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if token != LOCK_ALREADY_OWNED {
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// No, it wasn't owned at the start of this `critical_section`, so this core no longer owns it.
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// Set `LOCK_OWNER` back to `LOCK_UNOWNED` to ensure the next critical section tries to obtain the spinlock instead
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LOCK_OWNER.store(LOCK_UNOWNED, Ordering::Relaxed);
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// Ensure the compiler doesn't re-order accesses and violate safety here
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core::sync::atomic::compiler_fence(Ordering::SeqCst);
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// Release the spinlock to allow others to enter critical_section again
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(*pac::SIO::ptr()).spinlock31.write_with_zero(|w| w.bits(1));
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// Re-enable interrupts if they were enabled when we first called acquire()
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// We only do this on the outermost `critical_section` to ensure interrupts stay disabled
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// for the whole time that we have the lock
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if token != 0 {
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cortex_m::interrupt::enable();
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}
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}
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}
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}
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@ -18,6 +18,7 @@ pub extern crate rp2040_pac as pac;
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pub mod adc;
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pub mod adc;
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pub(crate) mod atomic_register_access;
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pub(crate) mod atomic_register_access;
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pub mod clocks;
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pub mod clocks;
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mod critical_section_impl;
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pub mod dma;
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pub mod dma;
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pub mod gpio;
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pub mod gpio;
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pub mod i2c;
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pub mod i2c;
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