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//! Interrupts
pub use bare_metal::{CriticalSection, Mutex};
/// Trait for enums of external interrupt numbers.
///
/// This trait should be implemented by a peripheral access crate (PAC)
/// on its enum of available external interrupts for a specific device.
/// Each variant must convert to a u16 of its interrupt number,
/// which is its exception number - 16.
///
/// # Safety
///
/// This trait must only be implemented on enums of device interrupts. Each
/// enum variant must represent a distinct value (no duplicates are permitted),
/// and must always return the same value (do not change at runtime).
///
/// These requirements ensure safe nesting of critical sections.
pub unsafe trait InterruptNumber: Copy {
/// Return the interrupt number associated with this variant.
///
/// See trait documentation for safety requirements.
fn number(self) -> u16;
}
/// Disables all interrupts
#[inline]
pub fn disable() {
match () {
#[cfg(all(cortex_m, feature = "inline-asm"))]
() => unsafe {
llvm_asm!("cpsid i" ::: "memory" : "volatile");
},
#[cfg(all(cortex_m, not(feature = "inline-asm")))]
() => unsafe {
extern "C" {
fn __cpsid();
}
// XXX do we need a explicit compiler barrier here?
__cpsid();
},
#[cfg(not(cortex_m))]
() => unimplemented!(),
}
}
/// Enables all the interrupts
///
/// # Safety
///
/// - Do not call this function inside an `interrupt::free` critical section
#[inline]
pub unsafe fn enable() {
match () {
#[cfg(all(cortex_m, feature = "inline-asm"))]
() => llvm_asm!("cpsie i" ::: "memory" : "volatile"),
#[cfg(all(cortex_m, not(feature = "inline-asm")))]
() => {
extern "C" {
fn __cpsie();
}
// XXX do we need a explicit compiler barrier here?
__cpsie();
}
#[cfg(not(cortex_m))]
() => unimplemented!(),
}
}
/// Execute closure `f` in an interrupt-free context.
///
/// This as also known as a "critical section".
#[inline]
pub fn free<F, R>(f: F) -> R
where
F: FnOnce(&CriticalSection) -> R,
{
let primask = crate::register::primask::read();
// disable interrupts
disable();
let r = f(unsafe { &CriticalSection::new() });
// If the interrupts were active before our `disable` call, then re-enable
// them. Otherwise, keep them disabled
if primask.is_active() {
unsafe { enable() }
}
r
}
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