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// SPDX-License-Identifier: GPL-2.0
//! Delay and sleep primitives.
//!
//! This module contains the kernel APIs related to delay and sleep that
//! have been ported or wrapped for usage by Rust code in the kernel.
//!
//! C header: [`include/linux/delay.h`](srctree/include/linux/delay.h).
use super::Delta;
use crate::prelude::*;
/// Sleeps for a given duration at least.
///
/// Equivalent to the C side [`fsleep()`], flexible sleep function,
/// which automatically chooses the best sleep method based on a duration.
///
/// `delta` must be within `[0, i32::MAX]` microseconds;
/// otherwise, it is erroneous behavior. That is, it is considered a bug
/// to call this function with an out-of-range value, in which case the function
/// will sleep for at least the maximum value in the range and may warn
/// in the future.
///
/// The behavior above differs from the C side [`fsleep()`] for which out-of-range
/// values mean "infinite timeout" instead.
///
/// This function can only be used in a nonatomic context.
///
/// [`fsleep()`]: https://docs.kernel.org/timers/delay_sleep_functions.html#c.fsleep
pub fn fsleep(delta: Delta) {
// The maximum value is set to `i32::MAX` microseconds to prevent integer
// overflow inside fsleep, which could lead to unintentional infinite sleep.
const MAX_DELTA: Delta = Delta::from_micros(i32::MAX as i64);
let delta = if (Delta::ZERO..=MAX_DELTA).contains(&delta) {
delta
} else {
// TODO: Add WARN_ONCE() when it's supported.
MAX_DELTA
};
// SAFETY: It is always safe to call `fsleep()` with any duration.
unsafe {
// Convert the duration to microseconds and round up to preserve
// the guarantee; `fsleep()` sleeps for at least the provided duration,
// but that it may sleep for longer under some circumstances.
bindings::fsleep(delta.as_micros_ceil() as c_ulong)
}
}
/// Inserts a delay based on microseconds with busy waiting.
///
/// Equivalent to the C side [`udelay()`], which delays in microseconds.
///
/// `delta` must be within `[0, MAX_UDELAY_MS]` in milliseconds;
/// otherwise, it is erroneous behavior. That is, it is considered a bug to
/// call this function with an out-of-range value.
///
/// The behavior above differs from the C side [`udelay()`] for which out-of-range
/// values could lead to an overflow and unexpected behavior.
///
/// [`udelay()`]: https://docs.kernel.org/timers/delay_sleep_functions.html#c.udelay
pub fn udelay(delta: Delta) {
const MAX_UDELAY_DELTA: Delta = Delta::from_millis(bindings::MAX_UDELAY_MS as i64);
debug_assert!(delta.as_nanos() >= 0);
debug_assert!(delta <= MAX_UDELAY_DELTA);
let delta = if (Delta::ZERO..=MAX_UDELAY_DELTA).contains(&delta) {
delta
} else {
MAX_UDELAY_DELTA
};
// SAFETY: It is always safe to call `udelay()` with any duration.
// Note that the kernel is compiled with `-fno-strict-overflow`
// so any out-of-range value could lead to unexpected behavior
// but won't lead to undefined behavior.
unsafe {
// Convert the duration to microseconds and round up to preserve
// the guarantee; `udelay()` inserts a delay for at least
// the provided duration, but that it may delay for longer
// under some circumstances.
bindings::udelay(delta.as_micros_ceil() as c_ulong)
}
}
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