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Add HAL for SubGhz peripheral for STM32 WL series

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Based on the HAL from stm32wl, the peripheral driver has been
modified to fit into embassy, using the embassy APIs, providing
operation of the radio peripheral.

The initial version does not offer any async APIs, but the example
shows how the radio IRQ can be used to perform async TX of the radio.
This commit is contained in:
Ulf Lilleengen
2021-08-31 14:32:48 +02:00
parent db3cb02032
commit 7ad6280e65
42 changed files with 7110 additions and 9 deletions
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1
embassy-hal-common/Cargo.toml
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@ -18,3 +18,4 @@ defmt = { version = "0.2.0", optional = true }
log = { version = "0.4.11", optional = true }
cortex-m = "0.7.1"
usb-device = "0.2.7"
num-traits = { version = "0.2.14", default-features = false }

1
embassy-hal-common/src/lib.rs
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@ -8,6 +8,7 @@ mod macros;
pub mod peripheral;
pub mod ring_buffer;
pub mod usb;
pub mod ratio;
/// Low power blocking wait loop using WFE/SEV.
pub fn low_power_wait_until(mut condition: impl FnMut() -> bool) {

128
embassy-hal-common/src/ratio.rs Normal file
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@ -0,0 +1,128 @@
use core::ops::{Add, Div, Mul};
use num_traits::{CheckedAdd, CheckedDiv, CheckedMul};
/// Represents the ratio between two numbers.
#[derive(Copy, Clone, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct Ratio<T> {
/// Numerator.
numer: T,
/// Denominator.
denom: T,
}
impl<T> Ratio<T> {
/// Creates a new `Ratio`.
#[inline(always)]
pub const fn new_raw(numer: T, denom: T) -> Ratio<T> {
Ratio { numer, denom }
}
/// Gets an immutable reference to the numerator.
#[inline(always)]
pub const fn numer(&self) -> &T {
&self.numer
}
/// Gets an immutable reference to the denominator.
#[inline(always)]
pub const fn denom(&self) -> &T {
&self.denom
}
}
impl<T: CheckedDiv> Ratio<T> {
/// Converts to an integer, rounding towards zero.
#[inline(always)]
pub fn to_integer(&self) -> T {
unwrap!(self.numer().checked_div(self.denom()))
}
}
impl<T: CheckedMul> Div<T> for Ratio<T> {
type Output = Self;
#[inline(always)]
fn div(mut self, rhs: T) -> Self::Output {
self.denom = unwrap!(self.denom().checked_mul(&rhs));
self
}
}
impl<T: CheckedMul> Mul<T> for Ratio<T> {
type Output = Self;
#[inline(always)]
fn mul(mut self, rhs: T) -> Self::Output {
self.numer = unwrap!(self.numer().checked_mul(&rhs));
self
}
}
impl<T: CheckedMul + CheckedAdd> Add<T> for Ratio<T> {
type Output = Self;
#[inline(always)]
fn add(mut self, rhs: T) -> Self::Output {
self.numer = unwrap!(unwrap!(self.denom().checked_mul(&rhs)).checked_add(self.numer()));
self
}
}
macro_rules! impl_from_for_float {
($from:ident) => {
impl From<Ratio<$from>> for f32 {
#[inline(always)]
fn from(r: Ratio<$from>) -> Self {
(r.numer as f32) / (r.denom as f32)
}
}
impl From<Ratio<$from>> for f64 {
#[inline(always)]
fn from(r: Ratio<$from>) -> Self {
(r.numer as f64) / (r.denom as f64)
}
}
};
}
impl_from_for_float!(u8);
impl_from_for_float!(u16);
impl_from_for_float!(u32);
impl_from_for_float!(u64);
impl_from_for_float!(u128);
impl_from_for_float!(i8);
impl_from_for_float!(i16);
impl_from_for_float!(i32);
impl_from_for_float!(i64);
impl_from_for_float!(i128);
impl<T: core::fmt::Display> core::fmt::Display for Ratio<T> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
core::write!(f, "{} / {}", self.numer(), self.denom())
}
}
#[cfg(test)]
mod tests {
use super::Ratio;
#[test]
fn basics() {
let mut r = Ratio::new_raw(1, 2) + 2;
assert_eq!(*r.numer(), 5);
assert_eq!(*r.denom(), 2);
assert_eq!(r.to_integer(), 2);
r = r * 2;
assert_eq!(*r.numer(), 10);
assert_eq!(*r.denom(), 2);
assert_eq!(r.to_integer(), 5);
r = r / 2;
assert_eq!(*r.numer(), 10);
assert_eq!(*r.denom(), 4);
assert_eq!(r.to_integer(), 2);
}
}