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Merge branch 'main' of github.com:reneherrero/embassy

Browse Source
This commit is contained in:
René Herrero 2024-05-21 17:20:18 -05:00
commit 2f2869f195
7 changed files with 561 additions and 488 deletions
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7
README.md
View File

@ -100,12 +100,7 @@ Examples are found in the `examples/` folder separated by the chip manufacturer
### Running examples
- Install `probe-rs`.
```bash
cargo install probe-rs --features cli
```
- Install `probe-rs` following the instructions at <https://probe.rs>.
- Change directory to the sample's base directory. For example:
```bash

2
cyw43/README.md
View File

@ -23,7 +23,7 @@ TODO:
## Running the examples
- `cargo install probe-rs --features cli`
- Install `probe-rs` following the instructions at <https://probe.rs>.
- `cd examples/rp`
### Example 1: Scan the wifi stations
- `cargo run --release --bin wifi_scan`

107
embassy-rp/src/pwm.rs
View File

@ -81,24 +81,22 @@ impl From<InputMode> for Divmode {
}
/// PWM driver.
pub struct Pwm<'d, T: Slice> {
inner: PeripheralRef<'d, T>,
pub struct Pwm<'d> {
pin_a: Option<PeripheralRef<'d, AnyPin>>,
pin_b: Option<PeripheralRef<'d, AnyPin>>,
slice: usize,
}
impl<'d, T: Slice> Pwm<'d, T> {
impl<'d> Pwm<'d> {
fn new_inner(
inner: impl Peripheral<P = T> + 'd,
slice: usize,
a: Option<PeripheralRef<'d, AnyPin>>,
b: Option<PeripheralRef<'d, AnyPin>>,
b_pull: Pull,
config: Config,
divmode: Divmode,
) -> Self {
into_ref!(inner);
let p = inner.regs();
let p = pac::PWM.ch(slice);
p.csr().modify(|w| {
w.set_divmode(divmode);
w.set_en(false);
@ -117,51 +115,67 @@ impl<'d, T: Slice> Pwm<'d, T> {
});
}
Self {
inner,
// inner: p.into(),
pin_a: a,
pin_b: b,
slice,
}
}
/// Create PWM driver without any configured pins.
#[inline]
pub fn new_free(inner: impl Peripheral<P = T> + 'd, config: Config) -> Self {
Self::new_inner(inner, None, None, Pull::None, config, Divmode::DIV)
pub fn new_free<T: Slice>(slice: impl Peripheral<P = T> + 'd, config: Config) -> Self {
into_ref!(slice);
Self::new_inner(slice.number(), None, None, Pull::None, config, Divmode::DIV)
}
/// Create PWM driver with a single 'a' as output.
#[inline]
pub fn new_output_a(
inner: impl Peripheral<P = T> + 'd,
pub fn new_output_a<T: Slice>(
slice: impl Peripheral<P = T> + 'd,
a: impl Peripheral<P = impl ChannelAPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(a);
Self::new_inner(inner, Some(a.map_into()), None, Pull::None, config, Divmode::DIV)
into_ref!(slice, a);
Self::new_inner(
slice.number(),
Some(a.map_into()),
None,
Pull::None,
config,
Divmode::DIV,
)
}
/// Create PWM driver with a single 'b' pin as output.
#[inline]
pub fn new_output_b(
inner: impl Peripheral<P = T> + 'd,
pub fn new_output_b<T: Slice>(
slice: impl Peripheral<P = T> + 'd,
b: impl Peripheral<P = impl ChannelBPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(b);
Self::new_inner(inner, None, Some(b.map_into()), Pull::None, config, Divmode::DIV)
into_ref!(slice, b);
Self::new_inner(
slice.number(),
None,
Some(b.map_into()),
Pull::None,
config,
Divmode::DIV,
)
}
/// Create PWM driver with a 'a' and 'b' pins as output.
#[inline]
pub fn new_output_ab(
inner: impl Peripheral<P = T> + 'd,
pub fn new_output_ab<T: Slice>(
slice: impl Peripheral<P = T> + 'd,
a: impl Peripheral<P = impl ChannelAPin<T>> + 'd,
b: impl Peripheral<P = impl ChannelBPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(a, b);
into_ref!(slice, a, b);
Self::new_inner(
inner,
slice.number(),
Some(a.map_into()),
Some(b.map_into()),
Pull::None,
@ -172,30 +186,30 @@ impl<'d, T: Slice> Pwm<'d, T> {
/// Create PWM driver with a single 'b' as input pin.
#[inline]
pub fn new_input(
inner: impl Peripheral<P = T> + 'd,
pub fn new_input<T: Slice>(
slice: impl Peripheral<P = T> + 'd,
b: impl Peripheral<P = impl ChannelBPin<T>> + 'd,
b_pull: Pull,
mode: InputMode,
config: Config,
) -> Self {
into_ref!(b);
Self::new_inner(inner, None, Some(b.map_into()), b_pull, config, mode.into())
into_ref!(slice, b);
Self::new_inner(slice.number(), None, Some(b.map_into()), b_pull, config, mode.into())
}
/// Create PWM driver with a 'a' and 'b' pins in the desired input mode.
#[inline]
pub fn new_output_input(
inner: impl Peripheral<P = T> + 'd,
pub fn new_output_input<T: Slice>(
slice: impl Peripheral<P = T> + 'd,
a: impl Peripheral<P = impl ChannelAPin<T>> + 'd,
b: impl Peripheral<P = impl ChannelBPin<T>> + 'd,
b_pull: Pull,
mode: InputMode,
config: Config,
) -> Self {
into_ref!(a, b);
into_ref!(slice, a, b);
Self::new_inner(
inner,
slice.number(),
Some(a.map_into()),
Some(b.map_into()),
b_pull,
@ -206,7 +220,7 @@ impl<'d, T: Slice> Pwm<'d, T> {
/// Set the PWM config.
pub fn set_config(&mut self, config: &Config) {
Self::configure(self.inner.regs(), config);
Self::configure(pac::PWM.ch(self.slice), config);
}
fn configure(p: pac::pwm::Channel, config: &Config) {
@ -228,22 +242,22 @@ impl<'d, T: Slice> Pwm<'d, T> {
});
}
/// Advances a slices output phase by one count while it is running
/// Advances a slice's output phase by one count while it is running
/// by inserting a pulse into the clock enable. The counter
/// will not count faster than once per cycle.
#[inline]
pub fn phase_advance(&mut self) {
let p = self.inner.regs();
let p = pac::PWM.ch(self.slice);
p.csr().write_set(|w| w.set_ph_adv(true));
while p.csr().read().ph_adv() {}
}
/// Retards a slices output phase by one count while it is running
/// Retards a slice's output phase by one count while it is running
/// by deleting a pulse from the clock enable. The counter will not
/// count backward when clock enable is permenantly low.
/// count backward when clock enable is permanently low.
#[inline]
pub fn phase_retard(&mut self) {
let p = self.inner.regs();
let p = pac::PWM.ch(self.slice);
p.csr().write_set(|w| w.set_ph_ret(true));
while p.csr().read().ph_ret() {}
}
@ -251,13 +265,13 @@ impl<'d, T: Slice> Pwm<'d, T> {
/// Read PWM counter.
#[inline]
pub fn counter(&self) -> u16 {
self.inner.regs().ctr().read().ctr()
pac::PWM.ch(self.slice).ctr().read().ctr()
}
/// Write PWM counter.
#[inline]
pub fn set_counter(&self, ctr: u16) {
self.inner.regs().ctr().write(|w| w.set_ctr(ctr))
pac::PWM.ch(self.slice).ctr().write(|w| w.set_ctr(ctr))
}
/// Wait for channel interrupt.
@ -281,7 +295,7 @@ impl<'d, T: Slice> Pwm<'d, T> {
#[inline]
fn bit(&self) -> u32 {
1 << self.inner.number() as usize
1 << self.slice as usize
}
}
@ -291,7 +305,7 @@ pub struct PwmBatch(u32);
impl PwmBatch {
#[inline]
/// Enable a PWM slice in this batch.
pub fn enable(&mut self, pwm: &Pwm<'_, impl Slice>) {
pub fn enable(&mut self, pwm: &Pwm<'_>) {
self.0 |= pwm.bit();
}
@ -308,9 +322,9 @@ impl PwmBatch {
}
}
impl<'d, T: Slice> Drop for Pwm<'d, T> {
impl<'d> Drop for Pwm<'d> {
fn drop(&mut self) {
self.inner.regs().csr().write_clear(|w| w.set_en(false));
pac::PWM.ch(self.slice).csr().write_clear(|w| w.set_en(false));
if let Some(pin) = &self.pin_a {
pin.gpio().ctrl().write(|w| w.set_funcsel(31));
}
@ -326,19 +340,14 @@ trait SealedSlice {}
#[allow(private_bounds)]
pub trait Slice: Peripheral<P = Self> + SealedSlice + Sized + 'static {
/// Slice number.
fn number(&self) -> u8;
/// Slice register block.
fn regs(&self) -> pac::pwm::Channel {
pac::PWM.ch(self.number() as _)
}
fn number(&self) -> usize;
}
macro_rules! slice {
($name:ident, $num:expr) => {
impl SealedSlice for peripherals::$name {}
impl Slice for peripherals::$name {
fn number(&self) -> u8 {
fn number(&self) -> usize {
$num
}
}

899
embassy-stm32/src/ospi/mod.rs
View File

@ -5,13 +5,16 @@
pub mod enums;
use core::marker::PhantomData;
use embassy_embedded_hal::{GetConfig, SetConfig};
use embassy_hal_internal::{into_ref, PeripheralRef};
pub use enums::*;
use stm32_metapac::octospi::vals::{PhaseMode, SizeInBits};
use crate::dma::{word, Transfer};
use crate::gpio::{AFType, AnyPin, Pull, SealedPin as _};
use crate::dma::{word, ChannelAndRequest};
use crate::gpio::{AFType, AnyPin, Pull, SealedPin as _, Speed};
use crate::mode::{Async, Blocking, Mode as PeriMode};
use crate::pac::octospi::{vals, Octospi as Regs};
use crate::rcc::RccPeripheral;
use crate::{peripherals, Peripheral};
@ -154,7 +157,7 @@ pub enum OspiError {
}
/// OSPI driver.
pub struct Ospi<'d, T: Instance, Dma> {
pub struct Ospi<'d, T: Instance, M: PeriMode> {
_peri: PeripheralRef<'d, T>,
sck: Option<PeripheralRef<'d, AnyPin>>,
d0: Option<PeripheralRef<'d, AnyPin>>,
@ -167,259 +170,13 @@ pub struct Ospi<'d, T: Instance, Dma> {
d7: Option<PeripheralRef<'d, AnyPin>>,
nss: Option<PeripheralRef<'d, AnyPin>>,
dqs: Option<PeripheralRef<'d, AnyPin>>,
dma: PeripheralRef<'d, Dma>,
dma: Option<ChannelAndRequest<'d>>,
_phantom: PhantomData<M>,
config: Config,
width: OspiWidth,
}
impl<'d, T: Instance, Dma> Ospi<'d, T, Dma> {
/// Create new OSPI driver for a single spi external chip
pub fn new_singlespi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
config: Config,
) -> Self {
into_ref!(peri, sck, d0, d1, nss);
sck.set_as_af_pull(sck.af_num(), AFType::OutputPushPull, Pull::None);
sck.set_speed(crate::gpio::Speed::VeryHigh);
nss.set_as_af_pull(nss.af_num(), AFType::OutputPushPull, Pull::Up);
nss.set_speed(crate::gpio::Speed::VeryHigh);
d0.set_as_af_pull(d0.af_num(), AFType::OutputPushPull, Pull::None);
d0.set_speed(crate::gpio::Speed::VeryHigh);
d1.set_as_af_pull(d1.af_num(), AFType::Input, Pull::None);
d1.set_speed(crate::gpio::Speed::VeryHigh);
Self::new_inner(
peri,
Some(d0.map_into()),
Some(d1.map_into()),
None,
None,
None,
None,
None,
None,
Some(sck.map_into()),
Some(nss.map_into()),
None,
dma,
config,
OspiWidth::SING,
false,
)
}
/// Create new OSPI driver for a dualspi external chip
pub fn new_dualspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
config: Config,
) -> Self {
into_ref!(peri, sck, d0, d1, nss);
sck.set_as_af_pull(sck.af_num(), AFType::OutputPushPull, Pull::None);
sck.set_speed(crate::gpio::Speed::VeryHigh);
nss.set_as_af_pull(nss.af_num(), AFType::OutputPushPull, Pull::Up);
nss.set_speed(crate::gpio::Speed::VeryHigh);
d0.set_as_af_pull(d0.af_num(), AFType::OutputPushPull, Pull::None);
d0.set_speed(crate::gpio::Speed::VeryHigh);
d1.set_as_af_pull(d1.af_num(), AFType::OutputPushPull, Pull::None);
d1.set_speed(crate::gpio::Speed::VeryHigh);
Self::new_inner(
peri,
Some(d0.map_into()),
Some(d1.map_into()),
None,
None,
None,
None,
None,
None,
Some(sck.map_into()),
Some(nss.map_into()),
None,
dma,
config,
OspiWidth::DUAL,
false,
)
}
/// Create new OSPI driver for a quadspi external chip
pub fn new_quadspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
config: Config,
) -> Self {
into_ref!(peri, sck, d0, d1, d2, d3, nss);
sck.set_as_af_pull(sck.af_num(), AFType::OutputPushPull, Pull::None);
sck.set_speed(crate::gpio::Speed::VeryHigh);
nss.set_as_af_pull(nss.af_num(), AFType::OutputPushPull, Pull::Up);
nss.set_speed(crate::gpio::Speed::VeryHigh);
d0.set_as_af_pull(d0.af_num(), AFType::OutputPushPull, Pull::None);
d0.set_speed(crate::gpio::Speed::VeryHigh);
d1.set_as_af_pull(d1.af_num(), AFType::OutputPushPull, Pull::None);
d1.set_speed(crate::gpio::Speed::VeryHigh);
d2.set_as_af_pull(d2.af_num(), AFType::OutputPushPull, Pull::None);
d2.set_speed(crate::gpio::Speed::VeryHigh);
d3.set_as_af_pull(d3.af_num(), AFType::OutputPushPull, Pull::None);
d3.set_speed(crate::gpio::Speed::VeryHigh);
Self::new_inner(
peri,
Some(d0.map_into()),
Some(d1.map_into()),
Some(d2.map_into()),
Some(d3.map_into()),
None,
None,
None,
None,
Some(sck.map_into()),
Some(nss.map_into()),
None,
dma,
config,
OspiWidth::QUAD,
false,
)
}
/// Create new OSPI driver for two quadspi external chips
pub fn new_dualquadspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
d4: impl Peripheral<P = impl D4Pin<T>> + 'd,
d5: impl Peripheral<P = impl D5Pin<T>> + 'd,
d6: impl Peripheral<P = impl D6Pin<T>> + 'd,
d7: impl Peripheral<P = impl D7Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
config: Config,
) -> Self {
into_ref!(peri, sck, d0, d1, d2, d3, d4, d5, d6, d7, nss);
sck.set_as_af_pull(sck.af_num(), AFType::OutputPushPull, Pull::None);
sck.set_speed(crate::gpio::Speed::VeryHigh);
nss.set_as_af_pull(nss.af_num(), AFType::OutputPushPull, Pull::Up);
nss.set_speed(crate::gpio::Speed::VeryHigh);
d0.set_as_af_pull(d0.af_num(), AFType::OutputPushPull, Pull::None);
d0.set_speed(crate::gpio::Speed::VeryHigh);
d1.set_as_af_pull(d1.af_num(), AFType::OutputPushPull, Pull::None);
d1.set_speed(crate::gpio::Speed::VeryHigh);
d2.set_as_af_pull(d2.af_num(), AFType::OutputPushPull, Pull::None);
d2.set_speed(crate::gpio::Speed::VeryHigh);
d3.set_as_af_pull(d3.af_num(), AFType::OutputPushPull, Pull::None);
d3.set_speed(crate::gpio::Speed::VeryHigh);
d4.set_as_af_pull(d4.af_num(), AFType::OutputPushPull, Pull::None);
d4.set_speed(crate::gpio::Speed::VeryHigh);
d5.set_as_af_pull(d5.af_num(), AFType::OutputPushPull, Pull::None);
d5.set_speed(crate::gpio::Speed::VeryHigh);
d6.set_as_af_pull(d6.af_num(), AFType::OutputPushPull, Pull::None);
d6.set_speed(crate::gpio::Speed::VeryHigh);
d7.set_as_af_pull(d7.af_num(), AFType::OutputPushPull, Pull::None);
d7.set_speed(crate::gpio::Speed::VeryHigh);
Self::new_inner(
peri,
Some(d0.map_into()),
Some(d1.map_into()),
Some(d2.map_into()),
Some(d3.map_into()),
Some(d4.map_into()),
Some(d5.map_into()),
Some(d6.map_into()),
Some(d7.map_into()),
Some(sck.map_into()),
Some(nss.map_into()),
None,
dma,
config,
OspiWidth::QUAD,
true,
)
}
/// Create new OSPI driver for octospi external chips
pub fn new_octospi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
d4: impl Peripheral<P = impl D4Pin<T>> + 'd,
d5: impl Peripheral<P = impl D5Pin<T>> + 'd,
d6: impl Peripheral<P = impl D6Pin<T>> + 'd,
d7: impl Peripheral<P = impl D7Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
config: Config,
) -> Self {
into_ref!(peri, sck, d0, d1, d2, d3, d4, d5, d6, d7, nss);
sck.set_as_af_pull(sck.af_num(), AFType::OutputPushPull, Pull::None);
sck.set_speed(crate::gpio::Speed::VeryHigh);
nss.set_as_af_pull(nss.af_num(), AFType::OutputPushPull, Pull::Up);
nss.set_speed(crate::gpio::Speed::VeryHigh);
d0.set_as_af_pull(d0.af_num(), AFType::OutputPushPull, Pull::None);
d0.set_speed(crate::gpio::Speed::VeryHigh);
d1.set_as_af_pull(d1.af_num(), AFType::OutputPushPull, Pull::None);
d1.set_speed(crate::gpio::Speed::VeryHigh);
d2.set_as_af_pull(d2.af_num(), AFType::OutputPushPull, Pull::None);
d2.set_speed(crate::gpio::Speed::VeryHigh);
d3.set_as_af_pull(d3.af_num(), AFType::OutputPushPull, Pull::None);
d3.set_speed(crate::gpio::Speed::VeryHigh);
d4.set_as_af_pull(d4.af_num(), AFType::OutputPushPull, Pull::None);
d4.set_speed(crate::gpio::Speed::VeryHigh);
d5.set_as_af_pull(d5.af_num(), AFType::OutputPushPull, Pull::None);
d5.set_speed(crate::gpio::Speed::VeryHigh);
d6.set_as_af_pull(d6.af_num(), AFType::OutputPushPull, Pull::None);
d6.set_speed(crate::gpio::Speed::VeryHigh);
d7.set_as_af_pull(d7.af_num(), AFType::OutputPushPull, Pull::None);
d7.set_speed(crate::gpio::Speed::VeryHigh);
Self::new_inner(
peri,
Some(d0.map_into()),
Some(d1.map_into()),
Some(d2.map_into()),
Some(d3.map_into()),
Some(d4.map_into()),
Some(d5.map_into()),
Some(d6.map_into()),
Some(d7.map_into()),
Some(sck.map_into()),
Some(nss.map_into()),
None,
dma,
config,
OspiWidth::OCTO,
false,
)
}
impl<'d, T: Instance, M: PeriMode> Ospi<'d, T, M> {
fn new_inner(
peri: impl Peripheral<P = T> + 'd,
d0: Option<PeripheralRef<'d, AnyPin>>,
@ -433,12 +190,12 @@ impl<'d, T: Instance, Dma> Ospi<'d, T, Dma> {
sck: Option<PeripheralRef<'d, AnyPin>>,
nss: Option<PeripheralRef<'d, AnyPin>>,
dqs: Option<PeripheralRef<'d, AnyPin>>,
dma: impl Peripheral<P = Dma> + 'd,
dma: Option<ChannelAndRequest<'d>>,
config: Config,
width: OspiWidth,
dual_quad: bool,
) -> Self {
into_ref!(peri, dma);
into_ref!(peri);
// System configuration
T::enable_and_reset();
@ -519,6 +276,7 @@ impl<'d, T: Instance, Dma> Ospi<'d, T, Dma> {
nss,
dqs,
dma,
_phantom: PhantomData,
config,
width,
}
@ -702,170 +460,6 @@ impl<'d, T: Instance, Dma> Ospi<'d, T, Dma> {
Ok(())
}
/// Blocking read with DMA transfer
pub fn blocking_read_dma<W: Word>(&mut self, buf: &mut [W], transaction: TransferConfig) -> Result<(), OspiError>
where
Dma: OctoDma<T>,
{
if buf.is_empty() {
return Err(OspiError::EmptyBuffer);
}
// Wait for peripheral to be free
while T::REGS.sr().read().busy() {}
self.configure_command(&transaction, Some(buf.len()))?;
let current_address = T::REGS.ar().read().address();
let current_instruction = T::REGS.ir().read().instruction();
// For a indirect read transaction, the transaction begins when the instruction/address is set
T::REGS.cr().modify(|v| v.set_fmode(vals::FunctionalMode::INDIRECTREAD));
if T::REGS.ccr().read().admode() == vals::PhaseMode::NONE {
T::REGS.ir().write(|v| v.set_instruction(current_instruction));
} else {
T::REGS.ar().write(|v| v.set_address(current_address));
}
let request = self.dma.request();
let transfer = unsafe {
Transfer::new_read(
&mut self.dma,
request,
T::REGS.dr().as_ptr() as *mut W,
buf,
Default::default(),
)
};
T::REGS.cr().modify(|w| w.set_dmaen(true));
transfer.blocking_wait();
finish_dma(T::REGS);
Ok(())
}
/// Blocking write with DMA transfer
pub fn blocking_write_dma<W: Word>(&mut self, buf: &[W], transaction: TransferConfig) -> Result<(), OspiError>
where
Dma: OctoDma<T>,
{
if buf.is_empty() {
return Err(OspiError::EmptyBuffer);
}
// Wait for peripheral to be free
while T::REGS.sr().read().busy() {}
self.configure_command(&transaction, Some(buf.len()))?;
T::REGS
.cr()
.modify(|v| v.set_fmode(vals::FunctionalMode::INDIRECTWRITE));
let request = self.dma.request();
let transfer = unsafe {
Transfer::new_write(
&mut self.dma,
request,
buf,
T::REGS.dr().as_ptr() as *mut W,
Default::default(),
)
};
T::REGS.cr().modify(|w| w.set_dmaen(true));
transfer.blocking_wait();
finish_dma(T::REGS);
Ok(())
}
/// Asynchronous read from external device
pub async fn read<W: Word>(&mut self, buf: &mut [W], transaction: TransferConfig) -> Result<(), OspiError>
where
Dma: OctoDma<T>,
{
if buf.is_empty() {
return Err(OspiError::EmptyBuffer);
}
// Wait for peripheral to be free
while T::REGS.sr().read().busy() {}
self.configure_command(&transaction, Some(buf.len()))?;
let current_address = T::REGS.ar().read().address();
let current_instruction = T::REGS.ir().read().instruction();
// For a indirect read transaction, the transaction begins when the instruction/address is set
T::REGS.cr().modify(|v| v.set_fmode(vals::FunctionalMode::INDIRECTREAD));
if T::REGS.ccr().read().admode() == vals::PhaseMode::NONE {
T::REGS.ir().write(|v| v.set_instruction(current_instruction));
} else {
T::REGS.ar().write(|v| v.set_address(current_address));
}
let request = self.dma.request();
let transfer = unsafe {
Transfer::new_read(
&mut self.dma,
request,
T::REGS.dr().as_ptr() as *mut W,
buf,
Default::default(),
)
};
T::REGS.cr().modify(|w| w.set_dmaen(true));
transfer.await;
finish_dma(T::REGS);
Ok(())
}
/// Asynchronous write to external device
pub async fn write<W: Word>(&mut self, buf: &[W], transaction: TransferConfig) -> Result<(), OspiError>
where
Dma: OctoDma<T>,
{
if buf.is_empty() {
return Err(OspiError::EmptyBuffer);
}
// Wait for peripheral to be free
while T::REGS.sr().read().busy() {}
self.configure_command(&transaction, Some(buf.len()))?;
T::REGS
.cr()
.modify(|v| v.set_fmode(vals::FunctionalMode::INDIRECTWRITE));
let request = self.dma.request();
let transfer = unsafe {
Transfer::new_write(
&mut self.dma,
request,
buf,
T::REGS.dr().as_ptr() as *mut W,
Default::default(),
)
};
T::REGS.cr().modify(|w| w.set_dmaen(true));
transfer.await;
finish_dma(T::REGS);
Ok(())
}
/// Set new bus configuration
pub fn set_config(&mut self, config: &Config) {
// Wait for busy flag to clear
@ -942,7 +536,470 @@ impl<'d, T: Instance, Dma> Ospi<'d, T, Dma> {
}
}
impl<'d, T: Instance, Dma> Drop for Ospi<'d, T, Dma> {
impl<'d, T: Instance> Ospi<'d, T, Blocking> {
/// Create new blocking OSPI driver for a single spi external chip
pub fn new_blocking_singlespi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::Input, Speed::VeryHigh),
None,
None,
None,
None,
None,
None,
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
None,
config,
OspiWidth::SING,
false,
)
}
/// Create new blocking OSPI driver for a dualspi external chip
pub fn new_blocking_dualspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::OutputPushPull, Speed::VeryHigh),
None,
None,
None,
None,
None,
None,
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
None,
config,
OspiWidth::DUAL,
false,
)
}
/// Create new blocking OSPI driver for a quadspi external chip
pub fn new_blocking_quadspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d2, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d3, AFType::OutputPushPull, Speed::VeryHigh),
None,
None,
None,
None,
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
None,
config,
OspiWidth::QUAD,
false,
)
}
/// Create new blocking OSPI driver for two quadspi external chips
pub fn new_blocking_dualquadspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
d4: impl Peripheral<P = impl D4Pin<T>> + 'd,
d5: impl Peripheral<P = impl D5Pin<T>> + 'd,
d6: impl Peripheral<P = impl D6Pin<T>> + 'd,
d7: impl Peripheral<P = impl D7Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d2, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d3, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d4, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d5, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d6, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d7, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
None,
config,
OspiWidth::QUAD,
true,
)
}
/// Create new blocking OSPI driver for octospi external chips
pub fn new_blocking_octospi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
d4: impl Peripheral<P = impl D4Pin<T>> + 'd,
d5: impl Peripheral<P = impl D5Pin<T>> + 'd,
d6: impl Peripheral<P = impl D6Pin<T>> + 'd,
d7: impl Peripheral<P = impl D7Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d2, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d3, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d4, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d5, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d6, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d7, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
None,
config,
OspiWidth::OCTO,
false,
)
}
}
impl<'d, T: Instance> Ospi<'d, T, Async> {
/// Create new blocking OSPI driver for a single spi external chip
pub fn new_singlespi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = impl OctoDma<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::Input, Speed::VeryHigh),
None,
None,
None,
None,
None,
None,
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
new_dma!(dma),
config,
OspiWidth::SING,
false,
)
}
/// Create new blocking OSPI driver for a dualspi external chip
pub fn new_dualspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = impl OctoDma<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::OutputPushPull, Speed::VeryHigh),
None,
None,
None,
None,
None,
None,
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
new_dma!(dma),
config,
OspiWidth::DUAL,
false,
)
}
/// Create new blocking OSPI driver for a quadspi external chip
pub fn new_quadspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = impl OctoDma<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d2, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d3, AFType::OutputPushPull, Speed::VeryHigh),
None,
None,
None,
None,
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
new_dma!(dma),
config,
OspiWidth::QUAD,
false,
)
}
/// Create new blocking OSPI driver for two quadspi external chips
pub fn new_dualquadspi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
d4: impl Peripheral<P = impl D4Pin<T>> + 'd,
d5: impl Peripheral<P = impl D5Pin<T>> + 'd,
d6: impl Peripheral<P = impl D6Pin<T>> + 'd,
d7: impl Peripheral<P = impl D7Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = impl OctoDma<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d2, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d3, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d4, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d5, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d6, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d7, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
new_dma!(dma),
config,
OspiWidth::QUAD,
true,
)
}
/// Create new blocking OSPI driver for octospi external chips
pub fn new_octospi(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckPin<T>> + 'd,
d0: impl Peripheral<P = impl D0Pin<T>> + 'd,
d1: impl Peripheral<P = impl D1Pin<T>> + 'd,
d2: impl Peripheral<P = impl D2Pin<T>> + 'd,
d3: impl Peripheral<P = impl D3Pin<T>> + 'd,
d4: impl Peripheral<P = impl D4Pin<T>> + 'd,
d5: impl Peripheral<P = impl D5Pin<T>> + 'd,
d6: impl Peripheral<P = impl D6Pin<T>> + 'd,
d7: impl Peripheral<P = impl D7Pin<T>> + 'd,
nss: impl Peripheral<P = impl NSSPin<T>> + 'd,
dma: impl Peripheral<P = impl OctoDma<T>> + 'd,
config: Config,
) -> Self {
Self::new_inner(
peri,
new_pin!(d0, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d1, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d2, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d3, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d4, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d5, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d6, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(d7, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(sck, AFType::OutputPushPull, Speed::VeryHigh),
new_pin!(nss, AFType::OutputPushPull, Speed::VeryHigh, Pull::Up),
None,
new_dma!(dma),
config,
OspiWidth::OCTO,
false,
)
}
/// Blocking read with DMA transfer
pub fn blocking_read_dma<W: Word>(&mut self, buf: &mut [W], transaction: TransferConfig) -> Result<(), OspiError> {
if buf.is_empty() {
return Err(OspiError::EmptyBuffer);
}
// Wait for peripheral to be free
while T::REGS.sr().read().busy() {}
self.configure_command(&transaction, Some(buf.len()))?;
let current_address = T::REGS.ar().read().address();
let current_instruction = T::REGS.ir().read().instruction();
// For a indirect read transaction, the transaction begins when the instruction/address is set
T::REGS.cr().modify(|v| v.set_fmode(vals::FunctionalMode::INDIRECTREAD));
if T::REGS.ccr().read().admode() == vals::PhaseMode::NONE {
T::REGS.ir().write(|v| v.set_instruction(current_instruction));
} else {
T::REGS.ar().write(|v| v.set_address(current_address));
}
let transfer = unsafe {
self.dma
.as_mut()
.unwrap()
.read(T::REGS.dr().as_ptr() as *mut W, buf, Default::default())
};
T::REGS.cr().modify(|w| w.set_dmaen(true));
transfer.blocking_wait();
finish_dma(T::REGS);
Ok(())
}
/// Blocking write with DMA transfer
pub fn blocking_write_dma<W: Word>(&mut self, buf: &[W], transaction: TransferConfig) -> Result<(), OspiError> {
if buf.is_empty() {
return Err(OspiError::EmptyBuffer);
}
// Wait for peripheral to be free
while T::REGS.sr().read().busy() {}
self.configure_command(&transaction, Some(buf.len()))?;
T::REGS
.cr()
.modify(|v| v.set_fmode(vals::FunctionalMode::INDIRECTWRITE));
let transfer = unsafe {
self.dma
.as_mut()
.unwrap()
.write(buf, T::REGS.dr().as_ptr() as *mut W, Default::default())
};
T::REGS.cr().modify(|w| w.set_dmaen(true));
transfer.blocking_wait();
finish_dma(T::REGS);
Ok(())
}
/// Asynchronous read from external device
pub async fn read<W: Word>(&mut self, buf: &mut [W], transaction: TransferConfig) -> Result<(), OspiError> {
if buf.is_empty() {
return Err(OspiError::EmptyBuffer);
}
// Wait for peripheral to be free
while T::REGS.sr().read().busy() {}
self.configure_command(&transaction, Some(buf.len()))?;
let current_address = T::REGS.ar().read().address();
let current_instruction = T::REGS.ir().read().instruction();
// For a indirect read transaction, the transaction begins when the instruction/address is set
T::REGS.cr().modify(|v| v.set_fmode(vals::FunctionalMode::INDIRECTREAD));
if T::REGS.ccr().read().admode() == vals::PhaseMode::NONE {
T::REGS.ir().write(|v| v.set_instruction(current_instruction));
} else {
T::REGS.ar().write(|v| v.set_address(current_address));
}
let transfer = unsafe {
self.dma
.as_mut()
.unwrap()
.read(T::REGS.dr().as_ptr() as *mut W, buf, Default::default())
};
T::REGS.cr().modify(|w| w.set_dmaen(true));
transfer.await;
finish_dma(T::REGS);
Ok(())
}
/// Asynchronous write to external device
pub async fn write<W: Word>(&mut self, buf: &[W], transaction: TransferConfig) -> Result<(), OspiError> {
if buf.is_empty() {
return Err(OspiError::EmptyBuffer);
}
// Wait for peripheral to be free
while T::REGS.sr().read().busy() {}
self.configure_command(&transaction, Some(buf.len()))?;
T::REGS
.cr()
.modify(|v| v.set_fmode(vals::FunctionalMode::INDIRECTWRITE));
let transfer = unsafe {
self.dma
.as_mut()
.unwrap()
.write(buf, T::REGS.dr().as_ptr() as *mut W, Default::default())
};
T::REGS.cr().modify(|w| w.set_dmaen(true));
transfer.await;
finish_dma(T::REGS);
Ok(())
}
}
impl<'d, T: Instance, M: PeriMode> Drop for Ospi<'d, T, M> {
fn drop(&mut self) {
self.sck.as_ref().map(|x| x.set_as_disconnected());
self.d0.as_ref().map(|x| x.set_as_disconnected());
@ -1005,7 +1062,7 @@ foreach_peripheral!(
};
);
impl<'d, T: Instance, Dma> SetConfig for Ospi<'d, T, Dma> {
impl<'d, T: Instance, M: PeriMode> SetConfig for Ospi<'d, T, M> {
type Config = Config;
type ConfigError = ();
fn set_config(&mut self, config: &Self::Config) -> Result<(), ()> {
@ -1014,7 +1071,7 @@ impl<'d, T: Instance, Dma> SetConfig for Ospi<'d, T, Dma> {
}
}
impl<'d, T: Instance, Dma> GetConfig for Ospi<'d, T, Dma> {
impl<'d, T: Instance, M: PeriMode> GetConfig for Ospi<'d, T, M> {
type Config = Config;
fn get_config(&self) -> Self::Config {
self.get_config()

24
embassy-stm32/src/rcc/f247.rs
View File

@ -146,17 +146,18 @@ pub(crate) unsafe fn init(config: Config) {
while !PWR.csr1().read().odswrdy() {}
}
// Turn on the HSI
RCC.cr().modify(|w| w.set_hsion(true));
while !RCC.cr().read().hsirdy() {}
// Use the HSI clock as system clock during the actual clock setup
RCC.cfgr().modify(|w| w.set_sw(Sysclk::HSI));
while RCC.cfgr().read().sws() != Sysclk::HSI {}
// Configure HSI
let hsi = match config.hsi {
false => {
RCC.cr().modify(|w| w.set_hsion(false));
None
}
true => {
RCC.cr().modify(|w| w.set_hsion(true));
while !RCC.cr().read().hsirdy() {}
Some(HSI_FREQ)
}
false => None,
true => Some(HSI_FREQ),
};
// Configure HSE
@ -260,6 +261,11 @@ pub(crate) unsafe fn init(config: Config) {
});
while RCC.cfgr().read().sws() != config.sys {}
// Disable HSI if not used
if !config.hsi {
RCC.cr().modify(|w| w.set_hsion(false));
}
config.mux.init();
set_clocks!(

7
embassy-stm32/src/rcc/l.rs
View File

@ -159,6 +159,13 @@ pub(crate) unsafe fn init(config: Config) {
while RCC.cfgr().read().sws() != Sysclk::MSI {}
}
#[cfg(stm32wl)]
{
// Set max latency
FLASH.acr().modify(|w| w.set_prften(true));
FLASH.acr().modify(|w| w.set_latency(2));
}
// Set voltage scale
#[cfg(any(stm32l0, stm32l1))]
{

3
examples/rp/src/bin/interrupt.rs
View File

@ -15,7 +15,6 @@ use embassy_executor::Spawner;
use embassy_rp::adc::{self, Adc, Blocking};
use embassy_rp::gpio::Pull;
use embassy_rp::interrupt;
use embassy_rp::peripherals::PWM_SLICE4;
use embassy_rp::pwm::{Config, Pwm};
use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex;
use embassy_sync::blocking_mutex::Mutex;
@ -26,7 +25,7 @@ use static_cell::StaticCell;
use {defmt_rtt as _, panic_probe as _};
static COUNTER: AtomicU32 = AtomicU32::new(0);
static PWM: Mutex<CriticalSectionRawMutex, RefCell<Option<Pwm<PWM_SLICE4>>>> = Mutex::new(RefCell::new(None));
static PWM: Mutex<CriticalSectionRawMutex, RefCell<Option<Pwm>>> = Mutex::new(RefCell::new(None));
static ADC: Mutex<CriticalSectionRawMutex, RefCell<Option<(Adc<Blocking>, adc::Channel)>>> =
Mutex::new(RefCell::new(None));
static ADC_VALUES: Channel<CriticalSectionRawMutex, u16, 2048> = Channel::new();