embassy/embassy-stm32/src/dcmi.rs

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use core::task::Poll;
use embassy_hal_common::{into_ref, PeripheralRef};
use embassy_sync::waitqueue::AtomicWaker;
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use futures::future::poll_fn;
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use crate::gpio::sealed::AFType;
use crate::gpio::Speed;
use crate::interrupt::{Interrupt, InterruptExt};
use crate::Peripheral;
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/// The level on the VSync pin when the data is not valid on the parallel interface.
#[derive(Clone, Copy, PartialEq)]
pub enum VSyncDataInvalidLevel {
Low,
High,
}
/// The level on the VSync pin when the data is not valid on the parallel interface.
#[derive(Clone, Copy, PartialEq)]
pub enum HSyncDataInvalidLevel {
Low,
High,
}
#[derive(Clone, Copy, PartialEq)]
pub enum PixelClockPolarity {
RisingEdge,
FallingEdge,
}
pub struct State {
waker: AtomicWaker,
}
impl State {
const fn new() -> State {
State {
waker: AtomicWaker::new(),
}
}
}
static STATE: State = State::new();
#[derive(Debug, Eq, PartialEq, Copy, Clone)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
#[non_exhaustive]
pub enum Error {
Overrun,
PeripheralError,
}
#[non_exhaustive]
pub struct Config {
pub vsync_level: VSyncDataInvalidLevel,
pub hsync_level: HSyncDataInvalidLevel,
pub pixclk_polarity: PixelClockPolarity,
}
impl Default for Config {
fn default() -> Self {
Self {
vsync_level: VSyncDataInvalidLevel::High,
hsync_level: HSyncDataInvalidLevel::Low,
pixclk_polarity: PixelClockPolarity::RisingEdge,
}
}
}
macro_rules! config_pins {
($($pin:ident),*) => {
into_ref!($($pin),*);
// NOTE(unsafe) Exclusive access to the registers
critical_section::with(|_| unsafe {
$(
$pin.set_as_af($pin.af_num(), AFType::Input);
$pin.set_speed(Speed::VeryHigh);
)*
})
};
}
pub struct Dcmi<'d, T: Instance, Dma: FrameDma<T>> {
inner: PeripheralRef<'d, T>,
dma: PeripheralRef<'d, Dma>,
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}
impl<'d, T, Dma> Dcmi<'d, T, Dma>
where
T: Instance,
Dma: FrameDma<T>,
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{
pub fn new_8bit(
peri: impl Peripheral<P = T> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
irq: impl Peripheral<P = T::Interrupt> + '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,
v_sync: impl Peripheral<P = impl VSyncPin<T>> + 'd,
h_sync: impl Peripheral<P = impl HSyncPin<T>> + 'd,
pixclk: impl Peripheral<P = impl PixClkPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(peri, dma, irq);
config_pins!(d0, d1, d2, d3, d4, d5, d6, d7);
config_pins!(v_sync, h_sync, pixclk);
Self::new_inner(peri, dma, irq, config, false, 0b00)
}
pub fn new_10bit(
peri: impl Peripheral<P = T> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
irq: impl Peripheral<P = T::Interrupt> + '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,
d8: impl Peripheral<P = impl D8Pin<T>> + 'd,
d9: impl Peripheral<P = impl D9Pin<T>> + 'd,
v_sync: impl Peripheral<P = impl VSyncPin<T>> + 'd,
h_sync: impl Peripheral<P = impl HSyncPin<T>> + 'd,
pixclk: impl Peripheral<P = impl PixClkPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(peri, dma, irq);
config_pins!(d0, d1, d2, d3, d4, d5, d6, d7, d8, d9);
config_pins!(v_sync, h_sync, pixclk);
Self::new_inner(peri, dma, irq, config, false, 0b01)
}
pub fn new_12bit(
peri: impl Peripheral<P = T> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
irq: impl Peripheral<P = T::Interrupt> + '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,
d8: impl Peripheral<P = impl D8Pin<T>> + 'd,
d9: impl Peripheral<P = impl D9Pin<T>> + 'd,
d10: impl Peripheral<P = impl D10Pin<T>> + 'd,
d11: impl Peripheral<P = impl D11Pin<T>> + 'd,
v_sync: impl Peripheral<P = impl VSyncPin<T>> + 'd,
h_sync: impl Peripheral<P = impl HSyncPin<T>> + 'd,
pixclk: impl Peripheral<P = impl PixClkPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(peri, dma, irq);
config_pins!(d0, d1, d2, d3, d4, d5, d6, d7, d8, d9, d10, d11);
config_pins!(v_sync, h_sync, pixclk);
Self::new_inner(peri, dma, irq, config, false, 0b10)
}
pub fn new_14bit(
peri: impl Peripheral<P = T> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
irq: impl Peripheral<P = T::Interrupt> + '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,
d8: impl Peripheral<P = impl D8Pin<T>> + 'd,
d9: impl Peripheral<P = impl D9Pin<T>> + 'd,
d10: impl Peripheral<P = impl D10Pin<T>> + 'd,
d11: impl Peripheral<P = impl D11Pin<T>> + 'd,
d12: impl Peripheral<P = impl D12Pin<T>> + 'd,
d13: impl Peripheral<P = impl D13Pin<T>> + 'd,
v_sync: impl Peripheral<P = impl VSyncPin<T>> + 'd,
h_sync: impl Peripheral<P = impl HSyncPin<T>> + 'd,
pixclk: impl Peripheral<P = impl PixClkPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(peri, dma, irq);
config_pins!(d0, d1, d2, d3, d4, d5, d6, d7, d8, d9, d10, d11, d12, d13);
config_pins!(v_sync, h_sync, pixclk);
Self::new_inner(peri, dma, irq, config, false, 0b11)
}
pub fn new_es_8bit(
peri: impl Peripheral<P = T> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
irq: impl Peripheral<P = T::Interrupt> + '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,
pixclk: impl Peripheral<P = impl PixClkPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(peri, dma, irq);
config_pins!(d0, d1, d2, d3, d4, d5, d6, d7);
config_pins!(pixclk);
Self::new_inner(peri, dma, irq, config, true, 0b00)
}
pub fn new_es_10bit(
peri: impl Peripheral<P = T> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
irq: impl Peripheral<P = T::Interrupt> + '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,
d8: impl Peripheral<P = impl D8Pin<T>> + 'd,
d9: impl Peripheral<P = impl D9Pin<T>> + 'd,
pixclk: impl Peripheral<P = impl PixClkPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(peri, dma, irq);
config_pins!(d0, d1, d2, d3, d4, d5, d6, d7, d8, d9);
config_pins!(pixclk);
Self::new_inner(peri, dma, irq, config, true, 0b01)
}
pub fn new_es_12bit(
peri: impl Peripheral<P = T> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
irq: impl Peripheral<P = T::Interrupt> + '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,
d8: impl Peripheral<P = impl D8Pin<T>> + 'd,
d9: impl Peripheral<P = impl D9Pin<T>> + 'd,
d10: impl Peripheral<P = impl D10Pin<T>> + 'd,
d11: impl Peripheral<P = impl D11Pin<T>> + 'd,
pixclk: impl Peripheral<P = impl PixClkPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(peri, dma, irq);
config_pins!(d0, d1, d2, d3, d4, d5, d6, d7, d8, d9, d10, d11);
config_pins!(pixclk);
Self::new_inner(peri, dma, irq, config, true, 0b10)
}
pub fn new_es_14bit(
peri: impl Peripheral<P = T> + 'd,
dma: impl Peripheral<P = Dma> + 'd,
irq: impl Peripheral<P = T::Interrupt> + '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,
d8: impl Peripheral<P = impl D8Pin<T>> + 'd,
d9: impl Peripheral<P = impl D9Pin<T>> + 'd,
d10: impl Peripheral<P = impl D10Pin<T>> + 'd,
d11: impl Peripheral<P = impl D11Pin<T>> + 'd,
d12: impl Peripheral<P = impl D12Pin<T>> + 'd,
d13: impl Peripheral<P = impl D13Pin<T>> + 'd,
pixclk: impl Peripheral<P = impl PixClkPin<T>> + 'd,
config: Config,
) -> Self {
into_ref!(peri, dma, irq);
config_pins!(d0, d1, d2, d3, d4, d5, d6, d7, d8, d9, d10, d11, d12, d13);
config_pins!(pixclk);
Self::new_inner(peri, dma, irq, config, true, 0b11)
}
fn new_inner(
peri: PeripheralRef<'d, T>,
dma: PeripheralRef<'d, Dma>,
irq: PeripheralRef<'d, T::Interrupt>,
config: Config,
use_embedded_synchronization: bool,
edm: u8,
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) -> Self {
T::reset();
T::enable();
unsafe {
peri.regs().cr().modify(|r| {
r.set_cm(true); // disable continuous mode (snapshot mode)
r.set_ess(use_embedded_synchronization);
r.set_pckpol(config.pixclk_polarity == PixelClockPolarity::RisingEdge);
r.set_vspol(config.vsync_level == VSyncDataInvalidLevel::High);
r.set_hspol(config.hsync_level == HSyncDataInvalidLevel::High);
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r.set_fcrc(0x00); // capture every frame
r.set_edm(edm); // extended data mode
});
}
irq.set_handler(Self::on_interrupt);
irq.unpend();
irq.enable();
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Self { inner: peri, dma }
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}
unsafe fn on_interrupt(_: *mut ()) {
let ris = crate::pac::DCMI.ris().read();
if ris.err_ris() {
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trace!("DCMI IRQ: Error.");
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crate::pac::DCMI.ier().modify(|ier| ier.set_err_ie(false));
}
if ris.ovr_ris() {
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trace!("DCMI IRQ: Overrun.");
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crate::pac::DCMI.ier().modify(|ier| ier.set_ovr_ie(false));
}
if ris.frame_ris() {
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trace!("DCMI IRQ: Frame captured.");
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crate::pac::DCMI.ier().modify(|ier| ier.set_frame_ie(false));
}
STATE.waker.wake();
}
unsafe fn toggle(enable: bool) {
crate::pac::DCMI.cr().modify(|r| {
r.set_enable(enable);
r.set_capture(enable);
})
}
fn enable_irqs() {
unsafe {
crate::pac::DCMI.ier().modify(|r| {
r.set_err_ie(true);
r.set_ovr_ie(true);
r.set_frame_ie(true);
});
}
}
fn clear_interrupt_flags() {
unsafe {
crate::pac::DCMI.icr().write(|r| {
r.set_ovr_isc(true);
r.set_err_isc(true);
r.set_frame_isc(true);
})
}
}
/// This method starts the capture and finishes when both the dma transfer and DCMI finish the frame transfer.
/// The implication is that the input buffer size must be exactly the size of the captured frame.
///
/// Note that when `buffer.len() > 0xffff` the capture future requires some real-time guarantees to be upheld
/// (must be polled fast enough so the buffers get switched before data is overwritten).
/// It is therefore recommended that it is run on higher priority executor.
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pub async fn capture(&mut self, buffer: &mut [u32]) -> Result<(), Error> {
if buffer.len() <= 0xffff {
return self.capture_small(buffer).await;
} else {
return self.capture_giant(buffer).await;
}
}
async fn capture_small(&mut self, buffer: &mut [u32]) -> Result<(), Error> {
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let channel = &mut self.dma;
let request = channel.request();
let r = self.inner.regs();
let src = r.dr().ptr() as *mut u32;
let dma_read = crate::dma::read(channel, request, src, buffer);
Self::clear_interrupt_flags();
Self::enable_irqs();
unsafe { Self::toggle(true) };
let result = poll_fn(|cx| {
STATE.waker.register(cx.waker());
let ris = unsafe { crate::pac::DCMI.ris().read() };
if ris.err_ris() {
unsafe {
crate::pac::DCMI.icr().write(|r| {
r.set_err_isc(true);
})
};
Poll::Ready(Err(Error::PeripheralError))
} else if ris.ovr_ris() {
unsafe {
crate::pac::DCMI.icr().write(|r| {
r.set_ovr_isc(true);
})
};
Poll::Ready(Err(Error::Overrun))
} else if ris.frame_ris() {
unsafe {
crate::pac::DCMI.icr().write(|r| {
r.set_frame_isc(true);
})
};
Poll::Ready(Ok(()))
} else {
Poll::Pending
}
});
let (_, result) = futures::future::join(dma_read, result).await;
unsafe { Self::toggle(false) };
result
}
async fn capture_giant(&mut self, buffer: &mut [u32]) -> Result<(), Error> {
use crate::dma::TransferOptions;
let data_len = buffer.len();
let chunk_estimate = data_len / 0xffff;
let mut chunks = chunk_estimate + 1;
while data_len % chunks != 0 {
chunks += 1;
}
let chunk_size = data_len / chunks;
let mut remaining_chunks = chunks - 2;
let mut m0ar = buffer.as_mut_ptr();
let mut m1ar = unsafe { buffer.as_mut_ptr().add(chunk_size) };
let channel = &mut self.dma;
let request = channel.request();
let r = self.inner.regs();
let src = r.dr().ptr() as *mut u32;
unsafe {
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channel.start_double_buffered_read(request, src, m0ar, m1ar, chunk_size, TransferOptions::default());
}
let mut last_chunk_set_for_transfer = false;
let mut buffer0_last_accessible = false;
let dma_result = poll_fn(|cx| {
channel.set_waker(cx.waker());
let buffer0_currently_accessible = unsafe { channel.is_buffer0_accessible() };
// check if the accessible buffer changed since last poll
if buffer0_last_accessible == buffer0_currently_accessible {
return Poll::Pending;
}
buffer0_last_accessible = !buffer0_last_accessible;
if remaining_chunks != 0 {
if remaining_chunks % 2 == 0 && buffer0_currently_accessible {
m0ar = unsafe { m0ar.add(2 * chunk_size) };
unsafe { channel.set_buffer0(m0ar) }
remaining_chunks -= 1;
} else if !buffer0_currently_accessible {
m1ar = unsafe { m1ar.add(2 * chunk_size) };
unsafe { channel.set_buffer1(m1ar) };
remaining_chunks -= 1;
}
} else {
if buffer0_currently_accessible {
unsafe { channel.set_buffer0(buffer.as_mut_ptr()) }
} else {
unsafe { channel.set_buffer1(buffer.as_mut_ptr()) }
}
if last_chunk_set_for_transfer {
channel.request_stop();
return Poll::Ready(());
}
last_chunk_set_for_transfer = true;
}
Poll::Pending
});
Self::clear_interrupt_flags();
Self::enable_irqs();
let result = poll_fn(|cx| {
STATE.waker.register(cx.waker());
let ris = unsafe { crate::pac::DCMI.ris().read() };
if ris.err_ris() {
unsafe {
crate::pac::DCMI.icr().write(|r| {
r.set_err_isc(true);
})
};
Poll::Ready(Err(Error::PeripheralError))
} else if ris.ovr_ris() {
unsafe {
crate::pac::DCMI.icr().write(|r| {
r.set_ovr_isc(true);
})
};
Poll::Ready(Err(Error::Overrun))
} else if ris.frame_ris() {
unsafe {
crate::pac::DCMI.icr().write(|r| {
r.set_frame_isc(true);
})
};
Poll::Ready(Ok(()))
} else {
Poll::Pending
}
});
unsafe { Self::toggle(true) };
let (_, result) = futures::future::join(dma_result, result).await;
unsafe { Self::toggle(false) };
result
}
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}
mod sealed {
pub trait Instance: crate::rcc::RccPeripheral {
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fn regs(&self) -> crate::pac::dcmi::Dcmi;
}
}
pub trait Instance: sealed::Instance + 'static {
type Interrupt: Interrupt;
}
pin_trait!(D0Pin, Instance);
pin_trait!(D1Pin, Instance);
pin_trait!(D2Pin, Instance);
pin_trait!(D3Pin, Instance);
pin_trait!(D4Pin, Instance);
pin_trait!(D5Pin, Instance);
pin_trait!(D6Pin, Instance);
pin_trait!(D7Pin, Instance);
pin_trait!(D8Pin, Instance);
pin_trait!(D9Pin, Instance);
pin_trait!(D10Pin, Instance);
pin_trait!(D11Pin, Instance);
pin_trait!(D12Pin, Instance);
pin_trait!(D13Pin, Instance);
pin_trait!(HSyncPin, Instance);
pin_trait!(VSyncPin, Instance);
pin_trait!(PixClkPin, Instance);
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// allow unused as U5 sources do not contain interrupt nor dma data
#[allow(unused)]
macro_rules! impl_peripheral {
($inst:ident, $irq:ident) => {
impl sealed::Instance for crate::peripherals::$inst {
fn regs(&self) -> crate::pac::dcmi::Dcmi {
crate::pac::$inst
}
}
impl Instance for crate::peripherals::$inst {
type Interrupt = crate::interrupt::$irq;
}
};
}
foreach_interrupt! {
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($inst:ident, dcmi, $block:ident, GLOBAL, $irq:ident) => {
impl_peripheral!($inst, $irq);
};
}
dma_trait!(FrameDma, Instance);