#[cfg(bdma)] pub(crate) mod bdma; #[cfg(dma)] pub(crate) mod dma; #[cfg(dmamux)] mod dmamux; #[cfg(gpdma)] mod gpdma; use core::future::Future; use core::mem; use core::pin::Pin; use core::task::{Context, Poll, Waker}; #[cfg(any(dma, bdma))] use embassy_cortex_m::interrupt::Priority; use embassy_hal_common::{impl_peripheral, into_ref}; #[cfg(dmamux)] pub use self::dmamux::*; use crate::Peripheral; #[cfg(feature = "unstable-pac")] pub mod low_level { pub use super::transfers::*; } pub(crate) use transfers::*; #[cfg(any(bdma_v2, dma_v2, dmamux, gpdma))] pub type Request = u8; #[cfg(not(any(bdma_v2, dma_v2, dmamux, gpdma)))] pub type Request = (); pub(crate) mod sealed { use super::*; pub trait Word {} pub trait Channel { /// Starts this channel for writing a stream of words. /// /// Safety: /// - `buf` must point to a valid buffer for DMA reading. /// - `buf` must be alive for the entire duration of the DMA transfer. /// - `reg_addr` must be a valid peripheral register address to write to. unsafe fn start_write( &mut self, request: Request, buf: *const [W], reg_addr: *mut W, options: TransferOptions, ); /// Starts this channel for writing a word repeatedly. /// /// Safety: /// - `reg_addr` must be a valid peripheral register address to write to. unsafe fn start_write_repeated( &mut self, request: Request, repeated: &[W; 1], count: usize, reg_addr: *mut W, options: TransferOptions, ); /// Starts this channel for reading a stream of words. /// /// Safety: /// - `buf` must point to a valid buffer for DMA writing. /// - `buf` must be alive for the entire duration of the DMA transfer. /// - `reg_addr` must be a valid peripheral register address to read from. unsafe fn start_read( &mut self, request: Request, reg_addr: *const W, buf: *mut [W], options: TransferOptions, ); /// DMA double-buffered mode is unsafe as UB can happen when the hardware writes to a buffer currently owned by the software /// more information can be found here: https://github.com/embassy-rs/embassy/issues/702 /// This feature is now used solely for the purposes of implementing giant DMA transfers required for DCMI unsafe fn start_double_buffered_read( &mut self, request: Request, reg_addr: *const W, buffer0: *mut W, buffer1: *mut W, buffer_len: usize, options: TransferOptions, ); unsafe fn set_buffer0(&mut self, buffer: *mut W); unsafe fn set_buffer1(&mut self, buffer: *mut W); unsafe fn is_buffer0_accessible(&mut self) -> bool; /// Requests the channel to stop. /// NOTE: The channel does not immediately stop, you have to wait /// for `is_running() = false`. fn request_stop(&mut self); /// Returns whether this channel is running or stopped. /// /// The channel stops running when it either completes or is manually stopped. fn is_running(&self) -> bool; /// Returns the total number of remaining transfers. fn remaining_transfers(&mut self) -> u16; /// Sets the waker that is called when this channel stops (either completed or manually stopped) fn set_waker(&mut self, waker: &Waker); /// This is called when this channel triggers an interrupt. /// Note: Because some channels share an interrupt, this function might be /// called for a channel that didn't trigger an interrupt. fn on_irq(); } } #[derive(Debug, Copy, Clone, PartialEq, Eq)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub enum WordSize { OneByte, TwoBytes, FourBytes, } impl WordSize { pub fn bytes(&self) -> usize { match self { Self::OneByte => 1, Self::TwoBytes => 2, Self::FourBytes => 4, } } } pub trait Word: sealed::Word { fn bits() -> WordSize; } impl sealed::Word for u8 {} impl Word for u8 { fn bits() -> WordSize { WordSize::OneByte } } impl sealed::Word for u16 {} impl Word for u16 { fn bits() -> WordSize { WordSize::TwoBytes } } impl sealed::Word for u32 {} impl Word for u32 { fn bits() -> WordSize { WordSize::FourBytes } } #[derive(Debug, Copy, Clone, PartialEq, Eq)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub enum Burst { /// Single transfer Single, /// Incremental burst of 4 beats Incr4, /// Incremental burst of 8 beats Incr8, /// Incremental burst of 16 beats Incr16, } #[derive(Debug, Copy, Clone, PartialEq, Eq)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub enum FlowControl { /// Flow control by DMA Dma, /// Flow control by peripheral Peripheral, } #[derive(Debug, Copy, Clone, PartialEq, Eq)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub struct TransferOptions { /// Peripheral burst transfer configuration pub pburst: Burst, /// Memory burst transfer configuration pub mburst: Burst, /// Flow control configuration pub flow_ctrl: FlowControl, } impl Default for TransferOptions { fn default() -> Self { Self { pburst: Burst::Single, mburst: Burst::Single, flow_ctrl: FlowControl::Dma, } } } mod transfers { use embassy_hal_common::PeripheralRef; use super::*; #[allow(unused)] pub fn read<'a, W: Word>( channel: impl Peripheral

+ 'a, request: Request, reg_addr: *mut W, buf: &'a mut [W], ) -> impl Future + 'a { assert!(buf.len() > 0 && buf.len() <= 0xFFFF); into_ref!(channel); unsafe { channel.start_read::(request, reg_addr, buf, Default::default()) }; Transfer::new(channel) } #[allow(unused)] pub fn write<'a, W: Word>( channel: impl Peripheral

+ 'a, request: Request, buf: &'a [W], reg_addr: *mut W, ) -> impl Future + 'a { assert!(buf.len() > 0 && buf.len() <= 0xFFFF); into_ref!(channel); unsafe { channel.start_write::(request, buf, reg_addr, Default::default()) }; Transfer::new(channel) } #[allow(unused)] pub fn write_repeated<'a, W: Word>( channel: impl Peripheral

+ 'a, request: Request, repeated: &[W; 1], count: usize, reg_addr: *mut W, ) -> impl Future + 'a { into_ref!(channel); unsafe { channel.start_write_repeated::(request, repeated, count, reg_addr, Default::default()) }; Transfer::new(channel) } pub(crate) struct Transfer<'a, C: Channel> { channel: PeripheralRef<'a, C>, } impl<'a, C: Channel> Transfer<'a, C> { pub(crate) fn new(channel: impl Peripheral

+ 'a) -> Self { into_ref!(channel); Self { channel } } } impl<'a, C: Channel> Drop for Transfer<'a, C> { fn drop(&mut self) { self.channel.request_stop(); while self.channel.is_running() {} } } impl<'a, C: Channel> Unpin for Transfer<'a, C> {} impl<'a, C: Channel> Future for Transfer<'a, C> { type Output = (); fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll { self.channel.set_waker(cx.waker()); if self.channel.is_running() { Poll::Pending } else { Poll::Ready(()) } } } } pub trait Channel: sealed::Channel + Peripheral

+ 'static {} pub struct NoDma; impl_peripheral!(NoDma); // safety: must be called only once at startup pub(crate) unsafe fn init(#[cfg(bdma)] bdma_priority: Priority, #[cfg(dma)] dma_priority: Priority) { #[cfg(bdma)] bdma::init(bdma_priority); #[cfg(dma)] dma::init(dma_priority); #[cfg(dmamux)] dmamux::init(); #[cfg(gpdma)] gpdma::init(); } // TODO: replace transmutes with core::ptr::metadata once it's stable #[allow(unused)] pub(crate) fn slice_ptr_parts(slice: *const [T]) -> (usize, usize) { unsafe { mem::transmute(slice) } } #[allow(unused)] pub(crate) fn slice_ptr_parts_mut(slice: *mut [T]) -> (usize, usize) { unsafe { mem::transmute(slice) } }