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//! SPI master mode traits.
pub use embedded_hal::spi::{
Error, ErrorKind, ErrorType, Mode, Operation, Phase, Polarity, MODE_0, MODE_1, MODE_2, MODE_3,
};
/// SPI device trait
///
/// `SpiDevice` represents ownership over a single SPI device on a (possibly shared) bus, selected
/// with a CS (Chip Select) pin.
///
/// See (the docs on embedded-hal)[embedded_hal::spi] for important information on SPI Bus vs Device traits.
pub trait SpiDevice<Word: Copy + 'static = u8>: ErrorType {
/// Perform a transaction against the device.
///
/// - Locks the bus
/// - Asserts the CS (Chip Select) pin.
/// - Performs all the operations.
/// - [Flushes](SpiBus::flush) the bus.
/// - Deasserts the CS pin.
/// - Unlocks the bus.
///
/// The locking mechanism is implementation-defined. The only requirement is it must prevent two
/// transactions from executing concurrently against the same bus. Examples of implementations are:
/// critical sections, blocking mutexes, returning an error or panicking if the bus is already busy.
///
/// On bus errors the implementation should try to deassert CS.
/// If an error occurs while deasserting CS the bus error should take priority as the return value.
async fn transaction(
&mut self,
operations: &mut [Operation<'_, Word>],
) -> Result<(), Self::Error>;
/// Do a read within a transaction.
///
/// This is a convenience method equivalent to `device.read_transaction(&mut [buf])`.
///
/// See also: [`SpiDevice::transaction`], [`SpiDevice::read`]
async fn read(&mut self, buf: &mut [Word]) -> Result<(), Self::Error> {
self.transaction(&mut [Operation::Read(buf)]).await
}
/// Do a write within a transaction.
///
/// This is a convenience method equivalent to `device.write_transaction(&mut [buf])`.
///
/// See also: [`SpiDevice::transaction`], [`SpiDevice::write`]
async fn write(&mut self, buf: &[Word]) -> Result<(), Self::Error> {
self.transaction(&mut [Operation::Write(buf)]).await
}
/// Do a transfer within a transaction.
///
/// This is a convenience method equivalent to `device.transaction(|bus| bus.transfer(read, write))`.
///
/// See also: [`SpiDevice::transaction`], [`SpiBus::transfer`]
async fn transfer(&mut self, read: &mut [Word], write: &[Word]) -> Result<(), Self::Error> {
self.transaction(&mut [Operation::Transfer(read, write)])
.await
}
/// Do an in-place transfer within a transaction.
///
/// This is a convenience method equivalent to `device.transaction(|bus| bus.transfer_in_place(buf))`.
///
/// See also: [`SpiDevice::transaction`], [`SpiBus::transfer_in_place`]
async fn transfer_in_place(&mut self, buf: &mut [Word]) -> Result<(), Self::Error> {
self.transaction(&mut [Operation::TransferInPlace(buf)])
.await
}
}
impl<Word: Copy + 'static, T: SpiDevice<Word> + ?Sized> SpiDevice<Word> for &mut T {
async fn transaction(
&mut self,
operations: &mut [Operation<'_, Word>],
) -> Result<(), Self::Error> {
T::transaction(self, operations).await
}
async fn read(&mut self, buf: &mut [Word]) -> Result<(), Self::Error> {
T::read(self, buf).await
}
async fn write(&mut self, buf: &[Word]) -> Result<(), Self::Error> {
T::write(self, buf).await
}
async fn transfer(&mut self, read: &mut [Word], write: &[Word]) -> Result<(), Self::Error> {
T::transfer(self, read, write).await
}
async fn transfer_in_place(&mut self, buf: &mut [Word]) -> Result<(), Self::Error> {
T::transfer_in_place(self, buf).await
}
}
/// SPI bus
///
/// `SpiBus` represents **exclusive ownership** over the whole SPI bus, with SCK, MOSI and MISO pins.
///
/// See (the docs on embedded-hal)[embedded_hal::spi] for important information on SPI Bus vs Device traits.
pub trait SpiBus<Word: 'static + Copy = u8>: ErrorType {
/// Read `words` from the slave.
///
/// The word value sent on MOSI during reading is implementation-defined,
/// typically `0x00`, `0xFF`, or configurable.
///
/// Implementations are allowed to return before the operation is
/// complete. See (the docs on embedded-hal)[embedded_hal::spi] for details on flushing.
async fn read(&mut self, words: &mut [Word]) -> Result<(), Self::Error>;
/// Write `words` to the slave, ignoring all the incoming words
///
/// Implementations are allowed to return before the operation is
/// complete. See (the docs on embedded-hal)[embedded_hal::spi] for details on flushing.
async fn write(&mut self, words: &[Word]) -> Result<(), Self::Error>;
/// Write and read simultaneously. `write` is written to the slave on MOSI and
/// words received on MISO are stored in `read`.
///
/// It is allowed for `read` and `write` to have different lengths, even zero length.
/// The transfer runs for `max(read.len(), write.len())` words. If `read` is shorter,
/// incoming words after `read` has been filled will be discarded. If `write` is shorter,
/// the value of words sent in MOSI after all `write` has been sent is implementation-defined,
/// typically `0x00`, `0xFF`, or configurable.
///
/// Implementations are allowed to return before the operation is
/// complete. See (the docs on embedded-hal)[embedded_hal::spi] for details on flushing.
async fn transfer(&mut self, read: &mut [Word], write: &[Word]) -> Result<(), Self::Error>;
/// Write and read simultaneously. The contents of `words` are
/// written to the slave, and the received words are stored into the same
/// `words` buffer, overwriting it.
///
/// Implementations are allowed to return before the operation is
/// complete. See (the docs on embedded-hal)[embedded_hal::spi] for details on flushing.
async fn transfer_in_place(&mut self, words: &mut [Word]) -> Result<(), Self::Error>;
/// Wait until all operations have completed and the bus is idle.
///
/// See (the docs on embedded-hal)[embedded_hal::spi] for information on flushing.
async fn flush(&mut self) -> Result<(), Self::Error>;
}
impl<T: SpiBus<Word> + ?Sized, Word: 'static + Copy> SpiBus<Word> for &mut T {
async fn read(&mut self, words: &mut [Word]) -> Result<(), Self::Error> {
T::read(self, words).await
}
async fn write(&mut self, words: &[Word]) -> Result<(), Self::Error> {
T::write(self, words).await
}
async fn transfer(&mut self, read: &mut [Word], write: &[Word]) -> Result<(), Self::Error> {
T::transfer(self, read, write).await
}
async fn transfer_in_place(&mut self, words: &mut [Word]) -> Result<(), Self::Error> {
T::transfer_in_place(self, words).await
}
async fn flush(&mut self) -> Result<(), Self::Error> {
T::flush(self).await
}
}