pub struct Spi<'a> { /* private fields */ }
Implementations§
source§impl<'a> Spi<'a>
impl<'a> Spi<'a>
pub const fn new( base_addr: StaticRef<SpiRegisters>, clock: SpiClock<'a>, tx_dma_pid: Dma1Peripheral, rx_dma_pid: Dma1Peripheral, ) -> Spi<'a>
pub fn is_enabled_clock(&self) -> bool
pub fn enable_clock(&self)
pub fn disable_clock(&self)
pub fn set_dma(&self, tx_dma: TxDMA<'a>, rx_dma: RxDMA<'a>)
pub fn handle_interrupt(&self)
Trait Implementations§
source§impl<'a> SpiMaster<'a> for Spi<'a>
impl<'a> SpiMaster<'a> for Spi<'a>
source§fn set_rate(&self, rate: u32) -> Result<u32, ErrorCode>
fn set_rate(&self, rate: u32) -> Result<u32, ErrorCode>
We only support 1Mhz and 4MHz. If rate
is set to any value other than
1_000_000
or 4_000_000
, then this function panics.
source§fn get_rate(&self) -> u32
fn get_rate(&self) -> u32
We only support 1Mhz and 4MHz. If we need to return any other value
than 1_000_000
or 4_000_000
, then this function panics.
§type ChipSelect = &'a Pin<'a>
type ChipSelect = &'a Pin<'a>
Chip select is an associated type because different SPI buses may have
different numbers of chip selects. This allows peripheral
implementations to define their own type.
source§fn set_client(&self, client: &'a dyn SpiMasterClient)
fn set_client(&self, client: &'a dyn SpiMasterClient)
Change the callback handler for
SpiMaster::read_write_bytes
calls.source§fn init(&self) -> Result<(), ErrorCode>
fn init(&self) -> Result<(), ErrorCode>
Initialize this SPI interface. Call this once before invoking any other
operations. Read more
source§fn is_busy(&self) -> bool
fn is_busy(&self) -> bool
Return whether the SPI peripheral is busy with a
SpiMaster::read_write_bytes
operation.source§fn write_byte(&self, out_byte: u8) -> Result<(), ErrorCode>
fn write_byte(&self, out_byte: u8) -> Result<(), ErrorCode>
Synchronously write a single byte on the bus. Not for general use
because it is blocking: intended for debugging. Read more
source§fn read_byte(&self) -> Result<u8, ErrorCode>
fn read_byte(&self) -> Result<u8, ErrorCode>
Synchronously write a 0 and read a single byte from the bus. Not for
general use because it is blocking: intended for debugging. Read more
source§fn read_write_byte(&self, val: u8) -> Result<u8, ErrorCode>
fn read_write_byte(&self, val: u8) -> Result<u8, ErrorCode>
Synchronously write and read a single byte. Not for general use because
it is blocking: intended for debugging. Read more
source§fn read_write_bytes(
&self,
write_buffer: SubSliceMut<'static, u8>,
read_buffer: Option<SubSliceMut<'static, u8>>,
) -> Result<(), (ErrorCode, SubSliceMut<'static, u8>, Option<SubSliceMut<'static, u8>>)>
fn read_write_bytes( &self, write_buffer: SubSliceMut<'static, u8>, read_buffer: Option<SubSliceMut<'static, u8>>, ) -> Result<(), (ErrorCode, SubSliceMut<'static, u8>, Option<SubSliceMut<'static, u8>>)>
Perform an asynchronous read/write operation, whose completion is
signaled by invoking
SpiMasterClient
on the client. Write-only
operations may pass None
for read_buffer
, while read-write
operations pass Some
for read_buffer
. Read moresource§fn set_polarity(&self, polarity: ClockPolarity) -> Result<(), ErrorCode>
fn set_polarity(&self, polarity: ClockPolarity) -> Result<(), ErrorCode>
Set the bus polarity (whether idle is high or low) for the
current chip select. Read more
source§fn get_polarity(&self) -> ClockPolarity
fn get_polarity(&self) -> ClockPolarity
Return the current bus polarity.
source§fn set_phase(&self, phase: ClockPhase) -> Result<(), ErrorCode>
fn set_phase(&self, phase: ClockPhase) -> Result<(), ErrorCode>
Set the bus phase for the current chip select (whether data is
sent/received on leading or trailing edges). Read more
source§fn get_phase(&self) -> ClockPhase
fn get_phase(&self) -> ClockPhase
Get the current bus phase for the current chip select.
source§fn hold_low(&self)
fn hold_low(&self)
Hold the chip select line low after a
SpiMaster::read_write_bytes
completes. This allows a client to make one long SPI read/write with
multiple calls to read_write_bytes
.source§fn release_low(&self)
fn release_low(&self)
Raise the chip select line after a
SpiMaster::read_write_bytes
completes. This will complete the SPI operation.source§fn specify_chip_select(&self, cs: Self::ChipSelect) -> Result<(), ErrorCode>
fn specify_chip_select(&self, cs: Self::ChipSelect) -> Result<(), ErrorCode>
Specify which chip select to use. Configuration settings (rate,
polarity, phase) are chip-select specific and are stored for that chip
select.
source§impl<'a> StreamClient<'a, Dma1<'a>> for Spi<'a>
impl<'a> StreamClient<'a, Dma1<'a>> for Spi<'a>
fn transfer_done(&self, pid: Dma1Peripheral)
Auto Trait Implementations§
impl<'a> !Freeze for Spi<'a>
impl<'a> !RefUnwindSafe for Spi<'a>
impl<'a> !Send for Spi<'a>
impl<'a> !Sync for Spi<'a>
impl<'a> Unpin for Spi<'a>
impl<'a> !UnwindSafe for Spi<'a>
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more