Struct nrf52832::spi::SPIM

pub struct SPIM<'a> { /* private fields */ }

A SPI master device.

A SPIM instance wraps a registers::spim::SPIM together with addition data necessary to implement an asynchronous interface.

Implementations

impl<'a> SPIM<'a>

pub const fn new(instance: usize) -> SPIM<'a>

pub fn handle_interrupt(&self)

pub fn configure(&self, mosi: Pinmux, miso: Pinmux, sck: Pinmux)

Configures an already constructed SPIM.

pub fn enable(&self)

Enables SPIM peripheral.

pub fn disable(&self)

Disables SPIM peripheral.

pub fn is_enabled(&self) -> bool

Trait Implementations

impl<'a> SpiMaster<'a> for SPIM<'a>

type ChipSelect = ChipSelectPolar<'a, GPIOPin<'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.

fn set_client(&self, client: &'a dyn SpiMasterClient)

Change the callback handler for SpiMaster::read_write_bytes calls.

fn init(&self) -> Result<(), ErrorCode>

Initialize this SPI interface. Call this once before invoking any other operations.

fn is_busy(&self) -> bool

Return whether the SPI peripheral is busy with a SpiMaster::read_write_bytes operation.

fn read_write_bytes( &self, tx_buf: SubSliceMut<'static, u8>, rx_buf: 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.

fn write_byte(&self, _val: u8) -> Result<(), ErrorCode>

Synchronously write a single byte on the bus. Not for general use because it is blocking: intended for debugging.

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.

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.

fn specify_chip_select( &self, cs: <SPIM<'a> as SpiMaster<'a>>::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.

fn set_rate(&self, rate: u32) -> Result<u32, ErrorCode>

Set the clock/data rate for the current chip select.

fn get_rate(&self) -> u32

Return the current chip select’s clock rate.

fn set_polarity(&self, polarity: ClockPolarity) -> Result<(), ErrorCode>

Set the bus polarity (whether idle is high or low) for the current chip select.

fn get_polarity(&self) -> ClockPolarity

Return the current bus polarity.

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).

fn get_phase(&self) -> ClockPhase

Get the current bus phase for the current chip select.

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.

fn release_low(&self)

Raise the chip select line after a SpiMaster::read_write_bytes completes. This will complete the SPI operation.