Merge #1042
1042: embassy-nrf: Add SPIS module r=Dirbaio a=kalkyl Verified to be working on nrf9160 Co-authored-by: Henrik Alsér <henrik.alser@me.com> Co-authored-by: Henrik Alsér <henrik.alser@ucsmindbite.se> Co-authored-by: kalkyl <henrik.alser@me.com>
This commit is contained in:
commit
97cb95bbf4
@ -131,6 +131,8 @@ impl_uarte!(UARTE0, UARTE0, UARTE0_UART0);
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impl_spim!(SPI0, SPIM0, SPIM0_SPIS0_SPI0);
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impl_spis!(SPI0, SPIS0, SPIM0_SPIS0_SPI0);
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impl_twim!(TWI0, TWIM0, TWIM0_TWIS0_TWI0);
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impl_timer!(TIMER0, TIMER0, TIMER0);
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@ -137,6 +137,8 @@ impl_uarte!(UARTE0, UARTE0, UARTE0_UART0);
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impl_spim!(SPI0, SPIM0, SPIM0_SPIS0_SPI0);
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impl_spis!(SPI0, SPIS0, SPIM0_SPIS0_SPI0);
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impl_twim!(TWI0, TWIM0, TWIM0_TWIS0_TWI0);
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impl_pwm!(PWM0, PWM0, PWM0);
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@ -138,6 +138,9 @@ impl_uarte!(UARTE0, UARTE0, UARTE0_UART0);
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impl_spim!(TWISPI0, SPIM0, TWIM0_TWIS0_TWI0_SPIM0_SPIS0_SPI0);
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impl_spim!(SPI1, SPIM1, SPIM1_SPIS1_SPI1);
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impl_spis!(TWISPI0, SPIS0, TWIM0_TWIS0_TWI0_SPIM0_SPIS0_SPI0);
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impl_spis!(SPI1, SPIS1, SPIM1_SPIS1_SPI1);
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impl_twim!(TWISPI0, TWIM0, TWIM0_TWIS0_TWI0_SPIM0_SPIS0_SPI0);
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impl_pwm!(PWM0, PWM0, PWM0);
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@ -136,6 +136,9 @@ impl_uarte!(UARTE0, UARTE0, UARTE0_UART0);
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impl_spim!(TWISPI0, SPIM0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_spim!(TWISPI1, SPIM1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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impl_spis!(TWISPI0, SPIS0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_spis!(TWISPI1, SPIS1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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impl_twim!(TWISPI0, TWIM0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_twim!(TWISPI1, TWIM1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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@ -146,6 +146,10 @@ impl_spim!(TWISPI0, SPIM0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_spim!(TWISPI1, SPIM1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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impl_spim!(SPI2, SPIM2, SPIM2_SPIS2_SPI2);
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impl_spis!(TWISPI0, SPIS0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_spis!(TWISPI1, SPIS1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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impl_spis!(SPI2, SPIS2, SPIM2_SPIS2_SPI2);
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impl_twim!(TWISPI0, TWIM0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_twim!(TWISPI1, TWIM1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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@ -174,6 +174,10 @@ impl_spim!(TWISPI1, SPIM1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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impl_spim!(SPI2, SPIM2, SPIM2_SPIS2_SPI2);
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impl_spim!(SPI3, SPIM3, SPIM3);
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impl_spis!(TWISPI0, SPIS0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_spis!(TWISPI1, SPIS1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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impl_spis!(SPI2, SPIS2, SPIM2_SPIS2_SPI2);
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impl_twim!(TWISPI0, TWIM0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_twim!(TWISPI1, TWIM1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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@ -177,6 +177,10 @@ impl_spim!(TWISPI1, SPIM1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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impl_spim!(SPI2, SPIM2, SPIM2_SPIS2_SPI2);
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impl_spim!(SPI3, SPIM3, SPIM3);
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impl_spis!(TWISPI0, SPIS0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_spis!(TWISPI1, SPIS1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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impl_spis!(SPI2, SPIS2, SPIM2_SPIS2_SPI2);
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impl_twim!(TWISPI0, TWIM0, SPIM0_SPIS0_TWIM0_TWIS0_SPI0_TWI0);
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impl_twim!(TWISPI1, TWIM1, SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
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@ -361,6 +361,11 @@ impl_spim!(UARTETWISPI1, SPIM1, SERIAL1);
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impl_spim!(UARTETWISPI2, SPIM2, SERIAL2);
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impl_spim!(UARTETWISPI3, SPIM3, SERIAL3);
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impl_spis!(UARTETWISPI0, SPIS0, SERIAL0);
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impl_spis!(UARTETWISPI1, SPIS1, SERIAL1);
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impl_spis!(UARTETWISPI2, SPIS2, SERIAL2);
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impl_spis!(UARTETWISPI3, SPIS3, SERIAL3);
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impl_twim!(UARTETWISPI0, TWIM0, SERIAL0);
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impl_twim!(UARTETWISPI1, TWIM1, SERIAL1);
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impl_twim!(UARTETWISPI2, TWIM2, SERIAL2);
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@ -238,6 +238,7 @@ embassy_hal_common::peripherals! {
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impl_uarte!(UARTETWISPI0, UARTE0, SERIAL0);
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impl_spim!(UARTETWISPI0, SPIM0, SERIAL0);
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impl_spis!(UARTETWISPI0, SPIS0, SERIAL0);
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impl_twim!(UARTETWISPI0, TWIM0, SERIAL0);
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impl_timer!(TIMER0, TIMER0, TIMER0);
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@ -275,6 +275,11 @@ impl_spim!(UARTETWISPI1, SPIM1, UARTE1_SPIM1_SPIS1_TWIM1_TWIS1);
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impl_spim!(UARTETWISPI2, SPIM2, UARTE2_SPIM2_SPIS2_TWIM2_TWIS2);
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impl_spim!(UARTETWISPI3, SPIM3, UARTE3_SPIM3_SPIS3_TWIM3_TWIS3);
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impl_spis!(UARTETWISPI0, SPIS0, UARTE0_SPIM0_SPIS0_TWIM0_TWIS0);
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impl_spis!(UARTETWISPI1, SPIS1, UARTE1_SPIM1_SPIS1_TWIM1_TWIS1);
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impl_spis!(UARTETWISPI2, SPIS2, UARTE2_SPIM2_SPIS2_TWIM2_TWIS2);
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impl_spis!(UARTETWISPI3, SPIS3, UARTE3_SPIM3_SPIS3_TWIM3_TWIS3);
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impl_twim!(UARTETWISPI0, TWIM0, UARTE0_SPIM0_SPIS0_TWIM0_TWIS0);
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impl_twim!(UARTETWISPI1, TWIM1, UARTE1_SPIM1_SPIS1_TWIM1_TWIS1);
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impl_twim!(UARTETWISPI2, TWIM2, UARTE2_SPIM2_SPIS2_TWIM2_TWIS2);
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@ -96,6 +96,7 @@ pub mod rng;
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#[cfg(not(any(feature = "nrf52820", feature = "_nrf5340-net")))]
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pub mod saadc;
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pub mod spim;
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pub mod spis;
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#[cfg(not(any(feature = "_nrf5340", feature = "_nrf9160")))]
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pub mod temp;
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pub mod timer;
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539
embassy-nrf/src/spis.rs
Normal file
539
embassy-nrf/src/spis.rs
Normal file
@ -0,0 +1,539 @@
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#![macro_use]
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use core::future::poll_fn;
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use core::sync::atomic::{compiler_fence, Ordering};
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use core::task::Poll;
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use embassy_embedded_hal::SetConfig;
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use embassy_hal_common::{into_ref, PeripheralRef};
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pub use embedded_hal_02::spi::{Mode, Phase, Polarity, MODE_0, MODE_1, MODE_2, MODE_3};
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use crate::chip::FORCE_COPY_BUFFER_SIZE;
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use crate::gpio::sealed::Pin as _;
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use crate::gpio::{self, AnyPin, Pin as GpioPin};
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use crate::interrupt::{Interrupt, InterruptExt};
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use crate::util::{slice_in_ram_or, slice_ptr_parts, slice_ptr_parts_mut};
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use crate::{pac, Peripheral};
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#[derive(Debug, Clone, Copy, PartialEq, Eq)]
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#[cfg_attr(feature = "defmt", derive(defmt::Format))]
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#[non_exhaustive]
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pub enum Error {
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TxBufferTooLong,
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RxBufferTooLong,
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/// EasyDMA can only read from data memory, read only buffers in flash will fail.
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DMABufferNotInDataMemory,
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}
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/// Interface for the SPIS peripheral using EasyDMA to offload the transmission and reception workload.
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///
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/// For more details about EasyDMA, consult the module documentation.
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pub struct Spis<'d, T: Instance> {
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_p: PeripheralRef<'d, T>,
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}
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#[non_exhaustive]
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pub struct Config {
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pub mode: Mode,
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pub orc: u8,
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pub def: u8,
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pub auto_acquire: bool,
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}
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impl Default for Config {
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fn default() -> Self {
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Self {
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mode: MODE_0,
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orc: 0x00,
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def: 0x00,
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auto_acquire: true,
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}
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}
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}
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impl<'d, T: Instance> Spis<'d, T> {
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pub fn new(
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spis: impl Peripheral<P = T> + 'd,
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irq: impl Peripheral<P = T::Interrupt> + 'd,
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cs: impl Peripheral<P = impl GpioPin> + 'd,
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sck: impl Peripheral<P = impl GpioPin> + 'd,
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miso: impl Peripheral<P = impl GpioPin> + 'd,
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mosi: impl Peripheral<P = impl GpioPin> + 'd,
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config: Config,
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) -> Self {
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into_ref!(cs, sck, miso, mosi);
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Self::new_inner(
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spis,
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irq,
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cs.map_into(),
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sck.map_into(),
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Some(miso.map_into()),
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Some(mosi.map_into()),
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config,
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)
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}
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pub fn new_txonly(
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spis: impl Peripheral<P = T> + 'd,
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irq: impl Peripheral<P = T::Interrupt> + 'd,
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cs: impl Peripheral<P = impl GpioPin> + 'd,
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sck: impl Peripheral<P = impl GpioPin> + 'd,
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miso: impl Peripheral<P = impl GpioPin> + 'd,
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config: Config,
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) -> Self {
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into_ref!(cs, sck, miso);
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Self::new_inner(
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spis,
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irq,
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cs.map_into(),
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sck.map_into(),
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Some(miso.map_into()),
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None,
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config,
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)
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}
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pub fn new_rxonly(
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spis: impl Peripheral<P = T> + 'd,
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irq: impl Peripheral<P = T::Interrupt> + 'd,
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cs: impl Peripheral<P = impl GpioPin> + 'd,
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sck: impl Peripheral<P = impl GpioPin> + 'd,
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mosi: impl Peripheral<P = impl GpioPin> + 'd,
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config: Config,
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) -> Self {
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into_ref!(cs, sck, mosi);
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Self::new_inner(
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spis,
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irq,
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cs.map_into(),
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sck.map_into(),
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None,
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Some(mosi.map_into()),
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config,
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)
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}
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fn new_inner(
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spis: impl Peripheral<P = T> + 'd,
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irq: impl Peripheral<P = T::Interrupt> + 'd,
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cs: PeripheralRef<'d, AnyPin>,
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sck: PeripheralRef<'d, AnyPin>,
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miso: Option<PeripheralRef<'d, AnyPin>>,
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mosi: Option<PeripheralRef<'d, AnyPin>>,
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config: Config,
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) -> Self {
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compiler_fence(Ordering::SeqCst);
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into_ref!(spis, irq, cs, sck);
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let r = T::regs();
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// Configure pins.
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sck.conf().write(|w| w.input().connect().drive().h0h1());
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r.psel.sck.write(|w| unsafe { w.bits(sck.psel_bits()) });
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cs.conf().write(|w| w.input().connect().drive().h0h1());
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r.psel.csn.write(|w| unsafe { w.bits(cs.psel_bits()) });
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if let Some(mosi) = &mosi {
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mosi.conf().write(|w| w.input().connect().drive().h0h1());
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r.psel.mosi.write(|w| unsafe { w.bits(mosi.psel_bits()) });
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}
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if let Some(miso) = &miso {
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miso.conf().write(|w| w.dir().output().drive().h0h1());
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r.psel.miso.write(|w| unsafe { w.bits(miso.psel_bits()) });
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}
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// Enable SPIS instance.
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r.enable.write(|w| w.enable().enabled());
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// Configure mode.
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let mode = config.mode;
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r.config.write(|w| {
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match mode {
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MODE_0 => {
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w.order().msb_first();
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w.cpol().active_high();
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w.cpha().leading();
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}
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MODE_1 => {
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w.order().msb_first();
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w.cpol().active_high();
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w.cpha().trailing();
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}
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MODE_2 => {
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w.order().msb_first();
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w.cpol().active_low();
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w.cpha().leading();
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}
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MODE_3 => {
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w.order().msb_first();
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w.cpol().active_low();
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w.cpha().trailing();
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}
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}
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w
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});
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// Set over-read character.
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let orc = config.orc;
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r.orc.write(|w| unsafe { w.orc().bits(orc) });
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// Set default character.
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let def = config.def;
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r.def.write(|w| unsafe { w.def().bits(def) });
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// Configure auto-acquire on 'transfer end' event.
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if config.auto_acquire {
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r.shorts.write(|w| w.end_acquire().bit(true));
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}
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// Disable all events interrupts.
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r.intenclr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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irq.set_handler(Self::on_interrupt);
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irq.unpend();
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irq.enable();
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Self { _p: spis }
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}
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fn on_interrupt(_: *mut ()) {
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let r = T::regs();
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let s = T::state();
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if r.events_end.read().bits() != 0 {
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s.waker.wake();
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r.intenclr.write(|w| w.end().clear());
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}
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if r.events_acquired.read().bits() != 0 {
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s.waker.wake();
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r.intenclr.write(|w| w.acquired().clear());
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}
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}
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fn prepare(&mut self, rx: *mut [u8], tx: *const [u8]) -> Result<(), Error> {
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slice_in_ram_or(tx, Error::DMABufferNotInDataMemory)?;
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// NOTE: RAM slice check for rx is not necessary, as a mutable
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// slice can only be built from data located in RAM.
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compiler_fence(Ordering::SeqCst);
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let r = T::regs();
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// Set up the DMA write.
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let (ptr, len) = slice_ptr_parts(tx);
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r.txd.ptr.write(|w| unsafe { w.ptr().bits(ptr as _) });
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r.txd.maxcnt.write(|w| unsafe { w.maxcnt().bits(len as _) });
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// Set up the DMA read.
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let (ptr, len) = slice_ptr_parts_mut(rx);
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r.rxd.ptr.write(|w| unsafe { w.ptr().bits(ptr as _) });
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r.rxd.maxcnt.write(|w| unsafe { w.maxcnt().bits(len as _) });
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// Reset end event.
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r.events_end.reset();
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// Release the semaphore.
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r.tasks_release.write(|w| unsafe { w.bits(1) });
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Ok(())
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}
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fn blocking_inner_from_ram(&mut self, rx: *mut [u8], tx: *const [u8]) -> Result<(usize, usize), Error> {
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compiler_fence(Ordering::SeqCst);
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let r = T::regs();
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// Acquire semaphore.
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if r.semstat.read().bits() != 1 {
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r.events_acquired.reset();
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r.tasks_acquire.write(|w| unsafe { w.bits(1) });
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// Wait until CPU has acquired the semaphore.
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while r.semstat.read().bits() != 1 {}
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}
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self.prepare(rx, tx)?;
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// Wait for 'end' event.
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while r.events_end.read().bits() == 0 {}
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let n_rx = r.rxd.amount.read().bits() as usize;
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let n_tx = r.txd.amount.read().bits() as usize;
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compiler_fence(Ordering::SeqCst);
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Ok((n_rx, n_tx))
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}
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fn blocking_inner(&mut self, rx: &mut [u8], tx: &[u8]) -> Result<(usize, usize), Error> {
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match self.blocking_inner_from_ram(rx, tx) {
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Ok(n) => Ok(n),
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Err(Error::DMABufferNotInDataMemory) => {
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trace!("Copying SPIS tx buffer into RAM for DMA");
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||||
let tx_ram_buf = &mut [0; FORCE_COPY_BUFFER_SIZE][..tx.len()];
|
||||
tx_ram_buf.copy_from_slice(tx);
|
||||
self.blocking_inner_from_ram(rx, tx_ram_buf)
|
||||
}
|
||||
Err(error) => Err(error),
|
||||
}
|
||||
}
|
||||
|
||||
async fn async_inner_from_ram(&mut self, rx: *mut [u8], tx: *const [u8]) -> Result<(usize, usize), Error> {
|
||||
let r = T::regs();
|
||||
let s = T::state();
|
||||
|
||||
// Clear status register.
|
||||
r.status.write(|w| w.overflow().clear().overread().clear());
|
||||
|
||||
// Acquire semaphore.
|
||||
if r.semstat.read().bits() != 1 {
|
||||
// Reset and enable the acquire event.
|
||||
r.events_acquired.reset();
|
||||
r.intenset.write(|w| w.acquired().set());
|
||||
|
||||
// Request acquiring the SPIS semaphore.
|
||||
r.tasks_acquire.write(|w| unsafe { w.bits(1) });
|
||||
|
||||
// Wait until CPU has acquired the semaphore.
|
||||
poll_fn(|cx| {
|
||||
s.waker.register(cx.waker());
|
||||
if r.events_acquired.read().bits() == 1 {
|
||||
r.events_acquired.reset();
|
||||
return Poll::Ready(());
|
||||
}
|
||||
Poll::Pending
|
||||
})
|
||||
.await;
|
||||
}
|
||||
|
||||
self.prepare(rx, tx)?;
|
||||
|
||||
// Wait for 'end' event.
|
||||
r.intenset.write(|w| w.end().set());
|
||||
poll_fn(|cx| {
|
||||
s.waker.register(cx.waker());
|
||||
if r.events_end.read().bits() != 0 {
|
||||
r.events_end.reset();
|
||||
return Poll::Ready(());
|
||||
}
|
||||
Poll::Pending
|
||||
})
|
||||
.await;
|
||||
|
||||
let n_rx = r.rxd.amount.read().bits() as usize;
|
||||
let n_tx = r.txd.amount.read().bits() as usize;
|
||||
|
||||
compiler_fence(Ordering::SeqCst);
|
||||
|
||||
Ok((n_rx, n_tx))
|
||||
}
|
||||
|
||||
async fn async_inner(&mut self, rx: &mut [u8], tx: &[u8]) -> Result<(usize, usize), Error> {
|
||||
match self.async_inner_from_ram(rx, tx).await {
|
||||
Ok(n) => Ok(n),
|
||||
Err(Error::DMABufferNotInDataMemory) => {
|
||||
trace!("Copying SPIS tx buffer into RAM for DMA");
|
||||
let tx_ram_buf = &mut [0; FORCE_COPY_BUFFER_SIZE][..tx.len()];
|
||||
tx_ram_buf.copy_from_slice(tx);
|
||||
self.async_inner_from_ram(rx, tx_ram_buf).await
|
||||
}
|
||||
Err(error) => Err(error),
|
||||
}
|
||||
}
|
||||
|
||||
/// Reads data from the SPI bus without sending anything. Blocks until `cs` is deasserted.
|
||||
/// Returns number of bytes read.
|
||||
pub fn blocking_read(&mut self, data: &mut [u8]) -> Result<usize, Error> {
|
||||
self.blocking_inner(data, &[]).map(|n| n.0)
|
||||
}
|
||||
|
||||
/// Simultaneously sends and receives data. Blocks until the transmission is completed.
|
||||
/// If necessary, the write buffer will be copied into RAM (see struct description for detail).
|
||||
/// Returns number of bytes transferred `(n_rx, n_tx)`.
|
||||
pub fn blocking_transfer(&mut self, read: &mut [u8], write: &[u8]) -> Result<(usize, usize), Error> {
|
||||
self.blocking_inner(read, write)
|
||||
}
|
||||
|
||||
/// Same as [`blocking_transfer`](Spis::blocking_transfer) but will fail instead of copying data into RAM. Consult the module level documentation to learn more.
|
||||
/// Returns number of bytes transferred `(n_rx, n_tx)`.
|
||||
pub fn blocking_transfer_from_ram(&mut self, read: &mut [u8], write: &[u8]) -> Result<(usize, usize), Error> {
|
||||
self.blocking_inner_from_ram(read, write)
|
||||
}
|
||||
|
||||
/// Simultaneously sends and receives data.
|
||||
/// Places the received data into the same buffer and blocks until the transmission is completed.
|
||||
/// Returns number of bytes transferred.
|
||||
pub fn blocking_transfer_in_place(&mut self, data: &mut [u8]) -> Result<usize, Error> {
|
||||
self.blocking_inner_from_ram(data, data).map(|n| n.0)
|
||||
}
|
||||
|
||||
/// Sends data, discarding any received data. Blocks until the transmission is completed.
|
||||
/// If necessary, the write buffer will be copied into RAM (see struct description for detail).
|
||||
/// Returns number of bytes written.
|
||||
pub fn blocking_write(&mut self, data: &[u8]) -> Result<usize, Error> {
|
||||
self.blocking_inner(&mut [], data).map(|n| n.1)
|
||||
}
|
||||
|
||||
/// Same as [`blocking_write`](Spis::blocking_write) but will fail instead of copying data into RAM. Consult the module level documentation to learn more.
|
||||
/// Returns number of bytes written.
|
||||
pub fn blocking_write_from_ram(&mut self, data: &[u8]) -> Result<usize, Error> {
|
||||
self.blocking_inner_from_ram(&mut [], data).map(|n| n.1)
|
||||
}
|
||||
|
||||
/// Reads data from the SPI bus without sending anything.
|
||||
/// Returns number of bytes read.
|
||||
pub async fn read(&mut self, data: &mut [u8]) -> Result<usize, Error> {
|
||||
self.async_inner(data, &[]).await.map(|n| n.0)
|
||||
}
|
||||
|
||||
/// Simultaneously sends and receives data.
|
||||
/// If necessary, the write buffer will be copied into RAM (see struct description for detail).
|
||||
/// Returns number of bytes transferred `(n_rx, n_tx)`.
|
||||
pub async fn transfer(&mut self, read: &mut [u8], write: &[u8]) -> Result<(usize, usize), Error> {
|
||||
self.async_inner(read, write).await
|
||||
}
|
||||
|
||||
/// Same as [`transfer`](Spis::transfer) but will fail instead of copying data into RAM. Consult the module level documentation to learn more.
|
||||
/// Returns number of bytes transferred `(n_rx, n_tx)`.
|
||||
pub async fn transfer_from_ram(&mut self, read: &mut [u8], write: &[u8]) -> Result<(usize, usize), Error> {
|
||||
self.async_inner_from_ram(read, write).await
|
||||
}
|
||||
|
||||
/// Simultaneously sends and receives data. Places the received data into the same buffer.
|
||||
/// Returns number of bytes transferred.
|
||||
pub async fn transfer_in_place(&mut self, data: &mut [u8]) -> Result<usize, Error> {
|
||||
self.async_inner_from_ram(data, data).await.map(|n| n.0)
|
||||
}
|
||||
|
||||
/// Sends data, discarding any received data.
|
||||
/// If necessary, the write buffer will be copied into RAM (see struct description for detail).
|
||||
/// Returns number of bytes written.
|
||||
pub async fn write(&mut self, data: &[u8]) -> Result<usize, Error> {
|
||||
self.async_inner(&mut [], data).await.map(|n| n.1)
|
||||
}
|
||||
|
||||
/// Same as [`write`](Spis::write) but will fail instead of copying data into RAM. Consult the module level documentation to learn more.
|
||||
/// Returns number of bytes written.
|
||||
pub async fn write_from_ram(&mut self, data: &[u8]) -> Result<usize, Error> {
|
||||
self.async_inner_from_ram(&mut [], data).await.map(|n| n.1)
|
||||
}
|
||||
|
||||
/// Checks if last transaction overread.
|
||||
pub fn is_overread(&mut self) -> bool {
|
||||
T::regs().status.read().overread().is_present()
|
||||
}
|
||||
|
||||
/// Checks if last transaction overflowed.
|
||||
pub fn is_overflow(&mut self) -> bool {
|
||||
T::regs().status.read().overflow().is_present()
|
||||
}
|
||||
}
|
||||
|
||||
impl<'d, T: Instance> Drop for Spis<'d, T> {
|
||||
fn drop(&mut self) {
|
||||
trace!("spis drop");
|
||||
|
||||
// Disable
|
||||
let r = T::regs();
|
||||
r.enable.write(|w| w.enable().disabled());
|
||||
|
||||
gpio::deconfigure_pin(r.psel.sck.read().bits());
|
||||
gpio::deconfigure_pin(r.psel.csn.read().bits());
|
||||
gpio::deconfigure_pin(r.psel.miso.read().bits());
|
||||
gpio::deconfigure_pin(r.psel.mosi.read().bits());
|
||||
|
||||
trace!("spis drop: done");
|
||||
}
|
||||
}
|
||||
|
||||
pub(crate) mod sealed {
|
||||
use embassy_sync::waitqueue::AtomicWaker;
|
||||
|
||||
use super::*;
|
||||
|
||||
pub struct State {
|
||||
pub waker: AtomicWaker,
|
||||
}
|
||||
|
||||
impl State {
|
||||
pub const fn new() -> Self {
|
||||
Self {
|
||||
waker: AtomicWaker::new(),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
pub trait Instance {
|
||||
fn regs() -> &'static pac::spis0::RegisterBlock;
|
||||
fn state() -> &'static State;
|
||||
}
|
||||
}
|
||||
|
||||
pub trait Instance: Peripheral<P = Self> + sealed::Instance + 'static {
|
||||
type Interrupt: Interrupt;
|
||||
}
|
||||
|
||||
macro_rules! impl_spis {
|
||||
($type:ident, $pac_type:ident, $irq:ident) => {
|
||||
impl crate::spis::sealed::Instance for peripherals::$type {
|
||||
fn regs() -> &'static pac::spis0::RegisterBlock {
|
||||
unsafe { &*pac::$pac_type::ptr() }
|
||||
}
|
||||
fn state() -> &'static crate::spis::sealed::State {
|
||||
static STATE: crate::spis::sealed::State = crate::spis::sealed::State::new();
|
||||
&STATE
|
||||
}
|
||||
}
|
||||
impl crate::spis::Instance for peripherals::$type {
|
||||
type Interrupt = crate::interrupt::$irq;
|
||||
}
|
||||
};
|
||||
}
|
||||
|
||||
// ====================
|
||||
|
||||
impl<'d, T: Instance> SetConfig for Spis<'d, T> {
|
||||
type Config = Config;
|
||||
fn set_config(&mut self, config: &Self::Config) {
|
||||
let r = T::regs();
|
||||
// Configure mode.
|
||||
let mode = config.mode;
|
||||
r.config.write(|w| {
|
||||
match mode {
|
||||
MODE_0 => {
|
||||
w.order().msb_first();
|
||||
w.cpol().active_high();
|
||||
w.cpha().leading();
|
||||
}
|
||||
MODE_1 => {
|
||||
w.order().msb_first();
|
||||
w.cpol().active_high();
|
||||
w.cpha().trailing();
|
||||
}
|
||||
MODE_2 => {
|
||||
w.order().msb_first();
|
||||
w.cpol().active_low();
|
||||
w.cpha().leading();
|
||||
}
|
||||
MODE_3 => {
|
||||
w.order().msb_first();
|
||||
w.cpol().active_low();
|
||||
w.cpha().trailing();
|
||||
}
|
||||
}
|
||||
|
||||
w
|
||||
});
|
||||
|
||||
// Set over-read character.
|
||||
let orc = config.orc;
|
||||
r.orc.write(|w| unsafe { w.orc().bits(orc) });
|
||||
|
||||
// Set default character.
|
||||
let def = config.def;
|
||||
r.def.write(|w| unsafe { w.def().bits(def) });
|
||||
|
||||
// Configure auto-acquire on 'transfer end' event.
|
||||
let auto_acquire = config.auto_acquire;
|
||||
r.shorts.write(|w| w.end_acquire().bit(auto_acquire));
|
||||
}
|
||||
}
|
27
examples/nrf/src/bin/spis.rs
Normal file
27
examples/nrf/src/bin/spis.rs
Normal file
@ -0,0 +1,27 @@
|
||||
#![no_std]
|
||||
#![no_main]
|
||||
#![feature(type_alias_impl_trait)]
|
||||
|
||||
use defmt::info;
|
||||
use embassy_executor::Spawner;
|
||||
use embassy_nrf::interrupt;
|
||||
use embassy_nrf::spis::{Config, Spis};
|
||||
use {defmt_rtt as _, panic_probe as _};
|
||||
|
||||
#[embassy_executor::main]
|
||||
async fn main(_spawner: Spawner) {
|
||||
let p = embassy_nrf::init(Default::default());
|
||||
info!("Running!");
|
||||
|
||||
let irq = interrupt::take!(SPIM2_SPIS2_SPI2);
|
||||
let mut spis = Spis::new(p.SPI2, irq, p.P0_31, p.P0_29, p.P0_28, p.P0_30, Config::default());
|
||||
|
||||
loop {
|
||||
let mut rx_buf = [0_u8; 64];
|
||||
let tx_buf = [1_u8, 2, 3, 4, 5, 6, 7, 8];
|
||||
if let Ok((n_rx, n_tx)) = spis.transfer(&mut rx_buf, &tx_buf).await {
|
||||
info!("RX: {:?}", rx_buf[..n_rx]);
|
||||
info!("TX: {:?}", tx_buf[..n_tx]);
|
||||
}
|
||||
}
|
||||
}
|
Loading…
Reference in New Issue
Block a user