cbc8871a0b
this removed the RelocatedProgram construction step from pio uses. there's not all that much to be said for the extra step because the origin can be set on the input program itself, and the remaining information exposed by RelocatedProgram can be exposed from LoadedProgram instead (even though it's already available on the pio_asm programs, albeit perhaps less convenient). we do lose access to the relocated instruction iterator, but we also cannot think of anything this iterator would actually be useful for outside of program loading.
227 lines
6.9 KiB
Rust
227 lines
6.9 KiB
Rust
#![no_std]
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#![allow(incomplete_features)]
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#![feature(async_fn_in_trait)]
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use core::slice;
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use cyw43::SpiBusCyw43;
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use embassy_rp::dma::Channel;
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use embassy_rp::gpio::{Drive, Level, Output, Pin, Pull, SlewRate};
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use embassy_rp::pio::{Common, Config, Direction, Instance, Irq, PioPin, ShiftDirection, StateMachine};
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use embassy_rp::{pio_instr_util, Peripheral, PeripheralRef};
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use fixed::FixedU32;
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use pio_proc::pio_asm;
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pub struct PioSpi<'d, CS: Pin, PIO: Instance, const SM: usize, DMA> {
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cs: Output<'d, CS>,
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sm: StateMachine<'d, PIO, SM>,
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irq: Irq<'d, PIO, 0>,
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dma: PeripheralRef<'d, DMA>,
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wrap_target: u8,
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}
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impl<'d, CS, PIO, const SM: usize, DMA> PioSpi<'d, CS, PIO, SM, DMA>
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where
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DMA: Channel,
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CS: Pin,
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PIO: Instance,
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{
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pub fn new<DIO, CLK>(
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common: &mut Common<'d, PIO>,
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mut sm: StateMachine<'d, PIO, SM>,
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irq: Irq<'d, PIO, 0>,
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cs: Output<'d, CS>,
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dio: DIO,
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clk: CLK,
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dma: impl Peripheral<P = DMA> + 'd,
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) -> Self
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where
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DIO: PioPin,
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CLK: PioPin,
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{
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#[cfg(feature = "overclock")]
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let program = pio_asm!(
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".side_set 1"
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".wrap_target"
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// write out x-1 bits
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"lp:"
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"out pins, 1 side 0"
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"jmp x-- lp side 1"
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// switch directions
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"set pindirs, 0 side 0"
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"nop side 1" // necessary for clkdiv=1.
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"nop side 0"
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// read in y-1 bits
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"lp2:"
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"in pins, 1 side 1"
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"jmp y-- lp2 side 0"
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// wait for event and irq host
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"wait 1 pin 0 side 0"
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"irq 0 side 0"
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".wrap"
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);
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#[cfg(not(feature = "overclock"))]
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let program = pio_asm!(
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".side_set 1"
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".wrap_target"
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// write out x-1 bits
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"lp:"
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"out pins, 1 side 0"
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"jmp x-- lp side 1"
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// switch directions
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"set pindirs, 0 side 0"
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"nop side 0"
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// read in y-1 bits
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"lp2:"
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"in pins, 1 side 1"
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"jmp y-- lp2 side 0"
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// wait for event and irq host
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"wait 1 pin 0 side 0"
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"irq 0 side 0"
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".wrap"
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);
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let mut pin_io: embassy_rp::pio::Pin<PIO> = common.make_pio_pin(dio);
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pin_io.set_pull(Pull::None);
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pin_io.set_schmitt(true);
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pin_io.set_input_sync_bypass(true);
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pin_io.set_drive_strength(Drive::_12mA);
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pin_io.set_slew_rate(SlewRate::Fast);
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let mut pin_clk = common.make_pio_pin(clk);
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pin_clk.set_drive_strength(Drive::_12mA);
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pin_clk.set_slew_rate(SlewRate::Fast);
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let mut cfg = Config::default();
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let loaded_program = common.load_program(&program.program);
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cfg.use_program(&loaded_program, &[&pin_clk]);
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cfg.set_out_pins(&[&pin_io]);
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cfg.set_in_pins(&[&pin_io]);
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cfg.set_set_pins(&[&pin_io]);
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cfg.shift_out.direction = ShiftDirection::Left;
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cfg.shift_out.auto_fill = true;
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//cfg.shift_out.threshold = 32;
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cfg.shift_in.direction = ShiftDirection::Left;
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cfg.shift_in.auto_fill = true;
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//cfg.shift_in.threshold = 32;
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#[cfg(feature = "overclock")]
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{
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// 125mhz Pio => 62.5Mhz SPI Freq. 25% higher than theoretical maximum according to
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// data sheet, but seems to work fine.
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cfg.clock_divider = FixedU32::from_bits(0x0100);
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}
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#[cfg(not(feature = "overclock"))]
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{
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// same speed as pico-sdk, 62.5Mhz
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// This is actually the fastest we can go without overclocking.
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// According to data sheet, the theoretical maximum is 100Mhz Pio => 50Mhz SPI Freq.
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// However, the PIO uses a fractional divider, which works by introducing jitter when
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// the divider is not an integer. It does some clocks at 125mhz and others at 62.5mhz
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// so that it averages out to the desired frequency of 100mhz. The 125mhz clock cycles
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// violate the maximum from the data sheet.
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cfg.clock_divider = FixedU32::from_bits(0x0200);
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}
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sm.set_config(&cfg);
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sm.set_pin_dirs(Direction::Out, &[&pin_clk, &pin_io]);
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sm.set_pins(Level::Low, &[&pin_clk, &pin_io]);
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Self {
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cs,
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sm,
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irq,
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dma: dma.into_ref(),
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wrap_target: loaded_program.wrap.target,
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}
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}
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pub async fn write(&mut self, write: &[u32]) -> u32 {
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self.sm.set_enable(false);
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let write_bits = write.len() * 32 - 1;
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let read_bits = 31;
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#[cfg(feature = "defmt")]
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defmt::trace!("write={} read={}", write_bits, read_bits);
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unsafe {
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pio_instr_util::set_x(&mut self.sm, write_bits as u32);
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pio_instr_util::set_y(&mut self.sm, read_bits as u32);
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pio_instr_util::set_pindir(&mut self.sm, 0b1);
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pio_instr_util::exec_jmp(&mut self.sm, self.wrap_target);
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}
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self.sm.set_enable(true);
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self.sm.tx().dma_push(self.dma.reborrow(), write).await;
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let mut status = 0;
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self.sm
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.rx()
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.dma_pull(self.dma.reborrow(), slice::from_mut(&mut status))
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.await;
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status
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}
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pub async fn cmd_read(&mut self, cmd: u32, read: &mut [u32]) -> u32 {
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self.sm.set_enable(false);
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let write_bits = 31;
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let read_bits = read.len() * 32 + 32 - 1;
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#[cfg(feature = "defmt")]
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defmt::trace!("write={} read={}", write_bits, read_bits);
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unsafe {
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pio_instr_util::set_y(&mut self.sm, read_bits as u32);
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pio_instr_util::set_x(&mut self.sm, write_bits as u32);
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pio_instr_util::set_pindir(&mut self.sm, 0b1);
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pio_instr_util::exec_jmp(&mut self.sm, self.wrap_target);
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}
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// self.cs.set_low();
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self.sm.set_enable(true);
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self.sm.tx().dma_push(self.dma.reborrow(), slice::from_ref(&cmd)).await;
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self.sm.rx().dma_pull(self.dma.reborrow(), read).await;
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let mut status = 0;
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self.sm
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.rx()
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.dma_pull(self.dma.reborrow(), slice::from_mut(&mut status))
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.await;
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status
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}
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}
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impl<'d, CS, PIO, const SM: usize, DMA> SpiBusCyw43 for PioSpi<'d, CS, PIO, SM, DMA>
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where
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CS: Pin,
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PIO: Instance,
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DMA: Channel,
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{
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async fn cmd_write(&mut self, write: &[u32]) -> u32 {
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self.cs.set_low();
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let status = self.write(write).await;
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self.cs.set_high();
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status
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}
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async fn cmd_read(&mut self, write: u32, read: &mut [u32]) -> u32 {
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self.cs.set_low();
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let status = self.cmd_read(write, read).await;
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self.cs.set_high();
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status
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}
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async fn wait_for_event(&mut self) {
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self.irq.wait().await;
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}
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}
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