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led_client/rp-hal/on-target-tests/tests/dma_spi_loopback_u16.rs
ris ec43b90ddd Initial commit
2024-12-21 00:48:45 -05:00

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4.3 KiB
Rust
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//! This test needs a connection between GPIO 4 and GPIO 7 (pins 6 and 10 an a Pico)
#![no_std]
#![no_main]
#![cfg(test)]
use crate::hal::dma::Channels;
use defmt_rtt as _; // defmt transport
use defmt_test as _;
use hal::gpio::{self, Pin};
use panic_probe as _;
use rp2040_hal as hal; // memory layout // panic handler
use rp2040_hal::pac::SPI0;
use rp2040_hal::spi;
/// The linker will place this boot block at the start of our program image. We
/// need this to help the ROM bootloader get our code up and running.
/// Note: This boot block is not necessary when using a rp-hal based BSP
/// as the BSPs already perform this step.
#[link_section = ".boot2"]
#[used]
pub static BOOT2: [u8; 256] = rp2040_boot2::BOOT_LOADER_GENERIC_03H;
/// External high-speed crystal on the Raspberry Pi Pico board is 12 MHz. Adjust
/// if your board has a different frequency
const XTAL_FREQ_HZ: u32 = 12_000_000u32;
type MISO = Pin<gpio::bank0::Gpio4, gpio::FunctionSpi, gpio::PullNone>;
type MOSI = Pin<gpio::bank0::Gpio7, gpio::FunctionSpi, gpio::PullNone>;
type SCLK = Pin<gpio::bank0::Gpio6, gpio::FunctionSpi, gpio::PullNone>;
struct State {
channels: Option<Channels>,
spi: Option<spi::Spi<spi::Enabled, SPI0, (MOSI, MISO, SCLK), 16>>,
}
mod testdata {
#[allow(dead_code)]
pub const ARRAY_U8: [u8; 10] = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10];
#[allow(dead_code)]
pub const ARRAY_U16: [u16; 10] = [270, 271, 272, 273, 274, 275, 276, 277, 278, 279];
#[allow(dead_code)]
pub const ARRAY_U32: [u32; 10] = [
65571, 65572, 65573, 65574, 65575, 65576, 65577, 65578, 65579, 65580,
];
#[allow(dead_code)]
pub const ARRAY_U64: [u64; 10] = [
65571, 65572, 65573, 65574, 65575, 65576, 65577, 65578, 65579, 65580,
];
}
#[defmt_test::tests]
mod tests {
use crate::testdata;
use crate::State;
use crate::XTAL_FREQ_HZ;
use defmt::assert_eq;
use defmt_rtt as _;
use fugit::RateExtU32;
use hal::{clocks::init_clocks_and_plls, pac, watchdog::Watchdog};
use panic_probe as _;
use rp2040_hal as hal;
use rp2040_hal::dma::{bidirectional, DMAExt};
use rp2040_hal::Clock;
#[init]
fn setup() -> State {
unsafe {
hal::sio::spinlock_reset();
}
let mut pac = pac::Peripherals::take().unwrap();
let _core = pac::CorePeripherals::take().unwrap();
let mut watchdog = Watchdog::new(pac.WATCHDOG);
let clocks = init_clocks_and_plls(
XTAL_FREQ_HZ,
pac.XOSC,
pac.CLOCKS,
pac.PLL_SYS,
pac.PLL_USB,
&mut pac.RESETS,
&mut watchdog,
)
.ok()
.unwrap();
let dma = pac.DMA.split(&mut pac.RESETS);
// Setup the pins.
let sio = hal::sio::Sio::new(pac.SIO);
let pins = hal::gpio::Pins::new(
pac.IO_BANK0,
pac.PADS_BANK0,
sio.gpio_bank0,
&mut pac.RESETS,
);
// These are implicitly used by the spi driver if they are in the correct mode
let spi_sclk = pins.gpio6.reconfigure();
let spi_mosi = pins.gpio7.reconfigure();
let spi_miso = pins.gpio4.reconfigure();
let spi = hal::spi::Spi::new(pac.SPI0, (spi_mosi, spi_miso, spi_sclk));
// Exchange the uninitialised SPI driver for an initialised one
let spi = spi.init(
&mut pac.RESETS,
clocks.peripheral_clock.freq(),
16_000_000u32.Hz(),
&embedded_hal::spi::MODE_0,
);
State {
channels: Some(dma),
spi: Some(spi),
}
}
#[test]
fn dma_spi_loopback_u16(state: &mut State) {
if let Some(dma) = state.channels.take() {
if let Some(spi) = state.spi.take() {
let rx_buf = cortex_m::singleton!(: [u16; 10] = [0; 10]).unwrap();
let tx_buf = cortex_m::singleton!(: [u16; 10] = testdata::ARRAY_U16).unwrap();
let transfer =
bidirectional::Config::new((dma.ch0, dma.ch1), tx_buf, spi, rx_buf).start();
let ((_ch0, _ch1), tx_buf, _spi, rx_buf) = transfer.wait();
let first = tx_buf.iter();
let second = rx_buf.iter();
for (x, y) in first.zip(second) {
assert_eq!(x, y);
}
}
}
}
}
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