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rp: Add PIO example for one-wire temperature sensor

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kalkyl 2024-09-17 19:41:58 +02:00
parent 74ad31466b
commit 0bfc98a3e5
1 changed files with 155 additions and 0 deletions
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examples/rp/src/bin/pio_onewire.rs Normal file
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//! This example shows how you can use PIO to read a `DS18B20` one-wire temperature sensor.
#![no_std]
#![no_main]
use defmt::*;
use embassy_executor::Spawner;
use embassy_rp::bind_interrupts;
use embassy_rp::peripherals::PIO0;
use embassy_rp::pio::{self, Common, Config, InterruptHandler, Pio, PioPin, ShiftConfig, ShiftDirection, StateMachine};
use embassy_time::Timer;
use {defmt_rtt as _, panic_probe as _};
bind_interrupts!(struct Irqs {
PIO0_IRQ_0 => InterruptHandler<PIO0>;
});
#[embassy_executor::main]
async fn main(_spawner: Spawner) {
let p = embassy_rp::init(Default::default());
let mut pio = Pio::new(p.PIO0, Irqs);
let mut sensor = Ds18b20::new(&mut pio.common, pio.sm0, p.PIN_2);
loop {
sensor.start().await; // Start a new measurement
Timer::after_secs(1).await; // Allow 1s for the measurement to finish
match sensor.temperature().await {
Ok(temp) => info!("temp = {:?} deg C", temp),
_ => error!("sensor error"),
}
Timer::after_secs(1).await;
}
}
/// DS18B20 temperature sensor driver
pub struct Ds18b20<'d, PIO: pio::Instance, const SM: usize> {
sm: StateMachine<'d, PIO, SM>,
}
impl<'d, PIO: pio::Instance, const SM: usize> Ds18b20<'d, PIO, SM> {
/// Create a new instance the driver
pub fn new(common: &mut Common<'d, PIO>, mut sm: StateMachine<'d, PIO, SM>, pin: impl PioPin) -> Self {
let prg = pio_proc::pio_asm!(
r#"
.wrap_target
again:
pull block
mov x, osr
jmp !x, read
write:
set pindirs, 1
set pins, 0
loop1:
jmp x--,loop1
set pindirs, 0 [31]
wait 1 pin 0 [31]
pull block
mov x, osr
bytes1:
pull block
set y, 7
set pindirs, 1
bit1:
set pins, 0 [1]
out pins,1 [31]
set pins, 1 [20]
jmp y--,bit1
jmp x--,bytes1
set pindirs, 0 [31]
jmp again
read:
pull block
mov x, osr
bytes2:
set y, 7
bit2:
set pindirs, 1
set pins, 0 [1]
set pindirs, 0 [5]
in pins,1 [10]
jmp y--,bit2
jmp x--,bytes2
.wrap
"#,
);
let pin = common.make_pio_pin(pin);
let mut cfg = Config::default();
cfg.use_program(&common.load_program(&prg.program), &[]);
cfg.set_out_pins(&[&pin]);
cfg.set_in_pins(&[&pin]);
cfg.set_set_pins(&[&pin]);
cfg.shift_in = ShiftConfig {
auto_fill: true,
direction: ShiftDirection::Right,
threshold: 8,
};
cfg.clock_divider = 255_u8.into();
sm.set_config(&cfg);
sm.set_enable(true);
Self { sm }
}
/// Write bytes over the wire
async fn write_bytes(&mut self, bytes: &[u8]) {
self.sm.tx().wait_push(250).await;
self.sm.tx().wait_push(bytes.len() as u32 - 1).await;
for b in bytes {
self.sm.tx().wait_push(*b as u32).await;
}
}
/// Read bytes from the wire
async fn read_bytes(&mut self, bytes: &mut [u8]) {
self.sm.tx().wait_push(0).await;
self.sm.tx().wait_push(bytes.len() as u32 - 1).await;
for b in bytes.iter_mut() {
*b = (self.sm.rx().wait_pull().await >> 24) as u8;
}
}
/// Calculate CRC8 of the data
fn crc8(data: &[u8]) -> u8 {
let mut temp;
let mut data_byte;
let mut crc = 0;
for b in data {
data_byte = *b;
for _ in 0..8 {
temp = (crc ^ data_byte) & 0x01;
crc >>= 1;
if temp != 0 {
crc ^= 0x8C;
}
data_byte >>= 1;
}
}
crc
}
/// Start a new measurement. Allow at least 1000ms before getting `temperature`.
pub async fn start(&mut self) {
self.write_bytes(&[0xCC, 0x44]).await;
}
/// Read the temperature. Ensure >1000ms has passed since `start` before calling this.
pub async fn temperature(&mut self) -> Result<f32, ()> {
self.write_bytes(&[0xCC, 0xBE]).await;
let mut data = [0; 9];
self.read_bytes(&mut data).await;
match Self::crc8(&data) == 0 {
true => Ok(((data[1] as u32) << 8 | data[0] as u32) as f32 / 16.),
false => Err(()),
}
}
}