Crates.io | nuttx-embedded-hal |
lib.rs | nuttx-embedded-hal |
version | 1.0.10 |
source | src |
created_at | 2022-03-17 06:44:20.915259 |
updated_at | 2022-03-21 09:13:06.853548 |
description | Rust Embedded HAL for Apache NuttX RTOS |
homepage | |
repository | https://github.com/lupyuen/nuttx-embedded-hal |
max_upload_size | |
id | 551648 |
size | 41,423 |
This crate provides Rust Embedded HAL interfaces (GPIO, I2C, SPI and Delay) for Apache NuttX RTOS.
For sample NuttX Rust apps, see rust-i2c-nuttx and rust_test
If you find this crate useful, please support me on GitHub Sponsors
More about NuttX Embedded HAL...
// Import Output Pin Trait
use embedded_hal::digital::v2::OutputPin;
// Open /dev/gpio1 for GPIO Output
let mut gpio = nuttx_embedded_hal::OutputPin
::new("/dev/gpio1")
.expect("open gpio failed");
// Set Chip Select to Low
gpio.set_low()
.expect("set gpio failed");
// Set Chip Select to High
gpio.set_high()
.expect("set gpio failed");
// Import Input Pin Trait
use embedded_hal::digital::v2::InputPin;
// Open /dev/gpio0 for GPIO Input
let gpio = nuttx_embedded_hal::InputPin
::new("/dev/gpio0")
.expect("open gpio failed");
// True if GPIO is High
let is_high = gpio.is_high()
.expect("read gpio failed");
// True if GPIO is Low
let is_low = gpio.is_low()
.expect("read gpio failed");
Interrupt callbacks are not supported yet.
// Import Input Pin Trait
use embedded_hal::digital::v2::InputPin;
// Open /dev/gpio2 for GPIO Interrupt
let gpio = nuttx_hal::InterruptPin
::new("/dev/gpio2");
.expect("open gpio failed");
// True if GPIO is High
let is_high = gpio.is_high()
.expect("read gpio failed");
// True if GPIO is Low
let is_low = gpio.is_low()
.expect("read gpio failed");
// Import I2C Trait
use embedded_hal::blocking::i2c;
// Open I2C Port /dev/i2c0
let mut i2c = nuttx_embedded_hal::I2c::new(
"/dev/i2c0", // I2C Port
400000, // I2C Frequency: 400 kHz
).expect("open failed");
// Buffer for received I2C data
let mut buf = [0 ; 1];
// Read register 0xD0 from I2C Address 0x77
i2c.write_read(
0x77, // I2C Address
&[0xD0], // Register ID
&mut buf // Buffer to be received
).expect("read register failed");
// Print the register value
println!("Register value is 0x{:02x}", buf[0]);
// Write 0xA0 to Register 0xF5
i2c.write(
0x77, // I2C Address
&[0xF5, 0xA0] // Register ID and value
).expect("write register failed");
The SPI interface requires the SPI Test Driver (/dev/spitest0) to be installed:
SPI settings are configured in the SPI Test Driver.
// Import SPI Trait
use embedded_hal::blocking::spi;
// Open SPI Bus /dev/spitest0
let mut spi = nuttx_embedded_hal::Spi
::new("/dev/spitest0")
.expect("open spi failed");
// Open GPIO Output /dev/gpio1 for Chip Select
let mut cs = nuttx_embedded_hal::OutputPin
::new("/dev/gpio1")
.expect("open gpio failed");
// Set Chip Select to Low
cs.set_low()
.expect("cs failed");
// Transmit and receive SPI data
let mut data: [ u8; 5 ] = [ 0x1d, 0x00, 0x08, 0x00, 0x00 ];
spi.transfer(&mut data)
.expect("spi failed");
// Show the received SPI data
for i in 0..data.len() {
println!("{:02x}", data[i as usize]);
}
// Set Chip Select to High
cs.set_high()
.expect("cs failed");
// Import Delay Trait (milliseconds)
use embedded_hal::blocking::delay::DelayMs;
// Get a Delay Interface
let mut delay = nuttx_embedded_hal::Delay;
// Wait 500 milliseconds
delay.delay_ms(500_u32);