Crates.io | sx127x_lora |
lib.rs | sx127x_lora |
version | 0.3.1 |
source | src |
created_at | 2018-12-18 04:56:31.494913 |
updated_at | 2020-03-24 19:38:28.712124 |
description | A platform-agnostic driver for Semtech SX1276/77/78/79 based boards. |
homepage | |
repository | https://github.com/mr-glt/sx127x_lora |
max_upload_size | |
id | 102456 |
size | 49,985 |
A platform-agnostic driver for Semtech SX1276/77/78/79 based boards. It supports any device that
implements the embedded-hal
traits. Devices are connected over SPI and require an extra GPIO pin for
RESET. This cate works with any Semtech based board including:
Utilizes a Raspberry Pi to send a message. The example utilizes the linux_embedded_hal
crate.
#![feature(extern_crate_item_prelude)]
extern crate sx127x_lora;
extern crate linux_embedded_hal as hal;
use hal::spidev::{self, SpidevOptions};
use hal::{Pin, Spidev};
use hal::sysfs_gpio::Direction;
use hal::Delay;
const LORA_CS_PIN: u64 = 8;
const LORA_RESET_PIN: u64 = 21;
const FREQUENCY: i64 = 915;
fn main(){
let mut spi = Spidev::open("/dev/spidev0.0").unwrap();
let options = SpidevOptions::new()
.bits_per_word(8)
.max_speed_hz(20_000)
.mode(spidev::SPI_MODE_0)
.build();
spi.configure(&options).unwrap();
let cs = Pin::new(LORA_CS_PIN);
cs.export().unwrap();
cs.set_direction(Direction::Out).unwrap();
let reset = Pin::new(LORA_RESET_PIN);
reset.export().unwrap();
reset.set_direction(Direction::Out).unwrap();
let mut lora = sx127x_lora::LoRa::new(
spi, cs, reset, FREQUENCY, Delay)
.expect("Failed to communicate with radio module!");
lora.set_tx_power(17,1); //Using PA_BOOST. See your board for correct pin.
let message = "Hello, world!";
let mut buffer = [0;255];
for (i,c) in message.chars().enumerate() {
buffer[i] = c as u8;
}
let transmit = lora.transmit_payload(buffer,message.len());
match transmit {
Ok(packet_size) => println!("Sent packet with size: {}", packet_size),
Err(()) => println!("Error"),
}
}
Utilizes a STM32F429 to receive data using the blocking poll_irq(timeout)
function. It prints
the received packet back out over semihosting. The example utilizes the stm32f429_hal
, cortex_m
,
and panic_semihosting
crates.
#![no_std]
#![no_main]
extern crate sx127x_lora;
extern crate stm32f429_hal as hal;
extern crate cortex_m;
extern crate panic_semihosting;
use sx127x_lora::MODE;
use cortex_m_semihosting::*;
use hal::gpio::GpioExt;
use hal::flash::FlashExt;
use hal::rcc::RccExt;
use hal::time::MegaHertz;
use hal::spi::Spi;
use hal::delay::Delay;
const FREQUENCY: i64 = 915;
#[entry]
fn main() -> !{
let cp = cortex_m::Peripherals::take().unwrap();
let p = hal::stm32f429::Peripherals::take().unwrap();
let mut rcc = p.RCC.constrain();
let mut flash = p.FLASH.constrain();
let clocks = rcc
.cfgr
.sysclk(MegaHertz(64))
.pclk1(MegaHertz(32))
.freeze(&mut flash.acr);
let mut gpioa = p.GPIOA.split(&mut rcc.ahb1);
let mut gpiod = p.GPIOD.split(&mut rcc.ahb1);
let mut gpiof = p.GPIOF.split(&mut rcc.ahb1);
let sck = gpioa.pa5.into_af5(&mut gpioa.moder, &mut gpioa.afrl);
let miso = gpioa.pa6.into_af5(&mut gpioa.moder, &mut gpioa.afrl);
let mosi = gpioa.pa7.into_af5(&mut gpioa.moder, &mut gpioa.afrl);
let reset = gpiof.pf13.into_push_pull_output(&mut gpiof.moder, &mut gpiof.otyper);
let cs = gpiod.pd14.into_push_pull_output(&mut gpiod.moder, &mut gpiod.otyper);
let spi = Spi::spi1(
p.SPI1,
(sck, miso, mosi),
MODE,
MegaHertz(8),
clocks,
&mut rcc.apb2,
);
let mut lora = sx127x_lora::LoRa::new(
spi, cs, reset, FREQUENCY,
Delay::new(cp.SYST, clocks)).unwrap();
loop {
let poll = lora.poll_irq(Some(30)); //30 Second timeout
match poll {
Ok(size) =>{
hprint!("with Payload: ");
let buffer = lora.read_packet(); // Received buffer. NOTE: 255 bytes are always returned
for i in 0..size{
hprint!("{}",buffer[i] as char).unwrap();
}
hprintln!();
},
Err(()) => hprintln!("Timeout").unwrap(),
}
}
}
The crate currently polls the IRQ register on the radio to determine if a new packet has arrived. This
would be more efficient if instead an interrupt was connect the the module's DIO_0 pin. Once interrupt
support is available in embedded-hal
, then this will be added. It is possible to implement this function on a
device-to-device basis by retrieving a packet with the read_packet()
function.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.