Change rak4631 feature to sx126x, removing use in board-specific processing; simplify the P2P examples; correct RSSI computation.

This commit is contained in:
ceekdee 2022-10-10 12:35:42 -05:00
parent 79ba20d315
commit 327d3cf0df
7 changed files with 61 additions and 127 deletions

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@ -9,7 +9,7 @@ src_base = "https://github.com/embassy-rs/embassy/blob/embassy-lora-v$VERSION/em
src_base_git = "https://github.com/embassy-rs/embassy/blob/$COMMIT/embassy-lora/src/" src_base_git = "https://github.com/embassy-rs/embassy/blob/$COMMIT/embassy-lora/src/"
features = ["time", "defmt"] features = ["time", "defmt"]
flavors = [ flavors = [
{ name = "rak4631", target = "thumbv7em-none-eabihf", features = ["rak4631"] }, { name = "sx126x", target = "thumbv7em-none-eabihf", features = ["sx126x"] },
{ name = "sx127x", target = "thumbv7em-none-eabihf", features = ["sx127x", "embassy-stm32/stm32wl55jc-cm4", "embassy-stm32/time-driver-any"] }, { name = "sx127x", target = "thumbv7em-none-eabihf", features = ["sx127x", "embassy-stm32/stm32wl55jc-cm4", "embassy-stm32/time-driver-any"] },
{ name = "stm32wl", target = "thumbv7em-none-eabihf", features = ["stm32wl", "embassy-stm32/stm32wl55jc-cm4", "embassy-stm32/time-driver-any"] }, { name = "stm32wl", target = "thumbv7em-none-eabihf", features = ["stm32wl", "embassy-stm32/stm32wl55jc-cm4", "embassy-stm32/time-driver-any"] },
] ]
@ -17,7 +17,7 @@ flavors = [
[lib] [lib]
[features] [features]
rak4631 = [] sx126x = []
sx127x = [] sx127x = []
stm32wl = ["embassy-stm32", "embassy-stm32/subghz"] stm32wl = ["embassy-stm32", "embassy-stm32/subghz"]
time = [] time = []

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@ -7,7 +7,7 @@ pub(crate) mod fmt;
#[cfg(feature = "stm32wl")] #[cfg(feature = "stm32wl")]
pub mod stm32wl; pub mod stm32wl;
#[cfg(feature = "rak4631")] #[cfg(feature = "sx126x")]
pub mod sx126x; pub mod sx126x;
#[cfg(feature = "sx127x")] #[cfg(feature = "sx127x")]
pub mod sx127x; pub mod sx127x;

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@ -10,8 +10,7 @@ use super::LoRa;
// Defines the time required for the TCXO to wakeup [ms]. // Defines the time required for the TCXO to wakeup [ms].
const BRD_TCXO_WAKEUP_TIME: u32 = 10; const BRD_TCXO_WAKEUP_TIME: u32 = 10;
// Provides board-specific functionality for Semtech SX126x-based boards. Use #[cfg(feature = "board_type")] to specify unique board functionality. // Provides board-specific functionality for Semtech SX126x-based boards.
// The base implementation supports the RAK4631 board.
impl<SPI, CTRL, WAIT, BUS> LoRa<SPI, CTRL, WAIT> impl<SPI, CTRL, WAIT, BUS> LoRa<SPI, CTRL, WAIT>
where where
@ -203,44 +202,33 @@ where
// Get the radio type // Get the radio type
pub(super) fn brd_get_radio_type(&mut self) -> RadioType { pub(super) fn brd_get_radio_type(&mut self) -> RadioType {
#[cfg(feature = "rak4631")]
RadioType::SX1262 RadioType::SX1262
} }
// Quiesce the antenna(s). // Quiesce the antenna(s).
pub(super) fn brd_ant_sleep(&mut self) -> Result<(), RadioError<BUS>> { pub(super) fn brd_ant_sleep(&mut self) -> Result<(), RadioError<BUS>> {
#[cfg(feature = "rak4631")]
{
self.antenna_tx.set_low().map_err(|_| AntTx)?; self.antenna_tx.set_low().map_err(|_| AntTx)?;
self.antenna_rx.set_low().map_err(|_| AntRx)?; self.antenna_rx.set_low().map_err(|_| AntRx)?;
}
Ok(()) Ok(())
} }
// Prepare the antenna(s) for a receive operation // Prepare the antenna(s) for a receive operation
pub(super) fn brd_ant_set_rx(&mut self) -> Result<(), RadioError<BUS>> { pub(super) fn brd_ant_set_rx(&mut self) -> Result<(), RadioError<BUS>> {
#[cfg(feature = "rak4631")]
{
self.antenna_tx.set_low().map_err(|_| AntTx)?; self.antenna_tx.set_low().map_err(|_| AntTx)?;
self.antenna_rx.set_high().map_err(|_| AntRx)?; self.antenna_rx.set_high().map_err(|_| AntRx)?;
}
Ok(()) Ok(())
} }
// Prepare the antenna(s) for a send operation // Prepare the antenna(s) for a send operation
pub(super) fn brd_ant_set_tx(&mut self) -> Result<(), RadioError<BUS>> { pub(super) fn brd_ant_set_tx(&mut self) -> Result<(), RadioError<BUS>> {
#[cfg(feature = "rak4631")]
{
self.antenna_rx.set_low().map_err(|_| AntRx)?; self.antenna_rx.set_low().map_err(|_| AntRx)?;
self.antenna_tx.set_high().map_err(|_| AntTx)?; self.antenna_tx.set_high().map_err(|_| AntTx)?;
}
Ok(()) Ok(())
} }
// Check if the given RF frequency is supported by the hardware // Check if the given RF frequency is supported by the hardware
pub(super) async fn brd_check_rf_frequency(&mut self, _frequency: u32) -> Result<bool, RadioError<BUS>> { pub(super) async fn brd_check_rf_frequency(&mut self, _frequency: u32) -> Result<bool, RadioError<BUS>> {
#[cfg(feature = "rak4631")] Ok(true)
Ok(true) // all frequencies currently supported for the SX1262 within a rak4631
} }
// Get the duration required for the TCXO to wakeup [ms]. // Get the duration required for the TCXO to wakeup [ms].

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@ -564,7 +564,7 @@ where
pub(super) async fn sub_get_rssi_inst(&mut self) -> Result<i8, RadioError<BUS>> { pub(super) async fn sub_get_rssi_inst(&mut self) -> Result<i8, RadioError<BUS>> {
let mut buffer = [0x00u8]; let mut buffer = [0x00u8];
self.brd_read_command(OpCode::GetRSSIInst, &mut buffer).await?; self.brd_read_command(OpCode::GetRSSIInst, &mut buffer).await?;
let rssi: i8 = (-(buffer[0] as i8)) >> 1; // check this ??? let rssi: i8 = ((-(buffer[0] as i32)) >> 1) as i8; // check this ???
Ok(rssi) Ok(rssi)
} }
@ -597,9 +597,9 @@ where
self.brd_read_command(OpCode::GetPacketStatus, &mut status).await?; self.brd_read_command(OpCode::GetPacketStatus, &mut status).await?;
// check this ??? // check this ???
let rssi = (-(status[0] as i8)) >> 1; let rssi = ((-(status[0] as i32)) >> 1) as i8;
let snr = ((status[1] as i8) + 2) >> 2; let snr = ((status[1] as i8) + 2) >> 2;
let signal_rssi = (-(status[2] as i8)) >> 1; let signal_rssi = ((-(status[2] as i32)) >> 1) as i8;
let freq_error = self.frequency_error; let freq_error = self.frequency_error;
Ok(PacketStatus { Ok(PacketStatus {

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@ -18,7 +18,7 @@ embassy-nrf = { version = "0.1.0", path = "../../embassy-nrf", features = ["defm
embassy-net = { version = "0.1.0", path = "../../embassy-net", features = ["defmt", "tcp", "dhcpv4", "medium-ethernet", "pool-16"], optional = true } embassy-net = { version = "0.1.0", path = "../../embassy-net", features = ["defmt", "tcp", "dhcpv4", "medium-ethernet", "pool-16"], optional = true }
embassy-usb = { version = "0.1.0", path = "../../embassy-usb", features = ["defmt"], optional = true } embassy-usb = { version = "0.1.0", path = "../../embassy-usb", features = ["defmt"], optional = true }
embedded-io = "0.3.0" embedded-io = "0.3.0"
embassy-lora = { version = "0.1.0", path = "../../embassy-lora", features = ["rak4631", "time", "defmt"], optional = true } embassy-lora = { version = "0.1.0", path = "../../embassy-lora", features = ["sx126x", "time", "defmt"], optional = true }
lorawan-device = { version = "0.8.0", default-features = false, features = ["async"], optional = true } lorawan-device = { version = "0.8.0", default-features = false, features = ["async"], optional = true }
lorawan = { version = "0.7.1", default-features = false, features = ["default-crypto"], optional = true } lorawan = { version = "0.7.1", default-features = false, features = ["default-crypto"], optional = true }

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@ -1,4 +1,6 @@
//! This example runs on the RAK4631 WisBlock, which has an nRF52840 MCU and Semtech Sx126x radio. //! This example runs on the RAK4631 WisBlock, which has an nRF52840 MCU and Semtech Sx126x radio.
//! Other nrf/sx126x combinations may work with appropriate pin modifications.
//! It demonstates LORA P2P functionality in conjunction with example lora_p2p_sense.rs.
#![no_std] #![no_std]
#![no_main] #![no_main]
#![macro_use] #![macro_use]
@ -18,7 +20,7 @@ use {defmt_rtt as _, panic_probe as _};
async fn main(_spawner: Spawner) { async fn main(_spawner: Spawner) {
let p = embassy_nrf::init(Default::default()); let p = embassy_nrf::init(Default::default());
let mut spi_config = spim::Config::default(); let mut spi_config = spim::Config::default();
spi_config.frequency = spim::Frequency::M1; // M16 ??? spi_config.frequency = spim::Frequency::M16;
let mut radio = { let mut radio = {
let irq = interrupt::take!(SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1); let irq = interrupt::take!(SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
@ -47,11 +49,7 @@ async fn main(_spawner: Spawner) {
Timer::after(Duration::from_secs(5)).await; Timer::after(Duration::from_secs(5)).await;
start_indicator.set_low(); start_indicator.set_low();
match radio.lora.sleep().await { loop {
Ok(()) => info!("Sleep successful"),
Err(err) => info!("Sleep unsuccessful = {}", err),
}
let rf_config = RfConfig { let rf_config = RfConfig {
frequency: 903900000, // channel in Hz frequency: 903900000, // channel in Hz
bandwidth: Bandwidth::_250KHz, bandwidth: Bandwidth::_250KHz,
@ -73,12 +71,8 @@ async fn main(_spawner: Spawner) {
Err(err) => info!("RX error = {}", err), Err(err) => info!("RX error = {}", err),
} }
match radio.lora.sleep().await {
Ok(()) => info!("Sleep successful"),
Err(err) => info!("Sleep unsuccessful = {}", err),
}
debug_indicator.set_high(); debug_indicator.set_high();
Timer::after(Duration::from_secs(5)).await; Timer::after(Duration::from_secs(2)).await;
debug_indicator.set_low(); debug_indicator.set_low();
} }
}

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@ -1,4 +1,6 @@
//! This example runs on the RAK4631 WisBlock, which has an nRF52840 MCU and Semtech Sx126x radio. //! This example runs on the RAK4631 WisBlock, which has an nRF52840 MCU and Semtech Sx126x radio.
//! Other nrf/sx126x combinations may work with appropriate pin modifications.
//! It demonstates LORA P2P functionality in conjunction with example lora_p2p_report.rs.
#![no_std] #![no_std]
#![no_main] #![no_main]
#![macro_use] #![macro_use]
@ -9,8 +11,7 @@
use defmt::*; use defmt::*;
use embassy_executor::Spawner; use embassy_executor::Spawner;
use embassy_lora::sx126x::*; use embassy_lora::sx126x::*;
use embassy_nrf::gpio::{AnyPin, Input, Level, Output, OutputDrive, Pin as _, Pull}; use embassy_nrf::gpio::{Input, Level, Output, OutputDrive, Pin as _, Pull};
use embassy_nrf::temp::Temp;
use embassy_nrf::{interrupt, spim}; use embassy_nrf::{interrupt, spim};
use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex; use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex;
use embassy_sync::pubsub::{PubSubChannel, Publisher}; use embassy_sync::pubsub::{PubSubChannel, Publisher};
@ -18,10 +19,6 @@ use embassy_time::{Duration, Timer};
use lorawan_device::async_device::radio::{Bandwidth, CodingRate, PhyRxTx, RfConfig, SpreadingFactor, TxConfig}; use lorawan_device::async_device::radio::{Bandwidth, CodingRate, PhyRxTx, RfConfig, SpreadingFactor, TxConfig};
use {defmt_rtt as _, panic_probe as _, panic_probe as _}; use {defmt_rtt as _, panic_probe as _, panic_probe as _};
// Sensor packet constants
const TEMPERATURE_UID: u8 = 0x01;
const MOTION_UID: u8 = 0x02;
// Message bus: queue of 2, 1 subscriber (Lora P2P), 2 publishers (temperature, motion detection) // Message bus: queue of 2, 1 subscriber (Lora P2P), 2 publishers (temperature, motion detection)
static MESSAGE_BUS: PubSubChannel<CriticalSectionRawMutex, Message, 2, 1, 2> = PubSubChannel::new(); static MESSAGE_BUS: PubSubChannel<CriticalSectionRawMutex, Message, 2, 1, 2> = PubSubChannel::new();
@ -32,53 +29,20 @@ enum Message {
} }
#[embassy_executor::task] #[embassy_executor::task]
async fn temperature_task( async fn temperature_task(publisher: Publisher<'static, CriticalSectionRawMutex, Message, 2, 1, 2>) {
mut temperature: Temp<'static>, // Publish a fake temperature every 43 seconds, minimizing LORA traffic.
publisher: Publisher<'static, CriticalSectionRawMutex, Message, 2, 1, 2>,
) {
Timer::after(Duration::from_secs(45)).await; // stabilize for 45 seconds
let mut temperature_reporting_threshhold = 10;
loop { loop {
let value = temperature.read().await; Timer::after(Duration::from_secs(43)).await;
let mut temperature_val = value.to_num::<i32>(); publisher.publish(Message::Temperature(9)).await;
info!("Temperature: {}", temperature_val);
// only report every 2 degree Celsius drops, from 9 through 5, but starting at 3 always report
if temperature_val == 8 || temperature_val == 6 || temperature_val == 4 {
temperature_val += 1;
}
if temperature_reporting_threshhold > temperature_val
&& (temperature_val == 9 || temperature_val == 7 || temperature_val == 5)
{
temperature_reporting_threshhold = temperature_val;
publisher.publish(Message::Temperature(temperature_val)).await;
} else if temperature_val <= 3 {
publisher.publish(Message::Temperature(temperature_val)).await;
}
Timer::after(Duration::from_secs(20 * 60)).await;
} }
} }
#[embassy_executor::task] #[embassy_executor::task]
async fn motion_detection_task( async fn motion_detection_task(publisher: Publisher<'static, CriticalSectionRawMutex, Message, 2, 1, 2>) {
mut pir_pin: Input<'static, AnyPin>, // Publish a fake motion detection every 79 seconds, minimizing LORA traffic.
publisher: Publisher<'static, CriticalSectionRawMutex, Message, 2, 1, 2>,
) {
Timer::after(Duration::from_secs(30)).await; // stabilize for 30 seconds
loop { loop {
// wait for motion detection Timer::after(Duration::from_secs(79)).await;
pir_pin.wait_for_low().await;
publisher.publish(Message::MotionDetected).await; publisher.publish(Message::MotionDetected).await;
// wait a minute before setting up for more motion detection
Timer::after(Duration::from_secs(60)).await;
} }
} }
@ -91,7 +55,7 @@ async fn main(spawner: Spawner) {
let motion_detection_publisher = unwrap!(MESSAGE_BUS.publisher()); let motion_detection_publisher = unwrap!(MESSAGE_BUS.publisher());
let mut spi_config = spim::Config::default(); let mut spi_config = spim::Config::default();
spi_config.frequency = spim::Frequency::M1; // M16 ??? spi_config.frequency = spim::Frequency::M16;
let mut radio = { let mut radio = {
let irq = interrupt::take!(SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1); let irq = interrupt::take!(SPIM1_SPIS1_TWIM1_TWIS1_SPI1_TWI1);
@ -113,15 +77,7 @@ async fn main(spawner: Spawner) {
} }
}; };
// set up for the temperature task
let temperature_irq = interrupt::take!(TEMP);
let temperature = Temp::new(p.TEMP, temperature_irq);
// set the motion detection pin
let pir_pin = Input::new(p.P0_10.degrade(), Pull::Up);
let mut start_indicator = Output::new(p.P1_04, Level::Low, OutputDrive::Standard); let mut start_indicator = Output::new(p.P1_04, Level::Low, OutputDrive::Standard);
let mut debug_indicator = Output::new(p.P1_03, Level::Low, OutputDrive::Standard);
start_indicator.set_high(); start_indicator.set_high();
Timer::after(Duration::from_secs(5)).await; Timer::after(Duration::from_secs(5)).await;
@ -132,15 +88,15 @@ async fn main(spawner: Spawner) {
Err(err) => info!("Sleep unsuccessful = {}", err), Err(err) => info!("Sleep unsuccessful = {}", err),
} }
unwrap!(spawner.spawn(temperature_task(temperature, temperature_publisher))); unwrap!(spawner.spawn(temperature_task(temperature_publisher)));
unwrap!(spawner.spawn(motion_detection_task(pir_pin, motion_detection_publisher))); unwrap!(spawner.spawn(motion_detection_task(motion_detection_publisher)));
loop { loop {
let message = lora_tx_subscriber.next_message_pure().await; let message = lora_tx_subscriber.next_message_pure().await;
let tx_config = TxConfig { let tx_config = TxConfig {
// 11 byte maximum payload for Bandwidth 125 and SF 10 // 11 byte maximum payload for Bandwidth 125 and SF 10
pw: 20, // up to 20 // 5 ??? pw: 10, // up to 20
rf: RfConfig { rf: RfConfig {
frequency: 903900000, // channel in Hz, not MHz frequency: 903900000, // channel in Hz, not MHz
bandwidth: Bandwidth::_250KHz, bandwidth: Bandwidth::_250KHz,
@ -149,13 +105,13 @@ async fn main(spawner: Spawner) {
}, },
}; };
let mut buffer = [TEMPERATURE_UID, 0xffu8, MOTION_UID, 0x00u8]; let mut buffer = [0x00u8];
match message { match message {
Message::Temperature(temperature) => buffer[1] = temperature as u8, Message::Temperature(temperature) => buffer[0] = temperature as u8,
Message::MotionDetected => buffer[3] = 0x01u8, Message::MotionDetected => buffer[0] = 0x01u8,
}; };
// crypto for text ??? // unencrypted
match radio.tx(tx_config, &buffer).await { match radio.tx(tx_config, &buffer).await {
Ok(ret_val) => info!("TX ret_val = {}", ret_val), Ok(ret_val) => info!("TX ret_val = {}", ret_val),
Err(err) => info!("TX error = {}", err), Err(err) => info!("TX error = {}", err),
@ -165,9 +121,5 @@ async fn main(spawner: Spawner) {
Ok(()) => info!("Sleep successful"), Ok(()) => info!("Sleep successful"),
Err(err) => info!("Sleep unsuccessful = {}", err), Err(err) => info!("Sleep unsuccessful = {}", err),
} }
debug_indicator.set_high();
Timer::after(Duration::from_secs(5)).await;
debug_indicator.set_low();
} }
} }