Support unstable-trait feature for stm32

This commit is contained in:
Ulf Lilleengen 2022-01-26 22:39:06 +01:00
parent cd36e3f733
commit 4032fc0655
32 changed files with 604 additions and 673 deletions

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@ -18,6 +18,8 @@ log = { version = "0.4.14", optional = true }
embassy = { version = "0.1.0", path = "../embassy", default-features = false }
embassy-stm32 = { version = "0.1.0", path = "../embassy-stm32", default-features = false, optional = true }
embedded-hal-1 = { package = "embedded-hal", version = "1.0.0-alpha.6", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy", optional = true}
embedded-hal-async = { version = "0.0.1", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy"}
embassy-hal-common = { version = "0.1.0", path = "../embassy-hal-common", default-features = false }
futures = { version = "0.3.17", default-features = false, features = [ "async-await" ] }
embedded-hal = { version = "0.2", features = ["unproven"] }

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@ -1,7 +1,7 @@
use core::future::Future;
use embassy::traits::gpio::WaitForRisingEdge;
use embassy::traits::spi::*;
use embedded_hal::digital::v2::OutputPin;
use embedded_hal_async::digital::Wait;
use embedded_hal_async::spi::*;
use lorawan_device::async_device::{
radio::{Bandwidth, PhyRxTx, RfConfig, RxQuality, SpreadingFactor, TxConfig},
Timings,
@ -20,11 +20,11 @@ pub trait RadioSwitch {
/// Semtech Sx127x radio peripheral
pub struct Sx127xRadio<SPI, CS, RESET, E, I, RFS>
where
SPI: FullDuplex<u8, Error = E> + 'static,
SPI: ReadWrite<u8, Error = E> + 'static,
E: 'static,
CS: OutputPin + 'static,
RESET: OutputPin + 'static,
I: WaitForRisingEdge + 'static,
I: Wait + 'static,
RFS: RadioSwitch + 'static,
{
radio: LoRa<SPI, CS, RESET>,
@ -42,10 +42,10 @@ pub enum State {
impl<SPI, CS, RESET, E, I, RFS> Sx127xRadio<SPI, CS, RESET, E, I, RFS>
where
SPI: FullDuplex<u8, Error = E> + 'static,
SPI: ReadWrite<u8, Error = E> + 'static,
CS: OutputPin + 'static,
RESET: OutputPin + 'static,
I: WaitForRisingEdge + 'static,
I: Wait + 'static,
RFS: RadioSwitch + 'static,
E: 'static,
{
@ -64,10 +64,10 @@ where
impl<SPI, CS, RESET, E, I, RFS> Timings for Sx127xRadio<SPI, CS, RESET, E, I, RFS>
where
SPI: FullDuplex<u8, Error = E> + 'static,
SPI: ReadWrite<u8, Error = E> + 'static,
CS: OutputPin + 'static,
RESET: OutputPin + 'static,
I: WaitForRisingEdge + 'static,
I: Wait + 'static,
RFS: RadioSwitch + 'static,
{
fn get_rx_window_offset_ms(&self) -> i32 {
@ -80,11 +80,11 @@ where
impl<SPI, CS, RESET, E, I, RFS> PhyRxTx for Sx127xRadio<SPI, CS, RESET, E, I, RFS>
where
SPI: FullDuplex<u8, Error = E> + 'static,
SPI: ReadWrite<u8, Error = E> + 'static,
CS: OutputPin + 'static,
E: 'static,
RESET: OutputPin + 'static,
I: WaitForRisingEdge + 'static,
I: Wait + 'static,
RFS: RadioSwitch + 'static,
{
type PhyError = Sx127xError;
@ -126,7 +126,7 @@ where
self.radio.transmit_start(buf).await?;
loop {
self.irq.wait_for_rising_edge().await;
self.irq.wait_for_rising_edge().await.unwrap();
self.radio.set_mode(RadioMode::Stdby).await.ok().unwrap();
let irq = self.radio.clear_irq().await.ok().unwrap();
if (irq & IRQ::IrqTxDoneMask.addr()) != 0 {
@ -171,7 +171,7 @@ where
self.radio.set_mode(RadioMode::RxContinuous).await?;
loop {
self.irq.wait_for_rising_edge().await;
self.irq.wait_for_rising_edge().await.unwrap();
self.radio.set_mode(RadioMode::Stdby).await.ok().unwrap();
let irq = self.radio.clear_irq().await.ok().unwrap();
if (irq & IRQ::IrqRxDoneMask.addr()) != 0 {

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@ -7,8 +7,8 @@
use bit_field::BitField;
use embassy::time::{Duration, Timer};
use embassy::traits::spi::*;
use embedded_hal::digital::v2::OutputPin;
use embedded_hal_async::spi::ReadWrite;
mod register;
use self::register::PaConfig;
@ -36,9 +36,10 @@ pub enum Error<SPI, CS, RESET> {
Transmitting,
}
use super::sx127x_lora::register::{FskDataModulationShaping, FskRampUpRamDown};
use Error::*;
use super::sx127x_lora::register::{FskDataModulationShaping, FskRampUpRamDown};
#[cfg(not(feature = "version_0x09"))]
const VERSION_CHECK: u8 = 0x12;
@ -47,7 +48,7 @@ const VERSION_CHECK: u8 = 0x09;
impl<SPI, CS, RESET, E> LoRa<SPI, CS, RESET>
where
SPI: FullDuplex<u8, Error = E>,
SPI: ReadWrite<u8, Error = E>,
CS: OutputPin,
RESET: OutputPin,
{
@ -546,7 +547,7 @@ where
let _ = self
.spi
.read_write(&mut buffer, &[reg & 0x7f, 0])
.transfer(&mut buffer, &[reg & 0x7f, 0])
.await
.map_err(SPI)?;

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@ -9,14 +9,16 @@ resolver = "2"
embassy = { version = "0.1.0", path = "../embassy" }
embassy-macros = { version = "0.1.0", path = "../embassy-macros", features = ["stm32"] }
embassy-hal-common = {version = "0.1.0", path = "../embassy-hal-common" }
embassy-traits = {version = "0.1.0", path = "../embassy-traits" }
embassy-net = { version = "0.1.0", path = "../embassy-net", default-features = false, optional = true }
embedded-hal-02 = { package = "embedded-hal", version = "0.2.6" }
embedded-hal-1 = { package = "embedded-hal", version = "1.0.0-alpha.6", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy", optional = true}
embedded-hal-async = { version = "0.0.1", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy", optional = true}
defmt = { version = "0.3", optional = true }
log = { version = "0.4.14", optional = true }
cortex-m-rt = ">=0.6.15,<0.8"
cortex-m = "0.7.3"
embedded-hal = { version = "0.2.6", features = ["unproven"] }
futures = { version = "0.3.17", default-features = false, features = ["async-await"] }
rand_core = "0.6.3"
sdio-host = "0.5.0"
@ -56,6 +58,9 @@ time-driver-tim5 = ["_time-driver"]
# There are no plans to make this stable.
unstable-pac = []
# Implement embedded-hal 1.0 alpha and embedded-hal-async traits.
unstable-traits = ["embedded-hal-1", "embedded-hal-async"]
# BEGIN GENERATED FEATURES
# Generated by stm32-gen-features. DO NOT EDIT.
stm32f030c6 = [ "stm32-metapac/stm32f030c6" ]

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@ -4,7 +4,7 @@ use crate::time::Hertz;
use core::marker::PhantomData;
use embassy::util::Unborrow;
use embassy_hal_common::unborrow;
use embedded_hal::blocking::delay::DelayUs;
use embedded_hal_02::blocking::delay::DelayUs;
pub const VDDA_CALIB_MV: u32 = 3300;
pub const ADC_MAX: u32 = (1 << 12) - 1;

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@ -2,7 +2,7 @@ use crate::adc::{AdcPin, Instance};
use core::marker::PhantomData;
use embassy::util::Unborrow;
use embassy_hal_common::unborrow;
use embedded_hal::blocking::delay::DelayUs;
use embedded_hal_02::blocking::delay::DelayUs;
pub const VDDA_CALIB_MV: u32 = 3000;

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@ -1,15 +1,10 @@
use core::convert::Infallible;
use core::future::Future;
use core::marker::PhantomData;
use core::pin::Pin;
use core::task::{Context, Poll};
use embassy::traits::gpio::{
WaitForAnyEdge, WaitForFallingEdge, WaitForHigh, WaitForLow, WaitForRisingEdge,
};
use embassy::util::Unborrow;
use embassy::waitqueue::AtomicWaker;
use embassy_hal_common::unsafe_impl_unborrow;
use embedded_hal::digital::v2::InputPin;
use crate::gpio::{AnyPin, Input, Pin as GpioPin};
use crate::interrupt;
@ -134,7 +129,11 @@ impl<'d, T: GpioPin> ExtiInput<'d, T> {
}
}
impl<'d, T: GpioPin> InputPin for ExtiInput<'d, T> {
mod eh02 {
use super::*;
use core::convert::Infallible;
impl<'d, T: GpioPin> embedded_hal_02::digital::v2::InputPin for ExtiInput<'d, T> {
type Error = Infallible;
fn is_high(&self) -> Result<bool, Self::Error> {
@ -144,60 +143,74 @@ impl<'d, T: GpioPin> InputPin for ExtiInput<'d, T> {
fn is_low(&self) -> Result<bool, Self::Error> {
Ok(self.is_low())
}
}
impl<'d, T: GpioPin> WaitForHigh for ExtiInput<'d, T> {
type Future<'a>
where
Self: 'a,
= impl Future<Output = ()> + 'a;
fn wait_for_high<'a>(&'a mut self) -> Self::Future<'a> {
self.wait_for_high()
}
}
impl<'d, T: GpioPin> WaitForLow for ExtiInput<'d, T> {
type Future<'a>
where
Self: 'a,
= impl Future<Output = ()> + 'a;
#[cfg(feature = "unstable-traits")]
mod eh1 {
use super::*;
use core::convert::Infallible;
use futures::FutureExt;
fn wait_for_low<'a>(&'a mut self) -> Self::Future<'a> {
self.wait_for_low()
impl<'d, T: GpioPin> embedded_hal_1::digital::ErrorType for ExtiInput<'d, T> {
type Error = Infallible;
}
}
impl<'d, T: GpioPin> WaitForRisingEdge for ExtiInput<'d, T> {
type Future<'a>
where
Self: 'a,
= impl Future<Output = ()> + 'a;
fn wait_for_rising_edge<'a>(&'a mut self) -> Self::Future<'a> {
self.wait_for_rising_edge()
impl<'d, T: GpioPin> embedded_hal_1::digital::blocking::InputPin for ExtiInput<'d, T> {
fn is_high(&self) -> Result<bool, Self::Error> {
Ok(self.is_high())
}
}
impl<'d, T: GpioPin> WaitForFallingEdge for ExtiInput<'d, T> {
type Future<'a>
where
Self: 'a,
= impl Future<Output = ()> + 'a;
fn wait_for_falling_edge<'a>(&'a mut self) -> Self::Future<'a> {
self.wait_for_falling_edge()
fn is_low(&self) -> Result<bool, Self::Error> {
Ok(self.is_low())
}
}
}
impl<'d, T: GpioPin> WaitForAnyEdge for ExtiInput<'d, T> {
type Future<'a>
impl<'d, T: GpioPin> embedded_hal_async::digital::Wait for ExtiInput<'d, T> {
type WaitForHighFuture<'a>
where
Self: 'a,
= impl Future<Output = ()> + 'a;
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn wait_for_any_edge<'a>(&'a mut self) -> Self::Future<'a> {
self.wait_for_any_edge()
fn wait_for_high<'a>(&'a mut self) -> Self::WaitForHighFuture<'a> {
self.wait_for_high().map(Ok)
}
type WaitForLowFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn wait_for_low<'a>(&'a mut self) -> Self::WaitForLowFuture<'a> {
self.wait_for_low().map(Ok)
}
type WaitForRisingEdgeFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn wait_for_rising_edge<'a>(&'a mut self) -> Self::WaitForRisingEdgeFuture<'a> {
self.wait_for_rising_edge().map(Ok)
}
type WaitForFallingEdgeFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn wait_for_falling_edge<'a>(&'a mut self) -> Self::WaitForFallingEdgeFuture<'a> {
self.wait_for_falling_edge().map(Ok)
}
type WaitForAnyEdgeFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn wait_for_any_edge<'a>(&'a mut self) -> Self::WaitForAnyEdgeFuture<'a> {
self.wait_for_any_edge().map(Ok)
}
}
}

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@ -3,7 +3,7 @@ use core::convert::Infallible;
use core::marker::PhantomData;
use embassy::util::Unborrow;
use embassy_hal_common::{unborrow, unsafe_impl_unborrow};
use embedded_hal::digital::v2::{InputPin, OutputPin, StatefulOutputPin, ToggleableOutputPin};
use embedded_hal_02::digital::v2::{InputPin, OutputPin, StatefulOutputPin, ToggleableOutputPin};
use crate::pac;
use crate::pac::gpio::{self, vals};

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@ -8,6 +8,7 @@ mod _version;
use crate::{dma, peripherals};
pub use _version::*;
#[derive(Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum Error {
Bus,

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@ -270,7 +270,7 @@ impl<'d, T: Instance> I2c<'d, T> {
}
}
impl<'d, T: Instance> embedded_hal::blocking::i2c::Read for I2c<'d, T> {
impl<'d, T: Instance> embedded_hal_02::blocking::i2c::Read for I2c<'d, T> {
type Error = Error;
fn read(&mut self, addr: u8, buffer: &mut [u8]) -> Result<(), Self::Error> {
@ -278,7 +278,7 @@ impl<'d, T: Instance> embedded_hal::blocking::i2c::Read for I2c<'d, T> {
}
}
impl<'d, T: Instance> embedded_hal::blocking::i2c::Write for I2c<'d, T> {
impl<'d, T: Instance> embedded_hal_02::blocking::i2c::Write for I2c<'d, T> {
type Error = Error;
fn write(&mut self, addr: u8, bytes: &[u8]) -> Result<(), Self::Error> {
@ -286,7 +286,7 @@ impl<'d, T: Instance> embedded_hal::blocking::i2c::Write for I2c<'d, T> {
}
}
impl<'d, T: Instance> embedded_hal::blocking::i2c::WriteRead for I2c<'d, T> {
impl<'d, T: Instance> embedded_hal_02::blocking::i2c::WriteRead for I2c<'d, T> {
type Error = Error;
fn write_read(&mut self, addr: u8, bytes: &[u8], buffer: &mut [u8]) -> Result<(), Self::Error> {

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@ -1,11 +1,9 @@
use core::cmp;
use core::future::Future;
use core::marker::PhantomData;
use core::task::Poll;
use atomic_polyfill::{AtomicUsize, Ordering};
use embassy::interrupt::InterruptExt;
use embassy::traits::i2c::I2c as I2cTrait;
use embassy::util::Unborrow;
use embassy::waitqueue::AtomicWaker;
use embassy_hal_common::drop::OnDrop;
@ -735,23 +733,26 @@ impl<'d, T: Instance, TXDMA, RXDMA> I2c<'d, T, TXDMA, RXDMA> {
}
}
impl<'d, T: Instance> embedded_hal::blocking::i2c::Read for I2c<'d, T> {
mod eh02 {
use super::*;
impl<'d, T: Instance> embedded_hal_02::blocking::i2c::Read for I2c<'d, T> {
type Error = Error;
fn read(&mut self, address: u8, buffer: &mut [u8]) -> Result<(), Self::Error> {
self.blocking_read(address, buffer)
}
}
}
impl<'d, T: Instance> embedded_hal::blocking::i2c::Write for I2c<'d, T> {
impl<'d, T: Instance> embedded_hal_02::blocking::i2c::Write for I2c<'d, T> {
type Error = Error;
fn write(&mut self, address: u8, bytes: &[u8]) -> Result<(), Self::Error> {
self.blocking_write(address, bytes)
}
}
}
impl<'d, T: Instance> embedded_hal::blocking::i2c::WriteRead for I2c<'d, T> {
impl<'d, T: Instance> embedded_hal_02::blocking::i2c::WriteRead for I2c<'d, T> {
type Error = Error;
fn write_read(
@ -762,6 +763,7 @@ impl<'d, T: Instance> embedded_hal::blocking::i2c::WriteRead for I2c<'d, T> {
) -> Result<(), Self::Error> {
self.blocking_write_read(address, bytes, buffer)
}
}
}
/// I2C Stop Configuration
@ -906,32 +908,58 @@ impl Timings {
}
}
impl<'d, T: Instance, TXDMA: super::TxDma<T>, RXDMA: super::RxDma<T>> I2cTrait<u8>
for I2c<'d, T, TXDMA, RXDMA>
{
type Error = super::Error;
#[cfg(feature = "unstable-traits")]
mod eh1 {
use super::super::{RxDma, TxDma};
use super::*;
use core::future::Future;
type WriteFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
impl embedded_hal_1::i2c::Error for Error {
fn kind(&self) -> embedded_hal_1::i2c::ErrorKind {
match *self {
Self::Bus => embedded_hal_1::i2c::ErrorKind::Bus,
Self::Arbitration => embedded_hal_1::i2c::ErrorKind::ArbitrationLoss,
Self::Nack => embedded_hal_1::i2c::ErrorKind::NoAcknowledge(
embedded_hal_1::i2c::NoAcknowledgeSource::Unknown,
),
Self::Timeout => embedded_hal_1::i2c::ErrorKind::Other,
Self::Crc => embedded_hal_1::i2c::ErrorKind::Other,
Self::Overrun => embedded_hal_1::i2c::ErrorKind::Overrun,
Self::ZeroLengthTransfer => embedded_hal_1::i2c::ErrorKind::Other,
}
}
}
impl<'d, T: Instance, TXDMA: TxDma<T>, RXDMA: RxDma<T>> embedded_hal_1::i2c::ErrorType
for I2c<'d, T, TXDMA, RXDMA>
{
type Error = Error;
}
impl<'d, T: Instance, TXDMA: TxDma<T>, RXDMA: RxDma<T>> embedded_hal_async::i2c::I2c
for I2c<'d, T, TXDMA, RXDMA>
{
type ReadFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
type WriteReadFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read<'a>(&'a mut self, address: u8, buffer: &'a mut [u8]) -> Self::ReadFuture<'a> {
self.read(address, buffer)
}
type WriteFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn write<'a>(&'a mut self, address: u8, bytes: &'a [u8]) -> Self::WriteFuture<'a> {
self.write(address, bytes)
}
type WriteReadFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn write_read<'a>(
&'a mut self,
address: u8,
@ -940,4 +968,20 @@ impl<'d, T: Instance, TXDMA: super::TxDma<T>, RXDMA: super::RxDma<T>> I2cTrait<u
) -> Self::WriteReadFuture<'a> {
self.write_read(address, bytes, buffer)
}
type TransactionFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn transaction<'a>(
&'a mut self,
address: u8,
operations: &mut [embedded_hal_async::i2c::Operation<'a>],
) -> Self::TransactionFuture<'a> {
let _ = address;
let _ = operations;
async move { todo!() }
}
}
}

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@ -1,11 +1,9 @@
#![macro_use]
use core::future::Future;
use core::marker::PhantomData;
use core::ptr;
use embassy::util::Unborrow;
use embassy_hal_common::unborrow;
use embassy_traits::spi as traits;
use self::sealed::WordSize;
use crate::dma;
@ -17,7 +15,7 @@ use crate::peripherals;
use crate::rcc::RccPeripheral;
use crate::time::Hertz;
pub use embedded_hal::spi::{Mode, Phase, Polarity, MODE_0, MODE_1, MODE_2, MODE_3};
pub use embedded_hal_02::spi::{Mode, Phase, Polarity, MODE_0, MODE_1, MODE_2, MODE_3};
#[cfg_attr(spi_v1, path = "v1.rs")]
#[cfg_attr(spi_f1, path = "v1.rs")]
@ -549,11 +547,16 @@ fn transfer_word<W: Word>(regs: Regs, tx_word: W) -> Result<W, Error> {
return Ok(rx_word);
}
// Note: It is not possible to impl these traits generically in embedded-hal 0.2 due to a conflict with
// some marker traits. For details, see https://github.com/rust-embedded/embedded-hal/pull/289
macro_rules! impl_blocking {
mod eh02 {
use super::*;
// Note: It is not possible to impl these traits generically in embedded-hal 0.2 due to a conflict with
// some marker traits. For details, see https://github.com/rust-embedded/embedded-hal/pull/289
macro_rules! impl_blocking {
($w:ident) => {
impl<'d, T: Instance> embedded_hal::blocking::spi::Write<$w> for Spi<'d, T, NoDma, NoDma> {
impl<'d, T: Instance> embedded_hal_02::blocking::spi::Write<$w>
for Spi<'d, T, NoDma, NoDma>
{
type Error = Error;
fn write(&mut self, words: &[$w]) -> Result<(), Self::Error> {
@ -561,7 +564,7 @@ macro_rules! impl_blocking {
}
}
impl<'d, T: Instance> embedded_hal::blocking::spi::Transfer<$w>
impl<'d, T: Instance> embedded_hal_02::blocking::spi::Transfer<$w>
for Spi<'d, T, NoDma, NoDma>
{
type Error = Error;
@ -572,16 +575,35 @@ macro_rules! impl_blocking {
}
}
};
}
impl_blocking!(u8);
impl_blocking!(u16);
}
impl_blocking!(u8);
impl_blocking!(u16);
#[cfg(feature = "unstable-traits")]
mod eh1 {
use super::*;
use core::future::Future;
impl<'d, T: Instance, Tx, Rx> traits::Spi<u8> for Spi<'d, T, Tx, Rx> {
impl<'d, T: Instance, Tx, Rx> embedded_hal_1::spi::ErrorType for Spi<'d, T, Tx, Rx> {
type Error = Error;
}
}
impl<'d, T: Instance, Tx: TxDmaChannel<T>, Rx> traits::Write<u8> for Spi<'d, T, Tx, Rx> {
impl embedded_hal_1::spi::Error for Error {
fn kind(&self) -> embedded_hal_1::spi::ErrorKind {
match *self {
Self::Framing => embedded_hal_1::spi::ErrorKind::FrameFormat,
Self::Crc => embedded_hal_1::spi::ErrorKind::Other,
Self::ModeFault => embedded_hal_1::spi::ErrorKind::ModeFault,
Self::Overrun => embedded_hal_1::spi::ErrorKind::Overrun,
}
}
}
impl<'d, T: Instance, Tx: TxDmaChannel<T>, Rx> embedded_hal_async::spi::Write<u8>
for Spi<'d, T, Tx, Rx>
{
type WriteFuture<'a>
where
Self: 'a,
@ -590,11 +612,28 @@ impl<'d, T: Instance, Tx: TxDmaChannel<T>, Rx> traits::Write<u8> for Spi<'d, T,
fn write<'a>(&'a mut self, data: &'a [u8]) -> Self::WriteFuture<'a> {
self.write(data)
}
}
impl<'d, T: Instance, Tx: TxDmaChannel<T>, Rx: RxDmaChannel<T>> traits::Read<u8>
for Spi<'d, T, Tx, Rx>
{
type WriteTransactionFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn write_transaction<'a>(
&'a mut self,
words: &'a [&'a [u8]],
) -> Self::WriteTransactionFuture<'a> {
async move {
for buf in words {
self.write(buf).await?
}
Ok(())
}
}
}
impl<'d, T: Instance, Tx: TxDmaChannel<T>, Rx: RxDmaChannel<T>>
embedded_hal_async::spi::Read<u8> for Spi<'d, T, Tx, Rx>
{
type ReadFuture<'a>
where
Self: 'a,
@ -603,22 +642,73 @@ impl<'d, T: Instance, Tx: TxDmaChannel<T>, Rx: RxDmaChannel<T>> traits::Read<u8>
fn read<'a>(&'a mut self, data: &'a mut [u8]) -> Self::ReadFuture<'a> {
self.read(data)
}
}
impl<'d, T: Instance, Tx: TxDmaChannel<T>, Rx: RxDmaChannel<T>> traits::FullDuplex<u8>
for Spi<'d, T, Tx, Rx>
{
type WriteReadFuture<'a>
type ReadTransactionFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read_write<'a>(
fn read_transaction<'a>(
&'a mut self,
read: &'a mut [u8],
write: &'a [u8],
) -> Self::WriteReadFuture<'a> {
self.transfer(read, write)
words: &'a mut [&'a mut [u8]],
) -> Self::ReadTransactionFuture<'a> {
async move {
for buf in words {
self.read(buf).await?
}
Ok(())
}
}
}
impl<'d, T: Instance, Tx: TxDmaChannel<T>, Rx: RxDmaChannel<T>>
embedded_hal_async::spi::ReadWrite<u8> for Spi<'d, T, Tx, Rx>
{
type TransferFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn transfer<'a>(&'a mut self, rx: &'a mut [u8], tx: &'a [u8]) -> Self::TransferFuture<'a> {
self.transfer(rx, tx)
}
type TransferInPlaceFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn transfer_in_place<'a>(
&'a mut self,
words: &'a mut [u8],
) -> Self::TransferInPlaceFuture<'a> {
// TODO: Implement async version
let result = self.blocking_transfer_in_place(words);
async move { result }
}
type TransactionFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn transaction<'a>(
&'a mut self,
operations: &'a mut [embedded_hal_async::spi::Operation<'a, u8>],
) -> Self::TransactionFuture<'a> {
use embedded_hal_1::spi::blocking::Operation;
async move {
for o in operations {
match o {
Operation::Read(b) => self.read(b).await?,
Operation::Write(b) => self.write(b).await?,
Operation::Transfer(r, w) => self.transfer(r, w).await?,
Operation::TransferInPlace(b) => self.transfer_in_place(b).await?,
}
}
Ok(())
}
}
}
}

View File

@ -1,11 +1,9 @@
#![macro_use]
use core::future::Future;
use core::marker::PhantomData;
use embassy::interrupt::Interrupt;
use embassy::util::Unborrow;
use embassy_hal_common::unborrow;
use futures::TryFutureExt;
use crate::dma::NoDma;
use crate::gpio::sealed::AFType::{OutputOpenDrain, OutputPushPull};
@ -211,7 +209,12 @@ impl<'d, T: Instance, TxDma, RxDma> Uart<'d, T, TxDma, RxDma> {
}
}
impl<'d, T: Instance, TxDma, RxDma> embedded_hal::serial::Read<u8> for Uart<'d, T, TxDma, RxDma> {
mod eh02 {
use super::*;
impl<'d, T: Instance, TxDma, RxDma> embedded_hal_02::serial::Read<u8>
for Uart<'d, T, TxDma, RxDma>
{
type Error = Error;
fn read(&mut self) -> Result<u8, nb::Error<Self::Error>> {
let r = self.inner.regs();
@ -236,11 +239,11 @@ impl<'d, T: Instance, TxDma, RxDma> embedded_hal::serial::Read<u8> for Uart<'d,
}
}
}
}
}
impl<'d, T: Instance, TxDma, RxDma> embedded_hal::blocking::serial::Write<u8>
impl<'d, T: Instance, TxDma, RxDma> embedded_hal_02::blocking::serial::Write<u8>
for Uart<'d, T, TxDma, RxDma>
{
{
type Error = Error;
fn bwrite_all(&mut self, buffer: &[u8]) -> Result<(), Self::Error> {
self.blocking_write(buffer)
@ -248,35 +251,66 @@ impl<'d, T: Instance, TxDma, RxDma> embedded_hal::blocking::serial::Write<u8>
fn bflush(&mut self) -> Result<(), Self::Error> {
self.blocking_flush()
}
}
impl<'d, T: Instance, TxDma, RxDma> embassy_traits::uart::Write for Uart<'d, T, TxDma, RxDma>
where
TxDma: crate::usart::TxDma<T>,
{
type WriteFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), embassy_traits::uart::Error>> + 'a;
fn write<'a>(&'a mut self, buf: &'a [u8]) -> Self::WriteFuture<'a> {
self.write(buf)
.map_err(|_| embassy_traits::uart::Error::Other)
}
}
impl<'d, T: Instance, TxDma, RxDma> embassy_traits::uart::Read for Uart<'d, T, TxDma, RxDma>
where
#[cfg(feature = "unstable-traits")]
mod eh1 {
use super::*;
use core::future::Future;
impl embedded_hal_1::serial::Error for Error {
fn kind(&self) -> embedded_hal_1::serial::ErrorKind {
match *self {
Self::Framing => embedded_hal_1::serial::ErrorKind::FrameFormat,
Self::Noise => embedded_hal_1::serial::ErrorKind::Noise,
Self::Overrun => embedded_hal_1::serial::ErrorKind::Overrun,
Self::Parity => embedded_hal_1::serial::ErrorKind::Parity,
}
}
}
impl<'d, T: Instance, TxDma, RxDma> embedded_hal_1::serial::ErrorType
for Uart<'d, T, TxDma, RxDma>
{
type Error = Error;
}
impl<'d, T: Instance, TxDma, RxDma> embedded_hal_async::serial::Write for Uart<'d, T, TxDma, RxDma>
where
TxDma: crate::usart::TxDma<T>,
{
type WriteFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn write<'a>(&'a mut self, buf: &'a [u8]) -> Self::WriteFuture<'a> {
self.write(buf)
}
type FlushFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn flush<'a>(&'a mut self) -> Self::FlushFuture<'a> {
async move { Ok(()) }
}
}
impl<'d, T: Instance, TxDma, RxDma> embedded_hal_async::serial::Read for Uart<'d, T, TxDma, RxDma>
where
RxDma: crate::usart::RxDma<T>,
{
{
type ReadFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), embassy_traits::uart::Error>> + 'a;
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read<'a>(&'a mut self, buf: &'a mut [u8]) -> Self::ReadFuture<'a> {
self.read(buf)
.map_err(|_| embassy_traits::uart::Error::Other)
}
}
}

View File

@ -9,5 +9,7 @@ std = []
[dependencies]
defmt = { version = "0.3", optional = true }
embedded-hal = { version = "0.2.6", features = ["unproven"] }
embedded-hal-02 = { package = "embedded-hal", version = "0.2.6", features = ["unproven"] }
embedded-hal-1 = { package = "embedded-hal", version = "1.0.0-alpha.6", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy" }
embedded-hal-async = { version = "0.0.1", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy"}
nb = "1.0.0"

View File

@ -1,6 +1,6 @@
use core::future::Future;
use embedded_hal::blocking;
use embedded_hal::serial;
use embedded_hal_02::blocking;
use embedded_hal_02::serial;
/// BlockingAsync is a wrapper that implements async traits using blocking peripherals. This allows
/// driver writers to depend on the async traits while still supporting embedded-hal peripheral implementations.
@ -20,24 +20,37 @@ impl<T> BlockingAsync<T> {
}
//
// I2C implementatinos
// I2C implementations
//
impl<T, E> crate::i2c::I2c for BlockingAsync<T>
impl<T, E> embedded_hal_1::i2c::ErrorType for BlockingAsync<T>
where
E: 'static,
E: embedded_hal_1::i2c::Error + 'static,
T: blocking::i2c::WriteRead<Error = E>
+ blocking::i2c::Read<Error = E>
+ blocking::i2c::Write<Error = E>,
{
type Error = E;
}
#[rustfmt::skip]
type WriteFuture<'a> where Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
#[rustfmt::skip]
type ReadFuture<'a> where Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
#[rustfmt::skip]
type WriteReadFuture<'a> where Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
impl<T, E> embedded_hal_async::i2c::I2c for BlockingAsync<T>
where
E: embedded_hal_1::i2c::Error + 'static,
T: blocking::i2c::WriteRead<Error = E>
+ blocking::i2c::Read<Error = E>
+ blocking::i2c::Write<Error = E>,
{
type WriteFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
type ReadFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
type WriteReadFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read<'a>(&'a mut self, address: u8, buffer: &'a mut [u8]) -> Self::ReadFuture<'a> {
async move { self.wrapped.read(address, buffer) }
@ -55,33 +68,46 @@ where
) -> Self::WriteReadFuture<'a> {
async move { self.wrapped.write_read(address, bytes, buffer) }
}
type TransactionFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn transaction<'a>(
&'a mut self,
address: u8,
operations: &mut [embedded_hal_async::i2c::Operation<'a>],
) -> Self::TransactionFuture<'a> {
let _ = address;
let _ = operations;
async move { todo!() }
}
}
//
// SPI implementatinos
//
impl<T, E, Word> crate::spi::Spi<Word> for BlockingAsync<T>
impl<T, E> embedded_hal_async::spi::ErrorType for BlockingAsync<T>
where
T: blocking::spi::Write<Word, Error = E>,
E: embedded_hal_1::spi::Error,
T: blocking::spi::Transfer<u8, Error = E> + blocking::spi::Write<u8, Error = E>,
{
type Error = E;
}
impl<T, E, Word> crate::spi::FullDuplex<Word> for BlockingAsync<T>
impl<T, E> embedded_hal_async::spi::ReadWrite<u8> for BlockingAsync<T>
where
E: 'static,
Word: Clone,
T: blocking::spi::Transfer<Word, Error = E> + blocking::spi::Write<Word, Error = E>,
E: embedded_hal_1::spi::Error + 'static,
T: blocking::spi::Transfer<u8, Error = E> + blocking::spi::Write<u8, Error = E>,
{
#[rustfmt::skip]
type WriteReadFuture<'a> where Word: 'a, Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
type TransferFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read_write<'a>(
&'a mut self,
read: &'a mut [Word],
write: &'a [Word],
) -> Self::WriteReadFuture<'a> {
fn transfer<'a>(&'a mut self, read: &'a mut [u8], write: &'a [u8]) -> Self::TransferFuture<'a> {
async move {
// Ensure we write the expected bytes
for i in 0..core::cmp::min(read.len(), write.len()) {
@ -91,53 +117,111 @@ where
Ok(())
}
}
}
impl<T, E, Word> crate::spi::Write<Word> for BlockingAsync<T>
where
E: 'static,
Word: Clone,
T: blocking::spi::Write<Word, Error = E>,
{
#[rustfmt::skip]
type WriteFuture<'a> where Word: 'a, Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
type TransferInPlaceFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn write<'a>(&'a mut self, data: &'a [Word]) -> Self::WriteFuture<'a> {
async move { self.wrapped.write(data) }
fn transfer_in_place<'a>(&'a mut self, _: &'a mut [u8]) -> Self::TransferInPlaceFuture<'a> {
async move { todo!() }
}
type TransactionFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn transaction<'a>(
&'a mut self,
_: &'a mut [embedded_hal_async::spi::Operation<'a, u8>],
) -> Self::TransactionFuture<'a> {
async move { todo!() }
}
}
impl<T, E, Word> crate::spi::Read<Word> for BlockingAsync<T>
impl<T, E> embedded_hal_async::spi::Write<u8> for BlockingAsync<T>
where
E: 'static,
Word: Clone,
T: blocking::spi::Transfer<Word, Error = E> + blocking::spi::Write<Word, Error = E>,
E: embedded_hal_1::spi::Error + 'static,
T: blocking::spi::Transfer<u8, Error = E> + blocking::spi::Write<u8, Error = E>,
{
#[rustfmt::skip]
type ReadFuture<'a> where Word: 'a, Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
type WriteFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read<'a>(&'a mut self, data: &'a mut [Word]) -> Self::ReadFuture<'a> {
fn write<'a>(&'a mut self, data: &'a [u8]) -> Self::WriteFuture<'a> {
async move {
self.wrapped.write(data)?;
Ok(())
}
}
type WriteTransactionFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn write_transaction<'a>(&'a mut self, _: &'a [&'a [u8]]) -> Self::WriteTransactionFuture<'a> {
async move { todo!() }
}
}
impl<T, E> embedded_hal_async::spi::Read<u8> for BlockingAsync<T>
where
E: embedded_hal_1::spi::Error + 'static,
T: blocking::spi::Transfer<u8, Error = E> + blocking::spi::Write<u8, Error = E>,
{
type ReadFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read<'a>(&'a mut self, data: &'a mut [u8]) -> Self::ReadFuture<'a> {
async move {
self.wrapped.transfer(data)?;
Ok(())
}
}
type ReadTransactionFuture<'a>
where
Self: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read_transaction<'a>(
&'a mut self,
_: &'a mut [&'a mut [u8]],
) -> Self::ReadTransactionFuture<'a> {
async move { todo!() }
}
}
// Uart implementatinos
impl<T> crate::uart::Read for BlockingAsync<T>
impl<T, E> embedded_hal_1::serial::ErrorType for BlockingAsync<T>
where
T: serial::Read<u8>,
T: serial::Read<u8, Error = E>,
E: embedded_hal_1::serial::Error + 'static,
{
#[rustfmt::skip]
type ReadFuture<'a> where T: 'a = impl Future<Output = Result<(), crate::uart::Error>> + 'a;
type Error = E;
}
impl<T, E> embedded_hal_async::serial::Read for BlockingAsync<T>
where
T: serial::Read<u8, Error = E>,
E: embedded_hal_1::serial::Error + 'static,
{
type ReadFuture<'a>
where
T: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn read<'a>(&'a mut self, buf: &'a mut [u8]) -> Self::ReadFuture<'a> {
async move {
let mut pos = 0;
while pos < buf.len() {
match self.wrapped.read() {
Err(nb::Error::WouldBlock) => {}
Err(_) => return Err(crate::uart::Error::Other),
Err(nb::Error::Other(e)) => return Err(e),
Ok(b) => {
buf[pos] = b;
pos += 1;
@ -149,18 +233,24 @@ where
}
}
impl<T> crate::uart::Write for BlockingAsync<T>
impl<T, E> embedded_hal_async::serial::Write for BlockingAsync<T>
where
T: blocking::serial::Write<u8>,
T: blocking::serial::Write<u8, Error = E> + serial::Read<u8, Error = E>,
E: embedded_hal_1::serial::Error + 'static,
{
#[rustfmt::skip]
type WriteFuture<'a> where T: 'a = impl Future<Output = Result<(), crate::uart::Error>> + 'a;
type WriteFuture<'a>
where
T: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn write<'a>(&'a mut self, buf: &'a [u8]) -> Self::WriteFuture<'a> {
async move {
self.wrapped
.bwrite_all(buf)
.map_err(|_| crate::uart::Error::Other)?;
self.wrapped.bflush().map_err(|_| crate::uart::Error::Other)
async move { self.wrapped.bwrite_all(buf) }
}
type FlushFuture<'a>
where
T: 'a,
= impl Future<Output = Result<(), Self::Error>> + 'a;
fn flush<'a>(&'a mut self) -> Self::FlushFuture<'a> {
async move { self.wrapped.bflush() }
}
}

View File

@ -1,57 +0,0 @@
use core::future::Future;
/// Wait for a pin to become high.
pub trait WaitForHigh {
type Future<'a>: Future<Output = ()> + 'a
where
Self: 'a;
/// Wait for a pin to become high.
///
/// If the pin is already high, the future completes immediately.
/// Otherwise, it completes when it becomes high.
fn wait_for_high(&mut self) -> Self::Future<'_>;
}
/// Wait for a pin to become low.
pub trait WaitForLow {
type Future<'a>: Future<Output = ()> + 'a
where
Self: 'a;
/// Wait for a pin to become low.
///
/// If the pin is already low, the future completes immediately.
/// Otherwise, it completes when it becomes low.
fn wait_for_low(&mut self) -> Self::Future<'_>;
}
/// Wait for a rising edge (transition from low to high)
pub trait WaitForRisingEdge {
type Future<'a>: Future<Output = ()> + 'a
where
Self: 'a;
/// Wait for a rising edge (transition from low to high)
fn wait_for_rising_edge(&mut self) -> Self::Future<'_>;
}
/// Wait for a falling edge (transition from high to low)
pub trait WaitForFallingEdge {
type Future<'a>: Future<Output = ()> + 'a
where
Self: 'a;
/// Wait for a falling edge (transition from high to low)
fn wait_for_falling_edge(&'_ mut self) -> Self::Future<'_>;
}
/// Wait for any edge (any transition, high to low or low to high)
pub trait WaitForAnyEdge {
type Future<'a>: Future<Output = ()> + 'a
where
Self: 'a;
/// Wait for any edge (any transition, high to low or low to high)
fn wait_for_any_edge(&mut self) -> Self::Future<'_>;
}

View File

@ -1,192 +0,0 @@
//! Async I2C API
//!
//! This API supports 7-bit and 10-bit addresses. Traits feature an `AddressMode`
//! marker type parameter. Two implementation of the `AddressMode` exist:
//! `SevenBitAddress` and `TenBitAddress`.
//!
//! Through this marker types it is possible to implement each address mode for
//! the traits independently in `embedded-hal` implementations and device drivers
//! can depend only on the mode that they support.
//!
//! Additionally, the I2C 10-bit address mode has been developed to be fully
//! backwards compatible with the 7-bit address mode. This allows for a
//! software-emulated 10-bit addressing implementation if the address mode
//! is not supported by the hardware.
//!
//! Since 7-bit addressing is the mode of the majority of I2C devices,
//! `SevenBitAddress` has been set as default mode and thus can be omitted if desired.
//!
//! ### Device driver compatible only with 7-bit addresses
//!
//! For demonstration purposes the address mode parameter has been omitted in this example.
//!
//! ```
//! # use embassy_traits::i2c::I2c;
//! const ADDR: u8 = 0x15;
//! # const TEMP_REGISTER: u8 = 0x1;
//! pub struct TemperatureSensorDriver<I2C> {
//! i2c: I2C,
//! }
//!
//! impl<I2C, E> TemperatureSensorDriver<I2C>
//! where
//! I2C: I2c<Error = E>,
//! {
//! pub fn read_temperature(&mut self) -> Result<u8, E> {
//! let mut temp = [0];
//! self.i2c
//! .write_read(ADDR, &[TEMP_REGISTER], &mut temp)
//! .await
//! .and(Ok(temp[0]))
//! }
//! }
//! ```
//!
//! ### Device driver compatible only with 10-bit addresses
//!
//! ```
//! # use embassy_traits::i2c::{TenBitAddress, I2c};
//! const ADDR: u16 = 0x158;
//! # const TEMP_REGISTER: u8 = 0x1;
//! pub struct TemperatureSensorDriver<I2C> {
//! i2c: I2C,
//! }
//!
//! impl<I2C, E> TemperatureSensorDriver<I2C>
//! where
//! I2C: I2c<TenBitAddress, Error = E>,
//! {
//! pub fn read_temperature(&mut self) -> Result<u8, E> {
//! let mut temp = [0];
//! self.i2c
//! .write_read(ADDR, &[TEMP_REGISTER], &mut temp)
//! .await
//! .and(Ok(temp[0]))
//! }
//! }
//! ```
use core::future::Future;
mod private {
pub trait Sealed {}
}
/// Address mode (7-bit / 10-bit)
///
/// Note: This trait is sealed and should not be implemented outside of this crate.
pub trait AddressMode: private::Sealed {}
/// 7-bit address mode type
pub type SevenBitAddress = u8;
/// 10-bit address mode type
pub type TenBitAddress = u16;
impl private::Sealed for SevenBitAddress {}
impl private::Sealed for TenBitAddress {}
impl AddressMode for SevenBitAddress {}
impl AddressMode for TenBitAddress {}
pub trait I2c<A: AddressMode = SevenBitAddress> {
/// Error type
type Error;
type WriteFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a
where
Self: 'a;
type ReadFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a
where
Self: 'a;
type WriteReadFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a
where
Self: 'a;
/// Reads enough bytes from slave with `address` to fill `buffer`
///
/// # I2C Events (contract)
///
/// ``` text
/// Master: ST SAD+R MAK MAK ... NMAK SP
/// Slave: SAK B0 B1 ... BN
/// ```
///
/// Where
///
/// - `ST` = start condition
/// - `SAD+R` = slave address followed by bit 1 to indicate reading
/// - `SAK` = slave acknowledge
/// - `Bi` = ith byte of data
/// - `MAK` = master acknowledge
/// - `NMAK` = master no acknowledge
/// - `SP` = stop condition
fn read<'a>(&'a mut self, address: A, buffer: &'a mut [u8]) -> Self::ReadFuture<'a>;
/// Sends bytes to slave with address `address`
///
/// # I2C Events (contract)
///
/// ``` text
/// Master: ST SAD+W B0 B1 ... BN SP
/// Slave: SAK SAK SAK ... SAK
/// ```
///
/// Where
///
/// - `ST` = start condition
/// - `SAD+W` = slave address followed by bit 0 to indicate writing
/// - `SAK` = slave acknowledge
/// - `Bi` = ith byte of data
/// - `SP` = stop condition
fn write<'a>(&'a mut self, address: A, bytes: &'a [u8]) -> Self::WriteFuture<'a>;
/// Sends bytes to slave with address `address` and then reads enough bytes to fill `buffer` *in a
/// single transaction*
///
/// # I2C Events (contract)
///
/// ``` text
/// Master: ST SAD+W O0 O1 ... OM SR SAD+R MAK MAK ... NMAK SP
/// Slave: SAK SAK SAK ... SAK SAK I0 I1 ... IN
/// ```
///
/// Where
///
/// - `ST` = start condition
/// - `SAD+W` = slave address followed by bit 0 to indicate writing
/// - `SAK` = slave acknowledge
/// - `Oi` = ith outgoing byte of data
/// - `SR` = repeated start condition
/// - `SAD+R` = slave address followed by bit 1 to indicate reading
/// - `Ii` = ith incoming byte of data
/// - `MAK` = master acknowledge
/// - `NMAK` = master no acknowledge
/// - `SP` = stop condition
fn write_read<'a>(
&'a mut self,
address: A,
bytes: &'a [u8],
buffer: &'a mut [u8],
) -> Self::WriteReadFuture<'a>;
}
pub trait WriteIter<A: AddressMode = SevenBitAddress> {
/// Error type
type Error;
type WriteIterFuture<'a, V>: Future<Output = Result<(), Self::Error>> + 'a
where
V: 'a + IntoIterator<Item = u8>,
Self: 'a;
/// Sends bytes to slave with address `address`
///
/// # I2C Events (contract)
///
/// Same as `I2c::write`
fn write_iter<'a, U>(&'a mut self, address: A, bytes: U) -> Self::WriteIterFuture<'a, U>
where
U: IntoIterator<Item = u8> + 'a;
}

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@ -5,8 +5,4 @@
pub mod adapter;
pub mod delay;
pub mod flash;
pub mod gpio;
pub mod i2c;
pub mod rng;
pub mod spi;
pub mod uart;

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@ -1,61 +0,0 @@
//! Async SPI API
use core::future::Future;
/// Full duplex (master mode)
///
/// # Notes
///
/// - It's the task of the user of this interface to manage the slave select lines
///
/// - Due to how full duplex SPI works each `read` call must be preceded by a `write` call.
///
/// - `read` calls only return the data received with the last `write` call.
/// Previously received data is discarded
///
/// - Data is only guaranteed to be clocked out when the `read` call succeeds.
/// The slave select line shouldn't be released before that.
///
/// - Some SPIs can work with 8-bit *and* 16-bit words. You can overload this trait with different
/// `Word` types to allow operation in both modes.
pub trait Spi<Word> {
/// An enumeration of SPI errors
type Error;
}
pub trait FullDuplex<Word>: Spi<Word> + Write<Word> + Read<Word> {
type WriteReadFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a
where
Self: 'a,
Word: 'a;
/// The `read` array must be at least as long as the `write` array,
/// but is guaranteed to only be filled with bytes equal to the
/// length of the `write` array.
fn read_write<'a>(
&'a mut self,
read: &'a mut [Word],
write: &'a [Word],
) -> Self::WriteReadFuture<'a>;
}
pub trait Write<Word>: Spi<Word> {
type WriteFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a
where
Self: 'a,
Word: 'a;
/// Writes `data` to the peripheral, ignoring all the incoming words.
fn write<'a>(&'a mut self, data: &'a [Word]) -> Self::WriteFuture<'a>;
}
pub trait Read<Word>: Write<Word> {
type ReadFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a
where
Self: 'a,
Word: 'a;
/// Reads words into `data` from the peripheral.
fn read<'a>(&'a mut self, data: &'a mut [Word]) -> Self::ReadFuture<'a>;
}

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@ -1,36 +0,0 @@
use core::future::Future;
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
#[non_exhaustive]
pub enum Error {
Other,
}
pub trait Read {
type ReadFuture<'a>: Future<Output = Result<(), Error>>
where
Self: 'a;
/// Receive into the buffer until the buffer is full.
fn read<'a>(&'a mut self, buf: &'a mut [u8]) -> Self::ReadFuture<'a>;
}
pub trait ReadUntilIdle {
type ReadUntilIdleFuture<'a>: Future<Output = Result<usize, Error>>
where
Self: 'a;
/// Receive into the buffer until the buffer is full or the line is idle after some bytes are received
/// Return the number of bytes received
fn read_until_idle<'a>(&'a mut self, buf: &'a mut [u8]) -> Self::ReadUntilIdleFuture<'a>;
}
pub trait Write {
type WriteFuture<'a>: Future<Output = Result<(), Error>>
where
Self: 'a;
/// Write all bytes in `buf`.
fn write<'a>(&'a mut self, buf: &'a [u8]) -> Self::WriteFuture<'a>;
}

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@ -10,7 +10,6 @@ use embassy::executor::Spawner;
use embassy_stm32::spi::{Config, Spi};
use embassy_stm32::time::Hertz;
use embassy_stm32::Peripherals;
use embassy_traits::spi::FullDuplex;
use example_common::*;
use heapless::String;
@ -33,7 +32,7 @@ async fn main(_spawner: Spawner, p: Peripherals) {
let mut write: String<128> = String::new();
let mut read = [0; 128];
core::write!(&mut write, "Hello DMA World {}!\r\n", n).unwrap();
spi.read_write(&mut read[0..write.len()], write.as_bytes())
spi.transfer(&mut read[0..write.len()], write.as_bytes())
.await
.ok();
info!("read via spi+dma: {}", from_utf8(&read).unwrap());

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@ -10,7 +10,7 @@ resolver = "2"
[dependencies]
embassy = { version = "0.1.0", path = "../../embassy", features = ["defmt"] }
embassy-traits = { version = "0.1.0", path = "../../embassy-traits", features = ["defmt"] }
embassy-stm32 = { version = "0.1.0", path = "../../embassy-stm32", features = ["defmt", "stm32h743zi", "net", "time-driver-any", "exti", "unstable-pac"] }
embassy-stm32 = { version = "0.1.0", path = "../../embassy-stm32", features = ["defmt", "stm32h743zi", "net", "time-driver-any", "exti", "unstable-pac", "unstable-traits"] }
embassy-net = { path = "../../embassy-net", default-features = false, features = ["defmt", "tcp", "medium-ethernet", "pool-16"] }
embassy-hal-common = { path = "../../embassy-hal-common", default-features = false, features = ["defmt"] }
@ -20,6 +20,7 @@ defmt-rtt = "0.3"
cortex-m = "0.7.3"
cortex-m-rt = "0.7.0"
embedded-hal = "0.2.6"
embedded-hal-async = { version = "0.0.1", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy"}
panic-probe = { version = "0.3", features = ["print-defmt"] }
futures = { version = "0.3.17", default-features = false, features = ["async-await"] }
heapless = { version = "0.7.5", default-features = false }

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@ -128,7 +128,7 @@ mod ov7725 {
use defmt::Format;
use embassy::time::{Duration, Timer};
use embassy_stm32::rcc::{Mco, McoInstance};
use embassy_traits::i2c::I2c;
use embedded_hal_async::i2c::I2c;
#[repr(u8)]
pub enum RgbFormat {

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@ -9,7 +9,6 @@ use core::fmt::Write;
use embassy::executor::Executor;
use embassy::util::Forever;
use embassy_stm32::time::U32Ext;
use embassy_traits::spi::FullDuplex;
use example_common::*;
use core::str::from_utf8;
@ -24,8 +23,8 @@ async fn main_task(mut spi: spi::Spi<'static, SPI3, DMA1_CH3, DMA1_CH4>) {
let mut write: String<128> = String::new();
let mut read = [0; 128];
core::write!(&mut write, "Hello DMA World {}!\r\n", n).unwrap();
// read_write will slice the &mut read down to &write's actual length.
spi.read_write(&mut read, write.as_bytes()).await.ok();
// transfer will slice the &mut read down to &write's actual length.
spi.transfer(&mut read, write.as_bytes()).await.ok();
info!("read via spi+dma: {}", from_utf8(&read).unwrap());
}
}

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@ -8,7 +8,7 @@ resolver = "2"
[dependencies]
embassy = { version = "0.1.0", path = "../../embassy", features = ["defmt"] }
embassy-traits = { version = "0.1.0", path = "../../embassy-traits", features = ["defmt"] }
embassy-stm32 = { version = "0.1.0", path = "../../embassy-stm32", features = ["defmt", "stm32l072cz", "time-driver-any", "exti", "memory-x"] }
embassy-stm32 = { version = "0.1.0", path = "../../embassy-stm32", features = ["defmt", "stm32l072cz", "time-driver-any", "exti", "unstable-traits", "memory-x"] }
embassy-lora = { version = "0.1.0", path = "../../embassy-lora", features = ["sx127x", "time", "defmt"] }

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@ -10,7 +10,7 @@ resolver = "2"
[dependencies]
embassy = { version = "0.1.0", path = "../../embassy", features = ["defmt" ] }
embassy-traits = { version = "0.1.0", path = "../../embassy-traits", features = ["defmt"] }
embassy-stm32 = { version = "0.1.0", path = "../../embassy-stm32", features = ["defmt", "unstable-pac", "stm32l4s5vi", "time-driver-any", "exti"] }
embassy-stm32 = { version = "0.1.0", path = "../../embassy-stm32", features = ["defmt", "unstable-pac", "stm32l4s5vi", "time-driver-any", "exti", "unstable-traits"] }
defmt = "0.3"
defmt-rtt = "0.3"
@ -18,6 +18,7 @@ defmt-rtt = "0.3"
cortex-m = "0.7.3"
cortex-m-rt = "0.7.0"
embedded-hal = "0.2.6"
embedded-hal-async = { version = "0.0.1", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy"}
panic-probe = { version = "0.3", features = ["print-defmt"] }
futures = { version = "0.3.17", default-features = false, features = ["async-await"] }
heapless = { version = "0.7.5", default-features = false }

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@ -11,7 +11,8 @@ use embassy_stm32::i2c::I2c;
use embassy_stm32::interrupt;
use embassy_stm32::time::Hertz;
use embassy_stm32::Peripherals;
use embassy_traits::{adapter::BlockingAsync, i2c::I2c as _};
use embassy_traits::adapter::BlockingAsync;
use embedded_hal_async::i2c::I2c as I2cTrait;
use example_common::{info, unwrap};
const ADDRESS: u8 = 0x5F;

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@ -11,7 +11,8 @@ use embassy_stm32::gpio::{Input, Level, Output, Pull, Speed};
use embassy_stm32::spi::{Config, Spi};
use embassy_stm32::time::Hertz;
use embassy_stm32::Peripherals;
use embassy_traits::{adapter::BlockingAsync, spi::FullDuplex};
use embassy_traits::adapter::BlockingAsync;
use embedded_hal_async::spi::ReadWrite;
use example_common::*;
#[embassy::main]
@ -47,10 +48,10 @@ async fn main(_spawner: Spawner, p: Peripherals) {
info!("waiting for ready");
}
let write = [0x0A; 10];
let mut read = [0; 10];
let write: [u8; 10] = [0x0A; 10];
let mut read: [u8; 10] = [0; 10];
cs.set_low();
spi.read_write(&mut read, &write).await.ok();
spi.transfer(&mut read, &write).await.ok();
cs.set_high();
info!("xfer {=[u8]:x}", read);
}

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@ -10,7 +10,6 @@ use embassy_stm32::gpio::{Input, Level, Output, Pull, Speed};
use embassy_stm32::spi::{Config, Spi};
use embassy_stm32::time::Hertz;
use embassy_stm32::Peripherals;
use embassy_traits::spi::FullDuplex;
use example_common::*;
#[embassy::main]
@ -47,7 +46,7 @@ async fn main(_spawner: Spawner, p: Peripherals) {
let write = [0x0A; 10];
let mut read = [0; 10];
cs.set_low();
spi.read_write(&mut read, &write).await.ok();
spi.transfer(&mut read, &write).await.ok();
cs.set_high();
info!("xfer {=[u8]:x}", read);
}

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@ -6,13 +6,11 @@
mod example_common;
use embassy::executor::Spawner;
use embassy::traits::{
adapter::BlockingAsync,
uart::{Read, Write},
};
use embassy::traits::adapter::BlockingAsync;
use embassy_stm32::dma::NoDma;
use embassy_stm32::usart::{Config, Uart};
use embassy_stm32::Peripherals;
use embedded_hal_async::serial::{Read, Write};
use example_common::*;
#[embassy::main]

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@ -23,6 +23,7 @@ defmt-rtt = "0.3.0"
cortex-m = "0.7.3"
cortex-m-rt = "0.7.0"
embedded-hal = "0.2.6"
embedded-hal-async = { version = "0.0.1", git = "https://github.com/embassy-rs/embedded-hal", branch = "embassy"}
panic-probe = { version = "0.3.0", features = ["print-defmt"] }
[profile.dev]

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@ -9,7 +9,6 @@ use embassy::executor::Spawner;
use embassy_stm32::spi::{self, Spi};
use embassy_stm32::time::Hertz;
use embassy_stm32::Peripherals;
use embassy_traits::spi::FullDuplex;
use example_common::*;
#[embassy::main(config = "config()")]
@ -43,7 +42,7 @@ async fn main(_spawner: Spawner, p: Peripherals) {
// Arduino pins D11 and D12 (MOSI-MISO) are connected together with a 1K resistor.
// so we should get the data we sent back.
let mut buf = [0; 9];
spi.read_write(&mut buf, &data).await.unwrap();
spi.transfer(&mut buf, &data).await.unwrap();
assert_eq!(buf, data);
info!("Test OK");