Split uart in separate files, introduced a typesystem constraint for valid UART pin configurations

This commit is contained in:
Victor Koenders 2021-11-25 11:02:26 +01:00
parent 3eb65168ff
commit bdfb4d82c9
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GPG key ID: 2E441540865B8A1C
5 changed files with 383 additions and 152 deletions

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@ -0,0 +1,42 @@
use super::{DataBits, StopBits, UartConfig};
use embedded_time::rate::Baud;
/// 9600 baud, 8 data bits, no parity, 1 stop bit
pub const _9600_8_N_1: UartConfig = UartConfig {
baudrate: Baud(9600),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
/// 19200 baud, 8 data bits, no parity, 1 stop bit
pub const _19200_8_N_1: UartConfig = UartConfig {
baudrate: Baud(19200),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
/// 38400 baud, 8 data bits, no parity, 1 stop bit
pub const _38400_8_N_1: UartConfig = UartConfig {
baudrate: Baud(38400),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
/// 57600 baud, 8 data bits, no parity, 1 stop bit
pub const _57600_8_N_1: UartConfig = UartConfig {
baudrate: Baud(57600),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
/// 115200 baud, 8 data bits, no parity, 1 stop bit
pub const _115200_8_N_1: UartConfig = UartConfig {
baudrate: Baud(115200),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};

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//! Universal Asynchronous Receiver Transmitter (UART)
//!
//! See [Chapter 4 Section 2](https://datasheets.raspberrypi.org/rp2040/rp2040_datasheet.pdf) of the datasheet for more details
//!
//! ## Usage
//!
//! See [examples/uart.rs](https://github.com/rp-rs/rp-hal/tree/main/rp2040-hal/examples/uart.rs) for a more complete example
//! ```no_run
//! use rp2040_hal::{clocks::init_clocks_and_plls, gpio::{Pins, FunctionUart}, pac, sio::Sio, uart::{self, UartPeripheral}, watchdog::Watchdog};
//!
//! const XOSC_CRYSTAL_FREQ: u32 = 12_000_000; // Typically found in BSP crates
//!
//! let mut peripherals = pac::Peripherals::take().unwrap();
//! let sio = Sio::new(peripherals.SIO);
//! let pins = Pins::new(peripherals.IO_BANK0, peripherals.PADS_BANK0, sio.gpio_bank0, &mut peripherals.RESETS);
//! let mut watchdog = Watchdog::new(peripherals.WATCHDOG);
//! let mut clocks = init_clocks_and_plls(XOSC_CRYSTAL_FREQ, peripherals.XOSC, peripherals.CLOCKS, peripherals.PLL_SYS, peripherals.PLL_USB, &mut peripherals.RESETS, &mut watchdog).ok().unwrap();
//!
//! // Need to perform clock init before using UART or it will freeze.
//! let uart = UartPeripheral::<_, _>::enable(
//! peripherals.UART0,
//! &mut peripherals.RESETS,
//! uart::common_configs::_9600_8_N_1,
//! clocks.peripheral_clock.into(),
//! ).unwrap();
//!
//! // Set up UART on GP0 and GP1 (Pico pins 1 and 2)
//! let _tx_pin = pins.gpio0.into_mode::<FunctionUart>();
//! let _rx_pin = pins.gpio1.into_mode::<FunctionUart>();
//! uart.write_full_blocking(b"Hello World!\r\n");
//! ```
mod peripheral;
mod pins;
mod utils;
pub use self::peripheral::UartPeripheral;
pub use self::pins::*;
pub use self::utils::*;
/// Common configurations for UART.
pub mod common_configs;

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@ -30,58 +30,16 @@
//! uart.write_full_blocking(b"Hello World!\r\n"); //! uart.write_full_blocking(b"Hello World!\r\n");
//! ``` //! ```
use super::*;
use crate::pac::uart0::uartlcr_h::W as UART_LCR_H_Writer;
use core::convert::Infallible; use core::convert::Infallible;
use core::fmt; use core::fmt;
use core::ops::Deref; use embedded_hal::serial::{Read, Write};
use embedded_time::fixed_point::FixedPoint; use embedded_time::fixed_point::FixedPoint;
use embedded_time::rate::Baud; use embedded_time::rate::Baud;
use embedded_time::rate::Hertz; use embedded_time::rate::Hertz;
#[cfg(feature = "eh1_0_alpha")]
use eh1_0_alpha::serial::nb as eh1;
use embedded_hal::serial::{Read, Write};
use nb::Error::{Other, WouldBlock}; use nb::Error::{Other, WouldBlock};
use crate::pac::{
uart0::{uartlcr_h::W as UART_LCR_H_Writer, RegisterBlock},
UART0, UART1,
};
use crate::resets::SubsystemReset;
/// Error type for UART operations.
#[derive(Debug)]
pub enum Error {
/// Bad argument : when things overflow, ...
BadArgument,
}
/// When there's a read error.
pub struct ReadError<'err> {
/// The type of error
pub err_type: ReadErrorType,
/// Reference to the data that was read but eventually discared because of the error.
pub discared: &'err [u8],
}
/// Possible types of read errors. See Chapter 4, Section 2 §8 - Table 436: "UARTDR Register"
#[cfg_attr(feature = "eh1_0_alpha", derive(Debug))]
pub enum ReadErrorType {
/// Triggered when the FIFO (or shift-register) is overflowed.
Overrun,
/// Triggered when a break is received
Break,
/// Triggered when there is a parity mismatch between what's received and our settings.
Parity,
/// Triggered when the received character didn't have a valid stop bit.
Framing,
}
#[cfg(feature = "eh1_0_alpha")] #[cfg(feature = "eh1_0_alpha")]
impl eh1_0_alpha::serial::Error for ReadErrorType { impl eh1_0_alpha::serial::Error for ReadErrorType {
fn kind(&self) -> eh1_0_alpha::serial::ErrorKind { fn kind(&self) -> eh1_0_alpha::serial::ErrorKind {
@ -94,113 +52,6 @@ impl eh1_0_alpha::serial::Error for ReadErrorType {
} }
} }
/// State of the UART Peripheral.
pub trait State {}
/// Trait to handle both underlying devices (UART0 & UART1)
pub trait UartDevice: Deref<Target = RegisterBlock> + SubsystemReset {}
impl UartDevice for UART0 {}
impl UartDevice for UART1 {}
/// UART is enabled.
pub struct Enabled;
/// UART is disabled.
pub struct Disabled;
impl State for Enabled {}
impl State for Disabled {}
/// Data bits
pub enum DataBits {
/// 5 bits
Five,
/// 6 bits
Six,
/// 7 bits
Seven,
/// 8 bits
Eight,
}
/// Stop bits
pub enum StopBits {
/// 1 bit
One,
/// 2 bits
Two,
}
/// Parity
/// The "none" state of parity is represented with the Option type (None).
pub enum Parity {
/// Odd parity
Odd,
/// Even parity
Even,
}
/// A struct holding the configuration for an UART device.
pub struct UartConfig {
/// The desired baud rate for the peripheral
pub baudrate: Baud,
/// Number of data bits per character (5, 6, 7 or 8)
pub data_bits: DataBits,
/// Number of stop bits after each character
pub stop_bits: StopBits,
/// Parity Bit: None, Some(Even), Some(Odd)
pub parity: Option<Parity>,
}
/// Common configurations for UART.
pub mod common_configs {
use super::{DataBits, StopBits, UartConfig};
use embedded_time::rate::Baud;
/// 9600 baud, 8 data bits, no parity, 1 stop bit
pub const _9600_8_N_1: UartConfig = UartConfig {
baudrate: Baud(9600),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
/// 19200 baud, 8 data bits, no parity, 1 stop bit
pub const _19200_8_N_1: UartConfig = UartConfig {
baudrate: Baud(19200),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
/// 38400 baud, 8 data bits, no parity, 1 stop bit
pub const _38400_8_N_1: UartConfig = UartConfig {
baudrate: Baud(38400),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
/// 57600 baud, 8 data bits, no parity, 1 stop bit
pub const _57600_8_N_1: UartConfig = UartConfig {
baudrate: Baud(57600),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
/// 115200 baud, 8 data bits, no parity, 1 stop bit
pub const _115200_8_N_1: UartConfig = UartConfig {
baudrate: Baud(115200),
data_bits: DataBits::Eight,
stop_bits: StopBits::One,
parity: None,
};
}
/// An UART Peripheral based on an underlying UART device. /// An UART Peripheral based on an underlying UART device.
pub struct UartPeripheral<S: State, D: UartDevice> { pub struct UartPeripheral<S: State, D: UartDevice> {
device: D, device: D,

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rp2040-hal/src/uart/pins.rs Normal file
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use crate::gpio::{bank0, FunctionUart, Pin};
use crate::pac::{UART0, UART1};
/// Declares a valid UART pinout.
pub trait ValidUartPinout<UART> {}
impl<UART, TX, RX, CTS, RTS> ValidUartPinout<UART> for Pins<TX, RX, CTS, RTS>
where
TX: Tx<UART>,
RX: Rx<UART>,
CTS: Cts<UART>,
RTS: Rts<UART>,
{
}
impl<UART, TX, RX> ValidUartPinout<UART> for (TX, RX)
where
TX: Tx<UART>,
RX: Rx<UART>,
{
}
impl<UART, TX, RX, CTS, RTS> ValidUartPinout<UART> for (TX, RX, CTS, RTS)
where
TX: Tx<UART>,
RX: Rx<UART>,
CTS: Cts<UART>,
RTS: Rts<UART>,
{
}
/// Customizable Uart pinout, allowing you to set the pins individually.
///
/// The following pins are valid UART pins:
///
/// |UART | TX | RX | CTS | RTS |
/// |-----|-------------|-------------|-------------|-------------|
/// |UART0|0, 12, 16, 28|1, 13, 17, 29|2, 14, 18 |3, 15, 19 |
/// |UART1|4, 8, 20, 24 |5, 9, 21, 25 |6, 10, 22, 26|7, 11, 23, 27|
///
/// Every field can be set to `()` to not configure them.
///
/// Note that you can also use tuples `(RX, TX)` or `(RX, TX, CTS, RTS)` instead of this type.
#[allow(missing_docs)]
pub struct Pins<TX, RX, CTS, RTS> {
pub tx: TX,
pub rx: RX,
pub rts: RTS,
pub cts: CTS,
}
impl Pins<(), (), (), ()> {
/// Create a new pinout. This can be used as a builder pattern
///
/// ```no_run
/// # use rp2040_hal::uart::{Pins, ValidUartPinout};
/// # use rp2040_hal::pac::UART0;
/// # let gpio_pins: rp2040_hal::gpio::Pins = unsafe { core::mem::zeroed() };
/// let pins = Pins::new()
/// .tx(gpio_pins.gpio0.into_mode())
/// .rx(gpio_pins.gpio1.into_mode());
///
/// fn assert_is_valid_uart0<T: ValidUartPinout<UART0>>(_: T) {}
///
/// assert_is_valid_uart0(pins);
/// ```
pub fn new() -> Self {
Self {
tx: (),
rx: (),
rts: (),
cts: (),
}
}
}
impl<TX, RX, CTS, RTS> Pins<TX, RX, CTS, RTS> {
/// Set the TX pin
pub fn tx<NTX>(self, tx: NTX) -> Pins<NTX, RX, CTS, RTS> {
Pins {
tx,
rx: self.rx,
rts: self.rts,
cts: self.cts,
}
}
/// Set the RX pin
pub fn rx<NRX>(self, rx: NRX) -> Pins<TX, NRX, CTS, RTS> {
Pins {
tx: self.tx,
rx,
rts: self.rts,
cts: self.cts,
}
}
/// Set the CTS pin
pub fn cts<NCTS>(self, cts: NCTS) -> Pins<TX, RX, NCTS, RTS> {
Pins {
tx: self.tx,
rx: self.rx,
rts: self.rts,
cts,
}
}
/// Set the RTS pin
pub fn rts<NRTS>(self, rts: NRTS) -> Pins<TX, RX, CTS, NRTS> {
Pins {
tx: self.tx,
rx: self.rx,
rts,
cts: self.cts,
}
}
}
/// Indicates a valid TX pin for UART0 or UART1
pub trait Tx<UART> {
#[allow(missing_docs)]
const IS_SET: bool;
}
/// Indicates a valid RX pin for UART0 or UART1
pub trait Rx<UART> {
#[allow(missing_docs)]
const IS_SET: bool;
}
/// Indicates a valid CTS pin for UART0 or UART1
pub trait Cts<UART> {
#[allow(missing_docs)]
const IS_SET: bool;
}
/// Indicates a valid RTS pin for UART0 or UART1
pub trait Rts<UART> {
#[allow(missing_docs)]
const IS_SET: bool;
}
impl<UART> Tx<UART> for () {
const IS_SET: bool = false;
}
impl<UART> Rx<UART> for () {
const IS_SET: bool = false;
}
impl<UART> Cts<UART> for () {
const IS_SET: bool = false;
}
impl<UART> Rts<UART> for () {
const IS_SET: bool = false;
}
macro_rules! impl_valid_uart {
($($uart:ident: {
tx: [$($tx:ident),*],
rx: [$($rx:ident),*],
cts: [$($cts:ident),*],
rts: [$($rts:ident),*],
}),*) => {
$(
$(
impl Tx<$uart> for Pin<bank0::$tx, FunctionUart> {
const IS_SET: bool = true;
}
)*
$(
impl Rx<$uart> for Pin<bank0::$rx, FunctionUart> {
const IS_SET: bool = true;
}
)*
$(
impl Cts<$uart> for Pin<bank0::$cts, FunctionUart> {
const IS_SET: bool = true;
}
)*
$(
impl Rts<$uart> for Pin<bank0::$rts, FunctionUart> {
const IS_SET: bool = true;
}
)*
)*
};
}
impl_valid_uart!(
UART0: {
tx: [Gpio0, Gpio12, Gpio16, Gpio28],
rx: [Gpio1, Gpio13, Gpio17, Gpio29],
cts: [Gpio2, Gpio14, Gpio18],
rts: [Gpio3, Gpio15, Gpio19],
},
UART1: {
tx: [Gpio4, Gpio8, Gpio20, Gpio24],
rx: [Gpio5, Gpio9, Gpio21, Gpio25],
cts: [Gpio6, Gpio10, Gpio22, Gpio26],
rts: [Gpio7, Gpio11, Gpio23, Gpio27],
}
);

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use crate::pac::{uart0::RegisterBlock, UART0, UART1};
use crate::resets::SubsystemReset;
use core::ops::Deref;
use embedded_time::rate::Baud;
/// Error type for UART operations.
#[derive(Debug)]
pub enum Error {
/// Bad argument : when things overflow, ...
BadArgument,
}
/// When there's a read error.
pub struct ReadError<'err> {
/// The type of error
pub err_type: ReadErrorType,
/// Reference to the data that was read but eventually discared because of the error.
pub discared: &'err [u8],
}
/// Possible types of read errors. See Chapter 4, Section 2 §8 - Table 436: "UARTDR Register"
#[cfg_attr(feature = "eh1_0_alpha", derive(Debug))]
pub enum ReadErrorType {
/// Triggered when the FIFO (or shift-register) is overflowed.
Overrun,
/// Triggered when a break is received
Break,
/// Triggered when there is a parity mismatch between what's received and our settings.
Parity,
/// Triggered when the received character didn't have a valid stop bit.
Framing,
}
/// State of the UART Peripheral.
pub trait State {}
/// Trait to handle both underlying devices (UART0 & UART1)
pub trait UartDevice: Deref<Target = RegisterBlock> + SubsystemReset {}
impl UartDevice for UART0 {}
impl UartDevice for UART1 {}
/// UART is enabled.
pub struct Enabled;
/// UART is disabled.
pub struct Disabled;
impl State for Enabled {}
impl State for Disabled {}
/// Data bits
pub enum DataBits {
/// 5 bits
Five,
/// 6 bits
Six,
/// 7 bits
Seven,
/// 8 bits
Eight,
}
/// Stop bits
pub enum StopBits {
/// 1 bit
One,
/// 2 bits
Two,
}
/// Parity
/// The "none" state of parity is represented with the Option type (None).
pub enum Parity {
/// Odd parity
Odd,
/// Even parity
Even,
}
/// A struct holding the configuration for an UART device.
#[non_exhaustive]
pub struct UartConfig {
/// The baudrate the uart will run at.
pub baudrate: Baud,
/// The amount of data bits the uart should be configured to.
pub data_bits: DataBits,
/// The amount of stop bits the uart should be configured to.
pub stop_bits: StopBits,
/// The parity that this uart should have
pub parity: Option<Parity>,
}