embassy/embassy-traits/src/i2c.rs

//! 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 embedded_hal::blocking::i2c::WriteRead;
//! const ADDR: u8  = 0x15;
//! # const TEMP_REGISTER: u8 = 0x1;
//! pub struct TemperatureSensorDriver<I2C> {
//!     i2c: I2C,
//! }
//!
//! impl<I2C, E> TemperatureSensorDriver<I2C>
//! where
//!     I2C: WriteRead<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 embedded_hal::blocking::i2c::{TenBitAddress, WriteRead};
//! const ADDR: u16  = 0x158;
//! # const TEMP_REGISTER: u8 = 0x1;
//! pub struct TemperatureSensorDriver<I2C> {
//!     i2c: I2C,
//! }
//!
//! impl<I2C, E> TemperatureSensorDriver<I2C>
//! where
//!     I2C: WriteRead<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;
use core::pin::Pin;

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 {}

/// Blocking read
pub trait Read<A: AddressMode = SevenBitAddress> {
    /// Error type
    type Error;

    type ReadFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a;
    type WriteFuture<'a>: Future<Output = Result<(), Self::Error>> + '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>(self: Pin<&'a mut Self>, address: A, buffer: &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>(self: Pin<&'a mut Self>, address: A, bytes: &[u8]) -> Self::WriteFuture<'a>;
}
update i2c trait 2021-03-03 16:29:18 +01:00			`//! Async I2C API`
add i2c trait 2021-03-02 22:09:47 +01:00			`//!`
			//! 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 embedded_hal::blocking::i2c::WriteRead;`
			`//! const ADDR: u8 = 0x15;`
			`//! # const TEMP_REGISTER: u8 = 0x1;`
			`//! pub struct TemperatureSensorDriver<I2C> {`
			`//! i2c: I2C,`
			`//! }`
			`//!`
			`//! impl<I2C, E> TemperatureSensorDriver<I2C>`
			`//! where`
			`//! I2C: WriteRead<Error = E>,`
			`//! {`
			`//! pub fn read_temperature(&mut self) -> Result<u8, E> {`
			`//! let mut temp = [0];`
			`//! self.i2c`
update i2c trait 2021-03-03 16:29:18 +01:00			`//! .write_read(ADDR, &[TEMP_REGISTER], &mut temp)`
			`//! .await`
add i2c trait 2021-03-02 22:09:47 +01:00			`//! .and(Ok(temp[0]))`
			`//! }`
			`//! }`
			//! ```
			`//!`
			`//! ### Device driver compatible only with 10-bit addresses`
			`//!`
			//! ```
			`//! # use embedded_hal::blocking::i2c::{TenBitAddress, WriteRead};`
			`//! const ADDR: u16 = 0x158;`
			`//! # const TEMP_REGISTER: u8 = 0x1;`
			`//! pub struct TemperatureSensorDriver<I2C> {`
			`//! i2c: I2C,`
			`//! }`
			`//!`
			`//! impl<I2C, E> TemperatureSensorDriver<I2C>`
			`//! where`
			`//! I2C: WriteRead<TenBitAddress, Error = E>,`
			`//! {`
			`//! pub fn read_temperature(&mut self) -> Result<u8, E> {`
			`//! let mut temp = [0];`
			`//! self.i2c`
update i2c trait 2021-03-03 16:29:18 +01:00			`//! .write_read(ADDR, &[TEMP_REGISTER], &mut temp)`
			`//! .await`
add i2c trait 2021-03-02 22:09:47 +01:00			`//! .and(Ok(temp[0]))`
			`//! }`
			`//! }`
			//! ```

			`use core::future::Future;`
update i2c trait 2021-03-03 16:29:18 +01:00			`use core::pin::Pin;`
add i2c trait 2021-03-02 22:09:47 +01:00
			`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 {}`

			`/// Blocking read`
			`pub trait Read<A: AddressMode = SevenBitAddress> {`
			`/// Error type`
			`type Error;`

			`type ReadFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a;`
revise i2c trait 2021-03-06 04:19:56 +01:00			`type WriteFuture<'a>: Future<Output = Result<(), Self::Error>> + 'a;`
add i2c trait 2021-03-02 22:09:47 +01:00
			/// 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
update i2c trait 2021-03-03 16:29:18 +01:00			`fn read<'a>(self: Pin<&'a mut Self>, address: A, buffer: &mut [u8]) -> Self::ReadFuture<'a>;`
add i2c trait 2021-03-02 22:09:47 +01:00
			/// 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
update i2c trait 2021-03-03 16:29:18 +01:00			`fn write<'a>(self: Pin<&'a mut Self>, address: A, bytes: &[u8]) -> Self::WriteFuture<'a>;`
add i2c trait 2021-03-02 22:09:47 +01:00			`}`