//! Real Time For the Masses (RTFM) framework for ARM Cortex-M microcontrollers //! //! **HEADS UP** This is an **beta** pre-release; there may be breaking changes in the API and //! semantics before a proper release is made. //! //! **IMPORTANT**: This crate is published as [`cortex-m-rtfm`] on crates.io but the name of the //! library is `rtfm`. //! //! [`cortex-m-rtfm`]: https://crates.io/crates/cortex-m-rtfm //! //! The user level documentation can be found [here]. //! //! [here]: https://japaric.github.io/rtfm5/book/en/ //! //! Don't forget to check the documentation of the `#[app]` attribute (listed under the reexports //! section), which is the main component of the framework. //! //! # Minimum Supported Rust Version (MSRV) //! //! This crate is guaranteed to compile on stable Rust 1.36 (2018 edition) and up. It *might* //! compile on older versions but that may change in any new patch release. //! //! # Semantic Versioning //! //! Like the Rust project, this crate adheres to [SemVer]: breaking changes in the API and semantics //! require a *semver bump* (a new minor version release), with the exception of breaking changes //! that fix soundness issues -- those are considered bug fixes and can be landed in a new patch //! release. //! //! [SemVer]: https://semver.org/spec/v2.0.0.html //! //! # Cargo features //! //! - `heterogeneous`. This opt-in feature enables the *experimental* heterogeneous multi-core //! support. This feature depends on unstable feature and requires the use of the nightly channel. //! //! - `homogeneous`. This opt-in feature enables the *experimental* homogeneous multi-core support. #![deny(missing_docs)] #![deny(rust_2018_compatibility)] #![deny(rust_2018_idioms)] #![deny(warnings)] #![no_std] use core::ops::Sub; use cortex_m::{ interrupt::Nr, peripheral::{CBP, CPUID, DCB, DWT, FPB, FPU, ITM, MPU, NVIC, SCB, TPIU}, }; #[cfg(all(not(feature = "heterogeneous"), not(feature = "homogeneous")))] use cortex_m_rt as _; // vector table pub use cortex_m_rtfm_macros::app; pub use rtfm_core::{Exclusive, Mutex}; #[cfg(armv7m)] pub mod cyccnt; #[doc(hidden)] pub mod export; #[doc(hidden)] mod tq; /// `cortex_m::Peripherals` minus `SYST` #[allow(non_snake_case)] pub struct Peripherals { /// Cache and branch predictor maintenance operations (not present on Cortex-M0 variants) pub CBP: CBP, /// CPUID pub CPUID: CPUID, /// Debug Control Block pub DCB: DCB, /// Data Watchpoint and Trace unit pub DWT: DWT, /// Flash Patch and Breakpoint unit (not present on Cortex-M0 variants) pub FPB: FPB, /// Floating Point Unit (only present on `thumbv7em-none-eabihf`) pub FPU: FPU, /// Instrumentation Trace Macrocell (not present on Cortex-M0 variants) pub ITM: ITM, /// Memory Protection Unit pub MPU: MPU, /// Nested Vector Interrupt Controller pub NVIC: NVIC, /// System Control Block pub SCB: SCB, // SysTick: System Timer // pub SYST: SYST, /// Trace Port Interface Unit (not present on Cortex-M0 variants) pub TPIU: TPIU, } impl From for Peripherals { fn from(p: cortex_m::Peripherals) -> Self { Self { CBP: p.CBP, CPUID: p.CPUID, DCB: p.DCB, DWT: p.DWT, FPB: p.FPB, FPU: p.FPU, ITM: p.ITM, MPU: p.MPU, NVIC: p.NVIC, SCB: p.SCB, TPIU: p.TPIU, } } } /// A fraction pub struct Fraction { /// The numerator pub numerator: u32, /// The denominator pub denominator: u32, } /// A monotonic clock / counter pub trait Monotonic { /// A measurement of this clock type Instant: Copy + Ord + Sub; /// The ratio between the SysTick (system timer) frequency and this clock frequency /// /// The ratio must be expressed in *reduced* `Fraction` form to prevent overflows. That is /// `2 / 3` instead of `4 / 6` fn ratio() -> Fraction; /// Returns the current time fn now() -> Self::Instant; /// Resets the counter to *zero* unsafe fn reset(); /// A `Self::Instant` that represents a count of *zero* fn zero() -> Self::Instant; } /// A marker trait that indicates that it is correct to use this type in multi-core context pub trait MultiCore {} /// Sets the given `interrupt` as pending /// /// This is a convenience function around /// [`NVIC::pend`](../cortex_m/peripheral/struct.NVIC.html#method.pend) pub fn pend(interrupt: I) where I: Nr, { NVIC::pend(interrupt) }