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Merge pull request #525 from rust-embedded/c-m-rt-0.7.4
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Prepare for cortex-m-rt v0.7.4
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therealprof authored Apr 16, 2024
2 parents d85d9c8 + 6020615 commit 8a3c9f6
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17 changes: 13 additions & 4 deletions cortex-m-rt/CHANGELOG.md
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Expand Up @@ -7,10 +7,18 @@ and this project adheres to [Semantic Versioning](http://semver.org/).

## [Unreleased]

- Add `zero-init-ram` feature to initialize RAM with zeros on startup. This can be necessary on
safety-critical hardware to properly initialize memory integrity measures.
- Add optional `exception` argument for `HardFault`. It has one option `trampoline` which is true by default. When set to false, no trampoline will be created and the function will be called as the exception handler directly.
## [v0.7.4]

- Add `zero-init-ram` feature to initialize RAM with zeros on startup.
This can be necessary to properly initialise hardware error detection.
- Add optional `exception` argument for `HardFault`.
It has one option `trampoline` which is `true` by default. When set to `false`,
no trampoline will be created and the function will be called as the
exception handler directly.
- MSRV increased to 1.60.0 to align with `embedded-hal` version 1.
- Improve linker error message when code does not fit into flash.
- Update documentation on using custom linker scripts and linker sections
and on the `pre_init` function.

## [v0.7.3]

Expand Down Expand Up @@ -621,7 +629,8 @@ section size addr

Initial release

[Unreleased]: https://github.com/rust-embedded/cortex-m/compare/c-m-rt-v0.7.3...HEAD
[Unreleased]: https://github.com/rust-embedded/cortex-m/compare/c-m-rt-v0.7.4...HEAD
[v0.7.4]: https://github.com/rust-embedded/cortex-m/compare/c-m-rt-v0.7.3...c-m-rt-v0.7.4
[v0.7.3]: https://github.com/rust-embedded/cortex-m/compare/c-m-rt-v0.7.2...c-m-rt-v0.7.3
[v0.7.2]: https://github.com/rust-embedded/cortex-m/compare/c-m-rt-v0.7.1...c-m-rt-v0.7.2
[v0.7.1]: https://github.com/rust-embedded/cortex-m-rt/compare/v0.7.0...v0.7.1
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2 changes: 1 addition & 1 deletion cortex-m-rt/Cargo.toml
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Expand Up @@ -12,7 +12,7 @@ license = "MIT OR Apache-2.0"
name = "cortex-m-rt"
readme = "README.md"
repository = "https://github.com/rust-embedded/cortex-m"
version = "0.7.3"
version = "0.7.4"
autoexamples = true
links = "cortex-m-rt" # Prevent multiple versions of cortex-m-rt being linked
edition = "2021"
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93 changes: 53 additions & 40 deletions cortex-m-rt/src/lib.rs
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Expand Up @@ -12,18 +12,23 @@
//!
//! - Initializing `static` variables before the program entry point.
//!
//! - Enabling the FPU before the program entry point if the target is `thumbv7em-none-eabihf`.
//! - Enabling the FPU before the program entry point if the target is `-eabihf`.
//!
//! This crate also provides the following attributes:
//!
//! - [`#[entry]`][attr-entry] to declare the entry point of the program
//! - [`#[exception]`][attr-exception] to override an exception handler. If not overridden all
//! exception handlers default to an infinite loop.
//! - [`#[pre_init]`][attr-pre_init] to run code *before* `static` variables are initialized
//!
//! This crate also implements a related attribute called `#[interrupt]`, which allows you
//! to define interrupt handlers. However, since which interrupts are available depends on the
//! microcontroller in use, this attribute should be re-exported and used from a device crate.
//! microcontroller in use, this attribute should be re-exported and used from a peripheral
//! access crate (PAC).
//!
//! A [`#[pre_init]`][attr-pre_init] macro is also provided to run a function before RAM
//! initialisation, but its use is deprecated as it is not defined behaviour to execute Rust
//! code before initialisation. It is still possible to create a custom `pre_init` function
//! using assembly.
//!
//! The documentation for these attributes can be found in the [Attribute Macros](#attributes)
//! section.
Expand All @@ -33,8 +38,9 @@
//! ## `memory.x`
//!
//! This crate expects the user, or some other crate, to provide the memory layout of the target
//! device via a linker script named `memory.x`. This section covers the contents of `memory.x`
//! The `memory.x` file is used during linking by the `link.x` script provided by this crate.
//! device via a linker script named `memory.x`, described in this section. The `memory.x` file is
//! used during linking by the `link.x` script provided by this crate. If you are using a custom
//! linker script, you do not need a `memory.x` file.
//!
//! ### `MEMORY`
//!
Expand All @@ -48,15 +54,16 @@
//! MEMORY
//! {
//! FLASH : ORIGIN = 0x08000000, LENGTH = 64K
//! RAM : ORIGIN = 0x20000000, LENGTH = 20K
//! RAM : ORIGIN = 0x20000000, LENGTH = 20K
//! }
//! ```
//!
//! ### `_stack_start`
//!
//! This optional symbol can be used to indicate where the call stack of the program should be
//! placed. If this symbol is not used then the stack will be placed at the *end* of the `RAM`
//! region -- the stack grows downwards towards smaller address.
//! region -- the stack grows downwards towards smaller address. This is generally a sensible
//! default and most applications will not need to specify `_stack_start`.
//!
//! For Cortex-M, the `_stack_start` must always be aligned to 8 bytes, which is enforced by
//! the linker script. If you override it, ensure that whatever value you set is a multiple
Expand All @@ -65,13 +72,13 @@
//! This symbol can be used to place the stack in a different memory region, for example:
//!
//! ```text
//! /* Linker script for the STM32F303VCT6 */
//! /* Linker script for the STM32F303VCT6 with stack in CCM */
//! MEMORY
//! {
//! FLASH : ORIGIN = 0x08000000, LENGTH = 256K
//!
//! /* .bss, .data and the heap go in this region */
//! RAM : ORIGIN = 0x20000000, LENGTH = 40K
//! RAM : ORIGIN = 0x20000000, LENGTH = 40K
//!
//! /* Core coupled (faster) RAM dedicated to hold the stack */
//! CCRAM : ORIGIN = 0x10000000, LENGTH = 8K
Expand Down Expand Up @@ -106,17 +113,15 @@
//! graph (see [`#[exception]`]). In this example we define them in the binary crate:
//!
//! ```no_run
//! // IMPORTANT the standard `main` interface is not used because it requires nightly
//! #![no_main]
//! #![no_std]
//!
//! // Some panic handler needs to be included. This one halts the processor on panic.
//! extern crate panic_halt;
//! use panic_halt as _;
//!
//! use cortex_m_rt::entry;
//!
//! // use `main` as the entry point of this application
//! // `main` is not allowed to return
//! // Use `main` as the entry point of this application, which may not return.
//! #[entry]
//! fn main() -> ! {
//! // initialization
Expand All @@ -133,16 +138,14 @@
//!
//! ```text
//! $ cat > memory.x <<EOF
//! /* Linker script for the STM32F103C8T6 */
//! MEMORY
//! {
//! FLASH : ORIGIN = 0x08000000, LENGTH = 64K
//! RAM : ORIGIN = 0x20000000, LENGTH = 20K
//! }
//! EOF
//!
//! $ cargo rustc --target thumbv7m-none-eabi -- \
//! -C link-arg=-nostartfiles -C link-arg=-Tlink.x
//! $ cargo rustc --target thumbv7m-none-eabi -- -C link-arg=-nostartfiles -C link-arg=-Tlink.x
//!
//! $ file target/thumbv7m-none-eabi/debug/app
//! app: ELF 32-bit LSB executable, ARM, EABI5 version 1 (SYSV), statically linked, (..)
Expand All @@ -160,29 +163,28 @@
//!
//! If this feature is enabled then the interrupts section of the vector table is left unpopulated
//! and some other crate, or the user, will have to populate it. This mode is meant to be used in
//! conjunction with crates generated using `svd2rust`. Those *device crates* will populate the
//! missing part of the vector table when their `"rt"` feature is enabled.
//! conjunction with crates generated using `svd2rust`. Those peripheral access crates, or PACs,
//! will populate the missing part of the vector table when their `"rt"` feature is enabled.
//!
//! ## `set-sp`
//!
//! If this feature is enabled, the stack pointer (SP) is initialised in the reset handler to the
//! `_stack_start` value from the linker script. This is not usually required, but some debuggers
//! do not initialise SP when performing a soft reset, which can lead to stack corruption.
//!
//! ## `zero-init-ram`
//!
//! If this feature is enabled, RAM is initialized with zeros during startup from the `_ram_start`
//! value to the `_ram_end` value from the linker script. This is not usually required, but might be
//! necessary to properly initialize checksum-based memory integrity measures on safety-critical
//! hardware.
//!
//! ## `set-vtor`
//!
//! If this feature is enabled, the vector table offset register (VTOR) is initialised in the reset
//! handler to the start of the vector table defined in the linker script. This is not usually
//! required, but some bootloaders do not set VTOR before jumping to application code, leading to
//! your main function executing but interrupt handlers not being used.
//!
//! ## `zero-init-ram`
//!
//! If this feature is enabled, RAM is initialized with zeros during startup from the `_ram_start`
//! value to the `_ram_end` value from the linker script. This is not usually required, but might be
//! necessary to properly initialize memory integrity measures on some hardware.
//!
//! # Inspection
//!
//! This section covers how to inspect a binary that builds on top of `cortex-m-rt`.
Expand Down Expand Up @@ -252,14 +254,22 @@
//! `__EXCEPTIONS` in the `.vector_table` section.
//!
//! - `__pre_init`. This is a function to be run before RAM is initialized. It defaults to an empty
//! function. The function called can be changed by applying the [`#[pre_init]`][attr-pre_init]
//! attribute to a function.
//! function. As this runs before RAM is initialised, it is not sound to use a Rust function for
//! `pre_init`, and instead it should typically be written in assembly using `global_asm` or an
//! external assembly file.
//!
//! If you override any exception handler you'll find it as an unmangled symbol, e.g. `SysTick` or
//! `SVCall`, in the output of `objdump`,
//!
//! # Advanced usage
//!
//! ## Custom linker script
//!
//! To use your own linker script, ensure it is placed in the linker search path (for example in
//! the crate root or in Cargo's `OUT_DIR`) and use it with `-C link-arg=-Tmy_script.ld` instead
//! of the normal `-C link-arg=-Tlink.x`. The provided `link.x` may be used as a starting point
//! for customisation.
//!
//! ## Setting the program entry point
//!
//! This section describes how [`#[entry]`][attr-entry] is implemented. This information is useful
Expand All @@ -278,7 +288,7 @@
//!
//! This section covers how an external crate can insert device specific interrupt handlers into the
//! vector table. Most users don't need to concern themselves with these details, but if you are
//! interested in how device crates generated using `svd2rust` integrate with `cortex-m-rt` read on.
//! interested in how PACs generated using `svd2rust` integrate with `cortex-m-rt` read on.
//!
//! The information in this section applies when the `"device"` feature has been enabled.
//!
Expand Down Expand Up @@ -381,8 +391,7 @@
//! to be used as thread stacks) -- this can considerably reduce initialization time on devices that
//! operate at low frequencies.
//!
//! The only correct way to use this section is by placing `static mut` variables with type
//! [`MaybeUninit`] in it.
//! The only correct way to use this section is with [`MaybeUninit`] types.
//!
//! [`MaybeUninit`]: https://doc.rust-lang.org/core/mem/union.MaybeUninit.html
//!
Expand All @@ -398,16 +407,14 @@
//! ```
//!
//! Be very careful with the `link_section` attribute because it's easy to misuse in ways that cause
//! undefined behavior. At some point in the future we may add an attribute to safely place static
//! variables in this section.
//! undefined behavior.
//!
//! ## Extra Sections
//!
//! Some microcontrollers provide additional memory regions beyond RAM and FLASH.
//! For example, some STM32 devices provide "CCM" or core-coupled RAM that is
//! only accessible from the core. In order to access these using
//! [`link_section`] attributes from your code, you need to modify `memory.x`
//! to declare the additional sections:
//! Some microcontrollers provide additional memory regions beyond RAM and FLASH. For example,
//! some STM32 devices provide "CCM" or core-coupled RAM that is only accessible from the core. In
//! order to place variables in these sections using [`link_section`] attributes from your code,
//! you need to modify `memory.x` to declare the additional sections:
//!
//! [`link_section`]: https://doc.rust-lang.org/reference/abi.html#the-link_section-attribute
//!
Expand All @@ -432,10 +439,16 @@
//! You can then use something like this to place a variable into this specific section of memory:
//!
//! ```no_run,edition2018
//! # extern crate core;
//! # use core::mem::MaybeUninit;
//! #[link_section=".ccmram.BUFFERS"]
//! static mut BUF: [u8; 1024] = [0u8; 1024];
//! static mut BUF: MaybeUninit<[u8; 1024]> = MaybeUninit::uninit();
//! ```
//!
//! However, note that these sections are not initialised by cortex-m-rt, and so must be used
//! either with `MaybeUninit` types or you must otherwise arrange for them to be initialised
//! yourself, such as in `pre_init`.
//!
//! [attr-entry]: attr.entry.html
//! [attr-exception]: attr.exception.html
//! [attr-pre_init]: attr.pre_init.html
Expand Down Expand Up @@ -577,7 +590,7 @@ cfg_global_asm! {
///
/// **NOTE**: This attribute is exposed by `cortex-m-rt` only when the `device` feature is enabled.
/// However, that export is not meant to be used directly -- using it will result in a compilation
/// error. You should instead use the device crate (usually generated using `svd2rust`) re-export of
/// error. You should instead use the PAC (usually generated using `svd2rust`) re-export of
/// that attribute. You need to use the re-export to have the compiler check that the interrupt
/// exists on the target device.
///
Expand All @@ -586,7 +599,7 @@ cfg_global_asm! {
/// ``` ignore
/// extern crate device;
///
/// // the attribute comes from the device crate not from cortex-m-rt
/// // the attribute comes from the PAC not from cortex-m-rt
/// use device::interrupt;
///
/// #[interrupt]
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