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rtic-monotonics: Fix stm32-metapac use

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Previously, the stm32 monotonics only compiled for some chip families. For
example, stm32g081kb worked, but not stm32f407*.

The stm32-metapac does not directly unify peripheral names between the
many stm32 families, but provides tools for build scripts to generate
code that uses the right names for the selected chip. Use that mechanism
instead of targeting a specific family.
This commit is contained in:
Nils Fitinghoff 2023-10-02 16:17:39 +02:00 committed by Henrik Tjäder
parent 3143b7e0ca
commit 8824202c5a
4 changed files with 194 additions and 36 deletions
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4
rtic-monotonics/CHANGELOG.md
View file

@ -7,6 +7,10 @@ For each category, *Added*, *Changed*, *Fixed* add new entries at the top!
## Unreleased
### Fixed
- Fix STM32 support for other chip families
## v1.2.0 - 2023-09-19
### Added

9
rtic-monotonics/Cargo.toml
View file

@ -43,7 +43,12 @@ nrf5340-net-pac = { version = "0.12.2", optional = true }
nrf9160-pac = { version = "0.12.2", optional = true }
# STM32
stm32-metapac = { version = "14.0.0", features = ["metadata"], optional = true }
stm32-metapac = { version = "14.0.0", optional = true }
[build-dependencies]
proc-macro2 = { version = "1.0.36", optional = true }
quote = { version = "1.0.15", optional = true }
stm32-metapac = { version = "14.0.0", default-features = false, features = ["metadata"], optional = true }
[features]
default = []
@ -78,6 +83,8 @@ stm32_tim5 = []
stm32_tim12 = []
stm32_tim15 = []
stm32-metapac = ["dep:stm32-metapac", "dep:quote", "dep:proc-macro2"]
# Maintainers: this `stm32-metapac` feature list is taken from:
# https://github.com/embassy-rs/embassy/blob/2e6f4237f2410aa18c9866a5a1a5ed1f3bec8a4e/embassy-stm32/Cargo.toml#L143
# It should be updated if `stm32-metapac` version changes because it might contain new chip definitions.

176
rtic-monotonics/build.rs
View file

@ -1,22 +1,180 @@
fn main() {
// feature=["stm32g081kb"] etc.
let stm32_chip: Vec<_> = std::env::vars()
#[cfg(feature = "stm32-metapac")]
stm32();
println!("cargo:rerun-if-changed=build.rs");
}
#[cfg(feature = "stm32-metapac")]
fn stm32() {
use std::path::PathBuf;
use std::{env, fs};
use proc_macro2::TokenStream;
use quote::{format_ident, quote};
use stm32_metapac::metadata::METADATA;
let chip_name = match env::vars()
.map(|(a, _)| a)
.filter(|x| {
!x.starts_with("CARGO_FEATURE_STM32_METAPAC")
&& !x.starts_with("CARGO_FEATURE_STM32_TIM")
&& x.starts_with("CARGO_FEATURE_STM32")
})
.collect();
match stm32_chip.len() {
0 => {
// Not using stm32.
.get_one()
{
Ok(x) => x,
Err(GetOneError::None) => panic!("No stm32xx Cargo feature enabled"),
Err(GetOneError::Multiple) => panic!("Multiple stm32xx Cargo features enabled"),
}
1 => {
.strip_prefix("CARGO_FEATURE_")
.unwrap()
.to_ascii_lowercase();
// Allows to just use #[cfg(stm32)] if one of the stm32 chips is used.
println!("cargo:rustc-cfg=stm32");
for p in METADATA.peripherals {
if let Some(r) = &p.registers {
println!("cargo:rustc-cfg={}", r.kind);
println!("cargo:rustc-cfg={}_{}", r.kind, r.version);
}
}
// ========
// Generate singletons
let mut singletons: Vec<String> = Vec::new();
for p in METADATA.peripherals {
if !p.name.contains("TIM") {
continue;
}
if let Some(r) = &p.registers {
match r.kind {
// Generate singletons per pin, not per port
"gpio" => {
println!("{}", p.name);
let port_letter = p.name.strip_prefix("GPIO").unwrap();
for pin_num in 0..16 {
singletons.push(format!("P{}{}", port_letter, pin_num));
}
}
// No singleton for these, the HAL handles them specially.
"exti" => {}
// We *shouldn't* have singletons for these, but the HAL currently requires
// singletons, for using with RccPeripheral to enable/disable clocks to them.
"rcc" => {
if r.version.starts_with("h5")
|| r.version.starts_with("h7")
|| r.version.starts_with("f4")
{
singletons.push("MCO1".to_string());
singletons.push("MCO2".to_string());
}
if r.version.starts_with("l4") {
singletons.push("MCO".to_string());
}
singletons.push(p.name.to_string());
}
//"dbgmcu" => {}
//"syscfg" => {}
//"dma" => {}
//"bdma" => {}
//"dmamux" => {}
// For other peripherals, one singleton per peri
_ => singletons.push(p.name.to_string()),
}
}
}
let mut g = TokenStream::new();
// ========
// Generate RccPeripheral impls
for p in METADATA.peripherals {
if !singletons.contains(&p.name.to_string()) {
continue;
}
if let Some(rcc) = &p.rcc {
let en = rcc.enable.as_ref().unwrap();
let rst = match &rcc.reset {
Some(rst) => {
let rst_reg = format_ident!("{}", rst.register.to_ascii_lowercase());
let set_rst_field = format_ident!("set_{}", rst.field.to_ascii_lowercase());
quote! {
stm32_metapac::RCC.#rst_reg().modify(|w| w.#set_rst_field(true));
stm32_metapac::RCC.#rst_reg().modify(|w| w.#set_rst_field(false));
}
}
None => TokenStream::new(),
};
let after_enable = if chip_name.starts_with("stm32f2") {
// Errata: ES0005 - 2.1.11 Delay after an RCC peripheral clock enabling
quote! {
cortex_m::asm::dsb();
}
} else {
TokenStream::new()
};
let pname = format_ident!("{}", p.name);
let en_reg = format_ident!("{}", en.register.to_ascii_lowercase());
let set_en_field = format_ident!("set_{}", en.field.to_ascii_lowercase());
g.extend(quote! {
#[doc(hidden)]
pub mod #pname {
pub fn enable() {
stm32_metapac::RCC.#en_reg().modify(|w| w.#set_en_field(true));
#after_enable
}
pub fn reset() {
#rst
}
}
});
}
}
// ========
// Generate NVIC impl
let prio_bits = METADATA.nvic_priority_bits;
g.extend(quote! {
pub const NVIC_PRIO_BITS: u8 = #prio_bits;
});
// ========
// Write generated.rs
let out_dir = &PathBuf::from(env::var_os("OUT_DIR").unwrap());
let out_file = out_dir.join("_generated.rs").to_string_lossy().to_string();
fs::write(out_file, g.to_string()).unwrap();
}
enum GetOneError {
None,
Multiple,
}
trait IteratorExt: Iterator {
fn get_one(self) -> Result<Self::Item, GetOneError>;
}
impl<T: Iterator> IteratorExt for T {
fn get_one(mut self) -> Result<Self::Item, GetOneError> {
match self.next() {
None => Err(GetOneError::None),
Some(res) => match self.next() {
Some(_) => Err(GetOneError::Multiple),
None => Ok(res),
},
}
_ => panic!("multiple stm32xx definitions {:?}", stm32_chip),
}
}

39
rtic-monotonics/src/stm32.rs
View file

@ -37,9 +37,16 @@
use crate::{Monotonic, TimeoutError, TimerQueue};
use atomic_polyfill::{AtomicU64, Ordering};
pub use fugit::{self, ExtU64};
use pac::metadata::METADATA;
use stm32_metapac as pac;
mod _generated {
#![allow(dead_code)]
#![allow(unused_imports)]
#![allow(non_snake_case)]
include!(concat!(env!("OUT_DIR"), "/_generated.rs"));
}
const TIMER_HZ: u32 = 1_000_000;
#[doc(hidden)]
@ -114,17 +121,6 @@ macro_rules! create_stm32_tim15_monotonic_token {
}};
}
// Creates `enable_timer()` function which enables timer in RCC.
macro_rules! enable_timer {
($apbenrX:ident, $set_timXen:ident, $apbrstrX:ident, $set_timXrst:ident) => {
fn enable_timer() {
pac::RCC.$apbenrX().modify(|r| r.$set_timXen(true));
pac::RCC.$apbrstrX().modify(|r| r.$set_timXrst(true));
pac::RCC.$apbrstrX().modify(|r| r.$set_timXrst(false));
}
};
}
macro_rules! make_timer {
($mono_name:ident, $timer:ident, $bits:ident, $overflow:ident, $tq:ident$(, doc: ($($doc:tt)*))?) => {
/// Monotonic timer queue implementation.
@ -139,6 +135,11 @@ macro_rules! make_timer {
static $overflow: AtomicU64 = AtomicU64::new(0);
static $tq: TimerQueue<$mono_name> = TimerQueue::new();
fn enable_timer() {
_generated::$timer::enable();
_generated::$timer::reset();
}
impl $mono_name {
/// Starts the monotonic timer.
/// - `tim_clock_hz`: `TIMx` peripheral clock frequency.
@ -173,7 +174,7 @@ macro_rules! make_timer {
// plus we are not using any external shared resources so we won't impact
// basepri/source masking based critical sections.
unsafe {
crate::set_monotonic_prio(METADATA.nvic_priority_bits.unwrap(), pac::Interrupt::$timer);
crate::set_monotonic_prio(_generated::NVIC_PRIO_BITS, pac::Interrupt::$timer);
cortex_m::peripheral::NVIC::unmask(pac::Interrupt::$timer);
}
}
@ -298,32 +299,20 @@ macro_rules! make_timer {
};
}
#[cfg(feature = "stm32_tim2")]
enable_timer!(apbenr1, set_tim2en, apbrstr1, set_tim2rst);
#[cfg(feature = "stm32_tim2")]
make_timer!(Tim2, TIM2, u32, TIMER2_OVERFLOWS, TIMER2_TQ);
#[cfg(feature = "stm32_tim3")]
enable_timer!(apbenr1, set_tim3en, apbrstr1, set_tim3rst);
#[cfg(feature = "stm32_tim3")]
make_timer!(Tim3, TIM3, u16, TIMER3_OVERFLOWS, TIMER3_TQ);
#[cfg(feature = "stm32_tim4")]
enable_timer!(apbenr1, set_tim4en, apbrstr1, set_tim4rst);
#[cfg(feature = "stm32_tim4")]
make_timer!(Tim4, TIM4, u16, TIMER4_OVERFLOWS, TIMER4_TQ);
#[cfg(feature = "stm32_tim5")]
enable_timer!(apbenr1, set_tim5en, apbrstr1, set_tim5rst);
#[cfg(feature = "stm32_tim5")]
make_timer!(Tim5, TIM5, u16, TIMER5_OVERFLOWS, TIMER5_TQ);
#[cfg(feature = "stm32_tim12")]
enable_timer!(apb1enr, set_tim12en, apb1rstr, set_tim12rst);
#[cfg(feature = "stm32_tim12")]
make_timer!(Tim12, TIM12, u16, TIMER12_OVERFLOWS, TIMER12_TQ);
#[cfg(feature = "stm32_tim15")]
enable_timer!(apbenr2, set_tim15en, apbrstr2, set_tim15rst);
#[cfg(feature = "stm32_tim15")]
make_timer!(Tim15, TIM15, u16, TIMER15_OVERFLOWS, TIMER15_TQ);