rtic/rtic-monotonics/build.rs

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fn main() {
#[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")
})
.get_one()
{
Ok(x) => x,
Err(GetOneError::None) => panic!("No stm32xx Cargo feature enabled"),
Err(GetOneError::Multiple) => panic!("Multiple stm32xx Cargo features enabled"),
}
.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),
},
}
}
}