#![cfg_attr(not(test), no_std)]
#![allow(async_fn_in_trait)]
//! ## Feature flags
#![doc = document_features::document_features!(feature_label = r#"{feature}
"#)]
// This must go FIRST so that all the other modules see its macros.
mod fmt;
include!(concat!(env!("OUT_DIR"), "/_macros.rs"));
// Utilities
pub mod time;
mod traits;
// Always-present hardware
pub mod dma;
pub mod gpio;
pub mod rcc;
#[cfg(feature = "_time-driver")]
mod time_driver;
pub mod timer;
// Sometimes-present hardware
#[cfg(adc)]
pub mod adc;
#[cfg(can)]
pub mod can;
#[cfg(crc)]
pub mod crc;
#[cfg(dac)]
pub mod dac;
#[cfg(dcmi)]
pub mod dcmi;
#[cfg(eth)]
pub mod eth;
#[cfg(feature = "exti")]
pub mod exti;
pub mod flash;
#[cfg(fmc)]
pub mod fmc;
#[cfg(hrtim)]
pub mod hrtim;
#[cfg(i2c)]
pub mod i2c;
#[cfg(all(spi_v1, rcc_f4))]
pub mod i2s;
#[cfg(stm32wb)]
pub mod ipcc;
#[cfg(feature = "low-power")]
pub mod low_power;
#[cfg(opamp)]
pub mod opamp;
#[cfg(quadspi)]
pub mod qspi;
#[cfg(rng)]
pub mod rng;
#[cfg(all(rtc, not(rtc_v1)))]
pub mod rtc;
#[cfg(sai)]
pub mod sai;
#[cfg(sdmmc)]
pub mod sdmmc;
#[cfg(spi)]
pub mod spi;
#[cfg(uid)]
pub mod uid;
#[cfg(usart)]
pub mod usart;
#[cfg(usb)]
pub mod usb;
#[cfg(otg)]
pub mod usb_otg;
#[cfg(iwdg)]
pub mod wdg;
// This must go last, so that it sees all the impl_foo! macros defined earlier.
pub(crate) mod _generated {
#![allow(dead_code)]
#![allow(unused_imports)]
#![allow(non_snake_case)]
include!(concat!(env!("OUT_DIR"), "/_generated.rs"));
}
pub use crate::_generated::interrupt;
/// Macro to bind interrupts to handlers.
///
/// This defines the right interrupt handlers, and creates a unit struct (like `struct Irqs;`)
/// and implements the right [`Binding`]s for it. You can pass this struct to drivers to
/// prove at compile-time that the right interrupts have been bound.
///
/// Example of how to bind one interrupt:
///
/// ```rust,ignore
/// use embassy_stm32::{bind_interrupts, usb_otg, peripherals};
///
/// bind_interrupts!(struct Irqs {
/// OTG_FS => usb_otg::InterruptHandler;
/// });
/// ```
///
/// Example of how to bind multiple interrupts, and multiple handlers to each interrupt, in a single macro invocation:
///
/// ```rust,ignore
/// use embassy_stm32::{bind_interrupts, i2c, peripherals};
///
/// bind_interrupts!(struct Irqs {
/// I2C1 => i2c::EventInterruptHandler, i2c::ErrorInterruptHandler;
/// I2C2_3 => i2c::EventInterruptHandler, i2c::ErrorInterruptHandler,
/// i2c::EventInterruptHandler, i2c::ErrorInterruptHandler;
/// });
/// ```
// developer note: this macro can't be in `embassy-hal-internal` due to the use of `$crate`.
#[macro_export]
macro_rules! bind_interrupts {
($vis:vis struct $name:ident { $($irq:ident => $($handler:ty),*;)* }) => {
#[derive(Copy, Clone)]
$vis struct $name;
$(
#[allow(non_snake_case)]
#[no_mangle]
unsafe extern "C" fn $irq() {
$(
<$handler as $crate::interrupt::typelevel::Handler<$crate::interrupt::typelevel::$irq>>::on_interrupt();
)*
}
$(
unsafe impl $crate::interrupt::typelevel::Binding<$crate::interrupt::typelevel::$irq, $handler> for $name {}
)*
)*
};
}
// Reexports
pub use _generated::{peripherals, Peripherals};
pub use embassy_hal_internal::{into_ref, Peripheral, PeripheralRef};
#[cfg(feature = "unstable-pac")]
pub use stm32_metapac as pac;
#[cfg(not(feature = "unstable-pac"))]
pub(crate) use stm32_metapac as pac;
use crate::interrupt::Priority;
#[cfg(feature = "rt")]
pub use crate::pac::NVIC_PRIO_BITS;
use crate::rcc::sealed::RccPeripheral;
/// `embassy-stm32` global configuration.
#[non_exhaustive]
pub struct Config {
/// RCC config.
pub rcc: rcc::Config,
/// Enable debug during sleep.
///
/// May incrase power consumption. Defaults to true.
#[cfg(dbgmcu)]
pub enable_debug_during_sleep: bool,
/// BDMA interrupt priority.
///
/// Defaults to P0 (highest).
#[cfg(bdma)]
pub bdma_interrupt_priority: Priority,
/// DMA interrupt priority.
///
/// Defaults to P0 (highest).
#[cfg(dma)]
pub dma_interrupt_priority: Priority,
/// GPDMA interrupt priority.
///
/// Defaults to P0 (highest).
#[cfg(gpdma)]
pub gpdma_interrupt_priority: Priority,
}
impl Default for Config {
fn default() -> Self {
Self {
rcc: Default::default(),
#[cfg(dbgmcu)]
enable_debug_during_sleep: true,
#[cfg(bdma)]
bdma_interrupt_priority: Priority::P0,
#[cfg(dma)]
dma_interrupt_priority: Priority::P0,
#[cfg(gpdma)]
gpdma_interrupt_priority: Priority::P0,
}
}
}
/// Initialize the `embassy-stm32` HAL with the provided configuration.
///
/// This returns the peripheral singletons that can be used for creating drivers.
///
/// This should only be called once at startup, otherwise it panics.
pub fn init(config: Config) -> Peripherals {
critical_section::with(|cs| {
let p = Peripherals::take_with_cs(cs);
#[cfg(dbgmcu)]
if config.enable_debug_during_sleep {
crate::pac::DBGMCU.cr().modify(|cr| {
#[cfg(any(dbgmcu_f0, dbgmcu_c0, dbgmcu_g0, dbgmcu_u5, dbgmcu_wba))]
{
cr.set_dbg_stop(true);
cr.set_dbg_standby(true);
}
#[cfg(any(
dbgmcu_f1, dbgmcu_f2, dbgmcu_f3, dbgmcu_f4, dbgmcu_f7, dbgmcu_g4, dbgmcu_f7, dbgmcu_l0, dbgmcu_l1,
dbgmcu_l4, dbgmcu_wb, dbgmcu_wl
))]
{
cr.set_dbg_sleep(true);
cr.set_dbg_stop(true);
cr.set_dbg_standby(true);
}
#[cfg(dbgmcu_h7)]
{
cr.set_d1dbgcken(true);
cr.set_d3dbgcken(true);
cr.set_dbgsleep_d1(true);
cr.set_dbgstby_d1(true);
cr.set_dbgstop_d1(true);
}
});
}
#[cfg(not(any(stm32f1, stm32wb, stm32wl)))]
peripherals::SYSCFG::enable_and_reset_with_cs(cs);
#[cfg(not(any(stm32h5, stm32h7, stm32wb, stm32wl)))]
peripherals::PWR::enable_and_reset_with_cs(cs);
#[cfg(not(any(stm32f2, stm32f4, stm32f7, stm32l0, stm32h5, stm32h7)))]
peripherals::FLASH::enable_and_reset_with_cs(cs);
unsafe {
#[cfg(feature = "_split-pins-enabled")]
crate::pac::SYSCFG.pmcr().modify(|pmcr| {
#[cfg(feature = "split-pa0")]
pmcr.set_pa0so(true);
#[cfg(feature = "split-pa1")]
pmcr.set_pa1so(true);
#[cfg(feature = "split-pc2")]
pmcr.set_pc2so(true);
#[cfg(feature = "split-pc3")]
pmcr.set_pc3so(true);
});
gpio::init(cs);
dma::init(
cs,
#[cfg(bdma)]
config.bdma_interrupt_priority,
#[cfg(dma)]
config.dma_interrupt_priority,
#[cfg(gpdma)]
config.gpdma_interrupt_priority,
);
#[cfg(feature = "exti")]
exti::init(cs);
rcc::init(config.rcc);
// must be after rcc init
#[cfg(feature = "_time-driver")]
time_driver::init(cs);
#[cfg(feature = "low-power")]
{
crate::rcc::REFCOUNT_STOP2 = 0;
crate::rcc::REFCOUNT_STOP1 = 0;
}
}
p
})
}