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Merge #1405

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1405: add IPCC peripheral for stm32wb r=xoviat a=OueslatiGhaith

Hello again,

This pull request is related to #1397 and #1401, inspired by #24, and was tested on an stm32wb55rg.

This pull request aims to add the IPCC peripheral for stm32wb microcontrollers.
I am debating whether this should be included in the public API, since the IPCC peripheral would be typically managed by the TL Mailbox, not by the app directly.

Co-authored-by: OueslatiGhaith <ghaith.oueslati@enis.tn>
This commit is contained in:
bors[bot] 2023-04-30 15:23:55 +00:00 committed by GitHub
commit 7646f18836
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178
embassy-stm32/src/ipcc.rs Normal file
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@ -0,0 +1,178 @@
use embassy_hal_common::{into_ref, Peripheral, PeripheralRef};
use crate::ipcc::sealed::Instance;
use crate::peripherals::IPCC;
use crate::rcc::sealed::RccPeripheral;
#[non_exhaustive]
#[derive(Clone, Copy, Default)]
pub struct Config {
// TODO: add IPCC peripheral configuration, if any, here
// reserved for future use
}
#[derive(Debug, Clone, Copy)]
#[repr(C)]
pub enum IpccChannel {
Channel1 = 0,
Channel2 = 1,
Channel3 = 2,
Channel4 = 3,
Channel5 = 4,
Channel6 = 5,
}
pub(crate) mod sealed {
pub trait Instance: crate::rcc::RccPeripheral {
fn regs() -> crate::pac::ipcc::Ipcc;
fn set_cpu2(enabled: bool);
}
}
pub struct Ipcc<'d> {
_peri: PeripheralRef<'d, IPCC>,
}
impl<'d> Ipcc<'d> {
pub fn new(peri: impl Peripheral<P = IPCC> + 'd, _config: Config) -> Self {
into_ref!(peri);
Self { _peri: peri }
}
pub fn init(&mut self) {
IPCC::enable();
IPCC::reset();
IPCC::set_cpu2(true);
unsafe { _configure_pwr() };
let regs = IPCC::regs();
unsafe {
regs.cpu(0).cr().modify(|w| {
w.set_rxoie(true);
w.set_txfie(true);
})
}
}
pub fn c1_set_rx_channel(&mut self, channel: IpccChannel, enabled: bool) {
let regs = IPCC::regs();
// If bit is set to 1 then interrupt is disabled
unsafe { regs.cpu(0).mr().modify(|w| w.set_chom(channel as usize, !enabled)) }
}
pub fn c1_get_rx_channel(&self, channel: IpccChannel) -> bool {
let regs = IPCC::regs();
// If bit is set to 1 then interrupt is disabled
unsafe { !regs.cpu(0).mr().read().chom(channel as usize) }
}
pub fn c2_set_rx_channel(&mut self, channel: IpccChannel, enabled: bool) {
let regs = IPCC::regs();
// If bit is set to 1 then interrupt is disabled
unsafe { regs.cpu(1).mr().modify(|w| w.set_chom(channel as usize, !enabled)) }
}
pub fn c2_get_rx_channel(&self, channel: IpccChannel) -> bool {
let regs = IPCC::regs();
// If bit is set to 1 then interrupt is disabled
unsafe { !regs.cpu(1).mr().read().chom(channel as usize) }
}
pub fn c1_set_tx_channel(&mut self, channel: IpccChannel, enabled: bool) {
let regs = IPCC::regs();
// If bit is set to 1 then interrupt is disabled
unsafe { regs.cpu(0).mr().modify(|w| w.set_chfm(channel as usize, !enabled)) }
}
pub fn c1_get_tx_channel(&self, channel: IpccChannel) -> bool {
let regs = IPCC::regs();
// If bit is set to 1 then interrupt is disabled
unsafe { !regs.cpu(0).mr().read().chfm(channel as usize) }
}
pub fn c2_set_tx_channel(&mut self, channel: IpccChannel, enabled: bool) {
let regs = IPCC::regs();
// If bit is set to 1 then interrupt is disabled
unsafe { regs.cpu(1).mr().modify(|w| w.set_chfm(channel as usize, !enabled)) }
}
pub fn c2_get_tx_channel(&self, channel: IpccChannel) -> bool {
let regs = IPCC::regs();
// If bit is set to 1 then interrupt is disabled
unsafe { !regs.cpu(1).mr().read().chfm(channel as usize) }
}
/// clears IPCC receive channel status for CPU1
pub fn c1_clear_flag_channel(&mut self, channel: IpccChannel) {
let regs = IPCC::regs();
unsafe { regs.cpu(0).scr().write(|w| w.set_chc(channel as usize, true)) }
}
/// clears IPCC receive channel status for CPU2
pub fn c2_clear_flag_channel(&mut self, channel: IpccChannel) {
let regs = IPCC::regs();
unsafe { regs.cpu(1).scr().write(|w| w.set_chc(channel as usize, true)) }
}
pub fn c1_set_flag_channel(&mut self, channel: IpccChannel) {
let regs = IPCC::regs();
unsafe { regs.cpu(0).scr().write(|w| w.set_chs(channel as usize, true)) }
}
pub fn c2_set_flag_channel(&mut self, channel: IpccChannel) {
let regs = IPCC::regs();
unsafe { regs.cpu(1).scr().write(|w| w.set_chs(channel as usize, true)) }
}
pub fn c1_is_active_flag(&self, channel: IpccChannel) -> bool {
let regs = IPCC::regs();
unsafe { regs.cpu(0).sr().read().chf(channel as usize) }
}
pub fn c2_is_active_flag(&self, channel: IpccChannel) -> bool {
let regs = IPCC::regs();
unsafe { regs.cpu(1).sr().read().chf(channel as usize) }
}
pub fn is_tx_pending(&self, channel: IpccChannel) -> bool {
!self.c1_is_active_flag(channel) && self.c1_get_tx_channel(channel)
}
pub fn is_rx_pending(&self, channel: IpccChannel) -> bool {
self.c2_is_active_flag(channel) && self.c1_get_rx_channel(channel)
}
}
impl sealed::Instance for crate::peripherals::IPCC {
fn regs() -> crate::pac::ipcc::Ipcc {
crate::pac::IPCC
}
fn set_cpu2(enabled: bool) {
unsafe { crate::pac::PWR.cr4().modify(|w| w.set_c2boot(enabled)) }
}
}
unsafe fn _configure_pwr() {
let rcc = crate::pac::RCC;
// set RF wake-up clock = LSE
rcc.csr().modify(|w| w.set_rfwkpsel(0b01));
}

2
embassy-stm32/src/lib.rs
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@ -44,6 +44,8 @@ pub mod i2c;
#[cfg(crc)] #[cfg(crc)]
pub mod crc; pub mod crc;
pub mod flash; pub mod flash;
#[cfg(stm32wb)]
pub mod ipcc;
pub mod pwm; pub mod pwm;
#[cfg(quadspi)] #[cfg(quadspi)]
pub mod qspi; pub mod qspi;