Struct stm32_metapac::rcc::regs::Apb2enr
#[repr(transparent)]pub struct Apb2enr(pub u32);
Expand description
RCC APB2 peripheral clock enable register
Tuple Fields§
§0: u32
Implementations§
§impl Apb2enr
impl Apb2enr
pub const fn tim1en(&self) -> bool
pub const fn tim1en(&self) -> bool
TIM1 bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC TIM1SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub fn set_tim1en(&mut self, val: bool)
pub fn set_tim1en(&mut self, val: bool)
TIM1 bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC TIM1SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub const fn spi1en(&self) -> bool
pub const fn spi1en(&self) -> bool
SPI1 bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC SPI1SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub fn set_spi1en(&mut self, val: bool)
pub fn set_spi1en(&mut self, val: bool)
SPI1 bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC SPI1SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub const fn usart1en(&self) -> bool
pub const fn usart1en(&self) -> bool
USART1bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC USART1SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub fn set_usart1en(&mut self, val: bool)
pub fn set_usart1en(&mut self, val: bool)
USART1bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC USART1SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub const fn tim16en(&self) -> bool
pub const fn tim16en(&self) -> bool
TIM16 bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC TIM16SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub fn set_tim16en(&mut self, val: bool)
pub fn set_tim16en(&mut self, val: bool)
TIM16 bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC TIM16SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub const fn tim17en(&self) -> bool
pub const fn tim17en(&self) -> bool
TIM17 bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC TIM17SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
pub fn set_tim17en(&mut self, val: bool)
pub fn set_tim17en(&mut self, val: bool)
TIM17 bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC TIM17SEC. When secure, a non-secure read/write access is RAZ/WI. It does not generate an illegal access interrupt. This bit can be protected against unprivileged access when secure with RCC SPRIV or when non-secure with RCC NSPRIV.
Trait Implementations§
impl Copy for Apb2enr
impl Eq for Apb2enr
impl StructuralPartialEq for Apb2enr
Auto Trait Implementations§
impl Freeze for Apb2enr
impl RefUnwindSafe for Apb2enr
impl Send for Apb2enr
impl Sync for Apb2enr
impl Unpin for Apb2enr
impl UnwindSafe for Apb2enr
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
source§impl<T> CloneToUninit for Twhere
T: Clone,
impl<T> CloneToUninit for Twhere
T: Clone,
source§unsafe fn clone_to_uninit(&self, dst: *mut T)
unsafe fn clone_to_uninit(&self, dst: *mut T)
clone_to_uninit
)