Struct stm32_metapac::rcc::regs::Apb1rstr1

#[repr(transparent)]
pub struct Apb1rstr1(pub u32);

RCC APB1 peripheral reset register 1

Tuple Fields

0: u32

Implementations

impl Apb1rstr1

pub const fn tim2rst(&self) -> bool

TIM2 reset Set and cleared by software. Access can be secured by GTZC_TZSC TIM2SEC. 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_tim2rst(&mut self, val: bool)

TIM2 reset Set and cleared by software. Access can be secured by GTZC_TZSC TIM2SEC. 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 tim3rst(&self) -> bool

TIM3 reset Set and cleared by software. Access can be secured by GTZC_TZSC TIM3SEC. 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_tim3rst(&mut self, val: bool)

TIM3 reset Set and cleared by software. Access can be secured by GTZC_TZSC TIM3SEC. 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 usart2rst(&self) -> bool

USART2 reset Set and cleared by software. Access can be secured by GTZC_TZSC UART2SEC. 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_usart2rst(&mut self, val: bool)

USART2 reset Set and cleared by software. Access can be secured by GTZC_TZSC UART2SEC. 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 i2c1rst(&self) -> bool

I2C1 reset Set and cleared by software. Access can be secured by GTZC_TZSC I2C1SEC. 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_i2c1rst(&mut self, val: bool)

I2C1 reset Set and cleared by software. Access can be secured by GTZC_TZSC I2C1SEC. 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 Clone for Apb1rstr1

fn clone(&self) -> Apb1rstr1

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Default for Apb1rstr1

fn default() -> Apb1rstr1

Returns the “default value” for a type.

impl PartialEq for Apb1rstr1

fn eq(&self, other: &Apb1rstr1) -> bool

This method tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl Copy for Apb1rstr1

impl Eq for Apb1rstr1

impl StructuralEq for Apb1rstr1

impl StructuralPartialEq for Apb1rstr1