Struct stm32_metapac::rcc::regs::Ahb2enr
#[repr(transparent)]pub struct Ahb2enr(pub u32);
Expand description
RCC AHB2 peripheral clock enable register
Tuple Fields§
§0: u32
Implementations§
§impl Ahb2enr
impl Ahb2enr
pub const fn gpioaen(&self) -> bool
pub const fn gpioaen(&self) -> bool
IO port A bus clock enable Set and cleared by software. Access can be secured by GPIOA SECx. 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_gpioaen(&mut self, val: bool)
pub fn set_gpioaen(&mut self, val: bool)
IO port A bus clock enable Set and cleared by software. Access can be secured by GPIOA SECx. 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 gpioben(&self) -> bool
pub const fn gpioben(&self) -> bool
IO port B bus clock enable Set and cleared by software. Access can be secured by GPIOB SECx. 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_gpioben(&mut self, val: bool)
pub fn set_gpioben(&mut self, val: bool)
IO port B bus clock enable Set and cleared by software. Access can be secured by GPIOB SECx. 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 gpiocen(&self) -> bool
pub const fn gpiocen(&self) -> bool
IO port C bus clock enable Set and cleared by software. Access can be secured by GPIOC SECx. 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_gpiocen(&mut self, val: bool)
pub fn set_gpiocen(&mut self, val: bool)
IO port C bus clock enable Set and cleared by software. Access can be secured by GPIOC SECx. 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 gpiohen(&self) -> bool
pub const fn gpiohen(&self) -> bool
IO port H bus clock enable Set and cleared by software. Access can be secured by GPIOH SECx. 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_gpiohen(&mut self, val: bool)
pub fn set_gpiohen(&mut self, val: bool)
IO port H bus clock enable Set and cleared by software. Access can be secured by GPIOH SECx. 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 aesen(&self) -> bool
pub const fn aesen(&self) -> bool
AES bus clock enable Set and cleared by software. Access can be secured by GTZC_TZSC AESSEC. 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_aesen(&mut self, val: bool)
pub fn set_aesen(&mut self, val: bool)
AES bus clock enable Set and cleared by software. Access can be secured by GTZC_TZSC AESSEC. 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 hashen(&self) -> bool
pub const fn hashen(&self) -> bool
HASH bus clock enable Set and cleared by software. Access can be secured by GTZC_TZSC HASHSEC. 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_hashen(&mut self, val: bool)
pub fn set_hashen(&mut self, val: bool)
HASH bus clock enable Set and cleared by software. Access can be secured by GTZC_TZSC HASHSEC. 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 rngen(&self) -> bool
pub const fn rngen(&self) -> bool
RNG bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC RNGSEC. 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_rngen(&mut self, val: bool)
pub fn set_rngen(&mut self, val: bool)
RNG bus and kernel clocks enable Set and cleared by software. Access can be secured by GTZC_TZSC RNGSEC. 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 saesen(&self) -> bool
pub const fn saesen(&self) -> bool
SAES bus clock enable Set and cleared by software. Access can be secured by GTZC_TZSC SAESSEC. 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_saesen(&mut self, val: bool)
pub fn set_saesen(&mut self, val: bool)
SAES bus clock enable Set and cleared by software. Access can be secured by GTZC_TZSC SAESSEC. 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 hsemen(&self) -> bool
pub const fn hsemen(&self) -> bool
HSEM bus clock enable Set and cleared by software. Can only be accessed secure when one or more features in the HSEM is secure. 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_hsemen(&mut self, val: bool)
pub fn set_hsemen(&mut self, val: bool)
HSEM bus clock enable Set and cleared by software. Can only be accessed secure when one or more features in the HSEM is secure. 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 pkaen(&self) -> bool
pub const fn pkaen(&self) -> bool
PKA bus clock enable Set and cleared by software. Access can be secured by GTZC_TZSC PKASEC. 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_pkaen(&mut self, val: bool)
pub fn set_pkaen(&mut self, val: bool)
PKA bus clock enable Set and cleared by software. Access can be secured by GTZC_TZSC PKASEC. 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 sram2en(&self) -> bool
pub const fn sram2en(&self) -> bool
SRAM2 bus clock enable Set and cleared by software. Access can be secured by GTZC_MPCBB2 SECx, INVSECSTATE. 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_sram2en(&mut self, val: bool)
pub fn set_sram2en(&mut self, val: bool)
SRAM2 bus clock enable Set and cleared by software. Access can be secured by GTZC_MPCBB2 SECx, INVSECSTATE. 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.