//! Universal Serial Bus (USB) #[cfg_attr(usb, path = "usb.rs")] #[cfg_attr(otg, path = "otg.rs")] mod _version; pub use _version::*; use crate::interrupt::typelevel::Interrupt; use crate::rcc::sealed::RccPeripheral; /// clock, power initialization stuff that's common for USB and OTG. fn common_init() { // Check the USB clock is enabled and running at exactly 48 MHz. // frequency() will panic if not enabled let freq = T::frequency(); // Check frequency is within the 0.25% tolerance allowed by the spec. // Clock might not be exact 48Mhz due to rounding errors in PLL calculation, or if the user // has tight clock restrictions due to something else (like audio). if freq.0.abs_diff(48_000_000) > 120_000 { panic!( "USB clock should be 48Mhz but is {} Hz. Please double-check your RCC settings.", freq.0 ) } #[cfg(any(stm32l4, stm32l5, stm32wb))] critical_section::with(|_| crate::pac::PWR.cr2().modify(|w| w.set_usv(true))); #[cfg(pwr_h5)] critical_section::with(|_| crate::pac::PWR.usbscr().modify(|w| w.set_usb33sv(true))); #[cfg(stm32h7)] { // If true, VDD33USB is generated by internal regulator from VDD50USB // If false, VDD33USB and VDD50USB must be suplied directly with 3.3V (default on nucleo) // TODO: unhardcode let internal_regulator = false; // Enable USB power critical_section::with(|_| { crate::pac::PWR.cr3().modify(|w| { w.set_usb33den(true); w.set_usbregen(internal_regulator); }) }); // Wait for USB power to stabilize while !crate::pac::PWR.cr3().read().usb33rdy() {} } #[cfg(stm32u5)] { // Enable USB power critical_section::with(|_| { crate::pac::PWR.svmcr().modify(|w| { w.set_usv(true); w.set_uvmen(true); }) }); // Wait for USB power to stabilize while !crate::pac::PWR.svmsr().read().vddusbrdy() {} } T::Interrupt::unpend(); unsafe { T::Interrupt::enable() }; ::enable_and_reset(); }