//! # Pico USB 'Twitchy' Mouse Example //! //! Creates a USB HID Class Poiting device (i.e. a virtual mouse) on a Pico //! board, with the USB driver running in the main thread. //! //! It generates movement reports which will twitch the cursor up and down by a //! few pixels, several times a second. //! //! See the `Cargo.toml` file for Copyright and license details. //! //! This is a port of //! https://github.com/atsamd-rs/atsamd/blob/master/boards/itsybitsy_m0/examples/twitching_usb_mouse.rs #![no_std] #![no_main] // The macro for our start-up function use rp_pico::entry; // The macro for marking our interrupt functions use rp_pico::hal::pac::interrupt; // Ensure we halt the program on panic (if we don't mention this crate it won't // be linked) use panic_halt as _; // Pull in any important traits use embedded_time::fixed_point::FixedPoint; use rp_pico::hal::prelude::*; // A shorter alias for the Peripheral Access Crate, which provides low-level // register access use rp_pico::hal::pac; // A shorter alias for the Hardware Abstraction Layer, which provides // higher-level drivers. use rp_pico::hal; // USB Device support use usb_device::{class_prelude::*, prelude::*}; // USB Human Interface Device (HID) Class support use usbd_hid::descriptor::generator_prelude::*; use usbd_hid::descriptor::MouseReport; use usbd_hid::hid_class::HIDClass; /// The USB Device Driver (shared with the interrupt). static mut USB_DEVICE: Option> = None; /// The USB Bus Driver (shared with the interrupt). static mut USB_BUS: Option> = None; /// The USB Human Interface Device Driver (shared with the interrupt). static mut USB_HID: Option> = None; /// Entry point to our bare-metal application. /// /// The `#[entry]` macro ensures the Cortex-M start-up code calls this function /// as soon as all global variables are initialised. /// /// The function configures the RP2040 peripherals, then submits cursor movement /// updates periodically. #[entry] fn main() -> ! { // Grab our singleton objects let mut pac = pac::Peripherals::take().unwrap(); // Set up the watchdog driver - needed by the clock setup code let mut watchdog = hal::Watchdog::new(pac.WATCHDOG); // Configure the clocks // // The default is to generate a 125 MHz system clock let clocks = hal::clocks::init_clocks_and_plls( rp_pico::XOSC_CRYSTAL_FREQ, pac.XOSC, pac.CLOCKS, pac.PLL_SYS, pac.PLL_USB, &mut pac.RESETS, &mut watchdog, ) .ok() .unwrap(); // Set up the USB driver let usb_bus = UsbBusAllocator::new(hal::usb::UsbBus::new( pac.USBCTRL_REGS, pac.USBCTRL_DPRAM, clocks.usb_clock, true, &mut pac.RESETS, )); unsafe { // Note (safety): This is safe as interrupts haven't been started yet USB_BUS = Some(usb_bus); } // Grab a reference to the USB Bus allocator. We are promising to the // compiler not to take mutable access to this global variable whilst this // reference exists! let bus_ref = unsafe { USB_BUS.as_ref().unwrap() }; // Set up the USB HID Class Device driver, providing Mouse Reports let usb_hid = HIDClass::new(bus_ref, MouseReport::desc(), 60); unsafe { // Note (safety): This is safe as interrupts haven't been started yet. USB_HID = Some(usb_hid); } // Create a USB device with a fake VID and PID let usb_dev = UsbDeviceBuilder::new(bus_ref, UsbVidPid(0x16c0, 0x27da)) .manufacturer("Fake company") .product("Twitchy Mousey") .serial_number("TEST") .device_class(0) .build(); unsafe { // Note (safety): This is safe as interrupts haven't been started yet USB_DEVICE = Some(usb_dev); } unsafe { // Enable the USB interrupt pac::NVIC::unmask(hal::pac::Interrupt::USBCTRL_IRQ); }; let core = pac::CorePeripherals::take().unwrap(); let mut delay = cortex_m::delay::Delay::new(core.SYST, clocks.system_clock.freq().integer()); // Move the cursor up and down every 200ms loop { delay.delay_ms(100); let rep_up = MouseReport { x: 0, y: 4, buttons: 0, wheel: 0, pan: 0, }; push_mouse_movement(rep_up).ok().unwrap_or(0); delay.delay_ms(100); let rep_down = MouseReport { x: 0, y: -4, buttons: 0, wheel: 0, pan: 0, }; push_mouse_movement(rep_down).ok().unwrap_or(0); } } /// Submit a new mouse movement report to the USB stack. /// /// We do this with interrupts disabled, to avoid a race hazard with the USB IRQ. fn push_mouse_movement(report: MouseReport) -> Result { cortex_m::interrupt::free(|_| unsafe { // Now interrupts are disabled, grab the global variable and, if // available, send it a HID report USB_HID.as_mut().map(|hid| hid.push_input(&report)) }) .unwrap() } /// This function is called whenever the USB Hardware generates an Interrupt /// Request. #[allow(non_snake_case)] #[interrupt] unsafe fn USBCTRL_IRQ() { // Handle USB request let usb_dev = USB_DEVICE.as_mut().unwrap(); let usb_hid = USB_HID.as_mut().unwrap(); usb_dev.poll(&mut [usb_hid]); } // End of file