mirror of
https://github.com/italicsjenga/rp-hal-boards.git
synced 2024-12-25 13:31:31 +11:00
130 lines
3.9 KiB
Rust
130 lines
3.9 KiB
Rust
//! # Pico USB Serial Example
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//!
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//! Creates a USB Serial device on a Pico board, with the USB driver running in
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//! the main thread.
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//!
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//! This will create a USB Serial device echoing anything it receives. Incoming
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//! ASCII characters are converted to upercase, so you can tell it is working
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//! and not just local-echo!
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//!
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//! See the `Cargo.toml` file for Copyright and licence details.
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#![no_std]
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#![no_main]
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// The macro for our start-up function
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use cortex_m_rt::entry;
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// Ensure we halt the program on panic (if we don't mention this crate it won't
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// be linked)
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use panic_halt as _;
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// A shorter alias for the Peripheral Access Crate, which provides low-level
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// register access
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use pico::hal::pac;
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// A shorter alias for the Hardware Abstraction Layer, which provides
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// higher-level drivers.
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use pico::hal;
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// USB Device support
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use usb_device::{class_prelude::*, prelude::*};
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// USB Communications Class Device support
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use usbd_serial::SerialPort;
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/// The linker will place this boot block at the start of our program image. We
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/// need this to help the ROM bootloader get our code up and running.
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#[link_section = ".boot2"]
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#[used]
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pub static BOOT2: [u8; 256] = rp2040_boot2::BOOT_LOADER;
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/// Entry point to our bare-metal application.
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///
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/// The `#[entry]` macro ensures the Cortex-M start-up code calls this function
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/// as soon as all global variables are initialised.
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///
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/// The function configures the RP2040 peripherals, then echoes any characters
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/// received over USB Serial.
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#[entry]
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fn main() -> ! {
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// Grab our singleton objects
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let mut pac = pac::Peripherals::take().unwrap();
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// Set up the watchdog driver - needed by the clock setup code
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let mut watchdog = hal::watchdog::Watchdog::new(pac.WATCHDOG);
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// Configure the clocks
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//
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// Our default is 12 MHz crystal input, 125 MHz system clock
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let clocks = hal::clocks::init_clocks_and_plls(
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pico::XOSC_CRYSTAL_FREQ,
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pac.XOSC,
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pac.CLOCKS,
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pac.PLL_SYS,
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pac.PLL_USB,
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&mut pac.RESETS,
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&mut watchdog,
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)
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.ok()
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.unwrap();
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// Set up the USB driver
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let usb_bus = UsbBusAllocator::new(hal::usb::UsbBus::new(
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pac.USBCTRL_REGS,
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pac.USBCTRL_DPRAM,
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clocks.usb_clock,
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true,
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&mut pac.RESETS,
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));
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// Set up the USB Communications Class Device driver
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let mut serial = SerialPort::new(&usb_bus);
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// Create a USB device with a fake VID and PID
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let mut usb_dev = UsbDeviceBuilder::new(&usb_bus, UsbVidPid(0x16c0, 0x27dd))
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.manufacturer("Fake company")
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.product("Serial port")
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.serial_number("TEST")
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.device_class(2) // from: https://www.usb.org/defined-class-codes
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.build();
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let timer = hal::timer::Timer::new(pac.TIMER);
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let mut said_hello = false;
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loop {
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// A welcome message at the beginning
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if !said_hello && timer.get_counter() >= 2_000_000 {
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said_hello = true;
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let _ = serial.write(b"Hello, World!\r\n");
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}
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// Check for new data
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if usb_dev.poll(&mut [&mut serial]) {
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let mut buf = [0u8; 64];
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match serial.read(&mut buf) {
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Err(_e) => {
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// Do nothing
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}
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Ok(0) => {
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// Do nothing
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}
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Ok(count) => {
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// Convert to upper case
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buf.iter_mut().take(count).for_each(|b| {
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b.make_ascii_uppercase();
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});
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// Send back to the host
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let mut wr_ptr = &buf[..count];
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while !wr_ptr.is_empty() {
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let _ = serial.write(wr_ptr).map(|len| {
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wr_ptr = &wr_ptr[len..];
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});
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}
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}
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}
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}
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}
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}
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// End of file
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