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384c548557 ... 0f5f942d78

Author SHA1 Message Date
Alexander Neuhäuser
0f5f942d78 Impelement a basic logger, WIP 2026-01-10 19:49:05 +01:00
Alexander Neuhäuser
48fbc2e5fa Introduce Logger trait 2026-01-09 16:04:42 +01:00
9 changed files with 492 additions and 72 deletions
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5
src/framebuffer.rs
View File

@@ -4,7 +4,10 @@ mod bitmaps;
use bitmaps::BASIC_LEGACY;
use crate::mailbox::{read_mailbox, write_mailbox};
use crate::{
mailbox::{read_mailbox, write_mailbox},
println,
};
#[repr(align(16))]
struct Mailbox([u32; 36]);

280
src/interrupt_handlers.rs Normal file
View File

@@ -0,0 +1,280 @@
use core::arch::asm;
use alloc::vec::Vec;
use crate::{
get_current_el,
interrupt_handlers::daif::unmask_irq,
peripherals::{
gpio::{read_gpio_event_detect_status, reset_gpio_event_detect_status},
uart::clear_uart_interrupt_state,
},
println, read_address, write_address,
};
const INTERRUPT_BASE: u32 = 0x3F00_B000;
const IRQ_PENDING_BASE: u32 = INTERRUPT_BASE + 0x204;
const ENABLE_IRQ_BASE: u32 = INTERRUPT_BASE + 0x210;
const DISABLE_IRQ_BASE: u32 = INTERRUPT_BASE + 0x21C;
const GPIO_PENDING_BIT_OFFSET: u64 = 0b1111 << 49;
struct InterruptHandlers {
source: IRQSource,
function: fn(),
}
// TODO: replace with hashmap and check for better alternatives for option
static mut INTERRUPT_HANDLERS: Option<Vec<InterruptHandlers>> = None;
#[derive(Clone)]
#[repr(u32)]
pub enum IRQSource {
AuxInt = 29,
I2cSpiSlvInt = 44,
Pwa0 = 45,
Pwa1 = 46,
Smi = 48,
GpioInt0 = 49,
GpioInt1 = 50,
GpioInt2 = 51,
GpioInt3 = 52,
I2cInt = 53,
SpiInt = 54,
PcmInt = 55,
UartInt = 57,
}
/// Representation of the ESR_ELx registers
///
/// Reference: D1.10.4
#[derive(Debug, Clone, Copy)]
#[allow(dead_code)]
struct EsrElX {
ec: u32,
il: u32,
iss: u32,
}
impl From<u32> for EsrElX {
fn from(value: u32) -> Self {
Self {
ec: value >> 26,
il: (value >> 25) & 0b1,
iss: value & 0x1FFFFFF,
}
}
}
#[no_mangle]
unsafe extern "C" fn rust_irq_handler() {
daif::mask_all();
let pending_irqs = get_irq_pending_sources();
if pending_irqs & GPIO_PENDING_BIT_OFFSET != 0 {
handle_gpio_interrupt();
let source_el = get_exception_return_exception_level() >> 2;
println!("Source EL: {}", source_el);
println!("Current EL: {}", get_current_el());
println!("Return register address: {:#x}", get_elr_el1());
}
if let Some(handler_vec) = unsafe { INTERRUPT_HANDLERS.as_ref() } {
for handler in handler_vec {
if (pending_irqs & (1 << (handler.source.clone() as u32))) != 0 {
(handler.function)();
clear_interrupt_for_source(handler.source.clone());
}
}
}
}
#[no_mangle]
unsafe extern "C" fn rust_synchronous_interrupt_no_el_change() {
daif::mask_all();
let source_el = get_exception_return_exception_level() >> 2;
println!("--------Sync Exception in EL{}--------", source_el);
println!("No EL change");
println!("Current EL: {}", get_current_el());
println!("{:?}", EsrElX::from(get_esr_el1()));
println!("Return register address: {:#x}", get_elr_el1());
println!("-------------------------------------");
}
/// Synchronous Exception Handler
///
/// Lower Exception level, where the implemented level
/// immediately lower than the target level is using
/// AArch64.
#[no_mangle]
unsafe extern "C" fn rust_synchronous_interrupt_imm_lower_aarch64() {
daif::mask_all();
let source_el = get_exception_return_exception_level() >> 2;
println!("--------Sync Exception in EL{}--------", source_el);
println!("Exception escalated to EL {}", get_current_el());
println!("Current EL: {}", get_current_el());
let esr = EsrElX::from(get_esr_el1());
println!("{:?}", EsrElX::from(esr));
println!("Return register address: {:#x}", get_elr_el1());
match esr.ec {
0b100100 => {
println!("Cause: Data Abort from a lower Exception level");
}
_ => {}
}
println!("-------------------------------------");
set_return_to_kernel_main();
}
fn clear_interrupt_for_source(source: IRQSource) {
match source {
IRQSource::UartInt => clear_uart_interrupt_state(),
_ => {}
}
}
fn set_return_to_kernel_main() {
unsafe {
asm!("ldr x0, =kernel_main", "msr ELR_EL1, x0");
asm!("mov x0, #(0b0101)", "msr SPSR_EL1, x0");
}
}
fn get_exception_return_exception_level() -> u32 {
let spsr: u32;
unsafe {
asm!("mrs {0:x}, SPSR_EL1", out(reg) spsr);
}
spsr & 0b1111
}
/// Read the syndrome information that caused an exception
///
/// ESR = Exception Syndrome Register
fn get_esr_el1() -> u32 {
let esr: u32;
unsafe {
asm!(
"mrs {esr:x}, ESR_EL1",
esr = out(reg) esr
);
}
esr
}
/// Read the return address
///
/// ELR = Exception Link Registers
fn get_elr_el1() -> u32 {
let elr: u32;
unsafe {
asm!(
"mrs {esr:x}, ELR_EL1",
esr = out(reg) elr
);
}
elr
}
fn handle_gpio_interrupt() {
println!("Interrupt");
for i in 0..=53u32 {
let val = read_gpio_event_detect_status(i);
if val {
#[allow(clippy::single_match)]
match i {
26 => {
println!("Button Pressed");
}
_ => {}
}
// Reset GPIO Interrupt handler by writing a 1
reset_gpio_event_detect_status(i);
}
}
unmask_irq();
}
/// Enables IRQ Source
pub fn enable_irq_source(state: IRQSource) {
let nr = state as u32;
let register = ENABLE_IRQ_BASE + 4 * (nr / 32);
let register_offset = nr % 32;
let current = unsafe { read_address(register) };
let mask = 0b1 << register_offset;
let new_val = current | mask;
unsafe { write_address(register, new_val) };
}
/// Disable IRQ Source
pub fn disable_irq_source(state: IRQSource) {
let nr = state as u32;
let register = DISABLE_IRQ_BASE + 4 * (nr / 32);
let register_offset = nr % 32;
let current = unsafe { read_address(register) };
let mask = 0b1 << register_offset;
let new_val = current | mask;
unsafe { write_address(register, new_val) };
}
/// Read current IRQ Source status
pub fn read_irq_source_status(state: IRQSource) -> u32 {
let nr = state as u32;
let register = ENABLE_IRQ_BASE + 4 * (nr / 32);
let register_offset = nr % 32;
(unsafe { read_address(register) } >> register_offset) & 0b1
}
/// Status if a IRQ Source is pending
pub fn is_irq_source_pending(state: IRQSource) -> bool {
let nr = state as u32;
let register = IRQ_PENDING_BASE + 4 * (nr / 32);
let register_offset = nr % 32;
((unsafe { read_address(register) } >> register_offset) & 0b1) != 0
}
/// Status if a IRQ Source is pending
pub fn get_irq_pending_sources() -> u64 {
let mut pending = unsafe { read_address(IRQ_PENDING_BASE + 4) as u64 } << 32;
pending |= unsafe { read_address(IRQ_PENDING_BASE) as u64 };
pending
}
pub mod daif {
use core::arch::asm;
#[inline(always)]
pub fn mask_all() {
unsafe { asm!("msr DAIFSet, #0xf", options(nomem, nostack)) }
}
#[inline(always)]
pub fn unmask_all() {
unsafe { asm!("msr DAIFClr, #0xf", options(nomem, nostack)) }
}
#[inline(always)]
pub fn mask_irq() {
unsafe { asm!("msr DAIFSet, #0x2", options(nomem, nostack)) }
}
#[inline(always)]
pub fn unmask_irq() {
unsafe { asm!("msr DAIFClr, #0x2", options(nomem, nostack)) }
}
}
pub fn initialize_interrupt_handler() {
unsafe { INTERRUPT_HANDLERS = Some(Vec::new()) };
}
pub fn register_interrupt_handler(source: IRQSource, function: fn()) {
if let Some(handler_vec) = unsafe { INTERRUPT_HANDLERS.as_mut() } {
handler_vec.push(InterruptHandlers { source, function });
}
}

39
src/lib.rs
View File

@@ -1,5 +1,9 @@
#![no_std]
#![allow(clippy::missing_safety_doc)]
extern crate alloc;
use alloc::boxed::Box;
use core::{
arch::asm,
panic::PanicInfo,
@@ -8,7 +12,9 @@ use core::{
use heap::Heap;
pub static PERIPHERAL_BASE: u32 = 0x3F00_0000;
use crate::{interrupt_handlers::initialize_interrupt_handler, logger::DefaultLogger};
static PERIPHERAL_BASE: u32 = 0x3F00_0000;
unsafe extern "C" {
unsafe static mut __heap_start: u8;
@@ -33,37 +39,23 @@ fn panic(_panic: &PanicInfo) -> ! {
}
}
#[macro_export]
macro_rules! print {
() => {};
($($arg:tt)*) => {
$crate::peripherals::uart::_print(format_args!($($arg)*))
};
}
#[macro_export]
macro_rules! println {
() => {};
($($arg:tt)*) => {
print!($($arg)*);
print!("\r\n");
};
}
pub mod peripherals;
pub mod configuration;
pub mod framebuffer;
pub mod irq_interrupt;
pub mod interrupt_handlers;
pub mod logger;
pub mod mailbox;
pub mod power_management;
pub mod timer;
pub fn mmio_read(address: u32) -> u32 {
#[inline(always)]
pub unsafe fn read_address(address: u32) -> u32 {
unsafe { read_volatile(address as *const u32) }
}
pub fn mmio_write(address: u32, data: u32) {
#[inline(always)]
pub unsafe fn write_address(address: u32, data: u32) {
unsafe { write_volatile(address as *mut u32, data) }
}
@@ -78,3 +70,8 @@ pub fn get_current_el() -> u64 {
}
el >> 2
}
pub fn initialize_kernel() {
logger::set_logger(Box::new(DefaultLogger));
initialize_interrupt_handler();
}

47
src/logger.rs Normal file
View File

@@ -0,0 +1,47 @@
use core::fmt::Write;
use alloc::{boxed::Box, fmt};
use crate::peripherals::uart;
static mut LOGGER: Option<Box<dyn Logger>> = None;
pub trait Logger: Write + Sync {
fn flush(&mut self);
}
pub struct DefaultLogger;
impl Logger for DefaultLogger {
fn flush(&mut self) {}
}
impl Write for DefaultLogger {
fn write_str(&mut self, s: &str) -> core::fmt::Result {
uart::Uart.write_str(s)
}
}
#[macro_export]
macro_rules! log {
() => {};
($($arg:tt)*) => {
$crate::logger::log(format_args!($($arg)*))
};
}
pub fn log(args: fmt::Arguments) {
unsafe {
if let Some(logger) = LOGGER.as_mut() {
logger.write_str("\n").unwrap();
logger.write_fmt(args).unwrap();
logger.flush();
}
}
}
pub fn set_logger(logger: Box<dyn Logger>) {
unsafe {
LOGGER = Some(logger);
}
}

10
src/mailbox.rs
View File

@@ -1,4 +1,4 @@
use crate::{mmio_read, mmio_write};
use crate::{read_address, write_address};
use nova_error::NovaError;
const MBOX_BASE: u32 = 0x3F00_0000 + 0xB880;
@@ -67,8 +67,8 @@ mailbox_command!(get_display_resolution, 0x0004_0003, 0, 8);
pub fn read_mailbox(channel: u32) -> u32 {
// Wait until mailbox is not empty
loop {
while mmio_read(MBOX_STATUS) & MAIL_EMPTY != 0 {}
let mut data = mmio_read(MBOX_READ);
while unsafe { read_address(MBOX_STATUS) } & MAIL_EMPTY != 0 {}
let mut data = unsafe { read_address(MBOX_READ) };
let read_channel = data & 0xF;
data >>= 4;
@@ -80,6 +80,6 @@ pub fn read_mailbox(channel: u32) -> u32 {
}
pub fn write_mailbox(channel: u32, data: u32) {
while mmio_read(MBOX_STATUS) & MAIL_FULL != 0 {}
mmio_write(MBOX_WRITE, (data & !0xF) | (channel & 0xF));
while unsafe { read_address(MBOX_STATUS) } & MAIL_FULL != 0 {}
unsafe { write_address(MBOX_WRITE, (data & !0xF) | (channel & 0xF)) };
}

17
src/main.rs
View File

@@ -14,8 +14,8 @@ use alloc::boxed::Box;
use nova::{
framebuffer::{FrameBuffer, BLUE, GREEN, RED},
get_current_el, init_heap,
irq_interrupt::{daif, enable_irq_source},
mailbox,
interrupt_handlers::{daif, enable_irq_source, IRQSource},
log, mailbox,
peripherals::{
gpio::{
blink_gpio, gpio_pull_up, set_falling_edge_detect, set_gpio_function, GPIOFunction,
@@ -23,7 +23,7 @@ use nova::{
},
uart::uart_init,
},
print, println,
println,
};
global_asm!(include_str!("vector.S"));
@@ -79,6 +79,7 @@ unsafe fn zero_bss() {
#[no_mangle]
pub extern "C" fn kernel_main() -> ! {
nova::initialize_kernel();
println!("Kernel Main");
println!("Exception Level: {}", get_current_el());
daif::unmask_all();
@@ -97,11 +98,13 @@ pub extern "C" fn el0() -> ! {
println!("Jumped into EL0");
// Set GPIO 26 to Input
enable_irq_source(nova::irq_interrupt::IRQState::GpioInt0); //26 is on the first GPIO bank
enable_irq_source(IRQSource::GpioInt0); //26 is on the first GPIO bank
let _ = set_gpio_function(26, GPIOFunction::Input);
gpio_pull_up(26);
set_falling_edge_detect(26, true);
enable_irq_source(IRQSource::UartInt);
let fb = FrameBuffer::default();
fb.draw_square(500, 500, 600, 700, RED);
@@ -114,12 +117,12 @@ pub extern "C" fn el0() -> ! {
loop {
let temp = mailbox::read_soc_temp([0]).unwrap();
println!("{} °C", temp[1] / 1000);
log!("{} °C", temp[1] / 1000);
blink_gpio(SpecificGpio::OnboardLed as u8, 500);
let b = Box::new([1, 2, 3, 4]);
println!("{:?}", b);
log!("{:?}", b);
}
}
@@ -128,8 +131,8 @@ fn cos(x: u32) -> f64 {
}
fn enable_uart() {
uart_init();
// Set GPIO Pins to UART
let _ = set_gpio_function(14, GPIOFunction::Alternative0);
let _ = set_gpio_function(15, GPIOFunction::Alternative0);
uart_init();
}

36
src/peripherals/gpio.rs
View File

@@ -3,7 +3,7 @@ use core::result::Result::Ok;
use core::sync::atomic::{compiler_fence, Ordering};
use crate::timer::{delay_nops, sleep_ms};
use crate::{mmio_read, mmio_write};
use crate::{read_address, write_address};
const GPFSEL_BASE: u32 = 0x3F20_0000;
const GPSET_BASE: u32 = 0x3F20_001C;
@@ -37,14 +37,14 @@ pub fn set_gpio_function(gpio: u8, state: GPIOFunction) -> Result<(), &'static s
let register_index = gpio / 10;
let register_offset = (gpio % 10) * 3;
let register_addr = GPFSEL_BASE + (register_index as u32 * 4);
let current = mmio_read(register_addr);
let current = unsafe { read_address(register_addr) };
let mask = !(0b111 << register_offset);
let cleared = current & mask;
let new_val = cleared | ((state as u32) << register_offset);
mmio_write(register_addr, new_val);
unsafe { write_address(register_addr, new_val) };
Ok(())
}
@@ -57,7 +57,7 @@ pub fn gpio_high(gpio: u8) -> Result<(), &'static str> {
let register_offset = gpio % 32;
let register_addr = GPSET_BASE + (register_index as u32 * 4);
mmio_write(register_addr, 1 << register_offset);
unsafe { write_address(register_addr, 1 << register_offset) };
Ok(())
}
@@ -69,7 +69,7 @@ pub fn gpio_low(gpio: u8) -> Result<(), &'static str> {
let register_offset = gpio % 32;
let register_addr = GPCLR_BASE + (register_index as u32 * 4);
mmio_write(register_addr, 1 << register_offset);
unsafe { write_address(register_addr, 1 << register_offset) };
Ok(())
}
@@ -79,7 +79,7 @@ pub fn gpio_get_state(gpio: u8) -> u8 {
let register_offset = gpio % 32;
let register_addr = GPLEV_BASE + (register_index as u32 * 4);
let state = mmio_read(register_addr);
let state = unsafe { read_address(register_addr) };
((state >> register_offset) & 0b1) as u8
}
@@ -103,23 +103,23 @@ fn gpio_pull_up_down(gpio: u8, val: u32) {
let register_offset = gpio % 32;
// 1. Write Pull up
mmio_write(GPPUD, val);
unsafe { write_address(GPPUD, val) };
// 2. Delay 150 cycles
delay_nops(150);
// 3. Write to clock
let new_val = 0b1 << register_offset;
mmio_write(register_addr, new_val);
unsafe { write_address(register_addr, new_val) };
// 4. Delay 150 cycles
delay_nops(150);
// 5. reset GPPUD
mmio_write(GPPUD, 0);
unsafe { write_address(GPPUD, 0) };
// 6. reset clock
mmio_write(register_addr, 0);
unsafe { write_address(register_addr, 0) };
}
/// Get the current status of the falling edge detection
@@ -127,7 +127,7 @@ pub fn read_falling_edge_detect(gpio: u8) -> bool {
let register_addr = GPFEN_BASE + 4 * (gpio as u32 / 32);
let register_offset = gpio % 32;
let current = mmio_read(register_addr);
let current = unsafe { read_address(register_addr) };
((current >> register_offset) & 0b1) != 0
}
@@ -136,7 +136,7 @@ pub fn read_rising_edge_detect(gpio: u8) -> bool {
let register_addr = GPREN_BASE + 4 * (gpio as u32 / 32);
let register_offset = gpio % 32;
let current = mmio_read(register_addr);
let current = unsafe { read_address(register_addr) };
((current >> register_offset) & 0b1) != 0
}
@@ -145,7 +145,7 @@ pub fn set_falling_edge_detect(gpio: u8, enable: bool) {
let register_addr = GPFEN_BASE + 4 * (gpio as u32 / 32);
let register_offset = gpio % 32;
let current = mmio_read(register_addr);
let current = unsafe { read_address(register_addr) };
let mask = 0b1 << register_offset;
let new_val = if enable {
current | mask
@@ -153,7 +153,7 @@ pub fn set_falling_edge_detect(gpio: u8, enable: bool) {
current & !mask
};
mmio_write(register_addr, new_val);
unsafe { write_address(register_addr, new_val) };
}
/// Enables rising edge detection
@@ -161,7 +161,7 @@ pub fn set_rising_edge_detect(gpio: u8, enable: bool) {
let register_addr = GPREN_BASE + 4 * (gpio as u32 / 32);
let register_offset = gpio % 32;
let current = mmio_read(register_addr);
let current = unsafe { read_address(register_addr) };
let mask = 0b1 << register_offset;
let new_val = if enable {
@@ -170,7 +170,7 @@ pub fn set_rising_edge_detect(gpio: u8, enable: bool) {
current & !mask
};
mmio_write(register_addr, new_val);
unsafe { write_address(register_addr, new_val) };
}
/// Returns with the interrupt status of an GPIO.
@@ -181,7 +181,7 @@ pub fn read_gpio_event_detect_status(id: u32) -> bool {
let register = GPEDS_BASE + (id / 32) * 4;
let register_offset = id % 32;
let val = mmio_read(register) >> register_offset;
let val = unsafe { read_address(register) } >> register_offset;
(val & 0b1) != 0
}
@@ -190,7 +190,7 @@ pub fn reset_gpio_event_detect_status(id: u32) {
let register = GPEDS_BASE + (id / 32) * 4;
let register_offset = id % 32;
mmio_write(register, 0b1 << register_offset);
unsafe { write_address(register, 0b1 << register_offset) };
compiler_fence(Ordering::SeqCst);
}

77
src/peripherals/uart.rs
View File

@@ -3,7 +3,7 @@ use core::{
fmt::{self, Write},
};
use crate::{mmio_read, mmio_write};
use crate::{println, read_address, write_address};
const BAUD: u32 = 115200;
const UART_CLK: u32 = 48_000_000;
@@ -18,33 +18,53 @@ const UART0_FBRD: u32 = 0x3F20_1028;
const UART0_CR: u32 = 0x3F20_1030;
const UART0_CR_UARTEN: u32 = 1 << 0;
const UART0_CR_TXE: u32 = 1 << 8;
const UART0_CR_RXE: u32 = 1 << 9;
const UART0_LCRH: u32 = 0x3F20_102C;
const UART0_LCRH_FEN: u32 = 1 << 4;
const UART0_IMSC: u32 = 0x3F20_1038;
const UART0_IMSC_RXIM: u32 = 1 << 4;
const UART0_ICR: u32 = 0x3F20_1044;
pub struct Uart;
impl Write for Uart {
fn write_str(&mut self, s: &str) -> core::fmt::Result {
for byte in s.bytes() {
while (mmio_read(UART0_FR) & UART0_FR_TXFF) != 0 {
while (unsafe { read_address(UART0_FR) } & UART0_FR_TXFF) != 0 {
unsafe { asm!("nop") }
}
mmio_write(UART0_DR, byte as u32);
unsafe { write_address(UART0_DR, byte as u32) };
}
// wait till uart is not busy anymore
while ((mmio_read(UART0_FR) >> 3) & 0b1) != 0 {}
while ((unsafe { read_address(UART0_FR) } >> 3) & 0b1) != 0 {}
Ok(())
}
}
pub fn _print(args: fmt::Arguments) {
let _ = Uart.write_fmt(args);
#[macro_export]
macro_rules! print {
() => {};
($($arg:tt)*) => {
$crate::peripherals::uart::_print(format_args!($($arg)*))
};
}
pub fn _print_str(st: &str) {
let _ = Uart.write_str(st);
#[macro_export]
macro_rules! println {
() => {};
($($arg:tt)*) => {
$crate::print!($($arg)*);
$crate::print!("\r\n");
};
}
pub fn _print(args: fmt::Arguments) {
let _ = Uart.write_fmt(args);
}
/// Initialize UART peripheral
@@ -55,23 +75,26 @@ pub fn uart_init() {
let fbrd = baud_div_times_64 % 64;
uart_enable(false);
uart_fifo_enable(false);
uart_fifo_enable(true);
mmio_write(UART0_IBRD, ibrd);
mmio_write(UART0_FBRD, fbrd);
unsafe {
write_address(UART0_IBRD, ibrd);
write_address(UART0_FBRD, fbrd);
}
uart_enable_rx_interrupt();
uart_set_lcrh(0b11, true);
// Enable transmit and uart
let mut cr = mmio_read(UART0_CR);
cr |= UART0_CR_UARTEN | UART0_CR_TXE;
// Enable transmit, receive and uart
let mut cr = unsafe { read_address(UART0_CR) };
cr |= UART0_CR_UARTEN | UART0_CR_TXE | UART0_CR_RXE;
mmio_write(UART0_CR, cr);
unsafe { write_address(UART0_CR, cr) };
}
/// Enable UARTEN
fn uart_enable(enable: bool) {
let mut cr = mmio_read(UART0_CR);
let mut cr = unsafe { read_address(UART0_CR) };
if enable {
cr |= UART0_CR_UARTEN;
@@ -79,12 +102,12 @@ fn uart_enable(enable: bool) {
cr &= !UART0_CR_UARTEN;
}
mmio_write(UART0_CR, cr);
unsafe { write_address(UART0_CR, cr) };
}
/// Enable UART FIFO
fn uart_fifo_enable(enable: bool) {
let mut lcrh = mmio_read(UART0_LCRH);
let mut lcrh = unsafe { read_address(UART0_LCRH) };
if enable {
lcrh |= UART0_LCRH_FEN;
@@ -92,7 +115,11 @@ fn uart_fifo_enable(enable: bool) {
lcrh &= !UART0_LCRH_FEN;
}
mmio_write(UART0_LCRH, lcrh);
unsafe { write_address(UART0_LCRH, lcrh) };
}
fn uart_enable_rx_interrupt() {
unsafe { write_address(UART0_IMSC, UART0_IMSC_RXIM) };
}
/// Set UART word length and set FIFO status
@@ -101,5 +128,15 @@ fn uart_set_lcrh(wlen: u32, enable_fifo: bool) {
if enable_fifo {
value |= UART0_LCRH_FEN;
}
mmio_write(UART0_LCRH, value);
unsafe { write_address(UART0_LCRH, value) };
}
pub fn read_uart_data() -> char {
(unsafe { read_address(UART0_DR) } & 0xFF) as u8 as char
}
pub fn clear_uart_interrupt_state() {
unsafe {
write_address(UART0_ICR, 1 << 4);
}
}

53
src/terminal.rs Normal file
View File

@@ -0,0 +1,53 @@
use core::fmt::Write;
use alloc::string::String;
use nova::{
interrupt_handlers::register_interrupt_handler, logger::Logger,
peripherals::uart::read_uart_data, print, println,
};
pub struct Terminal {
buffer: String,
input: String,
}
impl Terminal {
pub fn new() -> Self {
Self {
buffer: String::new(),
input: String::new(),
}
}
fn flush(&mut self) {
println!("{}", self.buffer);
print!("> {}", self.input);
self.buffer.clear();
}
}
impl Write for Terminal {
fn write_str(&mut self, s: &str) -> core::fmt::Result {
self.buffer.push_str(s);
Ok(())
}
}
impl Logger for Terminal {
fn flush(&mut self) {
println!("{}", self.buffer);
print!("> {}", self.input);
self.buffer.clear();
}
}
fn terminal_uart_rx_interrupt_handler() {
print!("{}", read_uart_data());
}
pub fn register_terminal_interrupt_handler() {
register_interrupt_handler(
nova::interrupt_handlers::IRQSource::UartInt,
terminal_uart_rx_interrupt_handler,
);
}