mirror of
https://github.com/italicsjenga/gba.git
synced 2024-12-24 19:21:30 +11:00
177 lines
4.8 KiB
Rust
177 lines
4.8 KiB
Rust
#![no_std]
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#![no_main]
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// Note(Lokathor): this demo must be run in release mode or it'll just be way
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// too slow. When testing is running the screen fills from yellow to green. If
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// there's a panic you should see red. If all tests complete the screen turns
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// blue at the end.
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use core::cmp;
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use gba::{fatal, prelude::*, warning};
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fn set_screen_color(r: u8, g: u8, b: u8) {
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const SETTING: DisplayControl = DisplayControl::new().with_display_mode(3).with_display_bg2(true);
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DISPCNT.write(SETTING);
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mode3::dma3_clear_to(Color::from_rgb(r, g, b));
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}
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fn set_screen_progress(cur: usize, max: usize) {
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let lines = cur * (mode3::WIDTH / max);
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let color = Color::from_rgb(0, 31, 0);
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for x in 0..lines {
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for y in 0..mode3::HEIGHT {
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mode3::bitmap_xy(x, y).write(color);
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}
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}
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}
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#[panic_handler]
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fn panic(info: &core::panic::PanicInfo) -> ! {
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set_screen_color(31, 0, 0);
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fatal!("{}", info)
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}
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#[derive(Clone)]
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struct Rng(u32);
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impl Rng {
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fn iter(&mut self) {
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self.0 = self.0.wrapping_mul(2891336453).wrapping_add(100001);
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}
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fn next_u8(&mut self) -> u8 {
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self.iter();
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(self.0 >> 22) as u8 ^ self.0 as u8
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}
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fn next_under(&mut self, under: u32) -> u32 {
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self.iter();
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let scale = 31 - under.leading_zeros();
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((self.0 >> scale) ^ self.0) % under
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}
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}
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const MAX_BLOCK_SIZE: usize = 4 * 1024;
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fn check_status<T>(r: Result<T, Error>) -> T {
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match r {
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Ok(v) => v,
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Err(e) => panic!("Error encountered: {:?}", e),
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}
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}
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fn setup_timers() {
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TIMER0_RELOAD.write(0);
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TIMER1_RELOAD.write(0);
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let ctl = TimerControl::new().with_prescaler_selection(3).with_enabled(true);
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TIMER0_CONTROL.write(ctl);
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let ctl = TimerControl::new().with_chained_counting(true).with_enabled(true);
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TIMER1_CONTROL.write(ctl);
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}
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// I'm fully aware how slow this is. But this is just example code, so, eh.
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fn get_timer_secs() -> f32 {
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let raw_timer = (TIMER1_COUNTER.read() as u32) << 16 | TIMER0_COUNTER.read() as u32;
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(raw_timer as f32 * 1024.0) / ((1 << 24) as f32)
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}
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macro_rules! output {
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($($args:tt)*) => {
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// we use warn so it shows by default on mGBA, nothing more.
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warning!("{:7.3}\t{}", get_timer_secs(), format_args!($($args)*))
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};
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}
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fn do_test(seed: Rng, offset: usize, len: usize, block_size: usize) -> Result<(), Error> {
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let access = SaveAccess::new()?;
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let mut buffer = [0; MAX_BLOCK_SIZE];
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output!(" - Clearing media...");
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access.prepare_write(offset..offset + len)?;
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output!(" - Writing media...");
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let mut rng = seed.clone();
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let mut current = offset;
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let end = offset + len;
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while current != end {
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let cur_len = cmp::min(end - current, block_size);
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for i in 0..cur_len {
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buffer[i] = rng.next_u8();
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}
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access.write(current, &buffer[..cur_len])?;
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current += cur_len;
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}
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output!(" - Validating media...");
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rng = seed.clone();
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current = offset;
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while current != end {
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let cur_len = cmp::min(end - current, block_size);
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access.read(current, &mut buffer[..cur_len])?;
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for i in 0..cur_len {
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let cur_byte = rng.next_u8();
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assert!(
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buffer[i] == cur_byte,
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"Read does not match earlier write: {} != {} @ 0x{:05x}",
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buffer[i],
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cur_byte,
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current + i,
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);
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}
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current += cur_len;
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}
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output!(" - Done!");
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Ok(())
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}
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#[no_mangle]
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fn main() -> ! {
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// set a pattern to show that the ROM is working at all.
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set_screen_color(31, 31, 0);
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// sets up the timers so we can print time with our outputs.
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setup_timers();
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// set the save type
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use_flash_128k();
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set_timer_for_timeout(3);
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// check some metainfo on the save type
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let access = check_status(SaveAccess::new());
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output!("Media info: {:#?}", access.media_info());
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output!("Media size: {} bytes", access.len());
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output!("");
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// actually test the save implementation
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if access.len() >= (1 << 12) {
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output!("[ Full write, 4KiB blocks ]");
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check_status(do_test(Rng(2000), 0, access.len(), 4 * 1024));
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set_screen_progress(1, 10);
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}
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output!("[ Full write, 0.5KiB blocks ]");
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check_status(do_test(Rng(1000), 0, access.len(), 512));
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set_screen_progress(2, 10);
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// test with random segments now.
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let mut rng = Rng(12345);
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for i in 0..8 {
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let rand_length = rng.next_under((access.len() >> 1) as u32) as usize + 50;
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let rand_offset = rng.next_under(access.len() as u32 - rand_length as u32) as usize;
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let block_size = cmp::min(rand_length >> 2, MAX_BLOCK_SIZE - 100);
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let block_size = rng.next_under(block_size as u32) as usize + 50;
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output!(
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"[ Partial, offset = 0x{:06x}, len = {}, bs = {}]",
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rand_offset,
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rand_length,
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block_size,
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);
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check_status(do_test(Rng(i * 10000), rand_offset, rand_length, block_size));
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set_screen_progress(3 + i as usize, 10);
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}
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// show a pattern so we know it worked
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set_screen_color(0, 29, 29);
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output!("All tests complete!");
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loop {}
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}
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