extern crate core;
use std::fs::File;
use std::sync::{Mutex, Condvar};
use std::io::{Read, Write};
use std::mem::transmute;
use std::process::exit;
use std::cell::{Cell, RefCell};
extern crate sdl2;
#[macro_use] extern crate clap;
use clap::{Arg, App};
mod utils;
mod memory;
#[macro_use] mod mos6502;
mod ppu;
mod apu;
mod cartridge;
mod mapper;
mod controller;
mod disasm;
use mos6502::CPU;
use ppu::PPU;
use apu::APU;
use memory::{CPUMemory, PPUMemory};
use cartridge::{BankType, MirrorType, Cartridge};
use controller::{InputPoller, stdctl};
const RGB_COLORS: [u32; 64] = [
0x666666, 0x002a88, 0x1412a7, 0x3b00a4, 0x5c007e, 0x6e0040, 0x6c0600, 0x561d00,
0x333500, 0x0b4800, 0x005200, 0x004f08, 0x00404d, 0x000000, 0x000000, 0x000000,
0xadadad, 0x155fd9, 0x4240ff, 0x7527fe, 0xa01acc, 0xb71e7b, 0xb53120, 0x994e00,
0x6b6d00, 0x388700, 0x0c9300, 0x008f32, 0x007c8d, 0x000000, 0x000000, 0x000000,
0xfffeff, 0x64b0ff, 0x9290ff, 0xc676ff, 0xf36aff, 0xfe6ecc, 0xfe8170, 0xea9e22,
0xbcbe00, 0x88d800, 0x5ce430, 0x45e082, 0x48cdde, 0x4f4f4f, 0x000000, 0x000000,
0xfffeff, 0xc0dfff, 0xd3d2ff, 0xe8c8ff, 0xfbc2ff, 0xfec4ea, 0xfeccc5, 0xf7d8a5,
0xe4e594, 0xcfef96, 0xbdf4ab, 0xb3f3cc, 0xb5ebf2, 0xb8b8b8, 0x000000, 0x000000,
];
const PIX_WIDTH: u32 = 256;
const PIX_HEIGHT: u32 = 240;
const FB_PITCH: usize = PIX_WIDTH as usize * 3;
const FB_SIZE: usize = PIX_HEIGHT as usize * FB_PITCH;
const AUDIO_SAMPLES: u16 = 4410;
const AUDIO_EXTRA_SAMPLES: u16 = 1000;
const AUDIO_ALL_SAMPLES: u16 = AUDIO_SAMPLES + AUDIO_EXTRA_SAMPLES;
pub struct SimpleCart {
chr_rom: Vec<u8>,
prg_rom: Vec<u8>,
sram: Vec<u8>,
pub mirror_type: MirrorType
}
impl SimpleCart {
pub fn new(chr_rom: Vec<u8>,
prg_rom: Vec<u8>,
sram: Vec<u8>,
mirror_type: MirrorType) -> Self {
SimpleCart{chr_rom, prg_rom, sram, mirror_type}
}
fn load_vec(vec: &mut Vec<u8>, reader: &mut utils::Read) -> bool {
let len = vec.len();
match reader.read(vec) {
Some(x) => x == len,
None => false
}
}
fn save_vec(vec: &Vec<u8>, writer: &mut utils::Write) -> bool {
let len = vec.len();
match writer.write(vec) {
Some(x) => x == len,
None => false
}
}
}
impl Cartridge for SimpleCart {
fn get_size(&self, kind: BankType) -> usize {
match kind {
BankType::PrgRom => self.prg_rom.len(),
BankType::ChrRom => self.chr_rom.len(),
BankType::Sram => self.sram.len()
}
}
fn get_bank<'a>(&self, base: usize, size: usize, kind: BankType) -> &'a [u8] {
unsafe {
&*((&(match kind {
BankType::PrgRom => &self.prg_rom,
BankType::ChrRom => &self.chr_rom,
BankType::Sram => &self.sram,
})[base..base + size]) as *const [u8])
}
}
fn get_bank_mut<'a>(&mut self, base: usize, size: usize, kind: BankType) -> &'a mut [u8] {
unsafe {
&mut *((&mut (match kind {
BankType::PrgRom => &mut self.prg_rom,
BankType::ChrRom => &mut self.chr_rom,
BankType::Sram => &mut self.sram,
})[base..base + size]) as *mut [u8])
}
}
fn get_mirror_type(&self) -> MirrorType {self.mirror_type}
fn set_mirror_type(&mut self, mt: MirrorType) {self.mirror_type = mt}
fn load(&mut self, reader: &mut utils::Read) -> bool {
self.load_sram(reader) &&
SimpleCart::load_vec(&mut self.chr_rom, reader) &&
utils::load_prefix(&mut self.mirror_type, 0, reader)
}
fn save(&self, writer: &mut utils::Write) -> bool {
self.save_sram(writer) &&
SimpleCart::save_vec(&self.chr_rom, writer) &&
utils::save_prefix(&self.mirror_type, 0, writer)
}
fn load_sram(&mut self, reader: &mut utils::Read) -> bool {
SimpleCart::load_vec(&mut self.sram, reader)
}
fn save_sram(&self, writer: &mut utils::Write) -> bool {
SimpleCart::save_vec(&self.sram, writer)
}
}
struct FileIO(File);
impl utils::Read for FileIO {
fn read(&mut self, buf: &mut [u8]) -> Option<usize> {
match self.0.read(buf) {
Ok(x) => Some(x),
Err(_) => None
}
}
}
impl utils::Write for FileIO {
fn write(&mut self, buf: &[u8]) -> Option<usize> {
match self.0.write(buf) {
Ok(x) => Some(x),
Err(_) => None
}
}
}
struct SDLEventPoller {
events: RefCell<sdl2::EventPump>,
p1_button_state: Cell<u8>,
exit_flag: Cell<bool>,
}
fn keyboard_mapping(code: sdl2::keyboard::Keycode) -> u8 {
use sdl2::keyboard::Keycode::*;
match code {
I => stdctl::UP,
K => stdctl::DOWN,
J => stdctl::LEFT,
L => stdctl::RIGHT,
Z => stdctl::A,
X => stdctl::B,
Return => stdctl::START,
S => stdctl::SELECT,
Up => stdctl::UP,
Down => stdctl::DOWN,
Left => stdctl::LEFT,
Right => stdctl::RIGHT,
_ => 0,
}
}
fn joystick_mapping(button: sdl2::controller::Button) -> u8 {
use sdl2::controller::Button::*;
match button {
DPadUp => stdctl::UP,
DPadDown => stdctl::DOWN,
DPadLeft => stdctl::LEFT,
DPadRight => stdctl::RIGHT,
A => stdctl::A,
B => stdctl::B,
X => stdctl::A,
Y => stdctl::B,
Start => stdctl::START,
_ => stdctl::SELECT
}
}
impl SDLEventPoller {
fn new(_events: sdl2::EventPump) -> Self {
SDLEventPoller {
events: RefCell::new(_events),
p1_button_state: Cell::new(0),
exit_flag: Cell::new(false)
}
}
#[inline]
fn is_exiting(&self) -> bool {
self.exit_flag.get()
}
}
impl InputPoller for SDLEventPoller {
#[inline]
fn poll(&self) -> u8 {
use sdl2::keyboard::Keycode::Escape;
use sdl2::event::Event;
let mut ns = self.p1_button_state.get();
for event in self.events.borrow_mut().poll_iter() {
match event {
Event::Quit {..} | Event::KeyDown { keycode: Some(Escape), .. } => {
self.exit_flag.set(true)
},
Event::KeyDown { keycode: Some(c), .. } =>
ns |= keyboard_mapping(c),
Event::KeyUp { keycode: Some(c), .. } =>
ns &= !keyboard_mapping(c),
Event::ControllerButtonDown { button, .. } =>
ns |= joystick_mapping(button),
Event::ControllerButtonUp { button, .. } =>
ns &= !joystick_mapping(button),
/* TODO: support axis motion
Event::ControllerAxisMotion { axis: LeftX, value: val, .. } => {
let threshold = 10_000;
if val > threshold {
println!("{}", val);
ns |= stdctl::RIGHT;
ns &= !stdctl::LEFT;
} else if val < -threshold {
println!("{}", val);
ns |= stdctl::LEFT;
ns &= !stdctl::RIGHT;
} else {
ns &= !(stdctl::RIGHT | stdctl::LEFT);
}
},
*/
_ => ()
}
}
self.p1_button_state.set(ns);
ns
}
}
struct SDLWindow<'a> {
canvas: sdl2::render::WindowCanvas,
frame_buffer: [u8; FB_SIZE],
texture: sdl2::render::Texture,
copy_area: Option<sdl2::rect::Rect>,
event: &'a SDLEventPoller
}
impl<'a> SDLWindow<'a> {
fn new(video_subsystem: &sdl2::VideoSubsystem,
event: &'a SDLEventPoller,
pixel_scale: u32,
full_screen: bool) -> Self {
let mut actual_height = PIX_HEIGHT * pixel_scale;
let actual_width = PIX_WIDTH * pixel_scale;
let mut copy_area = None;
if !full_screen {
actual_height -= 16 * pixel_scale;
copy_area = Some(sdl2::rect::Rect::new(0, 8, PIX_WIDTH, PIX_HEIGHT - 16));
}
let window = video_subsystem.window("RuNES", actual_width, actual_height)
.position_centered()
.opengl()
.build()
.unwrap();
let mut canvas = window.into_canvas()
.accelerated()
.present_vsync()
.build().unwrap();
let texture_creator = canvas.texture_creator();
canvas.set_draw_color(sdl2::pixels::Color::RGB(255, 255, 255));
canvas.clear();
canvas.present();
SDLWindow {
canvas,
frame_buffer: [0; FB_SIZE],
texture: texture_creator.create_texture_streaming(
sdl2::pixels::PixelFormatEnum::RGB24,
PIX_WIDTH, PIX_HEIGHT).unwrap(),
event,
copy_area
}
}
}
#[inline(always)]
fn get_rgb(color: u8) -> (u8, u8, u8) {
let c = RGB_COLORS[color as usize];
((c >> 16) as u8, ((c >> 8) & 0xff) as u8, (c & 0xff) as u8)
}
impl<'a> ppu::Screen for SDLWindow<'a> {
#[inline(always)]
fn put(&mut self, x: u8, y: u8, color: u8) {
let (r, g, b) = get_rgb(color);
let base = (y as usize * FB_PITCH) + x as usize * 3;
self.frame_buffer[base] = r;
self.frame_buffer[base + 1] = g;
self.frame_buffer[base + 2] = b;
}
fn render(&mut self) {
self.texture.update(None, &self.frame_buffer, FB_PITCH).unwrap();
}
fn frame(&mut self) {
self.canvas.clear();
self.canvas.copy(&self.texture, self.copy_area, None).unwrap();
self.canvas.present();
self.event.poll();
}
}
struct CircularBuffer {
buffer: [i16; 2 * AUDIO_ALL_SAMPLES as usize],
head: usize,
tail: usize
}
impl CircularBuffer {
fn new() -> Self {
CircularBuffer {
buffer: [0; 2 * AUDIO_ALL_SAMPLES as usize],
head: 0,
tail: AUDIO_ALL_SAMPLES as usize
}
}
fn enque(&mut self, sample: i16) {
self.buffer[self.tail] = sample;
self.tail += 1;
if self.tail == self.buffer.len() {
self.tail = 0
}
}
fn deque(&mut self) -> i16 {
let res = self.buffer[self.head];
if self.head != self.tail {
let mut h = self.head + 1;
if h == self.buffer.len() {
h = 0
}
if h != self.tail {
self.head = h
} else {
self.tail = self.head
}
}
res
}
}
struct AudioSync {
time_barrier: Condvar,
buffer: Mutex<(CircularBuffer, u16)>,
}
struct SDLAudio<'a>(&'a AudioSync);
struct SDLAudioPlayback<'a>(&'a AudioSync);
impl<'a> sdl2::audio::AudioCallback for SDLAudioPlayback<'a> {
type Channel = i16;
fn callback(&mut self, out: &mut[i16]) {
let mut m = self.0.buffer.lock().unwrap();
{
let b = &mut m.0;
/*let l1 = (b.tail + b.buffer.len() - b.head) % b.buffer.len();
print!("{} ", l1); */
for x in out.iter_mut() {
*x = b.deque()
}
}
//println!("{}", m.1);
if m.1 >= AUDIO_SAMPLES {
m.1 -= AUDIO_SAMPLES;
self.0.time_barrier.notify_one();
} else {
m.1 = 0;
println!("audio frame skipping");
}
}
}
impl<'a> apu::Speaker for SDLAudio<'a> {
fn queue(&mut self, sample: i16) {
let mut m = self.0.buffer.lock().unwrap();
{
let b = &mut m.0;
b.enque(sample);
}
m.1 += 1;
while m.1 >= AUDIO_ALL_SAMPLES {
m = self.0.time_barrier.wait(m).unwrap();
}
}
}
#[repr(C, packed)]
struct INesHeader {
magic: [u8; 4],
prg_rom_nbanks: u8,
chr_rom_nbanks: u8,
flags6: u8,
flags7: u8,
prg_ram_nbanks: u8,
flags9: u8,
flags10: u8,
padding: [u8; 5]
}
fn print_cpu_trace(cpu: &CPU) {
use disasm;
let pc = cpu.get_pc();
let mem = cpu.get_mem();
let opcode = mem.read_without_tick(pc) as usize;
let len = mos6502::INST_LENGTH[opcode];
let mut code = vec![0; len as usize];
for i in 0..len as u16 {
code[i as usize] = mem.read_without_tick(pc + i);
}
println!("0x{:04x} {} a:{:02x} x:{:02x} y:{:02x} s: {:02x} sp: {:02x}",
pc, disasm::parse(opcode as u8, &code[1..]),
cpu.get_a(), cpu.get_x(), cpu.get_y(),
cpu.get_status(), cpu.get_sp());
}
fn main() {
let matches =
App::new("RuNES")
.version("0.1")
.author("Ted Yin <[email protected]>")
.about("A Rust NES emulator")
.arg(Arg::with_name("scale")
.short("x")
.long("scale")
.help("Set pixel scaling factor (3 by default)")
.required(false)
.takes_value(true))
.arg(Arg::with_name("full")
.help("Enable the entire PPU rendering area")
.short("f")
.long("full")
.required(false)
.takes_value(false))
.arg(Arg::with_name("INPUT")
.help("iNES ROM file")
.required(true)
.index(1))
.arg(Arg::with_name("load")
.help("Load from specified machine state file")
.short("l")
.long("load")
.required(false)
.takes_value(true))
.arg(Arg::with_name("save")
.help("Save to specified machine state file when exit")
.short("s")
.long("save")
.required(false)
.takes_value(true))
.arg(Arg::with_name("load-sram")
.help("Load from specified sram file")
.short("L")
.long("load-sram")
.required(false)
.takes_value(true))
.arg(Arg::with_name("save-sram")
.help("Save to specified sram file when exit")
.short("S")
.long("save-sram")
.required(false)
.takes_value(true))
.arg(Arg::with_name("no-state")
.help("Power up the emulator with initial state")
.short("n")
.long("no-state")
.required(false)
.takes_value(false))
.get_matches();
let scale = std::cmp::min(8,
std::cmp::max(1,
value_t!(matches, "scale", u32).unwrap_or(3)));
let full = matches.is_present("full");
let fname = matches.value_of("INPUT").unwrap();
let load_state_name = matches.value_of("load");
let save_state_name = matches.value_of("save");
let save_sram_name = matches.value_of("save-sram");
let load_sram_name = matches.value_of("load-sram");
let default_state_name = fname.to_string() + ".runes";
let default_sram_name = fname.to_string() + ".runes_sram";
let no_state = matches.is_present("no-state");
/* load and parse iNES file */
let mut file = File::open(fname).unwrap();
let mut rheader = [0; 16];
file.read(&mut rheader[..]).unwrap();
let header = unsafe{transmute::<[u8; 16], INesHeader>(rheader)};
let mirror = match ((header.flags6 >> 2) & 2) | (header.flags6 & 1) {
0 => MirrorType::Horizontal,
1 => MirrorType::Vertical,
2 => MirrorType::Single0,
3 => MirrorType::Single1,
_ => MirrorType::Four,
};
let mapper_id = (header.flags7 & 0xf0) | (header.flags6 >> 4);
if std::str::from_utf8(&header.magic).unwrap() != "NES\x1a" {
println!("not an iNES file");
exit(1);
}
println!("prg size:{}, chr size:{}, mirror type:{}, mapper:{}",
header.prg_rom_nbanks,
header.chr_rom_nbanks,
mirror as u8,
mapper_id);
if header.flags6 & 0x04 == 0x04 {
let mut trainer: [u8; 512] = [0; 512];
file.read(&mut trainer[..]).unwrap();
println!("skipping trainer");
}
let prg_len = header.prg_rom_nbanks as usize * 0x4000;
let mut chr_len = header.chr_rom_nbanks as usize * 0x2000;
if chr_len == 0 {
chr_len = 0x2000;
}
let mut prg_rom = vec![0; prg_len];
let mut chr_rom = vec![0; chr_len];
let sram = vec![0; 0x2000];
println!("read prg {}", file.read(&mut prg_rom[..]).unwrap());
println!("read chr {}", file.read(&mut chr_rom[..]).unwrap());
/* setup SDL */
let sdl_context = sdl2::init().unwrap();
let controller_subsystem = sdl_context.game_controller().unwrap();
let video_subsystem = sdl_context.video().unwrap();
let audio_subsystem = sdl_context.audio().unwrap();
/* audio */
let audio_sync = AudioSync { time_barrier: Condvar::new(),
buffer: Mutex::new((CircularBuffer::new(),
AUDIO_ALL_SAMPLES))};
let mut spkr = SDLAudio(&audio_sync);
let desired_spec = sdl2::audio::AudioSpecDesired {
freq: Some(apu::AUDIO_SAMPLE_FREQ as i32),
channels: Some(1),
samples: Some(AUDIO_SAMPLES)
};
let device = audio_subsystem.open_playback(None, &desired_spec, |_| {
SDLAudioPlayback(&audio_sync)
}).unwrap();
/* joysticks */
let njoysticks = match controller_subsystem.num_joysticks() {
Ok(n) => n,
Err(e) => {
println!("can't enumerate joysticks: {}", e);
0
},
};
println!("detected {} joysticks", njoysticks);
let mut _sdl_joystick = None;
for id in 0..njoysticks {
if controller_subsystem.is_game_controller(id) {
match controller_subsystem.open(id) {
Ok(ctl) => {
println!("opened controller {}", ctl.name());
println!("controller mapping: {}", ctl.mapping());
_sdl_joystick = Some(ctl);
break;
},
Err(e) => println!("failed to open {}: {}", id, e)
}
}
}
let event = SDLEventPoller::new(sdl_context.event_pump().unwrap());
let mut win = SDLWindow::new(&video_subsystem, &event, scale, full);
/* construct mapper from cartridge data */
let cart = SimpleCart::new(chr_rom, prg_rom, sram, mirror);
let mut m: Box<mapper::Mapper> = match mapper_id {
0 | 2 => Box::new(mapper::Mapper2::new(cart)),
1 => Box::new(mapper::Mapper1::new(cart)),
4 => Box::new(mapper::Mapper4::new(cart)),
_ => panic!("unsupported mapper {}", mapper_id)
};
/* controller for player 1 */
let p1ctl = stdctl::Joystick::new(&event);
/* setup the emulated machine */
let mapper = mapper::RefMapper::new(&mut (*m) as &mut mapper::Mapper);
let mut cpu = CPU::new(CPUMemory::new(&mapper, Some(&p1ctl), None));
let mut ppu = PPU::new(PPUMemory::new(&mapper), &mut win);
let mut apu = APU::new(&mut spkr);
let cpu_ptr = &mut cpu as *mut CPU;
cpu.mem.bus.attach(cpu_ptr, &mut ppu, &mut apu);
let load_state = !no_state && match match load_state_name {
Some(s) => Some(File::open(s).unwrap()),
None => match File::open(&default_state_name) {
Ok(file) => Some(file),
Err(_) => None
}
} {
Some(f) => {
let mut file = FileIO(f);
cpu.load(&mut file);
ppu.load(&mut file);
apu.load(&mut file);
mapper.get_mut().load(&mut file);
true
},
None => false
};
if !load_state {
if let Some(f) = match load_sram_name {
Some(s) => Some(File::open(s).unwrap()),
None => match File::open(&default_sram_name) {
Ok(file) => Some(file),
Err(_) => None
}
} {
let mut file = FileIO(f);
mapper.get_mut().get_cart_mut().load_sram(&mut file);
}
cpu.powerup()
}
device.resume();
loop {
/* consume the leftover cycles from the last instruction */
while cpu.cycle > 0 {
cpu.mem.bus.tick()
}
if event.is_exiting() {
{
let mut file = FileIO(File::create(match save_state_name {
Some(s) => s.to_string(),
None => default_state_name
}).unwrap());
cpu.save(&mut file);
ppu.save(&mut file);
apu.save(&mut file);
mapper.save(&mut file);
}
{
let mut file = FileIO(File::create(match save_sram_name {
Some(s) => s.to_string(),
None => default_sram_name
}).unwrap());
mapper.get_cart().save_sram(&mut file);
}
exit(0);
}
//print_cpu_trace(&cpu);
cpu.step();
}
}