gb/src/bus.rs

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use crate::cartridge::Cartridge;
use crate::high_ram::HighRam;
use crate::interrupt::{Interrupt, InterruptFlag};
use crate::joypad::Joypad;
use crate::ppu::{Ppu, PpuMode};
use crate::serial::Serial;
use crate::sound::Sound;
use crate::timer::Timer;
use crate::work_ram::{VariableWorkRam, WorkRam};
use std::{fs::File, io::Read};
const BOOT_ROM_SIZE: usize = 0x100;
#[derive(Debug, Clone)]
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pub struct Bus {
boot: Option<[u8; BOOT_ROM_SIZE]>, // Boot ROM is 256b long
cartridge: Option<Cartridge>,
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pub ppu: Ppu,
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work_ram: WorkRam,
var_ram: VariableWorkRam,
pub(crate) timer: Timer,
int: Interrupt,
snd: Sound,
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high_ram: HighRam,
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serial: Serial,
pub(crate) joypad: Joypad,
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}
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impl Default for Bus {
fn default() -> Self {
Self {
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boot: None,
cartridge: None,
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ppu: Default::default(),
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work_ram: Default::default(),
var_ram: Default::default(),
timer: Default::default(),
int: Default::default(),
snd: Default::default(),
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high_ram: Default::default(),
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serial: Default::default(),
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joypad: Default::default(),
}
}
}
impl Bus {
pub(crate) fn with_boot(path: &str) -> anyhow::Result<Self> {
let mut file = File::open(path)?;
let mut boot_rom = [0u8; 256];
file.read_exact(&mut boot_rom)?;
Ok(Self {
boot: Some(boot_rom),
..Default::default()
})
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}
pub(crate) fn load_cartridge(&mut self, path: &str) -> std::io::Result<()> {
self.cartridge = Some(Cartridge::new(path)?);
Ok(())
}
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pub(crate) fn rom_title(&self) -> Option<&str> {
self.cartridge.as_ref()?.title()
}
pub(crate) fn clock(&mut self) {
self.ppu.clock();
self.timer.clock();
self.snd.clock(self.timer.divider);
self.clock_dma();
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}
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fn clock_dma(&mut self) {
if let Some((src_addr, dest_addr)) = self.ppu.dma.clock() {
let byte = self.oam_read_byte(src_addr);
self.oam_write_byte(dest_addr, byte);
}
}
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}
impl Bus {
pub fn oam_read_byte(&self, addr: u16) -> u8 {
match addr {
0x0000..=0x7FFF => {
// 16KB ROM bank 00 (ends at 0x3FFF)
// and 16KB ROM Bank 01 -> NN (switchable via MB)
if addr < 0x100 {
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if let Some(boot) = self.boot {
return boot[addr as usize];
}
}
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match self.cartridge.as_ref() {
Some(cart) => cart.read_byte(addr),
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None => panic!("Tried to read from a non-existent cartridge"),
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}
}
0x8000..=0x9FFF => self.ppu.read_byte(addr), // 8KB Video RAM
0xA000..=0xBFFF => match self.cartridge.as_ref() {
// 8KB External RAM
Some(cart) => cart.read_byte(addr),
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None => panic!("Tried to read from a non-existent cartridge"),
},
0xC000..=0xCFFF => self.work_ram.read_byte(addr), // 4KB Work RAM Bank 0
0xD000..=0xDFFF => self.var_ram.read_byte(addr), // 4KB Work RAM Bank 1 -> N
0xE000..=0xFDFF => {
// Mirror of 0xC000 to 0xDDFF (ECHO RAM)
let masked_addr = addr & 0x1FFF;
let equiv_addr = 0xC000 + masked_addr;
match masked_addr {
// 0xE000 ..= 0xEFFF
0x0000..=0x0FFF => {
// 4KB Work RAM Bank 0
self.work_ram.read_byte(equiv_addr)
}
// 0xF000 ..= 0xFDFF
0x1000..=0x1DFF => {
// 4KB Work RAM Bank 1 -> N
self.var_ram.read_byte(equiv_addr)
}
_ => unreachable!("{:#06X} was incorrectly handled by ECHO RAM", addr),
}
}
_ => panic!("OAM Transfer abnormally tried reading from {:#06X}", addr),
}
}
pub fn oam_write_byte(&mut self, addr: u16, byte: u8) {
self.ppu.oam.write_byte(addr, byte);
}
}
impl BusIo for Bus {
fn read_byte(&self, addr: u16) -> u8 {
match addr {
0x0000..=0x7FFF => {
// 16KB ROM bank 00 (ends at 0x3FFF)
// and 16KB ROM Bank 01 -> NN (switchable via MB)
if addr < 0x100 {
if let Some(boot) = self.boot {
return boot[addr as usize];
}
}
match self.cartridge.as_ref() {
Some(cart) => cart.read_byte(addr),
None => panic!("Tried to read from a non-existent cartridge"),
}
}
0x8000..=0x9FFF => {
// 8KB Video RAM
match self.ppu.stat.mode() {
PpuMode::Drawing => 0xFF,
_ => self.ppu.read_byte(addr),
}
}
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0xA000..=0xBFFF => match self.cartridge.as_ref() {
// 8KB External RAM
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Some(cart) => cart.read_byte(addr),
None => panic!("Tried to read from a non-existent cartridge"),
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},
0xC000..=0xCFFF => self.work_ram.read_byte(addr), // 4KB Work RAM Bank 0
0xD000..=0xDFFF => self.var_ram.read_byte(addr), // 4KB Work RAM Bank 1 -> N
0xE000..=0xFDFF => {
// Mirror of 0xC000 to 0xDDFF (ECHO RAM)
let masked_addr = addr & 0x1FFF;
let equiv_addr = 0xC000 + masked_addr;
match masked_addr {
// 0xE000 ..= 0xEFFF
0x0000..=0x0FFF => {
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// 4KB Work RAM Bank 0
self.work_ram.read_byte(equiv_addr)
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}
// 0xF000 ..= 0xFDFF
0x1000..=0x1DFF => {
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// 4KB Work RAM Bank 1 -> N
self.var_ram.read_byte(equiv_addr)
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}
_ => unreachable!("{:#06X} was incorrectly handled by ECHO RAM", addr),
}
}
0xFE00..=0xFE9F => {
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// Sprite Attribute Table
use PpuMode::{HBlank, VBlank};
match self.ppu.stat.mode() {
HBlank | VBlank => self.ppu.oam.read_byte(addr),
_ => 0xFF,
}
}
0xFEA0..=0xFEFF => {
// Prohibited Memory
use PpuMode::{HBlank, VBlank};
match self.ppu.stat.mode() {
HBlank | VBlank => 0x00,
_ => 0xFF, // TODO: OAM Sprite bug now occurs on the DMG
}
}
0xFF00..=0xFF7F => {
// IO Registers
// Every address here starts with 0xFF so we can just check the
// low byte to figure out which register it is
match addr & 0x00FF {
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0x00 => self.joypad.p1,
0x01 => self.serial.next,
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0x02 => self.serial.ctrl.into(),
0x04 => (self.timer.divider >> 8) as u8,
0x05 => self.timer.counter,
0x06 => self.timer.modulo,
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0x07 => self.timer.ctrl.into(),
0x0F => self.interrupt_flag().into(),
0x10 => self.snd.ch1.sweep.into(),
0x11 => self.snd.ch1.duty(),
0x12 => self.snd.ch1.envelope.into(),
0x14 => self.snd.ch1.freq_hi(),
0x16 => self.snd.ch2.duty(),
0x17 => self.snd.ch2.envelope.into(),
0x19 => self.snd.ch2.freq_hi(),
0x1A => self.snd.ch3.enabled(),
0x1B => self.snd.ch3.len(),
0x1C => self.snd.ch3.volume(),
0x1E => self.snd.ch3.freq_hi(),
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0x20 => self.snd.ch4.len(),
0x21 => self.snd.ch4.envelope.into(),
0x22 => self.snd.ch4.poly.into(),
0x23 => self.snd.ch4.freq_data(),
0x24 => self.snd.ctrl.channel.into(),
0x25 => self.snd.ctrl.output.into(),
0x26 => self.snd.ctrl.status(&self.snd),
0x30..=0x3F => self.snd.ch3.wave_ram[addr as usize - 0xFF30],
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0x40 => self.ppu.ctrl.into(),
0x41 => self.ppu.stat.into(),
0x42 => self.ppu.pos.scroll_y,
0x43 => self.ppu.pos.scroll_x,
0x44 => self.ppu.pos.line_y,
0x45 => self.ppu.pos.ly_compare as u8,
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0x46 => self.ppu.dma.start.into(),
0x47 => self.ppu.monochrome.bg_palette.into(),
0x48 => self.ppu.monochrome.obj_palette_0.into(),
0x49 => self.ppu.monochrome.obj_palette_1.into(),
0x4A => self.ppu.pos.window_y,
0x4B => self.ppu.pos.window_x,
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0x4D => 0xFF, // CGB Specific Register
_ => unimplemented!("Unable to read {:#06X} in I/O Registers", addr),
}
}
0xFF80..=0xFFFE => {
// High RAM
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self.high_ram.read_byte(addr)
}
0xFFFF => {
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// Interrupts Enable Register
self.int.enable.into()
}
}
}
fn write_byte(&mut self, addr: u16, byte: u8) {
match addr {
0x0000..=0x7FFF => {
// 16KB ROM bank 00 (ends at 0x3FFF)
// and 16KB ROM Bank 01 -> NN (switchable via MB)
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match self.cartridge.as_mut() {
Some(cart) => cart.write_byte(addr, byte),
None => panic!("Tried to write into non-existent cartridge"),
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}
}
0x8000..=0x9FFF => {
// 8KB Video RAM
match self.ppu.stat.mode() {
PpuMode::Drawing => {}
_ => self.ppu.write_byte(addr, byte),
}
}
0xA000..=0xBFFF => {
// 8KB External RAM
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match self.cartridge.as_mut() {
Some(cart) => cart.write_byte(addr, byte),
None => panic!("Tried to write into non-existent cartridge"),
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}
}
0xC000..=0xCFFF => self.work_ram.write_byte(addr, byte), // 4KB Work RAM Bank 0
0xD000..=0xDFFF => self.var_ram.write_byte(addr, byte), // 4KB Work RAM Bank 1 -> N
0xE000..=0xFDFF => {
// Mirror of 0xC000 to 0xDDFF (ECHO RAM)
let masked_addr = addr & 0x1FFF;
let equiv_addr = 0xC000 + masked_addr;
match masked_addr {
// 0xE000 ..= 0xEFFF
0x0000..=0x0FFF => {
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// 4KB Work RAM Bank 0
self.work_ram.write_byte(equiv_addr, byte);
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}
// 0xF000 ..= 0xFDFF
0x1000..=0x1DFF => {
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// 4KB Work RAM Bank 1 -> N
self.var_ram.write_byte(equiv_addr, byte);
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}
_ => unreachable!("{:#06X} was incorrectly handled by ECHO RAM", addr),
}
}
0xFE00..=0xFE9F => {
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// Sprite Attribute Table
use PpuMode::{HBlank, VBlank};
match self.ppu.stat.mode() {
HBlank | VBlank => self.ppu.oam.write_byte(addr, byte),
_ => {}
}
}
0xFEA0..=0xFEFF => {} // TODO: As far as I know, writes to here do nothing.
0xFF00..=0xFF7F => {
// IO Registers
// Every address here starts with 0xFF so we can just check the
// low byte to figure out which register it is
match addr & 0x00FF {
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0x00 => self.joypad.update(byte),
0x01 => self.serial.next = byte,
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0x02 => self.serial.ctrl = byte.into(),
0x04 => self.timer.divider = 0x0000,
0x05 => self.timer.counter = byte,
0x06 => self.timer.modulo = byte,
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0x07 => self.timer.ctrl = byte.into(),
0x0F => self.set_interrupt_flag(byte),
0x10 => self.snd.ch1.sweep = byte.into(),
0x11 => self.snd.ch1.set_duty(byte),
0x12 => self.snd.ch1.envelope = byte.into(),
0x13 => self.snd.ch1.freq_lo = byte,
0x14 => self.snd.ch1.set_freq_hi(byte),
0x16 => self.snd.ch2.set_duty(byte),
0x17 => self.snd.ch2.envelope = byte.into(),
0x18 => self.snd.ch2.freq_lo = byte,
0x19 => self.snd.ch2.set_freq_hi(byte),
0x1A => self.snd.ch3.set_enabled(byte),
0x1B => self.snd.ch3.set_len(byte),
0x1C => self.snd.ch3.set_volume(byte),
0x1D => self.snd.ch3.freq_lo = byte,
0x1E => self.snd.ch3.set_freq_hi(byte),
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0x20 => self.snd.ch4.set_len(byte),
0x21 => self.snd.ch4.envelope = byte.into(),
0x22 => self.snd.ch4.poly = byte.into(),
0x23 => self.snd.ch4.set_freq_data(byte),
0x24 => self.snd.ctrl.channel = byte.into(),
0x25 => self.snd.ctrl.output = byte.into(),
0x26 => self.snd.ctrl.set_status(byte), // FIXME: Should we control which bytes are written to here?
0x30..=0x3F => self.snd.ch3.wave_ram[addr as usize - 0xFF30] = byte,
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0x40 => self.ppu.ctrl = byte.into(),
0x41 => self.ppu.stat.update(byte),
0x42 => self.ppu.pos.scroll_y = byte,
0x43 => self.ppu.pos.scroll_x = byte,
0x44 => self.ppu.pos.line_y = byte,
0x45 => {
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// Update LYC
self.ppu.pos.ly_compare = byte;
// Update Coincidence Flag
let are_equal = self.ppu.pos.line_y == byte;
self.ppu.stat.set_coincidence(are_equal);
// If enabled, request a LCD STAT interrupt
if self.ppu.stat.coincidence_int() && are_equal {
self.ppu.int.set_lcd_stat(true);
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}
}
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0x46 => self.ppu.dma.start.update(byte, &mut self.ppu.dma.state),
0x47 => self.ppu.monochrome.bg_palette = byte.into(),
0x48 => self.ppu.monochrome.obj_palette_0 = byte.into(),
0x49 => self.ppu.monochrome.obj_palette_1 = byte.into(),
0x4A => self.ppu.pos.window_y = byte,
0x4B => self.ppu.pos.window_x = byte,
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0x4D => {} // CGB Specific Register
0x50 => {
// Disable Boot ROM
if byte != 0 {
self.boot = None;
}
}
0x7F => {} // Tetris tries to write to this non-existent IO Address
_ => unimplemented!("Unable to write to {:#06X} in I/O Registers", addr),
};
}
0xFF80..=0xFFFE => {
// High RAM
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self.high_ram.write_byte(addr, byte);
}
0xFFFF => {
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// Interrupts Enable Register
self.int.enable = byte.into();
}
}
}
}
impl Bus {
pub(crate) fn read_word(&self, addr: u16) -> u16 {
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(self.read_byte(addr + 1) as u16) << 8 | self.read_byte(addr) as u16
}
pub(crate) fn write_word(&mut self, addr: u16, word: u16) {
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self.write_byte(addr + 1, (word >> 8) as u8);
self.write_byte(addr, (word & 0x00FF) as u8);
}
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}
impl Bus {
fn interrupt_flag(&self) -> InterruptFlag {
// Read the current interrupt information from the PPU
let vblank = self.ppu.int.vblank();
let lcd_stat = self.ppu.int.lcd_stat();
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// Read the current interrupt information from the Joypad
let joypad = self.joypad.interrupt();
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// Read the current interrupt information from the Timer
let timer = self.timer.interrupt();
// Copy the Interrupt Flag register 0xFF0F
let mut flag = self.int.flag;
// Update the flag to have the most accurate information
flag.set_vblank(vblank);
flag.set_lcd_stat(lcd_stat);
flag.set_joypad(joypad);
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flag.set_timer(timer);
flag
}
fn set_interrupt_flag(&mut self, byte: u8) {
// Update the Interrupt register 0xFF0F
self.int.flag = byte.into();
let vblank = self.int.flag.vblank();
let lcd_stat = self.int.flag.lcd_stat();
let joypad = self.int.flag.joypad();
let timer = self.int.flag.timer();
// Update the PPU's instance of the following interrupts
self.ppu.int.set_vblank(vblank);
self.ppu.int.set_lcd_stat(lcd_stat);
// Update the Joypad's instance of the following interrupts
self.joypad.set_interrupt(joypad);
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// Update the Timer's instance of the following interrupts
self.timer.set_interrupt(timer);
}
}
pub(crate) trait BusIo {
fn read_byte(&self, addr: u16) -> u8;
fn write_byte(&mut self, addr: u16, byte: u8);
}