fix: force align reads/writes in memory bus rather than in CPU

This commit is contained in:
Rekai Nyangadzayi Musuka 2022-04-08 15:15:44 -03:00
parent a976a5769e
commit 37a360ec07
7 changed files with 108 additions and 104 deletions

View File

@ -54,129 +54,133 @@ pub fn deinit(self: Self) void {
self.ppu.deinit(); self.ppu.deinit();
} }
pub fn read32(self: *const Self, addr: u32) u32 { pub fn read32(self: *const Self, address: u32) u32 {
return switch (addr) { const align_addr = address & 0xFFFF_FFFC; // Force Aligned
return switch (address) {
// General Internal Memory // General Internal Memory
0x0000_0000...0x0000_3FFF => self.bios.read(u32, addr), 0x0000_0000...0x0000_3FFF => self.bios.read(u32, align_addr),
0x0200_0000...0x02FF_FFFF => self.ewram.read(u32, addr), 0x0200_0000...0x02FF_FFFF => self.ewram.read(u32, align_addr),
0x0300_0000...0x03FF_FFFF => self.iwram.read(u32, addr), 0x0300_0000...0x03FF_FFFF => self.iwram.read(u32, align_addr),
0x0400_0000...0x0400_03FE => io.read32(self, addr), 0x0400_0000...0x0400_03FE => io.read32(self, align_addr),
// Internal Display Memory // Internal Display Memory
0x0500_0000...0x05FF_FFFF => self.ppu.palette.read(u32, addr), 0x0500_0000...0x05FF_FFFF => self.ppu.palette.read(u32, align_addr),
0x0600_0000...0x06FF_FFFF => self.ppu.vram.read(u32, addr), 0x0600_0000...0x06FF_FFFF => self.ppu.vram.read(u32, align_addr),
0x0700_0000...0x07FF_FFFF => self.ppu.oam.read(u32, addr), 0x0700_0000...0x07FF_FFFF => self.ppu.oam.read(u32, align_addr),
// External Memory (Game Pak) // External Memory (Game Pak)
0x0800_0000...0x09FF_FFFF => self.pak.read(u32, addr), 0x0800_0000...0x09FF_FFFF => self.pak.read(u32, align_addr),
0x0A00_0000...0x0BFF_FFFF => self.pak.read(u32, addr), 0x0A00_0000...0x0BFF_FFFF => self.pak.read(u32, align_addr),
0x0C00_0000...0x0DFF_FFFF => self.pak.read(u32, addr), 0x0C00_0000...0x0DFF_FFFF => self.pak.read(u32, align_addr),
0x0E00_0000...0x0FFF_FFFF => @as(u32, self.pak.backup.read(addr)) * 0x01010101, 0x0E00_0000...0x0FFF_FFFF => @as(u32, self.pak.backup.read(address)) * 0x01010101,
else => undRead("Tried to read from 0x{X:0>8}", .{addr}), else => undRead("Tried to read from 0x{X:0>8}", .{address}),
}; };
} }
pub fn write32(self: *Self, addr: u32, word: u32) void { pub fn write32(self: *Self, address: u32, word: u32) void {
// TODO: write32 can write to GamePak Flash const align_addr = address & 0xFFFF_FFFC; // Force Aligned
switch (addr) { switch (address) {
// General Internal Memory // General Internal Memory
0x0200_0000...0x02FF_FFFF => self.ewram.write(u32, addr, word), 0x0200_0000...0x02FF_FFFF => self.ewram.write(u32, align_addr, word),
0x0300_0000...0x03FF_FFFF => self.iwram.write(u32, addr, word), 0x0300_0000...0x03FF_FFFF => self.iwram.write(u32, align_addr, word),
0x0400_0000...0x0400_03FE => io.write32(self, addr, word), 0x0400_0000...0x0400_03FE => io.write32(self, align_addr, word),
// Internal Display Memory // Internal Display Memory
0x0500_0000...0x05FF_FFFF => self.ppu.palette.write(u32, addr, word), 0x0500_0000...0x05FF_FFFF => self.ppu.palette.write(u32, align_addr, word),
0x0600_0000...0x06FF_FFFF => self.ppu.vram.write(u32, addr, word), 0x0600_0000...0x06FF_FFFF => self.ppu.vram.write(u32, align_addr, word),
0x0700_0000...0x07FF_FFFF => self.ppu.oam.write(u32, addr, word), 0x0700_0000...0x07FF_FFFF => self.ppu.oam.write(u32, align_addr, word),
0x0E00_0000...0x0FFF_FFFF => { 0x0E00_0000...0x0FFF_FFFF => self.pak.backup.write(address, @truncate(u8, rotr(u32, word, 8 * (address & 3)))),
const value = rotr(u32, word, 8 * (addr & 3));
self.pak.backup.write(addr, @truncate(u8, value));
},
else => undWrite("Tried to write 0x{X:0>8} to 0x{X:0>8}", .{ word, addr }), else => undWrite("Tried to write 0x{X:0>8} to 0x{X:0>8}", .{ word, address }),
} }
} }
pub fn read16(self: *const Self, addr: u32) u16 { pub fn read16(self: *const Self, address: u32) u16 {
return switch (addr) { const align_addr = address & 0xFFFF_FFFE; // Force Aligned
return switch (address) {
// General Internal Memory // General Internal Memory
0x0000_0000...0x0000_3FFF => self.bios.read(u16, addr), 0x0000_0000...0x0000_3FFF => self.bios.read(u16, align_addr),
0x0200_0000...0x02FF_FFFF => self.ewram.read(u16, addr), 0x0200_0000...0x02FF_FFFF => self.ewram.read(u16, align_addr),
0x0300_0000...0x03FF_FFFF => self.iwram.read(u16, addr), 0x0300_0000...0x03FF_FFFF => self.iwram.read(u16, align_addr),
0x0400_0000...0x0400_03FE => io.read16(self, addr), 0x0400_0000...0x0400_03FE => io.read16(self, align_addr),
// Internal Display Memory // Internal Display Memory
0x0500_0000...0x05FF_FFFF => self.ppu.palette.read(u16, addr), 0x0500_0000...0x05FF_FFFF => self.ppu.palette.read(u16, align_addr),
0x0600_0000...0x06FF_FFFF => self.ppu.vram.read(u16, addr), 0x0600_0000...0x06FF_FFFF => self.ppu.vram.read(u16, align_addr),
0x0700_0000...0x07FF_FFFF => self.ppu.oam.read(u16, addr), 0x0700_0000...0x07FF_FFFF => self.ppu.oam.read(u16, align_addr),
// External Memory (Game Pak) // External Memory (Game Pak)
0x0800_0000...0x09FF_FFFF => self.pak.read(u16, addr), 0x0800_0000...0x09FF_FFFF => self.pak.read(u16, align_addr),
0x0A00_0000...0x0BFF_FFFF => self.pak.read(u16, addr), 0x0A00_0000...0x0BFF_FFFF => self.pak.read(u16, align_addr),
0x0C00_0000...0x0DFF_FFFF => self.pak.read(u16, addr), 0x0C00_0000...0x0DFF_FFFF => self.pak.read(u16, align_addr),
0x0E00_0000...0x0FFF_FFFF => @as(u16, self.pak.backup.read(addr)) * 0x0101, 0x0E00_0000...0x0FFF_FFFF => @as(u16, self.pak.backup.read(address)) * 0x0101,
else => undRead("Tried to read from 0x{X:0>8}", .{addr}), else => undRead("Tried to read from 0x{X:0>8}", .{address}),
}; };
} }
pub fn write16(self: *Self, addr: u32, halfword: u16) void { pub fn write16(self: *Self, address: u32, halfword: u16) void {
// TODO: write16 can write to GamePak Flash const align_addr = address & 0xFFFF_FFFE;
switch (addr) {
switch (address) {
// General Internal Memory // General Internal Memory
0x0200_0000...0x02FF_FFFF => self.ewram.write(u16, addr, halfword), 0x0200_0000...0x02FF_FFFF => self.ewram.write(u16, align_addr, halfword),
0x0300_0000...0x03FF_FFFF => self.iwram.write(u16, addr, halfword), 0x0300_0000...0x03FF_FFFF => self.iwram.write(u16, align_addr, halfword),
0x0400_0000...0x0400_03FE => io.write16(self, addr, halfword), 0x0400_0000...0x0400_03FE => io.write16(self, align_addr, halfword),
// Internal Display Memory // Internal Display Memory
0x0500_0000...0x05FF_FFFF => self.ppu.palette.write(u16, addr, halfword), 0x0500_0000...0x05FF_FFFF => self.ppu.palette.write(u16, align_addr, halfword),
0x0600_0000...0x06FF_FFFF => self.ppu.vram.write(u16, addr, halfword), 0x0600_0000...0x06FF_FFFF => self.ppu.vram.write(u16, align_addr, halfword),
0x0700_0000...0x07FF_FFFF => self.ppu.oam.write(u16, addr, halfword), 0x0700_0000...0x07FF_FFFF => self.ppu.oam.write(u16, align_addr, halfword),
0x0800_00C4, 0x0800_00C6, 0x0800_00C8 => log.warn("Tried to write 0x{X:0>4} to GPIO", .{halfword}), 0x0800_00C4, 0x0800_00C6, 0x0800_00C8 => log.warn("Tried to write 0x{X:0>4} to GPIO", .{halfword}),
// External Memory (Game Pak) // External Memory (Game Pak)
0x0E00_0000...0x0FFF_FFFF => self.pak.backup.write(addr, @truncate(u8, rotr(u16, halfword, 8 * (addr & 1)))), 0x0E00_0000...0x0FFF_FFFF => {
self.pak.backup.write(address, @truncate(u8, rotr(u16, halfword, 8 * (address & 1))));
},
else => undWrite("Tried to write 0x{X:0>4} to 0x{X:0>8}", .{ halfword, addr }), else => undWrite("Tried to write 0x{X:0>4} to 0x{X:0>8}", .{ halfword, address }),
} }
} }
pub fn read8(self: *const Self, addr: u32) u8 { pub fn read8(self: *const Self, address: u32) u8 {
return switch (addr) { return switch (address) {
// General Internal Memory // General Internal Memory
0x0000_0000...0x0000_3FFF => self.bios.read(u8, addr), 0x0000_0000...0x0000_3FFF => self.bios.read(u8, address),
0x0200_0000...0x02FF_FFFF => self.ewram.read(u8, addr), 0x0200_0000...0x02FF_FFFF => self.ewram.read(u8, address),
0x0300_0000...0x03FF_FFFF => self.iwram.read(u8, addr), 0x0300_0000...0x03FF_FFFF => self.iwram.read(u8, address),
0x0400_0000...0x0400_03FE => io.read8(self, addr), 0x0400_0000...0x0400_03FE => io.read8(self, address),
// Internal Display Memory // Internal Display Memory
0x0500_0000...0x05FF_FFFF => self.ppu.palette.read(u8, addr), 0x0500_0000...0x05FF_FFFF => self.ppu.palette.read(u8, address),
0x0600_0000...0x06FF_FFFF => self.ppu.vram.read(u8, addr), 0x0600_0000...0x06FF_FFFF => self.ppu.vram.read(u8, address),
0x0700_0000...0x07FF_FFFF => self.ppu.oam.read(u8, addr), 0x0700_0000...0x07FF_FFFF => self.ppu.oam.read(u8, address),
// External Memory (Game Pak) // External Memory (Game Pak)
0x0800_0000...0x09FF_FFFF => self.pak.read(u8, addr), 0x0800_0000...0x09FF_FFFF => self.pak.read(u8, address),
0x0A00_0000...0x0BFF_FFFF => self.pak.read(u8, addr), 0x0A00_0000...0x0BFF_FFFF => self.pak.read(u8, address),
0x0C00_0000...0x0DFF_FFFF => self.pak.read(u8, addr), 0x0C00_0000...0x0DFF_FFFF => self.pak.read(u8, address),
0x0E00_0000...0x0FFF_FFFF => self.pak.backup.read(addr), 0x0E00_0000...0x0FFF_FFFF => self.pak.backup.read(address),
else => undRead("Tried to read from 0x{X:0>2}", .{addr}), else => undRead("Tried to read from 0x{X:0>2}", .{address}),
}; };
} }
pub fn write8(self: *Self, addr: u32, byte: u8) void { pub fn write8(self: *Self, address: u32, byte: u8) void {
switch (addr) { switch (address) {
// General Internal Memory // General Internal Memory
0x0200_0000...0x02FF_FFFF => self.ewram.write(u8, addr, byte), 0x0200_0000...0x02FF_FFFF => self.ewram.write(u8, address, byte),
0x0300_0000...0x03FF_FFFF => self.iwram.write(u8, addr, byte), 0x0300_0000...0x03FF_FFFF => self.iwram.write(u8, address, byte),
0x0400_0000...0x0400_03FE => io.write8(self, addr, byte), 0x0400_0000...0x0400_03FE => io.write8(self, address, byte),
0x0400_0410 => log.info("Ignored write of 0x{X:0>2} to 0x{X:0>8}", .{ byte, addr }), 0x0400_0410 => log.info("Ignored write of 0x{X:0>2} to 0x{X:0>8}", .{ byte, address }),
// External Memory (Game Pak) // External Memory (Game Pak)
0x0E00_0000...0x0FFF_FFFF => self.pak.backup.write(addr, byte), 0x0E00_0000...0x0FFF_FFFF => self.pak.backup.write(address, byte),
else => undWrite("Tried to write 0x{X:0>2} to 0x{X:0>8}", .{ byte, addr }), else => undWrite("Tried to write 0x{X:0>2} to 0x{X:0>8}", .{ byte, address }),
} }
} }

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@ -54,9 +54,9 @@ pub fn blockDataTransfer(comptime P: bool, comptime U: bool, comptime S: bool, c
} }
if (L) { if (L) {
cpu.r[15] = bus.read32(und_addr & 0xFFFF_FFFC); cpu.r[15] = bus.read32(und_addr);
} else { } else {
bus.write32(und_addr & 0xFFFF_FFFC, cpu.r[15] + 8); bus.write32(und_addr, cpu.r[15] + 8);
} }
cpu.r[rn] = if (U) cpu.r[rn] + 0x40 else cpu.r[rn] - 0x40; cpu.r[rn] = if (U) cpu.r[rn] + 0x40 else cpu.r[rn] - 0x40;
@ -83,9 +83,9 @@ pub fn blockDataTransfer(comptime P: bool, comptime U: bool, comptime S: bool, c
if (L) { if (L) {
if (S and !r15_present) { if (S and !r15_present) {
// Always Transfer User mode Registers // Always Transfer User mode Registers
cpu.setUserModeRegister(i, bus.read32(address & 0xFFFF_FFFC)); cpu.setUserModeRegister(i, bus.read32(address));
} else { } else {
const value = bus.read32(address & 0xFFFF_FFFC); const value = bus.read32(address);
cpu.r[i] = if (i == 0xF) value & 0xFFFF_FFFC else value; cpu.r[i] = if (i == 0xF) value & 0xFFFF_FFFC else value;
if (S and i == 0xF) cpu.setCpsr(cpu.spsr.raw); if (S and i == 0xF) cpu.setCpsr(cpu.spsr.raw);
} }
@ -94,9 +94,9 @@ pub fn blockDataTransfer(comptime P: bool, comptime U: bool, comptime S: bool, c
// Always Transfer User mode Registers // Always Transfer User mode Registers
// This happens regardless if r15 is in the list // This happens regardless if r15 is in the list
const value = cpu.getUserModeRegister(i); const value = cpu.getUserModeRegister(i);
bus.write32(address & 0xFFFF_FFFC, value + if (i == 0xF) 8 else @as(u32, 0)); // PC is already 4 ahead to make 12 bus.write32(address, value + if (i == 0xF) 8 else @as(u32, 0)); // PC is already 4 ahead to make 12
} else { } else {
bus.write32(address & 0xFFFF_FFFC, cpu.r[i] + if (i == 0xF) 8 else @as(u32, 0)); bus.write32(address, cpu.r[i] + if (i == 0xF) 8 else @as(u32, 0));
} }
} }
} }

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@ -38,7 +38,7 @@ pub fn halfAndSignedDataTransfer(comptime P: bool, comptime U: bool, comptime I:
switch (@truncate(u2, opcode >> 5)) { switch (@truncate(u2, opcode >> 5)) {
0b01 => { 0b01 => {
// LDRH // LDRH
const value = bus.read16(address & 0xFFFF_FFFE); const value = bus.read16(address);
result = rotr(u32, value, 8 * (address & 1)); result = rotr(u32, value, 8 * (address & 1));
}, },
0b10 => { 0b10 => {
@ -60,7 +60,7 @@ pub fn halfAndSignedDataTransfer(comptime P: bool, comptime U: bool, comptime I:
} else { } else {
if (opcode >> 5 & 0x01 == 0x01) { if (opcode >> 5 & 0x01 == 0x01) {
// STRH // STRH
bus.write16(address & 0xFFFF_FFFE, @truncate(u16, cpu.r[rd])); bus.write16(address, @truncate(u16, cpu.r[rd]));
} else unreachable; // SWP } else unreachable; // SWP
} }

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@ -22,8 +22,8 @@ pub fn singleDataSwap(comptime B: bool) InstrFn {
cpu.r[rd] = value; cpu.r[rd] = value;
} else { } else {
// SWP // SWP
const value = rotr(u32, bus.read32(address & 0xFFFF_FFFC), 8 * (address & 0x3)); const value = rotr(u32, bus.read32(address), 8 * (address & 0x3));
bus.write32(address & 0xFFFF_FFFC, cpu.r[rm]); bus.write32(address, cpu.r[rm]);
cpu.r[rd] = value; cpu.r[rd] = value;
} }
} }

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@ -34,7 +34,7 @@ pub fn singleDataTransfer(comptime I: bool, comptime P: bool, comptime U: bool,
result = bus.read8(address); result = bus.read8(address);
} else { } else {
// LDR // LDR
const value = bus.read32(address & 0xFFFF_FFFC); const value = bus.read32(address);
result = rotr(u32, value, 8 * (address & 0x3)); result = rotr(u32, value, 8 * (address & 0x3));
} }
} else { } else {
@ -45,7 +45,7 @@ pub fn singleDataTransfer(comptime I: bool, comptime P: bool, comptime U: bool,
} else { } else {
// STR // STR
const value = if (rd == 0xF) cpu.r[rd] + 8 else cpu.r[rd]; const value = if (rd == 0xF) cpu.r[rd] + 8 else cpu.r[rd];
bus.write32(address & 0xFFFF_FFFC, value); bus.write32(address, value);
} }
} }

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@ -21,9 +21,9 @@ pub fn format14(comptime L: bool, comptime R: bool) InstrFn {
while (i < 8) : (i += 1) { while (i < 8) : (i += 1) {
if (opcode >> i & 1 == 1) { if (opcode >> i & 1 == 1) {
if (L) { if (L) {
cpu.r[i] = bus.read32(address & 0xFFFF_FFFC); cpu.r[i] = bus.read32(address);
} else { } else {
bus.write32(address & 0xFFFF_FFFC, cpu.r[i]); bus.write32(address, cpu.r[i]);
} }
address += 4; address += 4;
@ -32,10 +32,10 @@ pub fn format14(comptime L: bool, comptime R: bool) InstrFn {
if (R) { if (R) {
if (L) { if (L) {
const value = bus.read32(address & 0xFFFF_FFFC); const value = bus.read32(address);
cpu.r[15] = value & 0xFFFF_FFFE; cpu.r[15] = value & 0xFFFF_FFFE;
} else { } else {
bus.write32(address & 0xFFFF_FFFC, cpu.r[14]); bus.write32(address, cpu.r[14]);
} }
address += 4; address += 4;
} }
@ -52,7 +52,7 @@ pub fn format15(comptime L: bool, comptime rb: u3) InstrFn {
const end_address = cpu.r[rb] + 4 * countRlist(opcode); const end_address = cpu.r[rb] + 4 * countRlist(opcode);
if (opcode & 0xFF == 0) { if (opcode & 0xFF == 0) {
if (L) cpu.r[15] = bus.read32(address & 0xFFFF_FFFC) else bus.write32(address & 0xFFFF_FFFC, cpu.r[15] + 4); if (L) cpu.r[15] = bus.read32(address) else bus.write32(address, cpu.r[15] + 4);
cpu.r[rb] += 0x40; cpu.r[rb] += 0x40;
return; return;
} }
@ -63,9 +63,9 @@ pub fn format15(comptime L: bool, comptime rb: u3) InstrFn {
while (i < 8) : (i += 1) { while (i < 8) : (i += 1) {
if (opcode >> i & 1 == 1) { if (opcode >> i & 1 == 1) {
if (L) { if (L) {
cpu.r[i] = bus.read32(address & 0xFFFF_FFFC); cpu.r[i] = bus.read32(address);
} else { } else {
bus.write32(address & 0xFFFF_FFFC, cpu.r[i]); bus.write32(address, cpu.r[i]);
} }
if (!L and first_write) { if (!L and first_write) {

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@ -32,7 +32,7 @@ pub fn format78(comptime op: u2, comptime T: bool) InstrFn {
switch (op) { switch (op) {
0b00 => { 0b00 => {
// STRH // STRH
bus.write16(address & 0xFFFF_FFFE, @truncate(u16, cpu.r[rd])); bus.write16(address, @truncate(u16, cpu.r[rd]));
}, },
0b01 => { 0b01 => {
// LDSB // LDSB
@ -40,7 +40,7 @@ pub fn format78(comptime op: u2, comptime T: bool) InstrFn {
}, },
0b10 => { 0b10 => {
// LDRH // LDRH
const value = bus.read16(address & 0xFFFF_FFFE); const value = bus.read16(address);
cpu.r[rd] = rotr(u32, value, 8 * (address & 1)); cpu.r[rd] = rotr(u32, value, 8 * (address & 1));
}, },
0b11 => { 0b11 => {
@ -59,7 +59,7 @@ pub fn format78(comptime op: u2, comptime T: bool) InstrFn {
switch (op) { switch (op) {
0b00 => { 0b00 => {
// STR // STR
bus.write32(address & 0xFFFF_FFFC, cpu.r[rd]); bus.write32(address, cpu.r[rd]);
}, },
0b01 => { 0b01 => {
// STRB // STRB
@ -67,7 +67,7 @@ pub fn format78(comptime op: u2, comptime T: bool) InstrFn {
}, },
0b10 => { 0b10 => {
// LDR // LDR
const value = bus.read32(address & 0xFFFF_FFFC); const value = bus.read32(address);
cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3)); cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3));
}, },
0b11 => { 0b11 => {
@ -94,7 +94,7 @@ pub fn format9(comptime B: bool, comptime L: bool, comptime offset: u5) InstrFn
} else { } else {
// LDR // LDR
const address = cpu.r[rb] + (@as(u32, offset) << 2); const address = cpu.r[rb] + (@as(u32, offset) << 2);
const value = bus.read32(address & 0xFFFF_FFFC); const value = bus.read32(address);
cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3)); cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3));
} }
} else { } else {
@ -105,7 +105,7 @@ pub fn format9(comptime B: bool, comptime L: bool, comptime offset: u5) InstrFn
} else { } else {
// STR // STR
const address = cpu.r[rb] + (@as(u32, offset) << 2); const address = cpu.r[rb] + (@as(u32, offset) << 2);
bus.write32(address & 0xFFFF_FFFC, cpu.r[rd]); bus.write32(address, cpu.r[rd]);
} }
} }
} }
@ -122,11 +122,11 @@ pub fn format10(comptime L: bool, comptime offset: u5) InstrFn {
if (L) { if (L) {
// LDRH // LDRH
const value = bus.read16(address & 0xFFFF_FFFE); const value = bus.read16(address);
cpu.r[rd] = rotr(u32, value, 8 * (address & 1)); cpu.r[rd] = rotr(u32, value, 8 * (address & 1));
} else { } else {
// STRH // STRH
bus.write16(address & 0xFFFF_FFFE, @truncate(u16, cpu.r[rd])); bus.write16(address, @truncate(u16, cpu.r[rd]));
} }
} }
}.inner; }.inner;
@ -140,11 +140,11 @@ pub fn format11(comptime L: bool, comptime rd: u3) InstrFn {
if (L) { if (L) {
// LDR // LDR
const value = bus.read32(address & 0xFFFF_FFFC); const value = bus.read32(address);
cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3)); cpu.r[rd] = rotr(u32, value, 8 * (address & 0x3));
} else { } else {
// STR // STR
bus.write32(address & 0xFFFF_FFFC, cpu.r[rd]); bus.write32(address, cpu.r[rd]);
} }
} }
}.inner; }.inner;