feat(dma): implement all dma i/o writes

This commit is contained in:
Rekai Nyangadzayi Musuka 2022-10-30 00:40:57 -03:00
parent 7debdc490d
commit 6154585e77
3 changed files with 77 additions and 27 deletions

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@ -8,9 +8,9 @@ const Arm7tdmi = @import("../cpu.zig").Arm7tdmi;
pub const DmaTuple = std.meta.Tuple(&[_]type{ DmaController(0), DmaController(1), DmaController(2), DmaController(3) }); pub const DmaTuple = std.meta.Tuple(&[_]type{ DmaController(0), DmaController(1), DmaController(2), DmaController(3) });
const log = std.log.scoped(.DmaTransfer); const log = std.log.scoped(.DmaTransfer);
const setHi = util.setHi; const getHalf = util.shift;
const setLo = util.setLo; const setHalf = util.setHalf;
const shift = util.shift; const setQuart = util.setQuart;
const rotr = @import("../../util.zig").rotr; const rotr = @import("../../util.zig").rotr;
@ -54,19 +54,19 @@ pub fn read(comptime T: type, dma: *const DmaTuple, addr: u32) ?T {
u8 => switch (byte) { u8 => switch (byte) {
0xB0...0xB7 => null, // DMA0SAD, DMA0DAD 0xB0...0xB7 => null, // DMA0SAD, DMA0DAD
0xB8, 0xB9 => 0x00, // DMA0CNT_L 0xB8, 0xB9 => 0x00, // DMA0CNT_L
0xBA, 0xBB => @truncate(T, dma.*[0].dmacntH() >> shift(byte)), 0xBA, 0xBB => @truncate(T, dma.*[0].dmacntH() >> getHalf(byte)),
0xBC...0xC3 => null, // DMA1SAD, DMA1DAD 0xBC...0xC3 => null, // DMA1SAD, DMA1DAD
0xC4, 0xC5 => 0x00, // DMA1CNT_L 0xC4, 0xC5 => 0x00, // DMA1CNT_L
0xC6, 0xC7 => @truncate(T, dma.*[1].dmacntH() >> shift(byte)), 0xC6, 0xC7 => @truncate(T, dma.*[1].dmacntH() >> getHalf(byte)),
0xC8...0xCF => null, // DMA2SAD, DMA2DAD 0xC8...0xCF => null, // DMA2SAD, DMA2DAD
0xD0, 0xD1 => 0x00, // DMA2CNT_L 0xD0, 0xD1 => 0x00, // DMA2CNT_L
0xD2, 0xD3 => @truncate(T, dma.*[2].dmacntH() >> shift(byte)), 0xD2, 0xD3 => @truncate(T, dma.*[2].dmacntH() >> getHalf(byte)),
0xD4...0xDB => null, // DMA3SAD, DMA3DAD 0xD4...0xDB => null, // DMA3SAD, DMA3DAD
0xDC, 0xDD => 0x00, // DMA3CNT_L 0xDC, 0xDD => 0x00, // DMA3CNT_L
0xDE, 0xDF => @truncate(T, dma.*[3].dmacntH() >> shift(byte)), 0xDE, 0xDF => @truncate(T, dma.*[3].dmacntH() >> getHalf(byte)),
else => util.io.read.err(T, log, "unexpected {} read from 0x{X:0>8}", .{ T, addr }), else => util.io.read.err(T, log, "unexpected {} read from 0x{X:0>8}", .{ T, addr }),
}, },
else => @compileError("DMA: Unsupported read width"), else => @compileError("DMA: Unsupported read width"),
@ -74,55 +74,71 @@ pub fn read(comptime T: type, dma: *const DmaTuple, addr: u32) ?T {
} }
pub fn write(comptime T: type, dma: *DmaTuple, addr: u32, value: T) void { pub fn write(comptime T: type, dma: *DmaTuple, addr: u32, value: T) void {
const byte = @truncate(u8, addr); const byte_addr = @truncate(u8, addr);
switch (T) { switch (T) {
u32 => switch (byte) { u32 => switch (byte_addr) {
0xB0 => dma.*[0].setDmasad(value), 0xB0 => dma.*[0].setDmasad(value),
0xB4 => dma.*[0].setDmadad(value), 0xB4 => dma.*[0].setDmadad(value),
0xB8 => dma.*[0].setDmacnt(value), 0xB8 => dma.*[0].setDmacnt(value),
0xBC => dma.*[1].setDmasad(value), 0xBC => dma.*[1].setDmasad(value),
0xC0 => dma.*[1].setDmadad(value), 0xC0 => dma.*[1].setDmadad(value),
0xC4 => dma.*[1].setDmacnt(value), 0xC4 => dma.*[1].setDmacnt(value),
0xC8 => dma.*[2].setDmasad(value), 0xC8 => dma.*[2].setDmasad(value),
0xCC => dma.*[2].setDmadad(value), 0xCC => dma.*[2].setDmadad(value),
0xD0 => dma.*[2].setDmacnt(value), 0xD0 => dma.*[2].setDmacnt(value),
0xD4 => dma.*[3].setDmasad(value), 0xD4 => dma.*[3].setDmasad(value),
0xD8 => dma.*[3].setDmadad(value), 0xD8 => dma.*[3].setDmadad(value),
0xDC => dma.*[3].setDmacnt(value), 0xDC => dma.*[3].setDmacnt(value),
else => util.io.write.undef(log, "Tried to write 0x{X:0>8}{} to 0x{X:0>8}", .{ value, T, addr }), else => util.io.write.undef(log, "Tried to write 0x{X:0>8}{} to 0x{X:0>8}", .{ value, T, addr }),
}, },
u16 => switch (byte) { u16 => switch (byte_addr) {
0xB0 => dma.*[0].setDmasad(setLo(u32, dma.*[0].sad, value)), 0xB0, 0xB2 => dma.*[0].setDmasad(setHalf(u32, dma.*[0].sad, byte_addr, value)),
0xB2 => dma.*[0].setDmasad(setHi(u32, dma.*[0].sad, value)), 0xB4, 0xB6 => dma.*[0].setDmadad(setHalf(u32, dma.*[0].dad, byte_addr, value)),
0xB4 => dma.*[0].setDmadad(setLo(u32, dma.*[0].dad, value)),
0xB6 => dma.*[0].setDmadad(setHi(u32, dma.*[0].dad, value)),
0xB8 => dma.*[0].setDmacntL(value), 0xB8 => dma.*[0].setDmacntL(value),
0xBA => dma.*[0].setDmacntH(value), 0xBA => dma.*[0].setDmacntH(value),
0xBC => dma.*[1].setDmasad(setLo(u32, dma.*[1].sad, value)), 0xBC, 0xBE => dma.*[1].setDmasad(setHalf(u32, dma.*[1].sad, byte_addr, value)),
0xBE => dma.*[1].setDmasad(setHi(u32, dma.*[1].sad, value)), 0xC0, 0xC2 => dma.*[1].setDmadad(setHalf(u32, dma.*[1].dad, byte_addr, value)),
0xC0 => dma.*[1].setDmadad(setLo(u32, dma.*[1].dad, value)),
0xC2 => dma.*[1].setDmadad(setHi(u32, dma.*[1].dad, value)),
0xC4 => dma.*[1].setDmacntL(value), 0xC4 => dma.*[1].setDmacntL(value),
0xC6 => dma.*[1].setDmacntH(value), 0xC6 => dma.*[1].setDmacntH(value),
0xC8 => dma.*[2].setDmasad(setLo(u32, dma.*[2].sad, value)), 0xC8, 0xCA => dma.*[2].setDmasad(setHalf(u32, dma.*[2].sad, byte_addr, value)),
0xCA => dma.*[2].setDmasad(setHi(u32, dma.*[2].sad, value)), 0xCC, 0xCE => dma.*[2].setDmadad(setHalf(u32, dma.*[2].dad, byte_addr, value)),
0xCC => dma.*[2].setDmadad(setLo(u32, dma.*[2].dad, value)),
0xCE => dma.*[2].setDmadad(setHi(u32, dma.*[2].dad, value)),
0xD0 => dma.*[2].setDmacntL(value), 0xD0 => dma.*[2].setDmacntL(value),
0xD2 => dma.*[2].setDmacntH(value), 0xD2 => dma.*[2].setDmacntH(value),
0xD4 => dma.*[3].setDmasad(setLo(u32, dma.*[3].sad, value)), 0xD4, 0xD6 => dma.*[3].setDmasad(setHalf(u32, dma.*[3].sad, byte_addr, value)),
0xD6 => dma.*[3].setDmasad(setHi(u32, dma.*[3].sad, value)), 0xD8, 0xDA => dma.*[3].setDmadad(setHalf(u32, dma.*[3].dad, byte_addr, value)),
0xD8 => dma.*[3].setDmadad(setLo(u32, dma.*[3].dad, value)),
0xDA => dma.*[3].setDmadad(setHi(u32, dma.*[3].dad, value)),
0xDC => dma.*[3].setDmacntL(value), 0xDC => dma.*[3].setDmacntL(value),
0xDE => dma.*[3].setDmacntH(value), 0xDE => dma.*[3].setDmacntH(value),
else => util.io.write.undef(log, "Tried to write 0x{X:0>4}{} to 0x{X:0>8}", .{ value, T, addr }), else => util.io.write.undef(log, "Tried to write 0x{X:0>4}{} to 0x{X:0>8}", .{ value, T, addr }),
}, },
u8 => util.io.write.undef(log, "Tried to write 0x{X:0>2}{} to 0x{X:0>8}", .{ value, T, addr }), u8 => switch (byte_addr) {
0xB0, 0xB1, 0xB2, 0xB3 => dma.*[0].setDmasad(setQuart(dma.*[0].sad, byte_addr, value)),
0xB4, 0xB5, 0xB6, 0xB7 => dma.*[0].setDmadad(setQuart(dma.*[0].dad, byte_addr, value)),
0xB8, 0xB9 => dma.*[0].setDmacntL(setHalf(u16, dma.*[0].word_count, byte_addr, value)),
0xBA, 0xBB => dma.*[0].setDmacntH(setHalf(u16, dma.*[0].cnt.raw, byte_addr, value)),
0xBC, 0xBD, 0xBE, 0xBF => dma.*[1].setDmasad(setQuart(dma.*[1].sad, byte_addr, value)),
0xC0, 0xC1, 0xC2, 0xC3 => dma.*[1].setDmadad(setQuart(dma.*[1].dad, byte_addr, value)),
0xC4, 0xC5 => dma.*[1].setDmacntL(setHalf(u16, dma.*[1].word_count, byte_addr, value)),
0xC6, 0xC7 => dma.*[1].setDmacntH(setHalf(u16, dma.*[1].cnt.raw, byte_addr, value)),
0xC8, 0xC9, 0xCA, 0xCB => dma.*[2].setDmasad(setQuart(dma.*[2].sad, byte_addr, value)),
0xCC, 0xCD, 0xCE, 0xCF => dma.*[2].setDmadad(setQuart(dma.*[2].dad, byte_addr, value)),
0xD0, 0xD1 => dma.*[2].setDmacntL(setHalf(u16, dma.*[2].word_count, byte_addr, value)),
0xD2, 0xD3 => dma.*[2].setDmacntH(setHalf(u16, dma.*[2].cnt.raw, byte_addr, value)),
0xD4, 0xD5, 0xD6, 0xD7 => dma.*[3].setDmasad(setQuart(dma.*[3].sad, byte_addr, value)),
0xD8, 0xD9, 0xDA, 0xDB => dma.*[3].setDmadad(setQuart(dma.*[3].dad, byte_addr, value)),
0xDC, 0xDD => dma.*[3].setDmacntL(setHalf(u16, dma.*[3].word_count, byte_addr, value)),
0xDE, 0xDF => dma.*[3].setDmacntH(setHalf(u16, dma.*[3].cnt.raw, byte_addr, value)),
else => util.io.write.undef(log, "Tried to write 0x{X:0>2}{} to 0x{X:0>8}", .{ value, T, addr }),
},
else => @compileError("DMA: Unsupported write width"), else => @compileError("DMA: Unsupported write width"),
} }
} }

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@ -222,6 +222,9 @@ pub fn write(bus: *Bus, comptime T: type, address: u32, value: T) void {
// Sound // Sound
0x0400_0060...0x0400_00A7 => apu.write(T, &bus.apu, address, value), 0x0400_0060...0x0400_00A7 => apu.write(T, &bus.apu, address, value),
// Dma Transfers
0x0400_00B0...0x0400_00DF => dma.write(T, &bus.dma, address, value),
// Serial Communication 1 // Serial Communication 1
0x0400_0120 => log.debug("Wrote 0x{X:0>2} to SIODATA32_L_L", .{value}), 0x0400_0120 => log.debug("Wrote 0x{X:0>2} to SIODATA32_L_L", .{value}),
0x0400_0128 => log.debug("Wrote 0x{X:0>2} to SIOCNT_L", .{value}), 0x0400_0128 => log.debug("Wrote 0x{X:0>2} to SIOCNT_L", .{value}),

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@ -283,13 +283,44 @@ pub const audio = struct {
}; };
}; };
/// Sets a quarter (8) of the bits of the u32 `left` to the value of u8 `right`
pub inline fn setQuart(left: u32, addr: u8, right: u8) u32 {
const offset = @truncate(u2, addr);
return switch (offset) {
0b00 => (left & 0xFFFF_FF00) | right,
0b01 => (left & 0xFFFF_00FF) | @as(u32, right) << 8,
0b10 => (left & 0xFF00_FFFF) | @as(u32, right) << 16,
0b11 => (left & 0x00FF_FFFF) | @as(u32, right) << 24,
};
}
/// Calculates the correct shift offset for an aligned/unaligned u8 read /// Calculates the correct shift offset for an aligned/unaligned u8 read
/// ///
/// TODO: Rename this /// TODO: Rename this
/// TODO: Support u16 reads of u32 values
pub inline fn shift(byte: u8) u4 { pub inline fn shift(byte: u8) u4 {
return @truncate(u4, byte & 1) << 3; return @truncate(u4, byte & 1) << 3;
} }
// TODO: Maybe combine SetLo and SetHi, use addr alignment to deduplicate code
pub inline fn setHalf(comptime T: type, left: T, addr: u8, right: HalfInt(T)) T {
const offset = @truncate(u1, addr >> if (T == u32) 1 else 0);
return switch (T) {
u32 => switch (offset) {
0b0 => (left & 0xFFFF_0000) | right,
0b1 => (left & 0x0000_FFFF) | @as(u32, right) << 16,
},
u16 => switch (offset) {
0b0 => (left & 0xFF00) | right,
0b1 => (right & 0x00FF) | @as(u16, right) << 8,
},
else => @compileError("unsupported type"),
};
}
/// Sets the high bits of an integer to a value /// Sets the high bits of an integer to a value
pub inline fn setLo(comptime T: type, left: T, right: HalfInt(T)) T { pub inline fn setLo(comptime T: type, left: T, right: HalfInt(T)) T {
return switch (T) { return switch (T) {