const std = @import("std"); const util = @import("util.zig"); const BarrelShifter = @import("cpu/arm/barrel_shifter.zig"); const Bus = @import("Bus.zig"); const Bit = @import("bitfield").Bit; const Bitfield = @import("bitfield").Bitfield; const Scheduler = @import("scheduler.zig").Scheduler; // ARM Instruction Groups const dataProcessing = @import("cpu/arm/data_processing.zig").dataProcessing; const psrTransfer = @import("cpu/arm/psr_transfer.zig").psrTransfer; const singleDataTransfer = @import("cpu/arm/single_data_transfer.zig").singleDataTransfer; const halfAndSignedDataTransfer = @import("cpu/arm/half_signed_data_transfer.zig").halfAndSignedDataTransfer; const blockDataTransfer = @import("cpu/arm/block_data_transfer.zig").blockDataTransfer; const branch = @import("cpu/arm/branch.zig").branch; const branchAndExchange = @import("cpu/arm/branch.zig").branchAndExchange; // THUMB Instruction Groups const format3 = @import("cpu/thumb/format3.zig").format3; pub const ArmInstrFn = fn (*Arm7tdmi, *Bus, u32) void; pub const ThumbInstrFn = fn (*Arm7tdmi, *Bus, u16) void; const arm_lut: [0x1000]ArmInstrFn = armPopulate(); const thumb_lut: [0x400]ThumbInstrFn = thumbPopulate(); pub const Arm7tdmi = struct { const Self = @This(); r: [16]u32, sched: *Scheduler, bus: *Bus, cpsr: PSR, pub fn init(sched: *Scheduler, bus: *Bus) Self { return .{ .r = [_]u32{0x00} ** 16, .sched = sched, .bus = bus, .cpsr = .{ .raw = 0x0000_00DF }, }; } pub fn skipBios(self: *Self) void { self.r[0] = 0x08000000; self.r[1] = 0x000000EA; // GPRs 2 -> 12 *should* already be 0 initialized self.r[13] = 0x0300_7F00; self.r[14] = 0x0000_0000; self.r[15] = 0x0800_0000; // TODO: Set sp_irq = 0x0300_7FA0, sp_svc = 0x0300_7FE0 self.cpsr.raw = 0x6000001F; } pub fn step(self: *Self) u64 { if (self.cpsr.t.read()) { const opcode = self.thumbFetch(); thumb_lut[thumbIdx(opcode)](self, self.bus, opcode); } else { const opcode = self.fetch(); if (checkCond(self.cpsr, @truncate(u4, opcode >> 28))) { arm_lut[armIdx(opcode)](self, self.bus, opcode); } } return 1; } fn thumbFetch(self: *Self) u16 { const halfword = self.bus.read16(self.r[15]); self.r[15] += 2; return halfword; } fn fetch(self: *Self) u32 { const word = self.bus.read32(self.r[15]); self.r[15] += 4; return word; } pub fn fakePC(self: *const Self) u32 { return self.r[15] + 4; } fn mgbaLog(self: *const Self, opcode: u32) void { const stderr = std.io.getStdErr().writer(); std.debug.getStderrMutex().lock(); defer std.debug.getStderrMutex().unlock(); const r0 = self.r[0]; const r1 = self.r[1]; const r2 = self.r[2]; const r3 = self.r[3]; const r4 = self.r[4]; const r5 = self.r[5]; const r6 = self.r[6]; const r7 = self.r[7]; const r8 = self.r[8]; const r9 = self.r[9]; const r10 = self.r[10]; const r11 = self.r[11]; const r12 = self.r[12]; const r13 = self.r[13]; const r14 = self.r[14]; const r15 = self.r[15]; const cpsr = self.cpsr.raw; nosuspend stderr.print("{X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} {X:0>8} cpsr: {X:0>8} | {X:0>8}:\n", .{ r0, r1, r2, r3, r4, r5, r6, r7, r8, r9, r10, r11, r12, r13, r14, r15, cpsr, opcode }) catch return; } }; fn armIdx(opcode: u32) u12 { return @truncate(u12, opcode >> 20 & 0xFF) << 4 | @truncate(u12, opcode >> 4 & 0xF); } fn thumbIdx(opcode: u16) u10 { return @truncate(u10, opcode >> 6); } fn checkCond(cpsr: PSR, cond: u4) bool { // TODO: Should I implement an enum? return switch (cond) { 0x0 => cpsr.z.read(), // EQ - Equal 0x1 => !cpsr.z.read(), // NE - Not equal 0x2 => cpsr.c.read(), // CS - Unsigned higher or same 0x3 => !cpsr.c.read(), // CC - Unsigned lower 0x4 => cpsr.n.read(), // MI - Negative 0x5 => !cpsr.n.read(), // PL - Positive or zero 0x6 => cpsr.v.read(), // VS - Overflow 0x7 => !cpsr.v.read(), // VC - No overflow 0x8 => cpsr.c.read() and !cpsr.z.read(), // HI - unsigned higher 0x9 => !cpsr.c.read() and cpsr.z.read(), // LS - unsigned lower or same 0xA => cpsr.n.read() == cpsr.v.read(), // GE - Greater or equal 0xB => cpsr.n.read() != cpsr.v.read(), // LT - Less than 0xC => !cpsr.z.read() and (cpsr.n.read() == cpsr.v.read()), // GT - Greater than 0xD => cpsr.z.read() or (cpsr.n.read() != cpsr.v.read()), // LE - Less than or equal 0xE => true, // AL - Always 0xF => std.debug.panic("[CPU] 0xF is a reserved condition field", .{}), }; } fn thumbPopulate() [0x400]ThumbInstrFn { return comptime { @setEvalBranchQuota(0xC00); var lut = [_]ThumbInstrFn{thumbUndefined} ** 0x400; var i: usize = 0; while (i < lut.len) : (i += 1) { if (i >> 7 & 0x7 == 0b001) { const op = i >> 5 & 0x3; const rd = i >> 2 & 0x7; lut[i] = format3(op, rd); } } return lut; }; } fn armPopulate() [0x1000]ArmInstrFn { return comptime { @setEvalBranchQuota(0x5000); // TODO: Figure out exact size var lut = [_]ArmInstrFn{armUndefined} ** 0x1000; var i: usize = 0; while (i < lut.len) : (i += 1) { if (i >> 10 & 0x3 == 0b00) { const I = i >> 9 & 1 == 1; const S = i >> 4 & 1 == 1; const instrKind = i >> 5 & 0xF; lut[i] = dataProcessing(I, S, instrKind); } if (i >> 10 & 0x3 == 0b00 and i >> 7 & 0x3 == 0b10 and i >> 4 & 1 == 0) { // PSR Transfer const I = i >> 9 & 1 == 1; const isSpsr = i >> 6 & 1 == 1; lut[i] = psrTransfer(I, isSpsr); } if (i == 0x121) { lut[i] = branchAndExchange; } if (i >> 9 & 0x7 == 0b000 and i >> 3 & 1 == 1 and i & 1 == 1) { const P = i >> 8 & 1 == 1; const U = i >> 7 & 1 == 1; const I = i >> 6 & 1 == 1; const W = i >> 5 & 1 == 1; const L = i >> 4 & 1 == 1; lut[i] = halfAndSignedDataTransfer(P, U, I, W, L); } if (i >> 10 & 0x3 == 0b01) { const I = i >> 9 & 1 == 1; const P = i >> 8 & 1 == 1; const U = i >> 7 & 1 == 1; const B = i >> 6 & 1 == 1; const W = i >> 5 & 1 == 1; const L = i >> 4 & 1 == 1; lut[i] = singleDataTransfer(I, P, U, B, W, L); } if (i >> 9 & 0x7 == 0b100) { const P = i >> 8 & 1 == 1; const U = i >> 7 & 1 == 1; const S = i >> 6 & 1 == 1; const W = i >> 5 & 1 == 1; const L = i >> 4 & 1 == 1; lut[i] = blockDataTransfer(P, U, S, W, L); } if (i >> 9 & 0x7 == 0b101) { const L = i >> 8 & 1 == 1; lut[i] = branch(L); } } return lut; }; } pub const PSR = extern union { mode: Bitfield(u32, 0, 5), t: Bit(u32, 5), f: Bit(u32, 6), i: Bit(u32, 7), v: Bit(u32, 28), c: Bit(u32, 29), z: Bit(u32, 30), n: Bit(u32, 31), raw: u32, }; const Mode = enum(u5) { User = 0b10000, FIQ = 0b10001, IRQ = 0b10010, Supervisor = 0b10011, Abort = 0b10111, Undefined = 0b11011, System = 0b11111, }; fn armUndefined(_: *Arm7tdmi, _: *Bus, opcode: u32) void { const id = armIdx(opcode); std.debug.panic("[CPU:ARM] ID: 0x{X:0>3} 0x{X:0>8} is an illegal opcode", .{ id, opcode }); } fn thumbUndefined(_: *Arm7tdmi, _: *Bus, opcode: u16) void { const id = thumbIdx(opcode); std.debug.panic("[CPU:THUMB] ID: 0b{b:0>10} 0x{X:0>2} is an illegal opcode", .{ id, opcode }); }