#include "stdafx.h" #include "../inc/Disassembler.h" #include #include #include #include "../inc/LR35902.h" #include "../inc/IoRegisters.h" EightBit::GameBoy::Disassembler::Disassembler(Bus& bus) noexcept : m_bus(bus) { // Disable exceptions where too many format arguments are available m_formatter.exceptions(boost::io::all_error_bits ^ boost::io::too_many_args_bit); } std::string EightBit::GameBoy::Disassembler::state(LR35902& cpu) { auto pc = cpu.PC(); auto sp = cpu.SP(); auto a = cpu.A(); auto f = cpu.F(); auto b = cpu.B(); auto c = cpu.C(); auto d = cpu.D(); auto e = cpu.E(); auto h = cpu.H(); auto l = cpu.L(); const auto maskedInterrupts = cpu.maskedInterrupts(); const auto ime = cpu.IME(); std::ostringstream output; output << "PC=" << pc << " " << "SP=" << sp << " " << "A=" << hex(a) << " " << "F=" << flags(f) << " " << "B=" << hex(b) << " " << "C=" << hex(c) << " " << "D=" << hex(d) << " " << "E=" << hex(e) << " " << "H=" << hex(h) << " " << "L=" << hex(l); // Interrupt handling output << " IME:" << (ime ? "I" : "-"); output << " IE:" << interrupt(cpu.enabledInterrupts()); output << " IF:" << interrupt(cpu.flaggedInterrupts()); output << " (" << interrupt(cpu.maskedInterrupts()) << ")"; return output.str(); } std::string EightBit::GameBoy::Disassembler::RP(int rp) const { switch (rp) { case 0: return "BC"; case 1: return "DE"; case 2: return "HL"; case 3: return "SP"; } throw std::logic_error("Unhandled register pair"); } std::string EightBit::GameBoy::Disassembler::RP2(int rp) const { switch (rp) { case 0: return "BC"; case 1: return "DE"; case 2: return "HL"; case 3: return "AF"; } throw std::logic_error("Unhandled register pair"); } std::string EightBit::GameBoy::Disassembler::R(int r) const { switch (r) { case 0: return "B"; case 1: return "C"; case 2: return "D"; case 3: return "E"; case 4: return "H"; case 5: return "L"; case 6: return "(HL)"; case 7: return "A"; } throw std::logic_error("Unhandled register"); } std::string EightBit::GameBoy::Disassembler::cc(int flag) { switch (flag) { case 0: return "NZ"; case 1: return "Z"; case 2: return "NC"; case 3: return "C"; case 4: return "PO"; case 5: return "PE"; case 6: return "P"; case 7: return "M"; } throw std::logic_error("Unhandled condition"); } std::string EightBit::GameBoy::Disassembler::alu(int which) { switch (which) { case 0: // ADD A,n return "ADD"; case 1: // ADC return "ADC"; case 2: // SUB n return "SUB"; case 3: // SBC A,n return "SBC"; case 4: // AND n return "AND"; case 5: // XOR n return "XOR"; case 6: // OR n return "OR"; case 7: // CP n return "CP"; } throw std::logic_error("Unhandled alu operation"); } std::string EightBit::GameBoy::Disassembler::disassemble(LR35902& cpu) { m_prefixCB = false; std::ostringstream output; disassemble(output, cpu, cpu.PC().word); return output.str(); } void EightBit::GameBoy::Disassembler::disassemble(std::ostringstream& output, LR35902& cpu, uint16_t pc) { auto opcode = BUS().peek(pc); // hex opcode output << hex(opcode); auto x = (opcode & 0b11000000) >> 6; auto y = (opcode & 0b111000) >> 3; auto z = (opcode & 0b111); auto p = (y & 0b110) >> 1; auto q = (y & 1); auto immediate = BUS().peek(pc + 1); auto absolute = cpu.peekWord(pc + 1).word; auto displacement = (int8_t)immediate; auto relative = pc + displacement + 2; auto indexedImmediate = BUS().peek(pc + 1); auto dumpCount = 0; auto ioRegister = IoRegister::Unused; std::string specification = ""; if (m_prefixCB) disassembleCB( output, cpu, pc, specification, dumpCount, x, y, z, p, q); else disassembleOther( output, cpu, pc, specification, dumpCount, ioRegister, x, y, z, p, q); for (int i = 0; i < dumpCount; ++i) output << hex(BUS().peek(pc + i + 1)); output << '\t'; m_formatter.parse(specification); output << m_formatter % (int)immediate % (int)absolute % relative % (int)displacement % indexedImmediate; switch (ioRegister) { case IoRegister::Abbreviated: output << "; register " << io(immediate); break; case IoRegister::Absolute: output << "; register (Absolute)"; break; case IoRegister::Register: output << "; register C:" << io(cpu.C()); break; case IoRegister::Unused: break; default: UNREACHABLE; } } void EightBit::GameBoy::Disassembler::disassembleCB( std::ostringstream&, LR35902&, uint16_t, std::string& specification, int&, int x, int y, int z, int, int) { switch (x) { case 0: // rot[y] r[z] switch (y) { case 0: specification = "RLC " + R(z); break; case 1: specification = "RRC " + R(z); break; case 2: specification = "RL " + R(z); break; case 3: specification = "RR " + R(z); break; case 4: specification = "SLA " + R(z); break; case 5: specification = "SRA " + R(z); break; case 6: specification = "SWAP " + R(z); break; case 7: specification = "SRL " + R(z); break; } break; case 1: // BIT y, r[z] specification = "BIT " + decimal(y) + "," + R(z); break; case 2: // RES y, r[z] specification = "RES " + decimal(y) + "," + R(z); break; case 3: // SET y, r[z] specification = "SET " + decimal(y) + "," + R(z); break; } } void EightBit::GameBoy::Disassembler::disassembleOther( std::ostringstream& output, LR35902& cpu, uint16_t pc, std::string& specification, int& dumpCount, IoRegister& ioRegister, int x, int y, int z, int p, int q) { switch (x) { case 0: switch (z) { case 0: // Relative jumps and assorted ops switch (y) { case 0: // NOP specification = "NOP"; break; case 1: // GB: LD (nn),SP specification = "LD (%2$04XH),SP"; dumpCount += 2; break; case 2: // GB: STOP specification = "STOP"; break; case 3: // JR d specification = "JR %3$04XH"; dumpCount++; break; default: // JR cc,d specification = "JR " + cc(y - 4) + ",%3$04XH"; dumpCount++; break; } break; case 1: // 16-bit load immediate/add switch (q) { case 0: // LD rp,nn specification = "LD " + RP(p) + ",%2$04XH"; dumpCount += 2; break; case 1: // ADD HL,rp specification = "ADD HL," + RP(p); break; } break; case 2: // Indirect loading switch (q) { case 0: switch (p) { case 0: // LD (BC),A specification = "LD (BC),A"; break; case 1: // LD (DE),A specification = "LD (DE),A"; break; case 2: // GB: LDI (HL),A specification = "LDI (HL),A"; break; case 3: // GB: LDD (HL),A specification = "LDD (HL),A"; break; } break; case 1: switch (p) { case 0: // LD A,(BC) specification = "LD A,(BC)"; break; case 1: // LD A,(DE) specification = "LD A,(DE)"; break; case 2: // GB: LDI A,(HL) specification = "LDI A,(HL)"; break; case 3: // GB: LDD A,(HL) specification = "LDD A,(HL)"; break; } break; } break; case 3: // 16-bit INC/DEC switch (q) { case 0: // INC rp specification = "INC " + RP(p); break; case 1: // DEC rp specification = "DEC " + RP(p); break; } break; case 4: // 8-bit INC specification = "INC " + R(y); break; case 5: // 8-bit DEC specification = "DEC " + R(y); break; case 6: // 8-bit load immediate specification = "LD " + R(y) + ",%1$02XH"; dumpCount++; break; case 7: // Assorted operations on accumulator/flags switch (y) { case 0: specification = "RLCA"; break; case 1: specification = "RRCA"; break; case 2: specification = "RLA"; break; case 3: specification = "RRA"; break; case 4: specification = "DAA"; break; case 5: specification = "CPL"; break; case 6: specification = "SCF"; break; case 7: specification = "CCF"; break; } break; } break; case 1: // 8-bit loading if (z == 6 && y == 6) { // Exception (replaces LD (HL), (HL)) specification = "HALT"; } else { specification = "LD " + R(y) + "," + R(z); } break; case 2: // Operate on accumulator and register/memory location specification = alu(y) + " A," + R(z); break; case 3: switch (z) { case 0: // Conditional return switch (y) { case 0: case 1: case 2: case 3: specification = "RET " + cc(y); break; case 4: specification = "LD (FF00H+%1$02XH),A"; ioRegister = IoRegister::Abbreviated; dumpCount++; break; case 5: specification = "ADD SP,%3$04XH"; dumpCount++; break; case 6: specification = "LD A,(FF00H+%1$02XH)"; ioRegister = IoRegister::Abbreviated; dumpCount++; break; case 7: specification = "LD HL,SP+%4%"; dumpCount++; break; } break; case 1: // POP & various ops switch (q) { case 0: // POP rp2[p] specification = "POP " + RP2(p); break; case 1: switch (p) { case 0: // RET specification = "RET"; break; case 1: // GB: RETI specification = "RETI"; break; case 2: // JP (HL) specification = "JP (HL)"; break; case 3: // LD SP,HL specification = "LD SP,HL"; break; } } break; case 2: // Conditional jump switch (y) { case 0: case 1: case 2: case 3: specification = "JP " + cc(y) + ",%2$04XH"; dumpCount += 2; break; case 4: specification = "LD (FF00H+C),A"; ioRegister = IoRegister::Register; break; case 5: specification = "LD (%2$04XH),A"; dumpCount += 2; break; case 6: specification = "LD A,(FF00H+C)"; ioRegister = IoRegister::Register; break; case 7: specification = "LD A,(%2$04XH)"; dumpCount += 2; break; } break; case 3: // Assorted operations switch (y) { case 0: // JP nn specification = "JP %2$04XH"; dumpCount += 2; break; case 1: // CB prefix m_prefixCB = true; disassemble(output, cpu, pc + 1); break; case 6: // DI specification = "DI"; break; case 7: // EI specification = "EI"; break; } break; case 4: // Conditional call: CALL cc[y], nn specification = "CALL " + cc(y) + ",%2$04XH"; dumpCount += 2; break; case 5: // PUSH & various ops switch (q) { case 0: // PUSH rp2[p] specification = "PUSH " + RP2(p); break; case 1: switch (p) { case 0: // CALL nn specification = "CALL %2$04XH"; dumpCount += 2; break; } } break; case 6: // Operate on accumulator and immediate operand: alu[y] n specification = alu(y) + " A,%1$02XH"; dumpCount++; break; case 7: // Restart: RST y * 8 specification = "RST " + hex((uint8_t)(y * 8)) + "H"; break; } break; } } std::string EightBit::GameBoy::Disassembler::flag(uint8_t value, int flag, const std::string represents) { std::ostringstream output; output << (value & flag ? represents : "-"); return output.str(); } std::string EightBit::GameBoy::Disassembler::flags(uint8_t value) { std::ostringstream output; output << flag(value, LR35902::ZF, "Z") << flag(value, LR35902::NF, "N") << flag(value, LR35902::HC, "H") << flag(value, LR35902::CF, "C") << flag(value, EightBit::Chip::Bit3, "+") << flag(value, EightBit::Chip::Bit2, "+") << flag(value, EightBit::Chip::Bit1, "+") << flag(value, EightBit::Chip::Bit0, "+"); return output.str(); } std::string EightBit::GameBoy::Disassembler::hex(uint8_t value) { std::ostringstream output; output << std::hex << std::setw(2) << std::setfill('0') << (int)value; return output.str(); } std::string EightBit::GameBoy::Disassembler::hex(uint16_t value) { std::ostringstream output; output << std::hex << std::setw(4) << std::setfill('0') << (int)value; return output.str(); } std::string EightBit::GameBoy::Disassembler::binary(uint8_t value) { std::ostringstream output; output << std::bitset<8>(value); return output.str(); } std::string EightBit::GameBoy::Disassembler::decimal(uint8_t value) { std::ostringstream output; output << (int)value; return output.str(); } std::string EightBit::GameBoy::Disassembler::invalid(uint8_t value) { std::ostringstream output; output << "Invalid instruction: " << hex(value) << "(" << binary(value) << ")"; return output.str(); } std::string EightBit::GameBoy::Disassembler::io(uint8_t value) { switch (value) { // Port/Mode Registers case IoRegisters::P1: return "P1"; case IoRegisters::SB: return "SB"; case IoRegisters::SC: return "SC"; case IoRegisters::DIV: return "DIV"; case IoRegisters::TIMA: return "TIMA"; case IoRegisters::TMA: return "TMA"; case IoRegisters::TAC: return "TAC"; // Interrupt Flags case IoRegisters::IF: return "IF"; case IoRegisters::IE: return "IE"; // LCD Display Registers case IoRegisters::LCDC: return "LCDC"; case IoRegisters::STAT: return "STAT"; case IoRegisters::SCY: return "SCY"; case IoRegisters::SCX: return "SCX"; case IoRegisters::LY: return "LY"; case IoRegisters::LYC: return "LYC"; case IoRegisters::DMA: return "DMA"; case IoRegisters::BGP: return "BGP"; case IoRegisters::OBP0: return "OBP0"; case IoRegisters::OBP1: return "OBP1"; case IoRegisters::WY: return "WY"; case IoRegisters::WX: return "WX"; // Sound Registers case IoRegisters::NR10: return "NR10"; case IoRegisters::NR11: return "NR11"; case IoRegisters::NR12: return "NR12"; case IoRegisters::NR13: return "NR13"; case IoRegisters::NR14: return "NR14"; case IoRegisters::NR21: return "NR21"; case IoRegisters::NR22: return "NR22"; case IoRegisters::NR23: return "NR23"; case IoRegisters::NR24: return "NR24"; case IoRegisters::NR30: return "NR30"; case IoRegisters::NR31: return "NR31"; case IoRegisters::NR32: return "NR32"; case IoRegisters::NR33: return "NR33"; case IoRegisters::NR34: return "NR34"; case IoRegisters::NR41: return "NR41"; case IoRegisters::NR42: return "NR42"; case IoRegisters::NR43: return "NR43"; case IoRegisters::NR44: return "NR44"; case IoRegisters::NR50: return "NR50"; case IoRegisters::NR51: return "NR51"; case IoRegisters::NR52: return "NR52"; case IoRegisters::WAVE_PATTERN_RAM_START: return "WAVE_PATTERN_RAM_START"; case IoRegisters::WAVE_PATTERN_RAM_END: return "WAVE_PATTERN_RAM_END"; // Boot rom control case IoRegisters::BOOT_DISABLE: return "BOOT_DISABLE"; default: return hex(value); } } std::string EightBit::GameBoy::Disassembler::interrupt(uint8_t value) { std::ostringstream output; const auto ik = value & IoRegisters::KeypadPressed; output << (ik ? "K" : "-"); const auto is = value & IoRegisters::SerialTransfer; output << (is ? "S" : "-"); const auto it = value & IoRegisters::TimerOverflow; output << (it ? "T" : "-"); const auto id = value & IoRegisters::DisplayControlStatus; output << (id ? "D" : "-"); const auto iv = value & IoRegisters::VerticalBlank; output << (iv ? "V" : "-"); return output.str(); }