// https://www.masswerk.at/6502/6502_instruction_set.html // https://tutorial-6502.sourceforge.io/specification/opcodes/ #include #include #include #define READ_ADDR() \ uint16_t low = m->memory[m->pc++]; \ uint16_t high = m->memory[m->pc++]; \ uint16_t addr = (high << 8) | low typedef struct MOS6502 { uint8_t *memory; uint16_t pc; // TODO // uint8_t A; // uint8_t X; // uint8_t Y; // uint8_t SP; // uint8_t P; } MOS6502; MOS6502 mos6502_create(void) { MOS6502 m = {0}; m.pc = 0x600; m.memory = calloc(1, 1 << 16); return m; } void mos6502_disassemble(MOS6502 *m, size_t program_size) { while (m->pc < 0x600 + program_size) { printf("%04X: ", m->pc); uint8_t op = m->memory[m->pc++]; switch (op) { case 0x00: { printf("BRK\n"); } break; case 0x01: { printf("ORA ($%02X,X)\n", m->memory[m->pc++]); } break; case 0x05: { printf("ORA $%02X\n", m->memory[m->pc++]); } break; case 0x06: { printf("ASL $%02X\n", m->memory[m->pc++]); } break; case 0x08: { printf("PHP\n"); } break; case 0x09: { printf("ORA #$%02X\n", m->memory[m->pc++]); } break; case 0x0A: { printf("ASL A\n"); } break; case 0x0D: { READ_ADDR(); printf("ORA $%04X\n", addr); } break; case 0x0E: { READ_ADDR(); printf("ASL $%04X\n", addr); } break; case 0x10: { int8_t offset = m->memory[m->pc++]; printf("BPL $%04X\n", m->pc + offset); } break; case 0x11: { printf("ORA ($%02X),Y\n", m->memory[m->pc++]); } break; case 0x15: { printf("ORA $%02X,X\n", m->memory[m->pc++]); } break; case 0x16: { printf("ASL $%02X,X\n", m->memory[m->pc++]); } break; case 0x18: { printf("CLC\n"); } break; case 0x19: { READ_ADDR(); printf("ORA $%04X,Y\n", addr); } break; case 0x1D: { READ_ADDR(); printf("ORA $%04X,X\n", addr); } break; case 0x1E: { READ_ADDR(); printf("ASL $%04X,X\n", addr); } break; case 0x20: { READ_ADDR(); printf("JSR $%04X\n", addr); } break; case 0x21: { printf("AND ($%02X,X)\n", m->memory[m->pc++]); } break; case 0x24: { printf("BIT $%02X\n", m->memory[m->pc++]); } break; case 0x25: { printf("AND $%02X\n", m->memory[m->pc++]); } break; case 0x26: { printf("ROL $%02X\n", m->memory[m->pc++]); } break; case 0x28: { printf("PLP\n"); } break; case 0x29: { printf("AND #$%02X\n", m->memory[m->pc++]); } break; case 0x2A: { printf("ROL A\n"); } break; case 0x2C: { READ_ADDR(); printf("BIT $%04X\n", addr); } break; case 0x2D: { READ_ADDR(); printf("AND $%04X\n", addr); } break; case 0x2E: { READ_ADDR(); printf("ROL $%04X\n", addr); } break; case 0x30: { int8_t offset = m->memory[m->pc++]; printf("BMI $%04X\n", m->pc + offset); } break; case 0x31: { printf("AND ($%02X),Y\n", m->memory[m->pc++]); } break; case 0x35: { printf("AND $%02X,X\n", m->memory[m->pc++]); } break; case 0x36: { printf("ROL $%02X,X\n", m->memory[m->pc++]); } break; case 0x38: { printf("SEC\n"); } break; case 0x39: { READ_ADDR(); printf("AND $%04X,Y\n", addr); } break; case 0x3D: { READ_ADDR(); printf("AND $%04X,X\n", addr); } break; case 0x3E: { READ_ADDR(); printf("ROL $%04X,X\n", addr); } break; case 0x40: { printf("RTI\n"); } break; case 0x41: { printf("EOR ($%02X,X)\n", m->memory[m->pc++]); } break; case 0x45: { printf("EOR $%02X\n", m->memory[m->pc++]); } break; case 0x46: { printf("LSR $%02X\n", m->memory[m->pc++]); } break; case 0x48: { printf("PHA\n"); } break; case 0x49: { printf("EOR #$%02X\n", m->memory[m->pc++]); } break; case 0x4A: { printf("LSR A\n"); } break; case 0x4C: { READ_ADDR(); printf("JMP $%04X\n", addr); } break; case 0x4D: { READ_ADDR(); printf("EOR $%04X\n", addr); } break; case 0x4E: { READ_ADDR(); printf("LSR $%04X\n", addr); } break; case 0x50: { int8_t offset = m->memory[m->pc++]; printf("BVC $%04X\n", m->pc + offset); } break; case 0x51: { printf("EOR ($%02X),Y\n", m->memory[m->pc++]); } break; case 0x55: { printf("EOR $%02X,X\n", m->memory[m->pc++]); } break; case 0x56: { printf("LSR $%02X,X\n", m->memory[m->pc++]); } break; case 0x58: { printf("CLI\n"); } break; case 0x59: { READ_ADDR(); printf("EOR $%04X,Y\n", addr); } break; case 0x5D: { READ_ADDR(); printf("EOR $%04X,X\n", addr); } break; case 0x5E: { READ_ADDR(); printf("LSR $%04X,X\n", addr); } break; case 0x60: { printf("RTS\n"); } break; case 0x61: { printf("ADC ($%02X,X)\n", m->memory[m->pc++]); } break; case 0x65: { printf("ADC $%02X\n", m->memory[m->pc++]); } break; case 0x66: { printf("ROR $%02X\n", m->memory[m->pc++]); } break; case 0x68: { printf("PLA\n"); } break; case 0x69: { printf("ADC #$%02X\n", m->memory[m->pc++]); } break; case 0x6A: { printf("ROR A\n"); } break; case 0x6C: { READ_ADDR(); printf("JMP ($%04X)\n", addr); } break; case 0x6D: { READ_ADDR(); printf("ADC $%04X\n", addr); } break; case 0x6E: { READ_ADDR(); printf("ROR $%04X\n", addr); } break; case 0x70: { int8_t offset = m->memory[m->pc++]; printf("BVS $%04X\n", m->pc + offset); } break; case 0x71: { printf("ADC ($%02X),Y\n", m->memory[m->pc++]); } break; case 0x75: { printf("ADC $%02X,X\n", m->memory[m->pc++]); } break; case 0x76: { printf("ROR $%02X,X\n", m->memory[m->pc++]); } break; case 0x78: { printf("SEI\n"); } break; case 0x79: { READ_ADDR(); printf("ADC $%04X,Y\n", addr); } break; case 0x7E: { READ_ADDR(); printf("ROR $%04X,X\n", addr); } break; case 0x7D: { READ_ADDR(); printf("ADC $%04X,X\n", addr); } break; case 0x81: { printf("STA ($%02X,X)\n", m->memory[m->pc++]); } break; case 0x84: { printf("STY $%02X\n", m->memory[m->pc++]); } break; case 0x85: { printf("STA $%02X\n", m->memory[m->pc++]); } break; case 0x86: { printf("STX $%02X\n", m->memory[m->pc++]); } break; case 0x88: { printf("DEY\n"); } break; case 0x8A: { printf("TXA\n"); } break; case 0x8C: { READ_ADDR(); printf("STY $%04X\n", addr); } break; case 0x8D: { READ_ADDR(); printf("STA $%04X\n", addr); } break; case 0x8E: { READ_ADDR(); printf("STX $%04X\n", addr); } break; case 0x90: { int8_t offset = m->memory[m->pc++]; printf("BCC $%04X\n", m->pc + offset); } break; case 0x91: { printf("STA ($%02X),Y\n", m->memory[m->pc++]); } break; case 0x94: { printf("STY $%02X,X\n", m->memory[m->pc++]); } break; case 0x95: { printf("STA $%02X,X\n", m->memory[m->pc++]); } break; case 0x96: { printf("STX $%02X,Y\n", m->memory[m->pc++]); } break; case 0x98: { printf("TYA\n"); } break; case 0x99: { READ_ADDR(); printf("STA $%04X,Y\n", addr); } break; case 0x9A: { printf("TXS\n"); } break; case 0x9D: { READ_ADDR(); printf("STA $%04X,X\n", addr); } break; case 0xA0: { printf("LDY #$%02X\n", m->memory[m->pc++]); } break; case 0xA1: { printf("LDA ($%02X,X)\n", m->memory[m->pc++]); } break; case 0xA2: { printf("LDX #$%02X\n", m->memory[m->pc++]); } break; case 0xA4: { printf("LDY $%02X\n", m->memory[m->pc++]); } break; case 0xA5: { printf("LDA $%02X\n", m->memory[m->pc++]); } break; case 0xA6: { printf("LDX $%02X\n", m->memory[m->pc++]); } break; case 0xA8: { printf("TAY\n"); } break; case 0xA9: { printf("LDA #$%02X\n", m->memory[m->pc++]); } break; case 0xAA: { printf("TAX\n"); } break; case 0xAC: { READ_ADDR(); printf("LDY $%04X\n", addr); } break; case 0xAD: { READ_ADDR(); printf("LDA $%04X\n", addr); } break; case 0xAE: { READ_ADDR(); printf("LDX $%04X\n", addr); } break; case 0xB0: { int8_t offset = m->memory[m->pc++]; printf("BCS $%04X\n", m->pc + offset); } break; case 0xB1: { printf("LDA ($%02X,Y)\n", m->memory[m->pc++]); } break; case 0xB4: { printf("LDY $%02X,X\n", m->memory[m->pc++]); } break; case 0xB5: { printf("LDA $%02X,X\n", m->memory[m->pc++]); } break; case 0xB6: { printf("LDX $%02X,Y\n", m->memory[m->pc++]); } break; case 0xB8: { printf("CLV\n"); } break; case 0xB9: { READ_ADDR(); printf("LDA $%04X,Y\n", addr); } break; case 0xBA: { printf("TSX\n"); } break; case 0xBC: { READ_ADDR(); printf("LDY $%04X,X\n", addr); } break; case 0xBD: { READ_ADDR(); printf("LDA $%04X,X\n", addr); } break; case 0xBE: { READ_ADDR(); printf("LDX $%04X,Y\n", addr); } break; case 0xC0: { printf("CPY #$%02X\n", m->memory[m->pc++]); } break; case 0xC1: { printf("CMP ($%02X,X)\n", m->memory[m->pc++]); } break; case 0xC4: { printf("CPY $%02X\n", m->memory[m->pc++]); } break; case 0xC5: { printf("CMP $%02X\n", m->memory[m->pc++]); } break; case 0xC6: { printf("DEC $%02X\n", m->memory[m->pc++]); } break; case 0xC8: { printf("INY\n"); } break; case 0xC9: { printf("CMP #$%02X\n", m->memory[m->pc++]); } break; case 0xCA: { printf("DEX\n"); } break; case 0xCC: { READ_ADDR(); printf("CPY $%04X\n", addr); } break; case 0xCD: { READ_ADDR(); printf("CMP $%04X\n", addr); } break; case 0xCE: { READ_ADDR(); printf("DEC $%04X\n", addr); } break; case 0xD0: { int8_t offset = m->memory[m->pc++]; printf("BNE $%04X\n", m->pc + offset); } break; case 0xD1: { printf("CMP ($%02X),Y\n", m->memory[m->pc++]); } break; case 0xD5: { printf("CMP $%02X,X\n", m->memory[m->pc++]); } break; case 0xD6: { printf("DEC $%02X,X\n", m->memory[m->pc++]); } break; case 0xD8: { printf("CLD\n"); } break; case 0xD9: { READ_ADDR(); printf("CMP $%04X,Y\n", addr); } break; case 0xDD: { READ_ADDR(); printf("CMP $%04X,X\n", addr); } break; case 0xDE: { READ_ADDR(); printf("DEC $%04X,X\n", addr); } break; case 0xE0: { printf("CPX #$%02X\n", m->memory[m->pc++]); } break; case 0xE1: { printf("SBC ($%02X,X)\n", m->memory[m->pc++]); } break; case 0xE4: { printf("CPX $%02X\n", m->memory[m->pc++]); } break; case 0xE5: { printf("SBC $%02X\n", m->memory[m->pc++]); } break; case 0xE6: { printf("INC $%02X\n", m->memory[m->pc++]); } break; case 0xE8: { printf("INX\n"); } break; case 0xE9: { printf("SBC #$%02X\n", m->memory[m->pc++]); } break; case 0xEA: { printf("NOP\n"); } break; case 0xEC: { READ_ADDR(); printf("CPX $%04X\n", addr); } break; case 0xED: { READ_ADDR(); printf("SBC $%04X\n", addr); } break; case 0xEE: { READ_ADDR(); printf("INC $%04X\n", addr); } break; case 0xF0: { int8_t offset = m->memory[m->pc++]; printf("BEQ $%04X\n", m->pc + offset); } break; case 0xF1: { printf("SBC ($%02X),Y\n", m->memory[m->pc++]); } break; case 0xF5: { printf("SBC $%02X,X\n", m->memory[m->pc++]); } break; case 0xF6: { printf("INC $%02X,X\n", m->memory[m->pc++]); } break; case 0xF8: { printf("SED\n"); } break; case 0xF9: { READ_ADDR(); printf("SBC $%04X,Y\n", addr); } break; case 0xFD: { READ_ADDR(); printf("SBC $%04X,X\n", addr); } break; case 0xFE: { READ_ADDR(); printf("INC $%04X,X\n", addr); } break; default: fprintf(stderr, "unrecognized opcode: %02X\n", op); exit(1); } } } void mos6502_free(MOS6502 m) { free(m.memory); } int main(int argc, char *argv[]) { if (argc < 2) { fprintf(stderr, "Usage: %s \n", argv[0]); return 1; } MOS6502 m = mos6502_create(); uint8_t buffer[1 << 16] = {0}; FILE *f = fopen(argv[1], "rb"); size_t n = fread(buffer, 1, 1 << 16, f); fclose(f); for (size_t i = 0; i < n; i++) { m.memory[0x600 + i] = buffer[i]; } mos6502_disassemble(&m, n); mos6502_free(m); }