/* Capstone Disassembler Engine */ /* By Sebastian Macke , 2018 */ #include #include #include #include struct platform { cs_arch arch; cs_mode mode; unsigned char *code; size_t size; const char *comment; }; static csh handle; static void print_string_hex(const char *comment, unsigned char *str, size_t len) { unsigned char *c; printf("%s", comment); for (c = str; c < str + len; c++) { printf(" 0x%02x", *c & 0xff); } printf("\n"); } static const char *get_am_name(mos65xx_address_mode mode) { switch(mode) { default: case MOS65XX_AM_NONE: return "No address mode"; case MOS65XX_AM_IMP: return "implied"; case MOS65XX_AM_ACC: return "accumulator"; case MOS65XX_AM_IMM: return "immediate value"; case MOS65XX_AM_REL: return "relative"; case MOS65XX_AM_INT: return "interrupt signature"; case MOS65XX_AM_BLOCK: return "block move"; case MOS65XX_AM_ZP: return "zero page"; case MOS65XX_AM_ZP_X: return "zero page indexed with x"; case MOS65XX_AM_ZP_Y: return "zero page indexed with y"; case MOS65XX_AM_ZP_REL: return "relative bit branch"; case MOS65XX_AM_ZP_IND: return "zero page indirect"; case MOS65XX_AM_ZP_X_IND: return "zero page indexed with x indirect"; case MOS65XX_AM_ZP_IND_Y: return "zero page indirect indexed with y"; case MOS65XX_AM_ZP_IND_LONG: return "zero page indirect long"; case MOS65XX_AM_ZP_IND_LONG_Y: return "zero page indirect long indexed with y"; case MOS65XX_AM_ABS: return "absolute"; case MOS65XX_AM_ABS_X: return "absolute indexed with x"; case MOS65XX_AM_ABS_Y: return "absolute indexed with y"; case MOS65XX_AM_ABS_IND: return "absolute indirect"; case MOS65XX_AM_ABS_X_IND: return "absolute indexed with x indirect"; case MOS65XX_AM_ABS_IND_LONG: return "absolute indirect long"; case MOS65XX_AM_ABS_LONG: return "absolute long"; case MOS65XX_AM_ABS_LONG_X: return "absolute long indexed with x"; case MOS65XX_AM_SR: return "stack relative"; case MOS65XX_AM_SR_IND_Y: return "stack relative indirect indexed with y"; } } static void print_insn_detail(cs_insn *ins) { cs_mos65xx *mos65xx; int i; // detail can be NULL on "data" instruction if SKIPDATA option is turned ON if (ins->detail == NULL) return; mos65xx = &(ins->detail->mos65xx); // printf("insn_detail\n"); printf("\taddress mode: %s\n", get_am_name(mos65xx->am)); printf("\tmodifies flags: %s\n", mos65xx->modifies_flags ? "true": "false"); if (mos65xx->op_count) printf("\top_count: %u\n", mos65xx->op_count); for (i = 0; i < mos65xx->op_count; i++) { cs_mos65xx_op *op = &(mos65xx->operands[i]); switch((int)op->type) { default: break; case MOS65XX_OP_REG: printf("\t\toperands[%u].type: REG = %s\n", i, cs_reg_name(handle, op->reg)); break; case MOS65XX_OP_IMM: printf("\t\toperands[%u].type: IMM = 0x%x\n", i, op->imm); break; case MOS65XX_OP_MEM: printf("\t\toperands[%u].type: MEM = 0x%x\n", i, op->mem); break; } } } static void test() { #define M6502_CODE "\xa1\x12\xa5\x12\xa9\x12\xad\x34\x12\xb1\x12\xb5\x12\xb9\x34\x12\xbd\x34\x12" \ "\x0d\x34\x12\x00\x81\x87\x6c\x01\x00\x85\xFF\x10\x00\x19\x42\x42\x00\x49\x42" #define M65C02_CODE "\x1a\x3a" \ "\x02\x12\x03\x5c\x34\x12" #define MW65C02_CODE \ "\x07\x12\x27\x12\x47\x12\x67\x12\x87\x12\xa7\x12\xc7\x12\xe7\x12" \ "\x0f\x12\xfd\x4f\x12\xfd\x8f\x12\xfd\xcf\x12\xfd" #define M65816_CODE \ "\xa9\x34\x12" "\xad\x34\x12" "\xbd\x34\x12" "\xb9\x34\x12" \ "\xaf\x56\x34\x12" "\xbf\x56\x34\x12" \ "\xa5\x12" "\xb5\x12" "\xb2\x12" "\xa1\x12" "\xb1\x12" "\xa7\x12" "\xb7\x12" \ "\xa3\x12" "\xb3\x12" \ "\xc2\x00" "\xe2\x00" "\x54\x34\x12" "\x44\x34\x12" "\x02\x12" struct platform platforms[] = { { CS_ARCH_MOS65XX, (cs_mode)(CS_MODE_MOS65XX_6502), (unsigned char *)M6502_CODE, sizeof(M6502_CODE) - 1, "MOS65XX_6502" }, { CS_ARCH_MOS65XX, (cs_mode)(CS_MODE_MOS65XX_65C02), (unsigned char *)M65C02_CODE, sizeof(M65C02_CODE) - 1, "MOS65XX_65C02" }, { CS_ARCH_MOS65XX, (cs_mode)(CS_MODE_MOS65XX_W65C02), (unsigned char *)MW65C02_CODE, sizeof(MW65C02_CODE) - 1, "MOS65XX_W65C02" }, { CS_ARCH_MOS65XX, (cs_mode)(CS_MODE_MOS65XX_65816_LONG_MX), (unsigned char *)M65816_CODE, sizeof(M65816_CODE) - 1, "MOS65XX_65816 (long m/x)" }, }; uint64_t address = 0x1000; cs_insn *insn; int i; size_t count; for (i = 0; i < sizeof(platforms)/sizeof(platforms[0]); i++) { cs_err err = cs_open(platforms[i].arch, platforms[i].mode, &handle); if (err) { printf("Failed on cs_open() with error returned: %u (%s)\n", err, cs_strerror(err)); abort(); } cs_option(handle, CS_OPT_DETAIL, CS_OPT_ON); cs_option(handle, CS_OPT_SYNTAX, CS_OPT_SYNTAX_MOTOROLA); count = cs_disasm(handle, platforms[i].code, platforms[i].size, address, 0, &insn); if (count) { size_t j; printf("****************\n"); printf("Platform: %s\n", platforms[i].comment); print_string_hex("Code:", platforms[i].code, platforms[i].size); printf("Disasm:\n"); for (j = 0; j < count; j++) { printf("0x%" PRIx64 ":\t%s\t%s\n", insn[j].address, insn[j].mnemonic, insn[j].op_str); print_insn_detail(&insn[j]); puts(""); } printf("0x%" PRIx64 ":\n", insn[j-1].address + insn[j-1].size); // free memory allocated by cs_disasm() cs_free(insn, count); } else { printf("****************\n"); printf("Platform: %s\n", platforms[i].comment); print_string_hex("Code:", platforms[i].code, platforms[i].size); printf("ERROR: Failed to disasm given code!\n"); abort(); } printf("\n"); cs_close(&handle); } } int main() { test(); return 0; }