// Capstone Java binding /* M680X Backend by Wolfgang Schwotzer 2017 */ import java.lang.*; import capstone.Capstone; import capstone.M680x; import static capstone.M680x_const.*; public class TestM680x { static final String sAccess[] = { "UNCHANGED", "READ", "WRITE", "READ | WRITE", }; static final String M6800_CODE = "010936647f7410009010A410b6100039"; static final String M6801_CODE = "04053c3d389310ec10ed1039"; static final String M6805_CODE = "047f00172228002e0040425a708e979ca015ad00c31000da1234e57ffe"; static final String M6808_CODE = "31220035224510004b005110525e226265123472848586878a8b8c9495a710af109e607f9e6b7f009ed610009ee67f"; static final String HD6301_CODE = "6b100071100072101039"; static final String M6809_CODE = "0610191a551e0123e931063455a681a7897fffa69d1000a791a69f100011ac99100039A607A627A647A667A60FA610A680A681A682A683A684A685A686A6887FA68880A6897FFFA6898000A68BA68C10A68D1000A691A693A694A695A696A6987FA69880A6997FFFA6998000A69BA69C10A69D1000A69F1000"; static final String M6811_CODE = "0203127f100013990800147f02157f011e7f20008fcf18081830183c1867188c1000188f18ce100018ff10001aa37f1aac1aee7f1aef7fcdac7f"; static final String CPU12_CODE = "000401000c00800e008000111e100080003b4a1000044b01044f7f80008f1000b752b7b1a667a6fea6f71802e23039e21000180c30391000181118121000181900181e00183e183f00"; static final String HD6309_CODE = "0110106210107b101000cd499602d21030231038103b1053105d1130431011372510113812113923113b34118e100011af1011ab1011f68000"; static final String HCS08_CODE = "3210009eae9ece7f9ebe10009efe7f3e10009ef37f9610009eff7f82"; static byte[] hexString2Byte(String s) { // from http://stackoverflow.com/questions/140131/convert-a-string-representation-of-a-hex-dump-to-a-byte-array-using-java int len = s.length(); byte[] data = new byte[len / 2]; for (int i = 0; i < len; i += 2) { data[i / 2] = (byte) ((Character.digit(s.charAt(i), 16) << 4) + Character.digit(s.charAt(i+1), 16)); } return data; } static public String stringToHexUc(byte[] code) { StringBuilder buf = new StringBuilder(800); for (byte ch: code) { buf.append(String.format(" 0x%02X", ch)); } return buf.toString(); } static public String stringToHexShortUc(byte[] code) { StringBuilder buf = new StringBuilder(800); for (byte ch: code) { buf.append(String.format("%02X", ch)); } return buf.toString(); } public static Capstone cs; /* private static String hex(int i) { return Integer.toString(i, 16); } private static String hex(long i) { return Long.toString(i, 16); } */ public static void print_ins_detail(Capstone.CsInsn ins) { String bytes = stringToHexShortUc(ins.bytes); System.out.printf("0x%04X:\t%s\t%s\t%s\n", ins.address, bytes, ins.mnemonic, ins.opStr); M680x.OpInfo operands = (M680x.OpInfo) ins.operands; if (operands.op.length != 0) { System.out.printf("\top_count: %d\n", operands.op.length); for (int c = 0; c < operands.op.length; c++) { M680x.Operand i = (M680x.Operand) operands.op[c]; if (i.type == M680X_OP_REGISTER) { String comment = ""; if ((c == 0 && ((operands.flags & M680X_FIRST_OP_IN_MNEM) != 0)) || (c == 1 && ((operands.flags & M680X_SECOND_OP_IN_MNEM) != 0))) comment = " (in mnemonic)"; System.out.printf("\t\toperands[%d].type: REGISTER = %s%s\n", c, ins.regName(i.value.reg), comment); } if (i.type == M680X_OP_CONSTANT) System.out.printf("\t\toperands[%d].type: CONSTANT = %d\n", c, i.value.const_val); if (i.type == M680X_OP_IMMEDIATE) System.out.printf("\t\toperands[%d].type: IMMEDIATE = #%d\n", c, i.value.imm); if (i.type == M680X_OP_DIRECT) System.out.printf("\t\toperands[%d].type: DIRECT = 0x%02X\n", c, i.value.direct_addr); if (i.type == M680X_OP_EXTENDED) System.out.printf("\t\toperands[%d].type: EXTENDED %s = 0x%04X\n", c, i.value.ext.indirect != 0 ? "INDIRECT" : "", i.value.ext.address); if (i.type == M680X_OP_RELATIVE) System.out.printf("\t\toperands[%d].type: RELATIVE = 0x%04X\n", c, i.value.rel.address ); if (i.type == M680X_OP_INDEXED) { System.out.printf("\t\toperands[%d].type: INDEXED%s\n", c, (i.value.idx.flags & M680X_IDX_INDIRECT) != 0 ? " INDIRECT" : ""); if (i.value.idx.base_reg != M680X_REG_INVALID) { String regName = ins.regName(i.value.idx.base_reg); if (regName != null) System.out.printf("\t\t\tbase register: %s\n", regName); } if (i.value.idx.offset_reg != M680X_REG_INVALID) { String regName = ins.regName(i.value.idx.offset_reg); if (regName != null) System.out.printf("\t\t\toffset register: %s\n", regName); } if ((i.value.idx.offset_bits != 0) && (i.value.idx.offset_reg == M680X_REG_INVALID) && (i.value.idx.inc_dec == 0)) { System.out.printf("\t\t\toffset: %d\n", i.value.idx.offset); if (i.value.idx.base_reg == M680X_REG_PC) System.out.printf("\t\t\toffset address: 0x%04X\n", i.value.idx.offset_addr); System.out.printf("\t\t\toffset bits: %d\n", i.value.idx.offset_bits); } if (i.value.idx.inc_dec != 0) { String post_pre = (i.value.idx.flags & M680X_IDX_POST_INC_DEC) != 0 ? "post" : "pre"; String inc_dec = i.value.idx.inc_dec > 0 ? "increment" : "decrement"; System.out.printf("\t\t\t%s %s: %d\n", post_pre, inc_dec, Math.abs(i.value.idx.inc_dec)); } } if (i.size != 0) System.out.printf("\t\t\tsize: %d\n", i.size); if (i.access != Capstone.CS_AC_INVALID) System.out.printf("\t\t\taccess: %s\n", sAccess[i.access]); } } if (ins.regsRead.length > 0) { System.out.printf("\tRegisters read:"); for (int c = 0; c < ins.regsRead.length; c++) { System.out.printf(" %s", ins.regName(ins.regsRead[c])); } System.out.printf("\n"); } if (ins.regsWrite.length > 0) { System.out.printf("\tRegisters modified:"); for (int c = 0; c < ins.regsWrite.length; c++) { System.out.printf(" %s", ins.regName(ins.regsWrite[c])); } System.out.printf("\n"); } if (ins.groups.length > 0) System.out.printf("\tgroups_count: %d\n", ins.groups.length); } public static void main(String argv[]) { final TestBasic.platform[] all_tests = { new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_6301, hexString2Byte(HD6301_CODE), "M680X_HD6301"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_6309, hexString2Byte(HD6309_CODE), "M680X_HD6309"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_6800, hexString2Byte(M6800_CODE), "M680X_M6800"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_6801, hexString2Byte(M6801_CODE), "M680X_M6801"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_6805, hexString2Byte(M6805_CODE), "M680X_M68HC05"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_6808, hexString2Byte(M6808_CODE), "M680X_M68HC08"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_6809, hexString2Byte(M6809_CODE), "M680X_M6809"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_6811, hexString2Byte(M6811_CODE), "M680X_M68HC11"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_CPU12, hexString2Byte(CPU12_CODE), "M680X_CPU12"), new TestBasic.platform(Capstone.CS_ARCH_M680X, Capstone.CS_MODE_M680X_HCS08, hexString2Byte(HCS08_CODE), "M680X_HCS08"), }; for (int i=0; i