/* radare - LGPL - Copyright 2007-2016 - pancake */ #include #include #include #include #include #include #include #include #include "ops.h" #include "code.h" #include "class.h" #define V if (verbose) #define DO_THE_DBG 0 #define IFDBG if(DO_THE_DBG) #ifndef R_API #define R_API #endif static void init_switch_op(void); static int enter_switch_op(ut64 addr, const ut8 * bytes, int len); static int update_switch_op(ut64 addr, const ut8 * bytes); static int update_bytes_consumed(int sz); static int handle_switch_op(ut64 addr, const ut8 * bytes, char *output, int outlen); static ut8 IN_SWITCH_OP = 0; typedef struct current_table_switch_t { ut64 addr; int def_jmp; int min_val; int max_val; int cur_val; } CurrentTableSwitch; static CurrentTableSwitch SWITCH_OP; static ut64 BYTES_CONSUMED = 0LL; //static RBinJavaObj *BIN_OBJ = NULL; static void init_switch_op (void) { memset (&SWITCH_OP, 0, sizeof (SWITCH_OP)); } static int enter_switch_op (ut64 addr, const ut8* bytes, int len) { #if 0 int sz = ((BYTES_CONSUMED+1) % 4) ? (1 + 4 - (BYTES_CONSUMED+1) % 4) : 1; // + (BYTES_CONSUMED+1) % 4; #endif if (len < 16) { return 0; } int sz = 4; IFDBG { int sz2 = (4 - (addr+1) % 4) + (addr+1) % 4; eprintf ("Addr approach: 0x%04x and BYTES_CONSUMED approach: 0x%04"PFMT64x", BYTES_CONSUMED%%4 = 0x%04x\n", sz2, BYTES_CONSUMED, sz); } init_switch_op (); IN_SWITCH_OP = 1; SWITCH_OP.addr = addr; SWITCH_OP.def_jmp = (UINT (bytes, sz)); SWITCH_OP.min_val = (UINT (bytes, sz + 4)); SWITCH_OP.max_val = (UINT (bytes, sz + 8)); sz += 12; return sz; } static bool isRelative (ut32 type) { if (type & R_ANAL_JAVA_CODEOP_CJMP) { return true; } if (type & R_ANAL_JAVA_CODEOP_JMP) { return true; } return false; } static int update_bytes_consumed (int sz) { BYTES_CONSUMED += sz; return sz; } static int update_switch_op (ut64 addr, const ut8 * bytes) { int sz = 4; int ccase = SWITCH_OP.cur_val + SWITCH_OP.min_val; SWITCH_OP.cur_val++; if (ccase+1 > SWITCH_OP.max_val) { IN_SWITCH_OP = 0; } IFDBG { eprintf ("Addr approach: 0x%04"PFMT64x " and BYTES_CONSUMED approach: 0x%04"PFMT64x "\n", addr, BYTES_CONSUMED); } return update_bytes_consumed (sz); } static int handle_switch_op (ut64 addr, const ut8 * bytes, char *output, int outlen ) { int sz = 4; ut32 jmp = (int)(UINT (bytes, 0)) + SWITCH_OP.addr; int ccase = SWITCH_OP.cur_val + SWITCH_OP.min_val; snprintf (output, outlen, "case %d: goto 0x%04x", ccase, jmp); update_switch_op (addr, bytes); return update_bytes_consumed (sz); } R_API int java_print_opcode(RBinJavaObj *obj, ut64 addr, int idx, const ut8 *bytes, int len, char *output, int outlen) { char *arg = NULL; //(char *) malloc (1024); int sz = 0; ut32 val_one = 0; ut32 val_two = 0; ut8 op_byte = JAVA_OPS[idx].byte; if (IN_SWITCH_OP) { return handle_switch_op (addr, bytes, output, outlen ); } #if 0 IFDBG eprintf ("Handling the following opcode %s expects: %d byte(s), BYTES_CONSUMED: 0x%04"PFMT64x"\n", JAVA_OPS[idx].name, JAVA_OPS[idx].size, BYTES_CONSUMED); #endif switch (op_byte) { case 0x10: // "bipush" snprintf (output, outlen, "%s %d", JAVA_OPS[idx].name, (char) bytes[1]); output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); case 0x11: snprintf (output, outlen, "%s %d", JAVA_OPS[idx].name, (int)USHORT (bytes, 1)); output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); case 0x15: // "iload" case 0x16: // "lload" case 0x17: // "fload" case 0x18: // "dload" case 0x19: // "aload" case 0x37: // "lstore" case 0x38: // "fstore" case 0x39: // "dstore" case 0x3a: // "astore" case 0xbc: // "newarray" case 0xa9: // ret snprintf (output, outlen, "%s %d", JAVA_OPS[idx].name, bytes[1]); output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); case 0x12: // ldc arg = r_bin_java_resolve_without_space (obj, (ut16)bytes[1]); if (arg) { snprintf (output, outlen, "%s %s", JAVA_OPS[idx].name, arg); free (arg); } else { snprintf (output, outlen, "%s #%d", JAVA_OPS[idx].name, USHORT (bytes, 1)); } output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); case 0x13: case 0x14: arg = r_bin_java_resolve_without_space (obj, (int)USHORT (bytes, 1)); if (arg) { snprintf (output, outlen, "%s %s", JAVA_OPS[idx].name, arg); free (arg); } else { snprintf (output, outlen, "%s #%d", JAVA_OPS[idx].name, USHORT (bytes, 1)); } output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); case 0x84: // iinc val_one = (ut32)bytes[1]; val_two = (ut32) bytes[2]; snprintf (output, outlen, "%s %d %d", JAVA_OPS[idx].name, val_one, val_two); output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); case 0x99: // ifeq case 0x9a: // ifne case 0x9b: // iflt case 0x9c: // ifge case 0x9d: // ifgt case 0x9e: // ifle case 0x9f: // if_icmpeq case 0xa0: // if_icmpne case 0xa1: // if_icmplt case 0xa2: // if_icmpge case 0xa3: // if_icmpgt case 0xa4: // if_icmple case 0xa5: // if_acmpne case 0xa6: // if_acmpne case 0xa7: // goto case 0xa8: // jsr snprintf (output, outlen, "%s 0x%04"PFMT64x, JAVA_OPS[idx].name, (addr+(short)USHORT (bytes, 1))); output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); // XXX - Figure out what constitutes the [] value case 0xab: // tableswitch case 0xaa: // tableswitch sz = enter_switch_op (addr, bytes, len); snprintf (output, outlen, "%s default: 0x%04"PFMT64x, JAVA_OPS[idx].name, (ut64)(SWITCH_OP.def_jmp+SWITCH_OP.addr)); return update_bytes_consumed (sz); case 0xb6: // invokevirtual case 0xb7: // invokespecial case 0xb8: // invokestatic case 0xb9: // invokeinterface case 0xba: // invokedynamic arg = r_bin_java_resolve_without_space (obj, (int)USHORT (bytes, 1)); if (arg) { snprintf (output, outlen, "%s %s", JAVA_OPS[idx].name, arg); free (arg); } else { snprintf (output, outlen, "%s #%d", JAVA_OPS[idx].name, USHORT (bytes, 1) ); } output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); case 0xbb: // new case 0xbd: // anewarray case 0xc0: // checkcast case 0xc1: // instance of arg = r_bin_java_resolve_without_space (obj, (int)USHORT (bytes, 1)); if (arg) { snprintf (output, outlen, "%s %s", JAVA_OPS[idx].name, arg); free (arg); } else { snprintf (output, outlen, "%s #%d", JAVA_OPS[idx].name, USHORT (bytes, 1) ); } output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); case 0xb2: // getstatic case 0xb3: // putstatic case 0xb4: // getfield case 0xb5: // putfield arg = r_bin_java_resolve_with_space (obj, (int)USHORT (bytes, 1)); if (arg) { snprintf (output, outlen, "%s %s", JAVA_OPS[idx].name, arg); free (arg); } else { snprintf (output, outlen, "%s #%d", JAVA_OPS[idx].name, USHORT (bytes, 1) ); } output[outlen-1] = 0; return update_bytes_consumed (JAVA_OPS[idx].size); } /* process arguments */ switch (JAVA_OPS[idx].size) { case 1: snprintf (output, outlen, "%s", JAVA_OPS[idx].name); break; case 2: snprintf (output, outlen, "%s %d", JAVA_OPS[idx].name, bytes[1]); break; case 3: snprintf (output, outlen, "%s 0x%04x 0x%04x", JAVA_OPS[idx].name, bytes[0], bytes[1]); break; case 5: snprintf (output, outlen, "%s %d", JAVA_OPS[idx].name, bytes[1]); break; } return update_bytes_consumed (JAVA_OPS[idx].size); } R_API void r_java_new_method (void) { IFDBG eprintf ("Reseting the bytes consumed, they were: 0x%04"PFMT64x".\n", BYTES_CONSUMED); init_switch_op (); IN_SWITCH_OP = 0; BYTES_CONSUMED = 0; } R_API void U(r_java_set_obj)(RBinJavaObj *obj) { // eprintf ("SET CP (%p) %d\n", cp, n); //BIN_OBJ = obj; } R_API int r_java_disasm(RBinJavaObj *obj, ut64 addr, const ut8 *bytes, int len, char *output, int outlen) { //r_cons_printf ("r_java_disasm (allowed %d): 0x%02x, 0x%0x.\n", outlen, bytes[0], addr); return java_print_opcode (obj, addr, bytes[0], bytes, len, output, outlen); } static int parseJavaArgs(char *str, ut64 *args, int args_sz) { int i, nargs = -1; char *q, *p = strchr (str, ' '); if (p) { *p++ = 0; nargs ++; for (i = 0; i < args_sz; i++) { nargs ++; q = strchr (p, ' '); if (q) { *q++ = 0; } args[i] = r_num_math (NULL, p); if (q) { p = q; } else { break; } } } return nargs; } R_API int r_java_assemble(ut64 addr, ut8 *bytes, const char *string) { ut64 args[4] = {0}; int i, a, b, c, d; char name[128]; strncpy (name, string, sizeof (name) - 1); name[sizeof (name) - 1] = 0; int nargs = parseJavaArgs (name, args, 4); a = args[0]; b = args[1]; c = args[2]; d = args[3]; for (i = 0; JAVA_OPS[i].name != NULL; i++) { if (!strcmp (name, JAVA_OPS[i].name)) { bytes[0] = JAVA_OPS[i].byte; switch (JAVA_OPS[i].size) { case 2: bytes[1] = a; break; case 3: if (nargs == 2) { bytes[1] = a; bytes[2] = b; } else { if (isRelative (JAVA_OPS[i].op_type)) { // relative jmp a -= addr; } bytes[1] = (a >> 8) & 0xff; bytes[2] = a & 0xff; } break; case 5: bytes[1] = a; bytes[2] = b; bytes[3] = c; bytes[4] = d; break; } return JAVA_OPS[i].size; } } return 0; }