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1 #include <stdlib.h>
2 #include <string.h>
3 
4 #include "ia32_invariant.h"
5 #include "ia32_insn.h"
6 #include "ia32_settings.h"
7 
8 extern ia32_table_desc_t *ia32_tables;
9 extern ia32_settings_t ia32_settings;
10 
11 extern size_t ia32_table_lookup( unsigned char *buf, size_t buf_len,
12 		unsigned int table, ia32_insn_t **raw_insn,
13 		 unsigned int *prefixes );
14 
15 
16 /* -------------------------------- ModR/M, SIB */
17 /* Convenience flags */
18 #define MODRM_EA  1                     /* ModR/M is an effective addr */
19 #define MODRM_reg 2                     /* ModR/M is a register */
20 
21 /* ModR/M flags */
22 #define MODRM_RM_SIB            0x04    /* R/M == 100 */
23 #define MODRM_RM_NOREG          0x05    /* R/B == 101 */
24 /* if (MODRM.MOD_NODISP && MODRM.RM_NOREG) then just disp32 */
25 #define MODRM_MOD_NODISP        0x00    /* mod == 00 */
26 #define MODRM_MOD_DISP8         0x01    /* mod == 01 */
27 #define MODRM_MOD_DISP32        0x02    /* mod == 10 */
28 #define MODRM_MOD_NOEA          0x03    /* mod == 11 */
29 /* 16-bit modrm flags */
30 #define MOD16_MOD_NODISP      0
31 #define MOD16_MOD_DISP8       1
32 #define MOD16_MOD_DISP16      2
33 #define MOD16_MOD_REG         3
34 
35 #define MOD16_RM_BXSI         0
36 #define MOD16_RM_BXDI         1
37 #define MOD16_RM_BPSI         2
38 #define MOD16_RM_BPDI         3
39 #define MOD16_RM_SI           4
40 #define MOD16_RM_DI           5
41 #define MOD16_RM_BP           6
42 #define MOD16_RM_BX           7
43 
44 /* SIB flags */
45 #define SIB_INDEX_NONE       0x04
46 #define SIB_BASE_EBP       0x05
47 #define SIB_SCALE_NOBASE    0x00
48 
49 /* Convenience struct for modR/M bitfield */
50 struct modRM_byte {
51    unsigned int mod : 2;
52    unsigned int reg : 3;
53    unsigned int rm  : 3;
54 };
55 
56 /* Convenience struct for SIB bitfield */
57 struct SIB_byte {
58    unsigned int scale : 2;
59    unsigned int index : 3;
60    unsigned int base  : 3;
61 };
62 
63 #ifdef WIN32
byte_decode(unsigned char b,struct modRM_byte * modrm)64 static void byte_decode(unsigned char b, struct modRM_byte *modrm) {
65 #else
66 static inline void byte_decode(unsigned char b, struct modRM_byte *modrm) {
67 #endif
68 	/* generic bitfield-packing routine */
69 
70 	modrm->mod = b >> 6;	/* top 2 bits */
71 	modrm->reg = (b & 56) >> 3;	/* middle 3 bits */
72 	modrm->rm = b & 7;	/* bottom 3 bits */
73 }
74 static int ia32_invariant_modrm( unsigned char *in, unsigned char *out,
75 				 unsigned int mode_16, x86_invariant_op_t *op) {
76 	struct modRM_byte modrm;
77 	struct SIB_byte sib;
78 	unsigned char *c, *cin;
79 	unsigned short *s;
80 	unsigned int *i;
81 	int size = 0;	/* modrm byte is already counted */
82 
83 
84 	byte_decode(*in, &modrm);	/* get bitfields */
85 
86 	out[0] = in[0];	/* save modrm byte */
87 	cin = &in[1];
88 	c = &out[1];
89 	s = (unsigned short *)&out[1];
90 	i = (unsigned int *)&out[1];
91 
92 	op->type = op_expression;
93 	op->flags |= op_pointer;
94 	if ( ! mode_16 && modrm.rm == MODRM_RM_SIB &&
95 			      modrm.mod != MODRM_MOD_NOEA ) {
96 		size ++;
97 		byte_decode(*cin, (struct modRM_byte *)(void*)&sib);
98 
99 		out[1] = in[1];	/* save sib byte */
100 		cin = &in[2];
101 		c = &out[2];
102 		s = (unsigned short *)&out[2];
103 		i = (unsigned int *)&out[2];
104 
105 		if ( sib.base == SIB_BASE_EBP && ! modrm.mod ) {
106 			/* disp 32 is variant! */
107 			memset( i, X86_WILDCARD_BYTE, 4 );
108 			size += 4;
109 		}
110 	}
111 
112 	if (! modrm.mod && modrm.rm == 101) {
113 		if ( mode_16 ) {	/* straight RVA in disp */
114 			memset( s, X86_WILDCARD_BYTE, 2 );
115 			size += 2;
116 		} else {
117 			memset( i, X86_WILDCARD_BYTE, 2 );
118 			size += 4;
119 		}
120 	} else if (modrm.mod && modrm.mod < 3) {
121 		if (modrm.mod == MODRM_MOD_DISP8) {	 /* offset in disp */
122 			*c = *cin;
123 			size += 1;
124 		} else if ( mode_16 ) {
125 			*s = (* ((unsigned short *) cin));
126 			size += 2;
127 		} else {
128 			*i = (*((unsigned int *) cin));
129 			size += 4;
130 		}
131 	} else if ( modrm.mod == 3 ) {
132 		op->type = op_register;
133 		op->flags &= ~op_pointer;
134 	}
135 
136 	return (size);
137 }
138 
139 
140 static int ia32_decode_invariant( unsigned char *buf, size_t buf_len,
141 				ia32_insn_t *t, unsigned char *out,
142 				unsigned int prefixes, x86_invariant_t *inv) {
143 
144 	unsigned int addr_size, op_size, mode_16;
145 	unsigned int op_flags[3] = { t->dest_flag, t->src_flag, t->aux_flag };
146 	int x, type, bytes = 0, size = 0, modrm = 0;
147 
148 	/* set addressing mode */
149 	if (ia32_settings.options & opt_16_bit) {
150 		op_size = ( prefixes & PREFIX_OP_SIZE ) ? 4 : 2;
151 		addr_size = ( prefixes & PREFIX_ADDR_SIZE ) ? 4 : 2;
152 		mode_16 = ( prefixes & PREFIX_ADDR_SIZE ) ? 0 : 1;
153 	} else {
154 		op_size = ( prefixes & PREFIX_OP_SIZE ) ? 2 : 4;
155 		addr_size = ( prefixes & PREFIX_ADDR_SIZE ) ? 2 : 4;
156 		mode_16 = ( prefixes & PREFIX_ADDR_SIZE ) ? 1 : 0;
157 	}
158 
159 	for (x = 0; x < 3; x++) {
160 		inv->operands[x].access = (enum x86_op_access)
161 						OP_PERM(op_flags[x]);
162 		inv->operands[x].flags = (enum x86_op_flags)
163 						(OP_FLAGS(op_flags[x]) >> 12);
164 
165 		switch (op_flags[x] & OPTYPE_MASK) {
166 			case OPTYPE_c:
167 				size = (op_size == 4) ? 2 : 1;
168 				break;
169 			case OPTYPE_a: case OPTYPE_v:
170 				size = (op_size == 4) ? 4 : 2;
171 				break;
172 			case OPTYPE_p:
173 				size = (op_size == 4) ? 6 : 4;
174 				break;
175 			case OPTYPE_b:
176 				size = 1;
177 				break;
178 			case OPTYPE_w:
179 				size = 2;
180 				break;
181 			case OPTYPE_d: case OPTYPE_fs: case OPTYPE_fd:
182 			case OPTYPE_fe: case OPTYPE_fb: case OPTYPE_fv:
183 			case OPTYPE_si: case OPTYPE_fx:
184 				size = 4;
185 				break;
186 			case OPTYPE_s:
187 				size = 6;
188 				break;
189 			case OPTYPE_q: case OPTYPE_pi:
190 				size = 8;
191 				break;
192 			case OPTYPE_dq: case OPTYPE_ps: case OPTYPE_ss:
193 			case OPTYPE_pd: case OPTYPE_sd:
194 				size = 16;
195 				break;
196 			case OPTYPE_m:
197 				size = (addr_size == 4) ? 4 : 2;
198 				break;
199 			default:
200 				break;
201 		}
202 
203 		type = op_flags[x] & ADDRMETH_MASK;
204 		switch (type) {
205 			case ADDRMETH_E: case ADDRMETH_M: case ADDRMETH_Q:
206 			case ADDRMETH_R: case ADDRMETH_W:
207 				modrm = 1;
208 				bytes += ia32_invariant_modrm( buf, out,
209 						mode_16, &inv->operands[x]);
210 				break;
211 			case ADDRMETH_C: case ADDRMETH_D: case ADDRMETH_G:
212 			case ADDRMETH_P: case ADDRMETH_S: case ADDRMETH_T:
213 			case ADDRMETH_V:
214 				inv->operands[x].type = op_register;
215 				modrm = 1;
216 				break;
217 			case ADDRMETH_A: case ADDRMETH_O:
218 				/* pad with xF4's */
219 				memset( &out[bytes + modrm], X86_WILDCARD_BYTE,
220 					size );
221 				bytes += size;
222 				inv->operands[x].type = op_offset;
223 				if ( type == ADDRMETH_O ) {
224 					inv->operands[x].flags |= op_signed |
225 								  op_pointer;
226 				}
227 				break;
228 			case ADDRMETH_I: case ADDRMETH_J:
229 				/* grab imm value */
230 				if ((op_flags[x] & OPTYPE_MASK) == OPTYPE_v) {
231 					/* assume this is an address */
232 					memset( &out[bytes + modrm],
233 						X86_WILDCARD_BYTE, size );
234 				} else {
235 					memcpy( &out[bytes + modrm],
236 						&buf[bytes + modrm], size );
237 				}
238 
239 				bytes += size;
240 				if ( type == ADDRMETH_J ) {
241 					if ( size == 1 ) {
242 						inv->operands[x].type =
243 							op_relative_near;
244 					} else {
245 						inv->operands[x].type =
246 							op_relative_far;
247 					}
248 					inv->operands[x].flags |= op_signed;
249 				} else {
250 					inv->operands[x].type = op_immediate;
251 				}
252 				break;
253 			case ADDRMETH_F:
254 				inv->operands[x].type = op_register;
255 				break;
256 			case ADDRMETH_X:
257 				inv->operands[x].flags |= op_signed |
258 					  op_pointer | op_ds_seg | op_string;
259 				break;
260 			case ADDRMETH_Y:
261 				inv->operands[x].flags |= op_signed |
262 					  op_pointer | op_es_seg | op_string;
263 				break;
264 			case ADDRMETH_RR:
265 				inv->operands[x].type = op_register;
266 				break;
267 			case ADDRMETH_II:
268 				inv->operands[x].type = op_immediate;
269 				break;
270 			default:
271 				inv->operands[x].type = op_unused;
272 				break;
273 		}
274 	}
275 
276 	return (bytes + modrm);
277 }
278 
279 size_t ia32_disasm_invariant( unsigned char * buf, size_t buf_len,
280 		x86_invariant_t *inv ) {
281 	ia32_insn_t *raw_insn = NULL;
282 	unsigned int prefixes;
283 	unsigned int type;
284 	size_t size;
285 
286 	/* Perform recursive table lookup starting with main table (0) */
287 	size = ia32_table_lookup( buf, buf_len, 0, &raw_insn, &prefixes );
288 	if ( size == INVALID_INSN || size > buf_len ) {
289 		/* TODO: set errno */
290 		return 0;
291 	}
292 
293 	/* copy opcode bytes to buffer */
294 	memcpy( inv->bytes, buf, size );
295 
296 	/* set mnemonic type and group */
297 	type = raw_insn->mnem_flag & ~INS_FLAG_MASK;
298         inv->group = (enum x86_insn_group) (INS_GROUP(type)) >> 12;
299         inv->type = (enum x86_insn_type) INS_TYPE(type);
300 
301 	/* handle operands */
302 	size += ia32_decode_invariant( buf + size, buf_len - size, raw_insn,
303 					&buf[size - 1], prefixes, inv );
304 
305 	inv->size = size;
306 
307 	return size;		/* return size of instruction in bytes */
308 }
309 
310 size_t ia32_disasm_size( unsigned char *buf, size_t buf_len ) {
311 	x86_invariant_t inv = { {0} };
312 	return( ia32_disasm_invariant( buf, buf_len, &inv ) );
313 }
314