Coverage Report

Created: 2026-07-16 06:55

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/capstonenext/arch/X86/X86ATTInstPrinter.c
Line
Count
Source
1
//===-- X86ATTInstPrinter.cpp - AT&T assembly instruction printing --------===//
2
//
3
//                     The LLVM Compiler Infrastructure
4
//
5
// This file is distributed under the University of Illinois Open Source
6
// License. See LICENSE.TXT for details.
7
//
8
//===----------------------------------------------------------------------===//
9
//
10
// This file includes code for rendering MCInst instances as AT&T-style
11
// assembly.
12
//
13
//===----------------------------------------------------------------------===//
14
15
/* Capstone Disassembly Engine */
16
/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2019 */
17
18
// this code is only relevant when DIET mode is disable
19
#if defined(CAPSTONE_HAS_X86) && !defined(CAPSTONE_DIET) && \
20
  !defined(CAPSTONE_X86_ATT_DISABLE)
21
22
#ifdef _MSC_VER
23
// disable MSVC's warning on strncpy()
24
#pragma warning(disable : 4996)
25
// disable MSVC's warning on strncpy()
26
#pragma warning(disable : 28719)
27
#endif
28
29
#if !defined(CAPSTONE_HAS_OSXKERNEL)
30
#include <ctype.h>
31
#endif
32
#include <capstone/platform.h>
33
34
#if defined(CAPSTONE_HAS_OSXKERNEL)
35
#include <Availability.h>
36
#include <libkern/libkern.h>
37
#else
38
#include <stdio.h>
39
#include <stdlib.h>
40
#endif
41
42
#include <string.h>
43
44
#include "../../utils.h"
45
#include "../../MCInst.h"
46
#include "../../SStream.h"
47
#include "../../MCRegisterInfo.h"
48
#include "X86Mapping.h"
49
#include "X86BaseInfo.h"
50
#include "X86InstPrinterCommon.h"
51
52
#define GET_INSTRINFO_ENUM
53
#ifdef CAPSTONE_X86_REDUCE
54
#include "X86GenInstrInfo_reduce.inc"
55
#else
56
#include "X86GenInstrInfo.inc"
57
#endif
58
59
#define GET_REGINFO_ENUM
60
#include "X86GenRegisterInfo.inc"
61
62
static void printMemReference(MCInst *MI, unsigned Op, SStream *O);
63
static void printOperand(MCInst *MI, unsigned OpNo, SStream *O);
64
65
static void set_mem_access(MCInst *MI, bool status)
66
98.9k
{
67
98.9k
  if (MI->csh->detail_opt != CS_OPT_ON)
68
0
    return;
69
70
98.9k
  MI->csh->doing_mem = status;
71
98.9k
  if (!status)
72
    // done, create the next operand slot
73
49.4k
    MI->flat_insn->detail->x86.op_count++;
74
98.9k
}
75
76
static void printopaquemem(MCInst *MI, unsigned OpNo, SStream *O)
77
11.0k
{
78
11.0k
  switch (MI->csh->mode) {
79
3.27k
  case CS_MODE_16:
80
3.27k
    switch (MI->flat_insn->id) {
81
926
    default:
82
926
      MI->x86opsize = 2;
83
926
      break;
84
515
    case X86_INS_LJMP:
85
876
    case X86_INS_LCALL:
86
876
      MI->x86opsize = 4;
87
876
      break;
88
317
    case X86_INS_SGDT:
89
592
    case X86_INS_SIDT:
90
930
    case X86_INS_LGDT:
91
1.47k
    case X86_INS_LIDT:
92
1.47k
      MI->x86opsize = 6;
93
1.47k
      break;
94
3.27k
    }
95
3.27k
    break;
96
4.99k
  case CS_MODE_32:
97
4.99k
    switch (MI->flat_insn->id) {
98
1.19k
    default:
99
1.19k
      MI->x86opsize = 4;
100
1.19k
      break;
101
1.31k
    case X86_INS_LJMP:
102
2.27k
    case X86_INS_JMP:
103
2.35k
    case X86_INS_LCALL:
104
2.65k
    case X86_INS_SGDT:
105
3.07k
    case X86_INS_SIDT:
106
3.29k
    case X86_INS_LGDT:
107
3.80k
    case X86_INS_LIDT:
108
3.80k
      MI->x86opsize = 6;
109
3.80k
      break;
110
4.99k
    }
111
4.99k
    break;
112
4.99k
  case CS_MODE_64:
113
2.83k
    switch (MI->flat_insn->id) {
114
815
    default:
115
815
      MI->x86opsize = 8;
116
815
      break;
117
315
    case X86_INS_LJMP:
118
567
    case X86_INS_LCALL:
119
1.13k
    case X86_INS_SGDT:
120
1.36k
    case X86_INS_SIDT:
121
1.67k
    case X86_INS_LGDT:
122
2.01k
    case X86_INS_LIDT:
123
2.01k
      MI->x86opsize = 10;
124
2.01k
      break;
125
2.83k
    }
126
2.83k
    break;
127
2.83k
  default: // never reach
128
0
    break;
129
11.0k
  }
130
131
11.0k
  printMemReference(MI, OpNo, O);
132
11.0k
}
133
134
static void printi8mem(MCInst *MI, unsigned OpNo, SStream *O)
135
81.6k
{
136
81.6k
  MI->x86opsize = 1;
137
81.6k
  printMemReference(MI, OpNo, O);
138
81.6k
}
139
140
static void printi16mem(MCInst *MI, unsigned OpNo, SStream *O)
141
24.6k
{
142
24.6k
  MI->x86opsize = 2;
143
144
24.6k
  printMemReference(MI, OpNo, O);
145
24.6k
}
146
147
static void printi32mem(MCInst *MI, unsigned OpNo, SStream *O)
148
35.3k
{
149
35.3k
  MI->x86opsize = 4;
150
151
35.3k
  printMemReference(MI, OpNo, O);
152
35.3k
}
153
154
static void printi64mem(MCInst *MI, unsigned OpNo, SStream *O)
155
12.1k
{
156
12.1k
  MI->x86opsize = 8;
157
12.1k
  printMemReference(MI, OpNo, O);
158
12.1k
}
159
160
static void printi128mem(MCInst *MI, unsigned OpNo, SStream *O)
161
3.03k
{
162
3.03k
  MI->x86opsize = 16;
163
3.03k
  printMemReference(MI, OpNo, O);
164
3.03k
}
165
166
static void printi512mem(MCInst *MI, unsigned OpNo, SStream *O)
167
3.10k
{
168
3.10k
  MI->x86opsize = 64;
169
3.10k
  printMemReference(MI, OpNo, O);
170
3.10k
}
171
172
#ifndef CAPSTONE_X86_REDUCE
173
static void printi256mem(MCInst *MI, unsigned OpNo, SStream *O)
174
3.10k
{
175
3.10k
  MI->x86opsize = 32;
176
3.10k
  printMemReference(MI, OpNo, O);
177
3.10k
}
178
179
static void printf32mem(MCInst *MI, unsigned OpNo, SStream *O)
180
5.81k
{
181
5.81k
  switch (MCInst_getOpcode(MI)) {
182
3.51k
  default:
183
3.51k
    MI->x86opsize = 4;
184
3.51k
    break;
185
772
  case X86_FSTENVm:
186
2.30k
  case X86_FLDENVm:
187
    // TODO: fix this in tablegen instead
188
2.30k
    switch (MI->csh->mode) {
189
0
    default: // never reach
190
0
      break;
191
578
    case CS_MODE_16:
192
578
      MI->x86opsize = 14;
193
578
      break;
194
1.41k
    case CS_MODE_32:
195
1.72k
    case CS_MODE_64:
196
1.72k
      MI->x86opsize = 28;
197
1.72k
      break;
198
2.30k
    }
199
2.30k
    break;
200
5.81k
  }
201
202
5.81k
  printMemReference(MI, OpNo, O);
203
5.81k
}
204
205
static void printf64mem(MCInst *MI, unsigned OpNo, SStream *O)
206
3.62k
{
207
3.62k
  MI->x86opsize = 8;
208
3.62k
  printMemReference(MI, OpNo, O);
209
3.62k
}
210
211
static void printf80mem(MCInst *MI, unsigned OpNo, SStream *O)
212
342
{
213
342
  MI->x86opsize = 10;
214
342
  printMemReference(MI, OpNo, O);
215
342
}
216
217
static void printf128mem(MCInst *MI, unsigned OpNo, SStream *O)
218
3.18k
{
219
3.18k
  MI->x86opsize = 16;
220
3.18k
  printMemReference(MI, OpNo, O);
221
3.18k
}
222
223
static void printf256mem(MCInst *MI, unsigned OpNo, SStream *O)
224
1.55k
{
225
1.55k
  MI->x86opsize = 32;
226
1.55k
  printMemReference(MI, OpNo, O);
227
1.55k
}
228
229
static void printf512mem(MCInst *MI, unsigned OpNo, SStream *O)
230
1.96k
{
231
1.96k
  MI->x86opsize = 64;
232
1.96k
  printMemReference(MI, OpNo, O);
233
1.96k
}
234
235
#endif
236
237
static void printRegName(SStream *OS, unsigned RegNo);
238
239
// local printOperand, without updating public operands
240
static void _printOperand(MCInst *MI, unsigned OpNo, SStream *O)
241
257k
{
242
257k
  MCOperand *Op = MCInst_getOperand(MI, OpNo);
243
257k
  if (MCOperand_isReg(Op)) {
244
257k
    printRegName(O, MCOperand_getReg(Op));
245
257k
  } else if (MCOperand_isImm(Op)) {
246
0
    uint8_t encsize;
247
0
    uint8_t opsize =
248
0
      X86_immediate_size(MCInst_getOpcode(MI), &encsize);
249
250
    // Print X86 immediates as signed values.
251
0
    int64_t imm = MCOperand_getImm(Op);
252
0
    if (imm < 0) {
253
0
      if (MI->csh->imm_unsigned) {
254
0
        if (opsize) {
255
0
          switch (opsize) {
256
0
          default:
257
0
            break;
258
0
          case 1:
259
0
            imm &= 0xff;
260
0
            break;
261
0
          case 2:
262
0
            imm &= 0xffff;
263
0
            break;
264
0
          case 4:
265
0
            imm &= 0xffffffff;
266
0
            break;
267
0
          }
268
0
        }
269
270
0
        SStream_concat(O, "$0x%" PRIx64, imm);
271
0
      } else {
272
0
        if (imm < -HEX_THRESHOLD)
273
0
          SStream_concat(O, "$-0x%" PRIx64, -imm);
274
0
        else
275
0
          SStream_concat(O, "$-%" PRIu64, -imm);
276
0
      }
277
0
    } else {
278
0
      if (imm > HEX_THRESHOLD)
279
0
        SStream_concat(O, "$0x%" PRIx64, imm);
280
0
      else
281
0
        SStream_concat(O, "$%" PRIu64, imm);
282
0
    }
283
0
  }
284
257k
}
285
286
// convert Intel access info to AT&T access info
287
static void get_op_access(cs_struct *h, unsigned int id, uint8_t *access,
288
        uint64_t *eflags)
289
1.11M
{
290
1.11M
  uint8_t count, i;
291
1.11M
  const uint8_t *arr = X86_get_op_access(h, id, eflags);
292
293
  // initialize access
294
1.11M
  memset(access, 0, CS_X86_MAXIMUM_OPERAND_SIZE * sizeof(access[0]));
295
1.11M
  if (!arr) {
296
0
    return;
297
0
  }
298
299
  // find the non-zero last entry
300
3.11M
  for (count = 0; arr[count]; count++)
301
2.00M
    ;
302
303
1.11M
  if (count == 0)
304
73.3k
    return;
305
306
  // copy in reverse order this access array from Intel syntax -> AT&T syntax
307
1.03M
  count--;
308
3.04M
  for (i = 0; i <= count && ((count - i) < CS_X86_MAXIMUM_OPERAND_SIZE) &&
309
2.00M
        i < CS_X86_MAXIMUM_OPERAND_SIZE;
310
2.00M
       i++) {
311
2.00M
    if (arr[count - i] != CS_AC_IGNORE)
312
1.71M
      access[i] = arr[count - i];
313
291k
    else
314
291k
      access[i] = 0;
315
2.00M
  }
316
1.03M
}
317
318
static void printSrcIdx(MCInst *MI, unsigned Op, SStream *O)
319
23.6k
{
320
23.6k
  MCOperand *SegReg;
321
23.6k
  int reg;
322
323
23.6k
  if (MI->csh->detail_opt) {
324
23.6k
    uint8_t access[CS_X86_MAXIMUM_OPERAND_SIZE];
325
326
23.6k
    MI->flat_insn->detail->x86
327
23.6k
      .operands[MI->flat_insn->detail->x86.op_count]
328
23.6k
      .type = X86_OP_MEM;
329
23.6k
    MI->flat_insn->detail->x86
330
23.6k
      .operands[MI->flat_insn->detail->x86.op_count]
331
23.6k
      .size = MI->x86opsize;
332
23.6k
    MI->flat_insn->detail->x86
333
23.6k
      .operands[MI->flat_insn->detail->x86.op_count]
334
23.6k
      .mem.segment = X86_REG_INVALID;
335
23.6k
    MI->flat_insn->detail->x86
336
23.6k
      .operands[MI->flat_insn->detail->x86.op_count]
337
23.6k
      .mem.base = X86_REG_INVALID;
338
23.6k
    MI->flat_insn->detail->x86
339
23.6k
      .operands[MI->flat_insn->detail->x86.op_count]
340
23.6k
      .mem.index = X86_REG_INVALID;
341
23.6k
    MI->flat_insn->detail->x86
342
23.6k
      .operands[MI->flat_insn->detail->x86.op_count]
343
23.6k
      .mem.scale = 1;
344
23.6k
    MI->flat_insn->detail->x86
345
23.6k
      .operands[MI->flat_insn->detail->x86.op_count]
346
23.6k
      .mem.disp = 0;
347
348
23.6k
    get_op_access(MI->csh, MCInst_getOpcode(MI), access,
349
23.6k
            &MI->flat_insn->detail->x86.eflags);
350
23.6k
    MI->flat_insn->detail->x86
351
23.6k
      .operands[MI->flat_insn->detail->x86.op_count]
352
23.6k
      .access = access[MI->flat_insn->detail->x86.op_count];
353
23.6k
  }
354
355
23.6k
  SegReg = MCInst_getOperand(MI, Op + 1);
356
23.6k
  reg = MCOperand_getReg(SegReg);
357
  // If this has a segment register, print it.
358
23.6k
  if (reg) {
359
373
    _printOperand(MI, Op + 1, O);
360
373
    SStream_concat0(O, ":");
361
362
373
    if (MI->csh->detail_opt) {
363
373
      MI->flat_insn->detail->x86
364
373
        .operands[MI->flat_insn->detail->x86.op_count]
365
373
        .mem.segment = X86_register_map(reg);
366
373
    }
367
373
  }
368
369
23.6k
  SStream_concat0(O, "(");
370
23.6k
  set_mem_access(MI, true);
371
372
23.6k
  printOperand(MI, Op, O);
373
374
23.6k
  SStream_concat0(O, ")");
375
23.6k
  set_mem_access(MI, false);
376
23.6k
}
377
378
static void printDstIdx(MCInst *MI, unsigned Op, SStream *O)
379
25.7k
{
380
25.7k
  if (MI->csh->detail_opt) {
381
25.7k
    uint8_t access[CS_X86_MAXIMUM_OPERAND_SIZE];
382
383
25.7k
    MI->flat_insn->detail->x86
384
25.7k
      .operands[MI->flat_insn->detail->x86.op_count]
385
25.7k
      .type = X86_OP_MEM;
386
25.7k
    MI->flat_insn->detail->x86
387
25.7k
      .operands[MI->flat_insn->detail->x86.op_count]
388
25.7k
      .size = MI->x86opsize;
389
25.7k
    MI->flat_insn->detail->x86
390
25.7k
      .operands[MI->flat_insn->detail->x86.op_count]
391
25.7k
      .mem.segment = X86_REG_INVALID;
392
25.7k
    MI->flat_insn->detail->x86
393
25.7k
      .operands[MI->flat_insn->detail->x86.op_count]
394
25.7k
      .mem.base = X86_REG_INVALID;
395
25.7k
    MI->flat_insn->detail->x86
396
25.7k
      .operands[MI->flat_insn->detail->x86.op_count]
397
25.7k
      .mem.index = X86_REG_INVALID;
398
25.7k
    MI->flat_insn->detail->x86
399
25.7k
      .operands[MI->flat_insn->detail->x86.op_count]
400
25.7k
      .mem.scale = 1;
401
25.7k
    MI->flat_insn->detail->x86
402
25.7k
      .operands[MI->flat_insn->detail->x86.op_count]
403
25.7k
      .mem.disp = 0;
404
405
25.7k
    get_op_access(MI->csh, MCInst_getOpcode(MI), access,
406
25.7k
            &MI->flat_insn->detail->x86.eflags);
407
25.7k
    MI->flat_insn->detail->x86
408
25.7k
      .operands[MI->flat_insn->detail->x86.op_count]
409
25.7k
      .access = access[MI->flat_insn->detail->x86.op_count];
410
25.7k
  }
411
412
  // DI accesses are always ES-based on non-64bit mode
413
25.7k
  if (MI->csh->mode != CS_MODE_64) {
414
14.9k
    SStream_concat0(O, "%es:(");
415
14.9k
    if (MI->csh->detail_opt) {
416
14.9k
      MI->flat_insn->detail->x86
417
14.9k
        .operands[MI->flat_insn->detail->x86.op_count]
418
14.9k
        .mem.segment = X86_REG_ES;
419
14.9k
    }
420
14.9k
  } else
421
10.7k
    SStream_concat0(O, "(");
422
423
25.7k
  set_mem_access(MI, true);
424
425
25.7k
  printOperand(MI, Op, O);
426
427
25.7k
  SStream_concat0(O, ")");
428
25.7k
  set_mem_access(MI, false);
429
25.7k
}
430
431
static void printSrcIdx8(MCInst *MI, unsigned OpNo, SStream *O)
432
8.51k
{
433
8.51k
  MI->x86opsize = 1;
434
8.51k
  printSrcIdx(MI, OpNo, O);
435
8.51k
}
436
437
static void printSrcIdx16(MCInst *MI, unsigned OpNo, SStream *O)
438
4.39k
{
439
4.39k
  MI->x86opsize = 2;
440
4.39k
  printSrcIdx(MI, OpNo, O);
441
4.39k
}
442
443
static void printSrcIdx32(MCInst *MI, unsigned OpNo, SStream *O)
444
8.68k
{
445
8.68k
  MI->x86opsize = 4;
446
8.68k
  printSrcIdx(MI, OpNo, O);
447
8.68k
}
448
449
static void printSrcIdx64(MCInst *MI, unsigned OpNo, SStream *O)
450
2.09k
{
451
2.09k
  MI->x86opsize = 8;
452
2.09k
  printSrcIdx(MI, OpNo, O);
453
2.09k
}
454
455
static void printDstIdx8(MCInst *MI, unsigned OpNo, SStream *O)
456
9.37k
{
457
9.37k
  MI->x86opsize = 1;
458
9.37k
  printDstIdx(MI, OpNo, O);
459
9.37k
}
460
461
static void printDstIdx16(MCInst *MI, unsigned OpNo, SStream *O)
462
5.16k
{
463
5.16k
  MI->x86opsize = 2;
464
5.16k
  printDstIdx(MI, OpNo, O);
465
5.16k
}
466
467
static void printDstIdx32(MCInst *MI, unsigned OpNo, SStream *O)
468
9.20k
{
469
9.20k
  MI->x86opsize = 4;
470
9.20k
  printDstIdx(MI, OpNo, O);
471
9.20k
}
472
473
static void printDstIdx64(MCInst *MI, unsigned OpNo, SStream *O)
474
2.01k
{
475
2.01k
  MI->x86opsize = 8;
476
2.01k
  printDstIdx(MI, OpNo, O);
477
2.01k
}
478
479
static void printMemOffset(MCInst *MI, unsigned Op, SStream *O)
480
6.19k
{
481
6.19k
  MCOperand *DispSpec = MCInst_getOperand(MI, Op);
482
6.19k
  MCOperand *SegReg = MCInst_getOperand(MI, Op + 1);
483
6.19k
  int reg;
484
485
6.19k
  if (MI->csh->detail_opt) {
486
6.19k
    uint8_t access[CS_X86_MAXIMUM_OPERAND_SIZE];
487
488
6.19k
    MI->flat_insn->detail->x86
489
6.19k
      .operands[MI->flat_insn->detail->x86.op_count]
490
6.19k
      .type = X86_OP_MEM;
491
6.19k
    MI->flat_insn->detail->x86
492
6.19k
      .operands[MI->flat_insn->detail->x86.op_count]
493
6.19k
      .size = MI->x86opsize;
494
6.19k
    MI->flat_insn->detail->x86
495
6.19k
      .operands[MI->flat_insn->detail->x86.op_count]
496
6.19k
      .mem.segment = X86_REG_INVALID;
497
6.19k
    MI->flat_insn->detail->x86
498
6.19k
      .operands[MI->flat_insn->detail->x86.op_count]
499
6.19k
      .mem.base = X86_REG_INVALID;
500
6.19k
    MI->flat_insn->detail->x86
501
6.19k
      .operands[MI->flat_insn->detail->x86.op_count]
502
6.19k
      .mem.index = X86_REG_INVALID;
503
6.19k
    MI->flat_insn->detail->x86
504
6.19k
      .operands[MI->flat_insn->detail->x86.op_count]
505
6.19k
      .mem.scale = 1;
506
6.19k
    MI->flat_insn->detail->x86
507
6.19k
      .operands[MI->flat_insn->detail->x86.op_count]
508
6.19k
      .mem.disp = 0;
509
510
6.19k
    get_op_access(MI->csh, MCInst_getOpcode(MI), access,
511
6.19k
            &MI->flat_insn->detail->x86.eflags);
512
6.19k
    MI->flat_insn->detail->x86
513
6.19k
      .operands[MI->flat_insn->detail->x86.op_count]
514
6.19k
      .access = access[MI->flat_insn->detail->x86.op_count];
515
6.19k
  }
516
517
  // If this has a segment register, print it.
518
6.19k
  reg = MCOperand_getReg(SegReg);
519
6.19k
  if (reg) {
520
685
    _printOperand(MI, Op + 1, O);
521
685
    SStream_concat0(O, ":");
522
523
685
    if (MI->csh->detail_opt) {
524
685
      MI->flat_insn->detail->x86
525
685
        .operands[MI->flat_insn->detail->x86.op_count]
526
685
        .mem.segment = X86_register_map(reg);
527
685
    }
528
685
  }
529
530
6.19k
  if (MCOperand_isImm(DispSpec)) {
531
6.19k
    int64_t imm = MCOperand_getImm(DispSpec);
532
6.19k
    if (MI->csh->detail_opt)
533
6.19k
      MI->flat_insn->detail->x86
534
6.19k
        .operands[MI->flat_insn->detail->x86.op_count]
535
6.19k
        .mem.disp = imm;
536
6.19k
    if (imm < 0) {
537
1.22k
      SStream_concat(O, "0x%" PRIx64,
538
1.22k
               arch_masks[MI->csh->mode] & imm);
539
4.96k
    } else {
540
4.96k
      if (imm > HEX_THRESHOLD)
541
4.61k
        SStream_concat(O, "0x%" PRIx64, imm);
542
351
      else
543
351
        SStream_concat(O, "%" PRIu64, imm);
544
4.96k
    }
545
6.19k
  }
546
547
6.19k
  if (MI->csh->detail_opt)
548
6.19k
    MI->flat_insn->detail->x86.op_count++;
549
6.19k
}
550
551
static void printU8Imm(MCInst *MI, unsigned Op, SStream *O)
552
23.9k
{
553
23.9k
  uint8_t val = MCOperand_getImm(MCInst_getOperand(MI, Op)) & 0xff;
554
555
23.9k
  if (val > HEX_THRESHOLD)
556
21.1k
    SStream_concat(O, "$0x%x", val);
557
2.71k
  else
558
2.71k
    SStream_concat(O, "$%" PRIu8, val);
559
560
23.9k
  if (MI->csh->detail_opt) {
561
23.9k
    MI->flat_insn->detail->x86
562
23.9k
      .operands[MI->flat_insn->detail->x86.op_count]
563
23.9k
      .type = X86_OP_IMM;
564
23.9k
    MI->flat_insn->detail->x86
565
23.9k
      .operands[MI->flat_insn->detail->x86.op_count]
566
23.9k
      .imm = val;
567
23.9k
    MI->flat_insn->detail->x86
568
23.9k
      .operands[MI->flat_insn->detail->x86.op_count]
569
23.9k
      .size = 1;
570
23.9k
    MI->flat_insn->detail->x86.op_count++;
571
23.9k
  }
572
23.9k
}
573
574
static void printMemOffs8(MCInst *MI, unsigned OpNo, SStream *O)
575
4.49k
{
576
4.49k
  MI->x86opsize = 1;
577
4.49k
  printMemOffset(MI, OpNo, O);
578
4.49k
}
579
580
static void printMemOffs16(MCInst *MI, unsigned OpNo, SStream *O)
581
579
{
582
579
  MI->x86opsize = 2;
583
579
  printMemOffset(MI, OpNo, O);
584
579
}
585
586
static void printMemOffs32(MCInst *MI, unsigned OpNo, SStream *O)
587
946
{
588
946
  MI->x86opsize = 4;
589
946
  printMemOffset(MI, OpNo, O);
590
946
}
591
592
static void printMemOffs64(MCInst *MI, unsigned OpNo, SStream *O)
593
166
{
594
166
  MI->x86opsize = 8;
595
166
  printMemOffset(MI, OpNo, O);
596
166
}
597
598
/// printPCRelImm - This is used to print an immediate value that ends up
599
/// being encoded as a pc-relative value (e.g. for jumps and calls).  These
600
/// print slightly differently than normal immediates.  For example, a $ is not
601
/// emitted.
602
static void printPCRelImm(MCInst *MI, unsigned OpNo, SStream *O)
603
32.8k
{
604
32.8k
  MCOperand *Op = MCInst_getOperand(MI, OpNo);
605
32.8k
  if (MCOperand_isImm(Op)) {
606
32.8k
    int64_t imm = MCOperand_getImm(Op) + MI->flat_insn->size +
607
32.8k
            MI->address;
608
609
    // truncate imm for non-64bit
610
32.8k
    if (MI->csh->mode != CS_MODE_64) {
611
24.7k
      imm = imm & 0xffffffff;
612
24.7k
    }
613
614
32.8k
    if (imm < 0) {
615
416
      SStream_concat(O, "0x%" PRIx64, imm);
616
32.4k
    } else {
617
32.4k
      if (imm > HEX_THRESHOLD)
618
32.4k
        SStream_concat(O, "0x%" PRIx64, imm);
619
10
      else
620
10
        SStream_concat(O, "%" PRIu64, imm);
621
32.4k
    }
622
32.8k
    if (MI->csh->detail_opt) {
623
32.8k
      MI->flat_insn->detail->x86
624
32.8k
        .operands[MI->flat_insn->detail->x86.op_count]
625
32.8k
        .type = X86_OP_IMM;
626
32.8k
      MI->has_imm = true;
627
32.8k
      MI->flat_insn->detail->x86
628
32.8k
        .operands[MI->flat_insn->detail->x86.op_count]
629
32.8k
        .imm = imm;
630
32.8k
      MI->flat_insn->detail->x86.op_count++;
631
32.8k
    }
632
32.8k
  }
633
32.8k
}
634
635
static void printOperand(MCInst *MI, unsigned OpNo, SStream *O)
636
459k
{
637
459k
  MCOperand *Op = MCInst_getOperand(MI, OpNo);
638
459k
  if (MCOperand_isReg(Op)) {
639
397k
    unsigned int reg = MCOperand_getReg(Op);
640
397k
    printRegName(O, reg);
641
397k
    if (MI->csh->detail_opt) {
642
397k
      if (MI->csh->doing_mem) {
643
49.4k
        MI->flat_insn->detail->x86
644
49.4k
          .operands[MI->flat_insn->detail->x86
645
49.4k
                .op_count]
646
49.4k
          .mem.base = X86_register_map(reg);
647
347k
      } else {
648
347k
        uint8_t access[CS_X86_MAXIMUM_OPERAND_SIZE];
649
650
347k
        MI->flat_insn->detail->x86
651
347k
          .operands[MI->flat_insn->detail->x86
652
347k
                .op_count]
653
347k
          .type = X86_OP_REG;
654
347k
        MI->flat_insn->detail->x86
655
347k
          .operands[MI->flat_insn->detail->x86
656
347k
                .op_count]
657
347k
          .reg = X86_register_map(reg);
658
347k
        MI->flat_insn->detail->x86
659
347k
          .operands[MI->flat_insn->detail->x86
660
347k
                .op_count]
661
347k
          .size =
662
347k
          MI->csh->regsize_map[X86_register_map(
663
347k
            reg)];
664
665
347k
        get_op_access(
666
347k
          MI->csh, MCInst_getOpcode(MI), access,
667
347k
          &MI->flat_insn->detail->x86.eflags);
668
347k
        MI->flat_insn->detail->x86
669
347k
          .operands[MI->flat_insn->detail->x86
670
347k
                .op_count]
671
347k
          .access =
672
347k
          access[MI->flat_insn->detail->x86
673
347k
                   .op_count];
674
675
347k
        MI->flat_insn->detail->x86.op_count++;
676
347k
      }
677
397k
    }
678
397k
  } else if (MCOperand_isImm(Op)) {
679
    // Print X86 immediates as signed values.
680
62.6k
    uint8_t encsize;
681
62.6k
    int64_t imm = MCOperand_getImm(Op);
682
62.6k
    uint8_t opsize =
683
62.6k
      X86_immediate_size(MCInst_getOpcode(MI), &encsize);
684
685
62.6k
    if (opsize == 1) { // print 1 byte immediate in positive form
686
31.5k
      imm = imm & 0xff;
687
31.5k
    }
688
689
62.6k
    switch (MI->flat_insn->id) {
690
28.3k
    default:
691
28.3k
      if (imm >= 0) {
692
25.7k
        if (imm > HEX_THRESHOLD)
693
21.8k
          SStream_concat(O, "$0x%" PRIx64, imm);
694
3.97k
        else
695
3.97k
          SStream_concat(O, "$%" PRIu64, imm);
696
25.7k
      } else {
697
2.59k
        if (MI->csh->imm_unsigned) {
698
0
          if (opsize) {
699
0
            switch (opsize) {
700
0
            default:
701
0
              break;
702
            // case 1 cannot occur because above imm was ANDed with 0xff,
703
            // making it effectively always positive.
704
            // So this switch is never reached.
705
0
            case 2:
706
0
              imm &= 0xffff;
707
0
              break;
708
0
            case 4:
709
0
              imm &= 0xffffffff;
710
0
              break;
711
0
            }
712
0
          }
713
714
0
          SStream_concat(O, "$0x%" PRIx64, imm);
715
2.59k
        } else {
716
2.59k
          if (imm ==
717
2.59k
              0x8000000000000000LL) // imm == -imm
718
0
            SStream_concat0(
719
0
              O,
720
0
              "$0x8000000000000000");
721
2.59k
          else if (imm < -HEX_THRESHOLD)
722
2.06k
            SStream_concat(O,
723
2.06k
                     "$-0x%" PRIx64,
724
2.06k
                     -imm);
725
532
          else
726
532
            SStream_concat(O, "$-%" PRIu64,
727
532
                     -imm);
728
2.59k
        }
729
2.59k
      }
730
28.3k
      break;
731
732
28.3k
    case X86_INS_MOVABS:
733
12.4k
    case X86_INS_MOV:
734
      // do not print number in negative form
735
      // Use unsigned comparison to handle values >= 2^63 correctly
736
12.4k
      if ((uint64_t)imm > HEX_THRESHOLD)
737
10.5k
        SStream_concat(O, "$0x%" PRIx64, imm);
738
1.81k
      else
739
1.81k
        SStream_concat(O, "$%" PRIu64, imm);
740
12.4k
      break;
741
742
0
    case X86_INS_IN:
743
0
    case X86_INS_OUT:
744
0
    case X86_INS_INT:
745
      // do not print number in negative form
746
0
      imm = imm & 0xff;
747
0
      if (imm >= 0 && imm <= HEX_THRESHOLD)
748
0
        SStream_concat(O, "$%" PRIu64, imm);
749
0
      else {
750
0
        SStream_concat(O, "$0x%x", imm);
751
0
      }
752
0
      break;
753
754
2.02k
    case X86_INS_LCALL:
755
3.46k
    case X86_INS_LJMP:
756
3.46k
    case X86_INS_JMP:
757
      // always print address in positive form
758
3.46k
      if (OpNo == 1) { // selector is ptr16
759
1.73k
        imm = imm & 0xffff;
760
1.73k
        opsize = 2;
761
1.73k
      } else
762
1.73k
        opsize = 4;
763
3.46k
      SStream_concat(O, "$0x%" PRIx64, imm);
764
3.46k
      break;
765
766
5.27k
    case X86_INS_AND:
767
8.92k
    case X86_INS_OR:
768
12.9k
    case X86_INS_XOR:
769
      // do not print number in negative form
770
12.9k
      if (imm >= 0 && imm <= HEX_THRESHOLD)
771
1.22k
        SStream_concat(O, "$%" PRIu64, imm);
772
11.7k
      else {
773
11.7k
        imm = arch_masks[opsize ? opsize : MI->imm_size] &
774
11.7k
              imm;
775
11.7k
        SStream_concat(O, "$0x%" PRIx64, imm);
776
11.7k
      }
777
12.9k
      break;
778
779
4.11k
    case X86_INS_RET:
780
5.40k
    case X86_INS_RETF:
781
      // RET imm16
782
5.40k
      if (imm >= 0 && imm <= HEX_THRESHOLD)
783
446
        SStream_concat(O, "$%" PRIu64, imm);
784
4.95k
      else {
785
4.95k
        imm = 0xffff & imm;
786
4.95k
        SStream_concat(O, "$0x%x", imm);
787
4.95k
      }
788
5.40k
      break;
789
62.6k
    }
790
791
62.6k
    if (MI->csh->detail_opt) {
792
62.6k
      if (MI->csh->doing_mem) {
793
0
        MI->flat_insn->detail->x86
794
0
          .operands[MI->flat_insn->detail->x86
795
0
                .op_count]
796
0
          .type = X86_OP_MEM;
797
0
        MI->flat_insn->detail->x86
798
0
          .operands[MI->flat_insn->detail->x86
799
0
                .op_count]
800
0
          .mem.disp = imm;
801
62.6k
      } else {
802
62.6k
        MI->flat_insn->detail->x86
803
62.6k
          .operands[MI->flat_insn->detail->x86
804
62.6k
                .op_count]
805
62.6k
          .type = X86_OP_IMM;
806
62.6k
        MI->has_imm = true;
807
62.6k
        MI->flat_insn->detail->x86
808
62.6k
          .operands[MI->flat_insn->detail->x86
809
62.6k
                .op_count]
810
62.6k
          .imm = imm;
811
812
62.6k
        if (opsize > 0) {
813
53.7k
          MI->flat_insn->detail->x86
814
53.7k
            .operands[MI->flat_insn->detail
815
53.7k
                  ->x86.op_count]
816
53.7k
            .size = opsize;
817
53.7k
          MI->flat_insn->detail->x86.encoding
818
53.7k
            .imm_size = encsize;
819
53.7k
        } else if (MI->op1_size > 0)
820
0
          MI->flat_insn->detail->x86
821
0
            .operands[MI->flat_insn->detail
822
0
                  ->x86.op_count]
823
0
            .size = MI->op1_size;
824
8.90k
        else
825
8.90k
          MI->flat_insn->detail->x86
826
8.90k
            .operands[MI->flat_insn->detail
827
8.90k
                  ->x86.op_count]
828
8.90k
            .size = MI->imm_size;
829
830
62.6k
        MI->flat_insn->detail->x86.op_count++;
831
62.6k
      }
832
62.6k
    }
833
62.6k
  }
834
459k
}
835
836
static void printMemReference(MCInst *MI, unsigned Op, SStream *O)
837
195k
{
838
195k
  MCOperand *BaseReg = MCInst_getOperand(MI, Op + X86_AddrBaseReg);
839
195k
  MCOperand *IndexReg = MCInst_getOperand(MI, Op + X86_AddrIndexReg);
840
195k
  MCOperand *DispSpec = MCInst_getOperand(MI, Op + X86_AddrDisp);
841
195k
  MCOperand *SegReg = MCInst_getOperand(MI, Op + X86_AddrSegmentReg);
842
195k
  uint64_t ScaleVal;
843
195k
  int segreg;
844
195k
  int64_t DispVal = 1;
845
846
195k
  if (MI->csh->detail_opt) {
847
195k
    uint8_t access[CS_X86_MAXIMUM_OPERAND_SIZE];
848
849
195k
    MI->flat_insn->detail->x86
850
195k
      .operands[MI->flat_insn->detail->x86.op_count]
851
195k
      .type = X86_OP_MEM;
852
195k
    MI->flat_insn->detail->x86
853
195k
      .operands[MI->flat_insn->detail->x86.op_count]
854
195k
      .size = MI->x86opsize;
855
195k
    MI->flat_insn->detail->x86
856
195k
      .operands[MI->flat_insn->detail->x86.op_count]
857
195k
      .mem.segment = X86_REG_INVALID;
858
195k
    MI->flat_insn->detail->x86
859
195k
      .operands[MI->flat_insn->detail->x86.op_count]
860
195k
      .mem.base = X86_register_map(MCOperand_getReg(BaseReg));
861
195k
    if (MCOperand_getReg(IndexReg) != X86_EIZ) {
862
194k
      MI->flat_insn->detail->x86
863
194k
        .operands[MI->flat_insn->detail->x86.op_count]
864
194k
        .mem.index =
865
194k
        X86_register_map(MCOperand_getReg(IndexReg));
866
194k
    }
867
195k
    MI->flat_insn->detail->x86
868
195k
      .operands[MI->flat_insn->detail->x86.op_count]
869
195k
      .mem.scale = 1;
870
195k
    MI->flat_insn->detail->x86
871
195k
      .operands[MI->flat_insn->detail->x86.op_count]
872
195k
      .mem.disp = 0;
873
874
195k
    get_op_access(MI->csh, MCInst_getOpcode(MI), access,
875
195k
            &MI->flat_insn->detail->x86.eflags);
876
195k
    MI->flat_insn->detail->x86
877
195k
      .operands[MI->flat_insn->detail->x86.op_count]
878
195k
      .access = access[MI->flat_insn->detail->x86.op_count];
879
195k
  }
880
881
  // If this has a segment register, print it.
882
195k
  segreg = MCOperand_getReg(SegReg);
883
195k
  if (segreg) {
884
4.54k
    _printOperand(MI, Op + X86_AddrSegmentReg, O);
885
4.54k
    SStream_concat0(O, ":");
886
887
4.54k
    if (MI->csh->detail_opt) {
888
4.54k
      MI->flat_insn->detail->x86
889
4.54k
        .operands[MI->flat_insn->detail->x86.op_count]
890
4.54k
        .mem.segment = X86_register_map(segreg);
891
4.54k
    }
892
4.54k
  }
893
894
195k
  if (MCOperand_isImm(DispSpec)) {
895
195k
    DispVal = MCOperand_getImm(DispSpec);
896
195k
    if (MI->csh->detail_opt)
897
195k
      MI->flat_insn->detail->x86
898
195k
        .operands[MI->flat_insn->detail->x86.op_count]
899
195k
        .mem.disp = DispVal;
900
195k
    if (DispVal) {
901
65.5k
      if (MCOperand_getReg(IndexReg) ||
902
62.2k
          MCOperand_getReg(BaseReg)) {
903
62.2k
        printInt64(O, DispVal);
904
62.2k
      } else {
905
        // only immediate as address of memory
906
3.27k
        if (DispVal < 0) {
907
1.48k
          SStream_concat(
908
1.48k
            O, "0x%" PRIx64,
909
1.48k
            arch_masks[MI->csh->mode] &
910
1.48k
              DispVal);
911
1.79k
        } else {
912
1.79k
          if (DispVal > HEX_THRESHOLD)
913
1.67k
            SStream_concat(O, "0x%" PRIx64,
914
1.67k
                     DispVal);
915
113
          else
916
113
            SStream_concat(O, "%" PRIu64,
917
113
                     DispVal);
918
1.79k
        }
919
3.27k
      }
920
65.5k
    }
921
195k
  }
922
923
195k
  if (MCOperand_getReg(IndexReg) || MCOperand_getReg(BaseReg)) {
924
191k
    SStream_concat0(O, "(");
925
926
191k
    if (MCOperand_getReg(BaseReg))
927
191k
      _printOperand(MI, Op + X86_AddrBaseReg, O);
928
929
191k
    if (MCOperand_getReg(IndexReg) &&
930
62.1k
        MCOperand_getReg(IndexReg) != X86_EIZ) {
931
61.1k
      SStream_concat0(O, ", ");
932
61.1k
      _printOperand(MI, Op + X86_AddrIndexReg, O);
933
61.1k
      ScaleVal = MCOperand_getImm(
934
61.1k
        MCInst_getOperand(MI, Op + X86_AddrScaleAmt));
935
61.1k
      if (MI->csh->detail_opt)
936
61.1k
        MI->flat_insn->detail->x86
937
61.1k
          .operands[MI->flat_insn->detail->x86
938
61.1k
                .op_count]
939
61.1k
          .mem.scale = (int)ScaleVal;
940
61.1k
      if (ScaleVal != 1) {
941
8.65k
        SStream_concat(O, ", %" PRIu64, ScaleVal);
942
8.65k
      }
943
61.1k
    }
944
945
191k
    SStream_concat0(O, ")");
946
191k
  } else {
947
3.46k
    if (!DispVal)
948
190
      SStream_concat0(O, "0");
949
3.46k
  }
950
951
195k
  if (MI->csh->detail_opt)
952
195k
    MI->flat_insn->detail->x86.op_count++;
953
195k
}
954
955
static void printanymem(MCInst *MI, unsigned OpNo, SStream *O)
956
4.70k
{
957
4.70k
  switch (MI->Opcode) {
958
153
  default:
959
153
    break;
960
469
  case X86_LEA16r:
961
469
    MI->x86opsize = 2;
962
469
    break;
963
405
  case X86_LEA32r:
964
1.05k
  case X86_LEA64_32r:
965
1.05k
    MI->x86opsize = 4;
966
1.05k
    break;
967
143
  case X86_LEA64r:
968
143
    MI->x86opsize = 8;
969
143
    break;
970
0
#ifndef CAPSTONE_X86_REDUCE
971
303
  case X86_BNDCL32rm:
972
545
  case X86_BNDCN32rm:
973
762
  case X86_BNDCU32rm:
974
1.18k
  case X86_BNDSTXmr:
975
1.98k
  case X86_BNDLDXrm:
976
2.27k
  case X86_BNDCL64rm:
977
2.80k
  case X86_BNDCN64rm:
978
2.89k
  case X86_BNDCU64rm:
979
2.89k
    MI->x86opsize = 16;
980
2.89k
    break;
981
4.70k
#endif
982
4.70k
  }
983
984
4.70k
  printMemReference(MI, OpNo, O);
985
4.70k
}
986
987
#include "X86InstPrinter.h"
988
989
// Include the auto-generated portion of the assembly writer.
990
#ifdef CAPSTONE_X86_REDUCE
991
#include "X86GenAsmWriter_reduce.inc"
992
#else
993
#include "X86GenAsmWriter.inc"
994
#endif
995
996
#include "X86GenRegisterName.inc"
997
998
static void printRegName(SStream *OS, unsigned RegNo)
999
655k
{
1000
655k
  SStream_concat(OS, "%%%s", getRegisterName(RegNo));
1001
655k
}
1002
1003
void X86_ATT_printInst(MCInst *MI, SStream *OS, void *info)
1004
511k
{
1005
511k
  x86_reg reg, reg2;
1006
511k
  enum cs_ac_type access1, access2;
1007
511k
  int i;
1008
1009
  // perhaps this instruction does not need printer
1010
511k
  if (MI->assembly[0]) {
1011
0
    strncpy(OS->buffer, MI->assembly, sizeof(OS->buffer));
1012
0
    return;
1013
0
  }
1014
1015
  // Output CALLpcrel32 as "callq" in 64-bit mode.
1016
  // In Intel annotation it's always emitted as "call".
1017
  //
1018
  // TODO: Probably this hack should be redesigned via InstAlias in
1019
  // InstrInfo.td as soon as Requires clause is supported properly
1020
  // for InstAlias.
1021
511k
  if (MI->csh->mode == CS_MODE_64 &&
1022
157k
      MCInst_getOpcode(MI) == X86_CALLpcrel32) {
1023
0
    SStream_concat0(OS, "callq\t");
1024
0
    MCInst_setOpcodePub(MI, X86_INS_CALL);
1025
0
    printPCRelImm(MI, 0, OS);
1026
0
    return;
1027
0
  }
1028
1029
511k
  X86_lockrep(MI, OS);
1030
511k
  printInstruction(MI, OS);
1031
1032
511k
  if (MI->has_imm) {
1033
    // if op_count > 1, then this operand's size is taken from the destination op
1034
92.4k
    if (MI->flat_insn->detail->x86.op_count > 1) {
1035
52.0k
      if (MI->flat_insn->id != X86_INS_LCALL &&
1036
51.0k
          MI->flat_insn->id != X86_INS_LJMP &&
1037
50.3k
          MI->flat_insn->id != X86_INS_JMP) {
1038
50.3k
        for (i = 0;
1039
152k
             i < MI->flat_insn->detail->x86.op_count;
1040
102k
             i++) {
1041
102k
          if (MI->flat_insn->detail->x86
1042
102k
                .operands[i]
1043
102k
                .type == X86_OP_IMM)
1044
51.6k
            MI->flat_insn->detail->x86
1045
51.6k
              .operands[i]
1046
51.6k
              .size =
1047
51.6k
              MI->flat_insn->detail
1048
51.6k
                ->x86
1049
51.6k
                .operands
1050
51.6k
                  [MI->flat_insn
1051
51.6k
                     ->detail
1052
51.6k
                     ->x86
1053
51.6k
                     .op_count -
1054
51.6k
                   1]
1055
51.6k
                .size;
1056
102k
        }
1057
50.3k
      }
1058
52.0k
    } else
1059
40.3k
      MI->flat_insn->detail->x86.operands[0].size =
1060
40.3k
        MI->imm_size;
1061
92.4k
  }
1062
1063
511k
  if (MI->csh->detail_opt) {
1064
511k
    uint8_t access[CS_X86_MAXIMUM_OPERAND_SIZE] = { 0 };
1065
1066
    // some instructions need to supply immediate 1 in the first op
1067
511k
    switch (MCInst_getOpcode(MI)) {
1068
480k
    default:
1069
480k
      break;
1070
480k
    case X86_SHL8r1:
1071
574
    case X86_SHL16r1:
1072
962
    case X86_SHL32r1:
1073
1.45k
    case X86_SHL64r1:
1074
1.60k
    case X86_SAL8r1:
1075
2.08k
    case X86_SAL16r1:
1076
2.74k
    case X86_SAL32r1:
1077
3.63k
    case X86_SAL64r1:
1078
4.01k
    case X86_SHR8r1:
1079
4.59k
    case X86_SHR16r1:
1080
5.12k
    case X86_SHR32r1:
1081
5.66k
    case X86_SHR64r1:
1082
5.90k
    case X86_SAR8r1:
1083
6.42k
    case X86_SAR16r1:
1084
6.96k
    case X86_SAR32r1:
1085
7.63k
    case X86_SAR64r1:
1086
9.37k
    case X86_RCL8r1:
1087
10.8k
    case X86_RCL16r1:
1088
12.3k
    case X86_RCL32r1:
1089
12.6k
    case X86_RCL64r1:
1090
13.0k
    case X86_RCR8r1:
1091
13.2k
    case X86_RCR16r1:
1092
13.7k
    case X86_RCR32r1:
1093
14.0k
    case X86_RCR64r1:
1094
14.4k
    case X86_ROL8r1:
1095
14.8k
    case X86_ROL16r1:
1096
15.1k
    case X86_ROL32r1:
1097
15.8k
    case X86_ROL64r1:
1098
16.4k
    case X86_ROR8r1:
1099
16.8k
    case X86_ROR16r1:
1100
17.3k
    case X86_ROR32r1:
1101
17.8k
    case X86_ROR64r1:
1102
18.1k
    case X86_SHL8m1:
1103
18.7k
    case X86_SHL16m1:
1104
19.4k
    case X86_SHL32m1:
1105
19.8k
    case X86_SHL64m1:
1106
20.3k
    case X86_SAL8m1:
1107
20.7k
    case X86_SAL16m1:
1108
21.1k
    case X86_SAL32m1:
1109
21.2k
    case X86_SAL64m1:
1110
21.7k
    case X86_SHR8m1:
1111
22.0k
    case X86_SHR16m1:
1112
22.6k
    case X86_SHR32m1:
1113
23.4k
    case X86_SHR64m1:
1114
23.6k
    case X86_SAR8m1:
1115
23.9k
    case X86_SAR16m1:
1116
24.2k
    case X86_SAR32m1:
1117
24.5k
    case X86_SAR64m1:
1118
25.2k
    case X86_RCL8m1:
1119
25.8k
    case X86_RCL16m1:
1120
26.1k
    case X86_RCL32m1:
1121
26.2k
    case X86_RCL64m1:
1122
26.4k
    case X86_RCR8m1:
1123
26.6k
    case X86_RCR16m1:
1124
26.9k
    case X86_RCR32m1:
1125
27.5k
    case X86_RCR64m1:
1126
28.1k
    case X86_ROL8m1:
1127
28.7k
    case X86_ROL16m1:
1128
29.3k
    case X86_ROL32m1:
1129
29.6k
    case X86_ROL64m1:
1130
30.0k
    case X86_ROR8m1:
1131
30.3k
    case X86_ROR16m1:
1132
30.9k
    case X86_ROR32m1:
1133
31.1k
    case X86_ROR64m1:
1134
      // shift all the ops right to leave 1st slot for this new register op
1135
31.1k
      memmove(&(MI->flat_insn->detail->x86.operands[1]),
1136
31.1k
        &(MI->flat_insn->detail->x86.operands[0]),
1137
31.1k
        sizeof(MI->flat_insn->detail->x86.operands[0]) *
1138
31.1k
          (ARR_SIZE(MI->flat_insn->detail->x86
1139
31.1k
                .operands) -
1140
31.1k
           1));
1141
31.1k
      MI->flat_insn->detail->x86.operands[0].type =
1142
31.1k
        X86_OP_IMM;
1143
31.1k
      MI->flat_insn->detail->x86.operands[0].imm = 1;
1144
31.1k
      MI->flat_insn->detail->x86.operands[0].size = 1;
1145
31.1k
      MI->flat_insn->detail->x86.op_count++;
1146
511k
    }
1147
1148
    // special instruction needs to supply register op
1149
    // first op can be embedded in the asm by llvm.
1150
    // so we have to add the missing register as the first operand
1151
1152
    //printf(">>> opcode = %u\n", MCInst_getOpcode(MI));
1153
1154
511k
    reg = X86_insn_reg_att_h(MI->csh, MCInst_getOpcode(MI),
1155
511k
           &access1);
1156
511k
    if (reg) {
1157
      // shift all the ops right to leave 1st slot for this new register op
1158
28.7k
      memmove(&(MI->flat_insn->detail->x86.operands[1]),
1159
28.7k
        &(MI->flat_insn->detail->x86.operands[0]),
1160
28.7k
        sizeof(MI->flat_insn->detail->x86.operands[0]) *
1161
28.7k
          (ARR_SIZE(MI->flat_insn->detail->x86
1162
28.7k
                .operands) -
1163
28.7k
           1));
1164
28.7k
      MI->flat_insn->detail->x86.operands[0].type =
1165
28.7k
        X86_OP_REG;
1166
28.7k
      MI->flat_insn->detail->x86.operands[0].reg = reg;
1167
28.7k
      MI->flat_insn->detail->x86.operands[0].size =
1168
28.7k
        MI->csh->regsize_map[reg];
1169
28.7k
      MI->flat_insn->detail->x86.operands[0].access = access1;
1170
1171
28.7k
      MI->flat_insn->detail->x86.op_count++;
1172
482k
    } else {
1173
482k
      if (X86_insn_reg_att2(MCInst_getOpcode(MI), &reg,
1174
482k
                &access1, &reg2, &access2)) {
1175
12.7k
        MI->flat_insn->detail->x86.operands[0].type =
1176
12.7k
          X86_OP_REG;
1177
12.7k
        MI->flat_insn->detail->x86.operands[0].reg =
1178
12.7k
          reg;
1179
12.7k
        MI->flat_insn->detail->x86.operands[0].size =
1180
12.7k
          MI->csh->regsize_map[reg];
1181
12.7k
        MI->flat_insn->detail->x86.operands[0].access =
1182
12.7k
          access1;
1183
12.7k
        MI->flat_insn->detail->x86.operands[1].type =
1184
12.7k
          X86_OP_REG;
1185
12.7k
        MI->flat_insn->detail->x86.operands[1].reg =
1186
12.7k
          reg2;
1187
12.7k
        MI->flat_insn->detail->x86.operands[1].size =
1188
12.7k
          MI->csh->regsize_map[reg2];
1189
12.7k
        MI->flat_insn->detail->x86.operands[1].access =
1190
12.7k
          access2;
1191
12.7k
        MI->flat_insn->detail->x86.op_count = 2;
1192
12.7k
      }
1193
482k
    }
1194
1195
511k
#ifndef CAPSTONE_DIET
1196
511k
    get_op_access(MI->csh, MCInst_getOpcode(MI), access,
1197
511k
            &MI->flat_insn->detail->x86.eflags);
1198
511k
    MI->flat_insn->detail->x86.operands[0].access = access[0];
1199
511k
    MI->flat_insn->detail->x86.operands[1].access = access[1];
1200
511k
#endif
1201
511k
  }
1202
511k
}
1203
1204
#endif