Coverage Report

Created: 2026-07-16 06:55

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/capstonenext/arch/AArch64/AArch64Mapping.c
Line
Count
Source
1
/* Capstone Disassembly Engine */
2
/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2019 */
3
4
#ifdef CAPSTONE_HAS_AARCH64
5
6
#include <stdio.h> // debug
7
#include <string.h>
8
9
#include "capstone/aarch64.h"
10
11
#include "../../cs_simple_types.h"
12
#include "../../Mapping.h"
13
#include "../../MathExtras.h"
14
#include "../../utils.h"
15
16
#include "AArch64AddressingModes.h"
17
#include "AArch64BaseInfo.h"
18
#include "AArch64DisassemblerExtension.h"
19
#include "AArch64Linkage.h"
20
#include "AArch64Mapping.h"
21
22
2.21k
#define CHAR(c) #c[0]
23
24
static float aarch64_exact_fp_to_fp(aarch64_exactfpimm exact)
25
6.65k
{
26
6.65k
  switch (exact) {
27
0
  default:
28
0
    CS_ASSERT(0 && "Not handled.");
29
0
    return 999.0;
30
135
  case AARCH64_EXACTFPIMM_HALF:
31
135
    return 0.5;
32
73
  case AARCH64_EXACTFPIMM_ONE:
33
73
    return 1.0;
34
41
  case AARCH64_EXACTFPIMM_TWO:
35
41
    return 2.0;
36
6.41k
  case AARCH64_EXACTFPIMM_ZERO:
37
6.41k
    return 0.0;
38
6.65k
  }
39
6.65k
}
40
41
#ifndef CAPSTONE_DIET
42
static const aarch64_reg aarch64_flag_regs[] = {
43
  AARCH64_REG_NZCV,
44
};
45
46
static const aarch64_sysreg aarch64_flag_sys_regs[] = {
47
  AARCH64_SYSREG_NZCV, AARCH64_SYSREG_PMOVSCLR_EL0,
48
  AARCH64_SYSREG_PMOVSSET_EL0, AARCH64_SYSREG_SPMOVSCLR_EL0,
49
  AARCH64_SYSREG_SPMOVSSET_EL0
50
};
51
#endif // CAPSTONE_DIET
52
53
static AArch64Layout_VectorLayout sme_reg_to_vas(aarch64_reg reg)
54
0
{
55
0
  switch (reg) {
56
0
  default:
57
0
    return AARCH64LAYOUT_INVALID;
58
0
  case AARCH64_REG_ZAB0:
59
0
    return AARCH64LAYOUT_VL_B;
60
0
  case AARCH64_REG_ZAH0:
61
0
  case AARCH64_REG_ZAH1:
62
0
    return AARCH64LAYOUT_VL_H;
63
0
  case AARCH64_REG_ZAS0:
64
0
  case AARCH64_REG_ZAS1:
65
0
  case AARCH64_REG_ZAS2:
66
0
  case AARCH64_REG_ZAS3:
67
0
    return AARCH64LAYOUT_VL_S;
68
0
  case AARCH64_REG_ZAD0:
69
0
  case AARCH64_REG_ZAD1:
70
0
  case AARCH64_REG_ZAD2:
71
0
  case AARCH64_REG_ZAD3:
72
0
  case AARCH64_REG_ZAD4:
73
0
  case AARCH64_REG_ZAD5:
74
0
  case AARCH64_REG_ZAD6:
75
0
  case AARCH64_REG_ZAD7:
76
0
    return AARCH64LAYOUT_VL_D;
77
0
  case AARCH64_REG_ZAQ0:
78
0
  case AARCH64_REG_ZAQ1:
79
0
  case AARCH64_REG_ZAQ2:
80
0
  case AARCH64_REG_ZAQ3:
81
0
  case AARCH64_REG_ZAQ4:
82
0
  case AARCH64_REG_ZAQ5:
83
0
  case AARCH64_REG_ZAQ6:
84
0
  case AARCH64_REG_ZAQ7:
85
0
  case AARCH64_REG_ZAQ8:
86
0
  case AARCH64_REG_ZAQ9:
87
0
  case AARCH64_REG_ZAQ10:
88
0
  case AARCH64_REG_ZAQ11:
89
0
  case AARCH64_REG_ZAQ12:
90
0
  case AARCH64_REG_ZAQ13:
91
0
  case AARCH64_REG_ZAQ14:
92
0
  case AARCH64_REG_ZAQ15:
93
0
    return AARCH64LAYOUT_VL_Q;
94
0
  case AARCH64_REG_ZA:
95
0
    return AARCH64LAYOUT_VL_COMPLETE;
96
0
  }
97
0
}
98
99
void AArch64_init_mri(MCRegisterInfo *MRI)
100
9.02k
{
101
9.02k
  MCRegisterInfo_InitMCRegisterInfo(
102
9.02k
    MRI, AArch64RegDesc, AARCH64_REG_ENDING, 0, 0,
103
9.02k
    AArch64MCRegisterClasses, ARR_SIZE(AArch64MCRegisterClasses), 0,
104
9.02k
    0, AArch64RegDiffLists, 0, AArch64SubRegIdxLists,
105
9.02k
    ARR_SIZE(AArch64SubRegIdxLists), 0);
106
9.02k
}
107
108
/// Sets up a new SME matrix operand at the currently active detail operand.
109
static void setup_sme_operand(MCInst *MI)
110
28.3k
{
111
28.3k
  if (!detail_is_set(MI))
112
0
    return;
113
114
28.3k
  AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_SME;
115
28.3k
  AArch64_get_detail_op(MI, 0)->sme.type = AARCH64_SME_OP_INVALID;
116
28.3k
  AArch64_get_detail_op(MI, 0)->sme.tile = AARCH64_REG_INVALID;
117
28.3k
  AArch64_get_detail_op(MI, 0)->sme.slice_reg = AARCH64_REG_INVALID;
118
28.3k
  AArch64_get_detail_op(MI, 0)->sme.slice_offset.imm =
119
28.3k
    AARCH64_SLICE_IMM_INVALID;
120
28.3k
  AArch64_get_detail_op(MI, 0)->sme.slice_offset.imm_range.first =
121
28.3k
    AARCH64_SLICE_IMM_RANGE_INVALID;
122
28.3k
  AArch64_get_detail_op(MI, 0)->sme.slice_offset.imm_range.offset =
123
28.3k
    AARCH64_SLICE_IMM_RANGE_INVALID;
124
28.3k
}
125
126
static void setup_pred_operand(MCInst *MI)
127
76.3k
{
128
76.3k
  if (!detail_is_set(MI))
129
0
    return;
130
131
76.3k
  AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_PRED;
132
76.3k
  AArch64_get_detail_op(MI, 0)->pred.imm_index = -1;
133
76.3k
}
134
135
const insn_map aarch64_insns[] = {
136
#include "AArch64GenCSMappingInsn.inc"
137
};
138
139
static const name_map insn_alias_mnem_map[] = {
140
#include "AArch64GenCSAliasMnemMap.inc"
141
  { AARCH64_INS_ALIAS_CFP, "cfp" },
142
  { AARCH64_INS_ALIAS_DVP, "dvp" },
143
  { AARCH64_INS_ALIAS_COSP, "cosp" },
144
  { AARCH64_INS_ALIAS_CPP, "cpp" },
145
  { AARCH64_INS_ALIAS_IC, "ic" },
146
  { AARCH64_INS_ALIAS_DC, "dc" },
147
  { AARCH64_INS_ALIAS_AT, "at" },
148
  { AARCH64_INS_ALIAS_TLBI, "tlbi" },
149
  { AARCH64_INS_ALIAS_TLBIP, "tlbip" },
150
  { AARCH64_INS_ALIAS_RPRFM, "rprfm" },
151
  { AARCH64_INS_ALIAS_LSL, "lsl" },
152
  { AARCH64_INS_ALIAS_SBFX, "sbfx" },
153
  { AARCH64_INS_ALIAS_UBFX, "ubfx" },
154
  { AARCH64_INS_ALIAS_SBFIZ, "sbfiz" },
155
  { AARCH64_INS_ALIAS_UBFIZ, "ubfiz" },
156
  { AARCH64_INS_ALIAS_BFC, "bfc" },
157
  { AARCH64_INS_ALIAS_BFI, "bfi" },
158
  { AARCH64_INS_ALIAS_BFXIL, "bfxil" },
159
  { AARCH64_INS_ALIAS_END, NULL },
160
};
161
162
static const char *get_custom_reg_alias(unsigned reg)
163
65.8k
{
164
65.8k
  switch (reg) {
165
117
  case AARCH64_REG_X29:
166
117
    return "fp";
167
2.00k
  case AARCH64_REG_X30:
168
2.00k
    return "lr";
169
65.8k
  }
170
63.6k
  return NULL;
171
65.8k
}
172
173
/// Very annoyingly LLVM hard codes the vector layout post-fixes into the asm string.
174
/// In this function we check for these cases and add the vectorlayout/arrangement
175
/// specifier.
176
void AArch64_add_vas(MCInst *MI, const SStream *OS)
177
324k
{
178
324k
  if (!detail_is_set(MI)) {
179
0
    return;
180
0
  }
181
182
324k
  if (AArch64_get_detail(MI)->op_count == 0) {
183
392
    return;
184
392
  }
185
323k
  if (MCInst_getOpcode(MI) == AArch64_MUL53HI ||
186
323k
      MCInst_getOpcode(MI) == AArch64_MUL53LO) {
187
    // Proprietary Apple instrucions.
188
0
    AArch64_get_detail(MI)->operands[0].vas = AARCH64LAYOUT_VL_2D;
189
0
    AArch64_get_detail(MI)->operands[1].vas = AARCH64LAYOUT_VL_2D;
190
0
    return;
191
0
  }
192
193
  // Search for r".[0-9]{1,2}[bhsdq]\W"
194
  // with poor mans regex
195
323k
  const char *vl_ptr = strchr(OS->buffer, '.');
196
695k
  while (vl_ptr) {
197
    // Number after dot?
198
371k
    unsigned num = 0;
199
371k
    if (strchr("1248", vl_ptr[1])) {
200
89.0k
      num = atoi(vl_ptr + 1);
201
89.0k
      vl_ptr = num > 9 ? vl_ptr + 3 : vl_ptr + 2;
202
282k
    } else {
203
282k
      vl_ptr++;
204
282k
    }
205
206
    // Layout letter
207
371k
    char letter = '\0';
208
371k
    if (strchr("bhsdq", vl_ptr[0])) {
209
362k
      letter = vl_ptr[0];
210
362k
    }
211
371k
    if (!letter) {
212
8.84k
      goto next_dot_continue;
213
8.84k
    }
214
215
362k
    AArch64Layout_VectorLayout vl = AARCH64LAYOUT_INVALID;
216
362k
    switch (letter) {
217
0
    default:
218
0
      CS_ASSERT_RET(0 && "Unhandled vector layout letter.");
219
0
      return;
220
81.7k
    case 'b':
221
81.7k
      vl = AARCH64LAYOUT_VL_B;
222
81.7k
      break;
223
96.6k
    case 'h':
224
96.6k
      vl = AARCH64LAYOUT_VL_H;
225
96.6k
      break;
226
91.2k
    case 's':
227
91.2k
      vl = AARCH64LAYOUT_VL_S;
228
91.2k
      break;
229
89.3k
    case 'd':
230
89.3k
      vl = AARCH64LAYOUT_VL_D;
231
89.3k
      break;
232
3.54k
    case 'q':
233
3.54k
      vl = AARCH64LAYOUT_VL_Q;
234
3.54k
      break;
235
362k
    }
236
362k
    vl |= (num << 8);
237
238
    // Determine op index by searching for trailing commata after op string
239
362k
    uint32_t op_idx = 0;
240
362k
    const char *comma_ptr = strchr(OS->buffer, ',');
241
362k
    ;
242
775k
    while (comma_ptr && comma_ptr < vl_ptr) {
243
413k
      ++op_idx;
244
413k
      comma_ptr = strchr(comma_ptr + 1, ',');
245
413k
    }
246
362k
    if (!comma_ptr) {
247
      // Last op doesn't have a trailing commata.
248
53.5k
      op_idx = AArch64_get_detail(MI)->op_count - 1;
249
53.5k
    }
250
362k
    if (op_idx >= AArch64_get_detail(MI)->op_count) {
251
      // A memory operand with a commata in [base, dist]
252
13.0k
      op_idx = AArch64_get_detail(MI)->op_count - 1;
253
13.0k
    }
254
255
    // Search for the operand this one belongs to.
256
362k
    cs_aarch64_op *op = &AArch64_get_detail(MI)->operands[op_idx];
257
362k
    if ((op->type != AARCH64_OP_REG &&
258
57.2k
         op->type != AARCH64_OP_SME) ||
259
328k
        op->vas != AARCH64LAYOUT_INVALID) {
260
292k
      goto next_dot_continue;
261
292k
    }
262
70.2k
    op->vas = vl;
263
264
371k
next_dot_continue:
265
371k
    vl_ptr = strchr(vl_ptr + 1, '.');
266
371k
  }
267
323k
}
268
269
const char *AArch64_reg_name(csh handle, unsigned int reg)
270
65.8k
{
271
65.8k
  int syntax_opt = ((cs_struct *)(uintptr_t)handle)->syntax;
272
65.8k
  const char *alias = get_custom_reg_alias(reg);
273
65.8k
  if ((syntax_opt & CS_OPT_SYNTAX_CS_REG_ALIAS) && alias)
274
0
    return alias;
275
276
65.8k
  if (((cs_struct *)(uintptr_t)handle)->syntax &
277
65.8k
      CS_OPT_SYNTAX_NOREGNAME) {
278
0
    return AArch64_LLVM_getRegisterName(reg, AArch64_NoRegAltName);
279
0
  }
280
  // TODO Add options for the other register names
281
65.8k
  return AArch64_LLVM_getRegisterName(reg, AArch64_NoRegAltName);
282
65.8k
}
283
284
void AArch64_setup_op(cs_aarch64_op *op)
285
5.32M
{
286
5.32M
  memset(op, 0, sizeof(cs_aarch64_op));
287
5.32M
  op->type = AARCH64_OP_INVALID;
288
5.32M
  op->vector_index = -1;
289
5.32M
}
290
291
void AArch64_init_cs_detail(MCInst *MI)
292
331k
{
293
331k
  if (detail_is_set(MI)) {
294
331k
    memset(get_detail(MI), 0,
295
331k
           offsetof(cs_detail, aarch64) + sizeof(cs_aarch64));
296
5.63M
    for (int i = 0; i < ARR_SIZE(AArch64_get_detail(MI)->operands);
297
5.30M
         i++)
298
5.30M
      AArch64_setup_op(&AArch64_get_detail(MI)->operands[i]);
299
331k
    AArch64_get_detail(MI)->cc = AArch64CC_Invalid;
300
331k
  }
301
331k
}
302
303
/// Unfortunately, the AARCH64 definitions do not indicate in any way
304
/// (exception are the instruction identifiers), if memory accesses
305
/// is post- or pre-indexed.
306
/// So the only generic way to determine, if the memory access is in
307
/// post-indexed addressing mode, is by search for "<membase>], #<memdisp>" in
308
/// @p OS.
309
/// Searching the asm string to determine such a property is enormously ugly
310
/// and wastes resources.
311
/// Sorry, I know and do feel bad about it. But for now it works.
312
static bool AArch64_check_post_index_am(const MCInst *MI, const SStream *OS)
313
324k
{
314
324k
  if (AArch64_get_detail(MI)->post_index) {
315
0
    return true;
316
0
  }
317
324k
  cs_aarch64_op *memop = NULL;
318
1.12M
  for (int i = 0; i < AArch64_get_detail(MI)->op_count; ++i) {
319
914k
    if (AArch64_get_detail(MI)->operands[i].type & CS_OP_MEM) {
320
115k
      memop = &AArch64_get_detail(MI)->operands[i];
321
115k
      break;
322
115k
    }
323
914k
  }
324
324k
  if (!memop)
325
208k
    return false;
326
115k
  if (memop->mem.base == AARCH64_REG_INVALID) {
327
    // Load/Store from/to label. Has no register base.
328
5.00k
    return false;
329
5.00k
  }
330
110k
  const char *membase = AArch64_LLVM_getRegisterName(
331
110k
    memop->mem.base, AArch64_NoRegAltName);
332
110k
  int64_t memdisp = memop->mem.disp;
333
110k
  SStream pattern = { 0 };
334
110k
  SStream_concat(&pattern, membase);
335
110k
  SStream_concat(&pattern, "], ");
336
110k
  printInt32Bang(&pattern, memdisp);
337
110k
  return strstr(OS->buffer, pattern.buffer) != NULL;
338
115k
}
339
340
static void AArch64_check_updates_flags(MCInst *MI)
341
324k
{
342
324k
#ifndef CAPSTONE_DIET
343
324k
  if (!detail_is_set(MI))
344
0
    return;
345
324k
  cs_detail *detail = get_detail(MI);
346
  // Implicitly written registers
347
355k
  for (int i = 0; i < detail->regs_write_count; ++i) {
348
44.9k
    if (detail->regs_write[i] == 0)
349
0
      break;
350
76.1k
    for (int j = 0; j < ARR_SIZE(aarch64_flag_regs); ++j) {
351
44.9k
      if (detail->regs_write[i] == aarch64_flag_regs[j]) {
352
13.6k
        detail->aarch64.update_flags = true;
353
13.6k
        return;
354
13.6k
      }
355
44.9k
    }
356
44.9k
  }
357
1.19M
  for (int i = 0; i < detail->aarch64.op_count; ++i) {
358
884k
    if (detail->aarch64.operands[i].type == AARCH64_OP_SYSREG &&
359
5.96k
        detail->aarch64.operands[i].sysop.sub_type ==
360
5.96k
          AARCH64_OP_REG_MSR) {
361
16.2k
      for (int j = 0; j < ARR_SIZE(aarch64_flag_sys_regs);
362
13.2k
           ++j)
363
13.5k
        if (detail->aarch64.operands[i]
364
13.5k
              .sysop.reg.sysreg ==
365
13.5k
            aarch64_flag_sys_regs[j]) {
366
356
          detail->aarch64.update_flags = true;
367
356
          return;
368
356
        }
369
881k
    } else if (detail->aarch64.operands[i].type == AARCH64_OP_REG &&
370
556k
         detail->aarch64.operands[i].access & CS_AC_WRITE) {
371
550k
      for (int j = 0; j < ARR_SIZE(aarch64_flag_regs); ++j)
372
275k
        if (detail->aarch64.operands[i].reg ==
373
275k
            aarch64_flag_regs[j]) {
374
0
          detail->aarch64.update_flags = true;
375
0
          return;
376
0
        }
377
275k
    }
378
884k
  }
379
310k
#endif // CAPSTONE_DIET
380
310k
}
381
382
static aarch64_shifter id_to_shifter(unsigned Opcode)
383
1.29k
{
384
1.29k
  switch (Opcode) {
385
0
  default:
386
0
    return AARCH64_SFT_INVALID;
387
274
  case AArch64_RORVXr:
388
347
  case AArch64_RORVWr:
389
347
    return AARCH64_SFT_ROR_REG;
390
518
  case AArch64_LSRVXr:
391
677
  case AArch64_LSRVWr:
392
677
    return AARCH64_SFT_LSR_REG;
393
92
  case AArch64_LSLVXr:
394
108
  case AArch64_LSLVWr:
395
108
    return AARCH64_SFT_LSL_REG;
396
88
  case AArch64_ASRVXr:
397
158
  case AArch64_ASRVWr:
398
158
    return AARCH64_SFT_ASR_REG;
399
1.29k
  }
400
1.29k
}
401
402
static void add_non_alias_details(MCInst *MI)
403
282k
{
404
282k
  unsigned Opcode = MCInst_getOpcode(MI);
405
282k
  switch (Opcode) {
406
267k
  default:
407
267k
    break;
408
267k
  case AArch64_RORVXr:
409
347
  case AArch64_RORVWr:
410
865
  case AArch64_LSRVXr:
411
1.02k
  case AArch64_LSRVWr:
412
1.11k
  case AArch64_LSLVXr:
413
1.13k
  case AArch64_LSLVWr:
414
1.22k
  case AArch64_ASRVXr:
415
1.29k
  case AArch64_ASRVWr:
416
1.29k
    if (AArch64_get_detail(MI)->op_count != 3) {
417
0
      return;
418
0
    }
419
1.29k
    CS_ASSERT_RET(AArch64_get_detail_op(MI, -1)->type ==
420
1.29k
            AARCH64_OP_REG);
421
422
    // The shift by register instructions don't set the shift value properly.
423
    // Correct it here.
424
1.29k
    uint64_t shift = AArch64_get_detail_op(MI, -1)->reg;
425
1.29k
    cs_aarch64_op *op1 = AArch64_get_detail_op(MI, -2);
426
1.29k
    op1->shift.type = id_to_shifter(Opcode);
427
1.29k
    op1->shift.value = shift;
428
1.29k
    AArch64_dec_op_count(MI);
429
1.29k
    break;
430
20
  case AArch64_FCMPDri:
431
31
  case AArch64_FCMPEDri:
432
267
  case AArch64_FCMPEHri:
433
388
  case AArch64_FCMPESri:
434
557
  case AArch64_FCMPHri:
435
773
  case AArch64_FCMPSri:
436
773
    AArch64_insert_detail_op_reg_at(MI, -1, AARCH64_REG_XZR,
437
773
            CS_AC_READ);
438
773
    break;
439
89
  case AArch64_CMEQv16i8rz:
440
108
  case AArch64_CMEQv1i64rz:
441
378
  case AArch64_CMEQv2i32rz:
442
540
  case AArch64_CMEQv2i64rz:
443
644
  case AArch64_CMEQv4i16rz:
444
692
  case AArch64_CMEQv4i32rz:
445
981
  case AArch64_CMEQv8i16rz:
446
1.24k
  case AArch64_CMEQv8i8rz:
447
1.33k
  case AArch64_CMGEv16i8rz:
448
1.36k
  case AArch64_CMGEv1i64rz:
449
1.50k
  case AArch64_CMGEv2i32rz:
450
1.80k
  case AArch64_CMGEv2i64rz:
451
1.85k
  case AArch64_CMGEv4i16rz:
452
1.98k
  case AArch64_CMGEv4i32rz:
453
2.08k
  case AArch64_CMGEv8i16rz:
454
2.47k
  case AArch64_CMGEv8i8rz:
455
2.66k
  case AArch64_CMGTv16i8rz:
456
2.75k
  case AArch64_CMGTv1i64rz:
457
2.83k
  case AArch64_CMGTv2i32rz:
458
3.39k
  case AArch64_CMGTv2i64rz:
459
3.48k
  case AArch64_CMGTv4i16rz:
460
3.56k
  case AArch64_CMGTv4i32rz:
461
3.78k
  case AArch64_CMGTv8i16rz:
462
4.22k
  case AArch64_CMGTv8i8rz:
463
4.31k
  case AArch64_CMLEv16i8rz:
464
4.38k
  case AArch64_CMLEv1i64rz:
465
4.44k
  case AArch64_CMLEv2i32rz:
466
4.50k
  case AArch64_CMLEv2i64rz:
467
4.64k
  case AArch64_CMLEv4i16rz:
468
4.72k
  case AArch64_CMLEv4i32rz:
469
4.99k
  case AArch64_CMLEv8i16rz:
470
5.36k
  case AArch64_CMLEv8i8rz:
471
5.42k
  case AArch64_CMLTv16i8rz:
472
5.51k
  case AArch64_CMLTv1i64rz:
473
5.58k
  case AArch64_CMLTv2i32rz:
474
6.28k
  case AArch64_CMLTv2i64rz:
475
6.33k
  case AArch64_CMLTv4i16rz:
476
6.41k
  case AArch64_CMLTv4i32rz:
477
6.61k
  case AArch64_CMLTv8i16rz:
478
6.64k
  case AArch64_CMLTv8i8rz:
479
6.64k
    AArch64_insert_detail_op_imm_at(MI, -1, 0);
480
6.64k
    break;
481
189
  case AArch64_FCMEQ_PPzZ0_D:
482
235
  case AArch64_FCMEQ_PPzZ0_H:
483
561
  case AArch64_FCMEQ_PPzZ0_S:
484
681
  case AArch64_FCMEQv1i16rz:
485
757
  case AArch64_FCMEQv1i32rz:
486
829
  case AArch64_FCMEQv1i64rz:
487
858
  case AArch64_FCMEQv2i32rz:
488
878
  case AArch64_FCMEQv2i64rz:
489
891
  case AArch64_FCMEQv4i16rz:
490
928
  case AArch64_FCMEQv4i32rz:
491
1.01k
  case AArch64_FCMEQv8i16rz:
492
1.35k
  case AArch64_FCMGE_PPzZ0_D:
493
1.59k
  case AArch64_FCMGE_PPzZ0_H:
494
1.67k
  case AArch64_FCMGE_PPzZ0_S:
495
1.82k
  case AArch64_FCMGEv1i16rz:
496
1.89k
  case AArch64_FCMGEv1i32rz:
497
1.91k
  case AArch64_FCMGEv1i64rz:
498
2.61k
  case AArch64_FCMGEv2i32rz:
499
2.69k
  case AArch64_FCMGEv2i64rz:
500
2.92k
  case AArch64_FCMGEv4i16rz:
501
3.03k
  case AArch64_FCMGEv4i32rz:
502
3.17k
  case AArch64_FCMGEv8i16rz:
503
3.21k
  case AArch64_FCMGT_PPzZ0_D:
504
3.32k
  case AArch64_FCMGT_PPzZ0_H:
505
3.34k
  case AArch64_FCMGT_PPzZ0_S:
506
3.39k
  case AArch64_FCMGTv1i16rz:
507
3.41k
  case AArch64_FCMGTv1i32rz:
508
3.44k
  case AArch64_FCMGTv1i64rz:
509
3.54k
  case AArch64_FCMGTv2i32rz:
510
3.64k
  case AArch64_FCMGTv2i64rz:
511
3.68k
  case AArch64_FCMGTv4i16rz:
512
3.79k
  case AArch64_FCMGTv4i32rz:
513
3.86k
  case AArch64_FCMGTv8i16rz:
514
4.28k
  case AArch64_FCMLE_PPzZ0_D:
515
4.32k
  case AArch64_FCMLE_PPzZ0_H:
516
4.46k
  case AArch64_FCMLE_PPzZ0_S:
517
4.50k
  case AArch64_FCMLEv1i16rz:
518
4.51k
  case AArch64_FCMLEv1i32rz:
519
4.58k
  case AArch64_FCMLEv1i64rz:
520
4.60k
  case AArch64_FCMLEv2i32rz:
521
4.65k
  case AArch64_FCMLEv2i64rz:
522
4.72k
  case AArch64_FCMLEv4i16rz:
523
4.80k
  case AArch64_FCMLEv4i32rz:
524
4.84k
  case AArch64_FCMLEv8i16rz:
525
5.41k
  case AArch64_FCMLT_PPzZ0_D:
526
5.43k
  case AArch64_FCMLT_PPzZ0_H:
527
5.47k
  case AArch64_FCMLT_PPzZ0_S:
528
5.51k
  case AArch64_FCMLTv1i16rz:
529
5.52k
  case AArch64_FCMLTv1i32rz:
530
5.59k
  case AArch64_FCMLTv1i64rz:
531
5.73k
  case AArch64_FCMLTv2i32rz:
532
5.74k
  case AArch64_FCMLTv2i64rz:
533
5.78k
  case AArch64_FCMLTv4i16rz:
534
5.85k
  case AArch64_FCMLTv4i32rz:
535
5.99k
  case AArch64_FCMLTv8i16rz:
536
6.07k
  case AArch64_FCMNE_PPzZ0_D:
537
6.19k
  case AArch64_FCMNE_PPzZ0_H:
538
6.24k
  case AArch64_FCMNE_PPzZ0_S: {
539
6.24k
    aarch64_sysop sysop = { 0 };
540
6.24k
    sysop.imm.exactfpimm = AARCH64_EXACTFPIMM_ZERO;
541
6.24k
    sysop.sub_type = AARCH64_OP_EXACTFPIMM;
542
6.24k
    AArch64_insert_detail_op_sys(MI, -1, sysop, AARCH64_OP_SYSIMM);
543
6.24k
    break;
544
6.19k
  }
545
282k
  }
546
282k
}
547
548
#define ADD_ZA0_S \
549
1.57k
  { \
550
1.57k
    aarch64_op_sme za0_op = { \
551
1.57k
      .type = AARCH64_SME_OP_TILE, \
552
1.57k
      .tile = AARCH64_REG_ZAS0, \
553
1.57k
      .slice_reg = AARCH64_REG_INVALID, \
554
1.57k
      .slice_offset = { -1 }, \
555
1.57k
      .has_range_offset = false, \
556
1.57k
      .is_vertical = false, \
557
1.57k
    }; \
558
1.57k
    AArch64_insert_detail_op_sme(MI, -1, za0_op); \
559
1.57k
    AArch64_get_detail_op(MI, -1)->vas = AARCH64LAYOUT_VL_S; \
560
1.57k
    AArch64_get_detail_op(MI, -1)->access = CS_AC_WRITE; \
561
1.57k
  }
562
#define ADD_ZA1_S \
563
404
  { \
564
404
    aarch64_op_sme za1_op = { \
565
404
      .type = AARCH64_SME_OP_TILE, \
566
404
      .tile = AARCH64_REG_ZAS1, \
567
404
      .slice_reg = AARCH64_REG_INVALID, \
568
404
      .slice_offset = { -1 }, \
569
404
      .has_range_offset = false, \
570
404
      .is_vertical = false, \
571
404
    }; \
572
404
    AArch64_insert_detail_op_sme(MI, -1, za1_op); \
573
404
    AArch64_get_detail_op(MI, -1)->vas = AARCH64LAYOUT_VL_S; \
574
404
    AArch64_get_detail_op(MI, -1)->access = CS_AC_WRITE; \
575
404
  }
576
#define ADD_ZA2_S \
577
651
  { \
578
651
    aarch64_op_sme za2_op = { \
579
651
      .type = AARCH64_SME_OP_TILE, \
580
651
      .tile = AARCH64_REG_ZAS2, \
581
651
      .slice_reg = AARCH64_REG_INVALID, \
582
651
      .slice_offset = { -1 }, \
583
651
      .has_range_offset = false, \
584
651
      .is_vertical = false, \
585
651
    }; \
586
651
    AArch64_insert_detail_op_sme(MI, -1, za2_op); \
587
651
    AArch64_get_detail_op(MI, -1)->vas = AARCH64LAYOUT_VL_S; \
588
651
    AArch64_get_detail_op(MI, -1)->access = CS_AC_WRITE; \
589
651
  }
590
#define ADD_ZA3_S \
591
1.05k
  { \
592
1.05k
    aarch64_op_sme za3_op = { \
593
1.05k
      .type = AARCH64_SME_OP_TILE, \
594
1.05k
      .tile = AARCH64_REG_ZAS3, \
595
1.05k
      .slice_reg = AARCH64_REG_INVALID, \
596
1.05k
      .slice_offset = { -1 }, \
597
1.05k
      .has_range_offset = false, \
598
1.05k
      .is_vertical = false, \
599
1.05k
    }; \
600
1.05k
    AArch64_insert_detail_op_sme(MI, -1, za3_op); \
601
1.05k
    AArch64_get_detail_op(MI, -1)->vas = AARCH64LAYOUT_VL_S; \
602
1.05k
    AArch64_get_detail_op(MI, -1)->access = CS_AC_WRITE; \
603
1.05k
  }
604
#define ADD_ZA \
605
647
  { \
606
647
    aarch64_op_sme za_op = { \
607
647
      .type = AARCH64_SME_OP_TILE, \
608
647
      .tile = AARCH64_REG_ZA, \
609
647
      .slice_reg = AARCH64_REG_INVALID, \
610
647
      .slice_offset = { -1 }, \
611
647
      .has_range_offset = false, \
612
647
      .is_vertical = false, \
613
647
    }; \
614
647
    AArch64_insert_detail_op_sme(MI, -1, za_op); \
615
647
    AArch64_get_detail_op(MI, -1)->access = CS_AC_WRITE; \
616
647
  }
617
618
static void AArch64_add_not_defined_ops(MCInst *MI, const SStream *OS)
619
324k
{
620
324k
  if (!detail_is_set(MI))
621
0
    return;
622
623
324k
  if (!MI->flat_insn->is_alias || !MI->flat_insn->usesAliasDetails) {
624
282k
    add_non_alias_details(MI);
625
282k
    return;
626
282k
  }
627
628
  // Alias details
629
41.4k
  switch (MI->flat_insn->alias_id) {
630
30.7k
  default:
631
30.7k
    return;
632
30.7k
  case AARCH64_INS_ALIAS_ROR:
633
27
    if (AArch64_get_detail(MI)->op_count != 3) {
634
0
      return;
635
0
    }
636
    // The ROR alias doesn't set the shift value properly.
637
    // Correct it here.
638
27
    bool reg_shift = AArch64_get_detail_op(MI, -1)->type ==
639
27
         AARCH64_OP_REG;
640
27
    uint64_t shift = reg_shift ?
641
0
           AArch64_get_detail_op(MI, -1)->reg :
642
27
           AArch64_get_detail_op(MI, -1)->imm;
643
27
    cs_aarch64_op *op1 = AArch64_get_detail_op(MI, -2);
644
27
    op1->shift.type = reg_shift ? AARCH64_SFT_ROR_REG :
645
27
                AARCH64_SFT_ROR;
646
27
    op1->shift.value = shift;
647
27
    AArch64_dec_op_count(MI);
648
27
    break;
649
198
  case AARCH64_INS_ALIAS_FMOV:
650
198
    if (AArch64_get_detail_op(MI, -1)->type == AARCH64_OP_FP) {
651
198
      break;
652
198
    }
653
0
    AArch64_insert_detail_op_float_at(MI, -1, 0.0f, CS_AC_READ);
654
0
    break;
655
545
  case AARCH64_INS_ALIAS_LD1:
656
857
  case AARCH64_INS_ALIAS_LD1R:
657
1.56k
  case AARCH64_INS_ALIAS_LD2:
658
1.82k
  case AARCH64_INS_ALIAS_LD2R:
659
3.57k
  case AARCH64_INS_ALIAS_LD3:
660
4.03k
  case AARCH64_INS_ALIAS_LD3R:
661
5.30k
  case AARCH64_INS_ALIAS_LD4:
662
5.58k
  case AARCH64_INS_ALIAS_LD4R:
663
6.60k
  case AARCH64_INS_ALIAS_ST1:
664
6.80k
  case AARCH64_INS_ALIAS_ST2:
665
6.89k
  case AARCH64_INS_ALIAS_ST3:
666
7.42k
  case AARCH64_INS_ALIAS_ST4: {
667
    // Add post-index disp
668
7.42k
    const char *disp_off = strrchr(OS->buffer, '#');
669
7.42k
    if (!disp_off)
670
0
      return;
671
7.42k
    unsigned disp = atoi(disp_off + 1);
672
7.42k
    AArch64_get_detail_op(MI, -1)->type = AARCH64_OP_MEM;
673
7.42k
    AArch64_get_detail_op(MI, -1)->mem.base =
674
7.42k
      AArch64_get_detail_op(MI, -1)->reg;
675
7.42k
    AArch64_get_detail_op(MI, -1)->mem.disp = disp;
676
7.42k
    AArch64_get_detail(MI)->post_index = true;
677
7.42k
    break;
678
7.42k
  }
679
2
  case AARCH64_INS_ALIAS_GCSB:
680
    // TODO
681
    // Only CSYNC is defined in LLVM. So we need to add it.
682
    //     /* 2825 */ "gcsb dsync\0"
683
2
    break;
684
187
  case AARCH64_INS_ALIAS_SMSTART:
685
226
  case AARCH64_INS_ALIAS_SMSTOP: {
686
226
    const char *disp_off = NULL;
687
226
    disp_off = strstr(OS->buffer, "smstart\tza");
688
226
    if (disp_off) {
689
82
      aarch64_sysop sysop = { 0 };
690
82
      sysop.alias.svcr = AARCH64_SVCR_SVCRZA;
691
82
      sysop.sub_type = AARCH64_OP_SVCR;
692
82
      AArch64_insert_detail_op_sys(MI, -1, sysop,
693
82
                 AARCH64_OP_SYSALIAS);
694
82
      return;
695
82
    }
696
144
    disp_off = strstr(OS->buffer, "smstart\tsm");
697
144
    if (disp_off) {
698
104
      aarch64_sysop sysop = { 0 };
699
104
      sysop.alias.svcr = AARCH64_SVCR_SVCRSM;
700
104
      sysop.sub_type = AARCH64_OP_SVCR;
701
104
      AArch64_insert_detail_op_sys(MI, -1, sysop,
702
104
                 AARCH64_OP_SYSALIAS);
703
104
      return;
704
104
    }
705
40
    break;
706
144
  }
707
2.80k
  case AARCH64_INS_ALIAS_ZERO: {
708
    // It is ugly, but the hard coded search patterns do it for now.
709
2.80k
    const char *disp_off = NULL;
710
711
2.80k
    disp_off = strstr(OS->buffer, "{za}");
712
2.80k
    if (disp_off) {
713
647
      ADD_ZA;
714
647
      return;
715
647
    }
716
2.15k
    disp_off = strstr(OS->buffer, "{za1.h}");
717
2.15k
    if (disp_off) {
718
165
      aarch64_op_sme op = {
719
165
        .type = AARCH64_SME_OP_TILE,
720
165
        .tile = AARCH64_REG_ZAH1,
721
165
        .slice_reg = AARCH64_REG_INVALID,
722
165
        .slice_offset = { -1 },
723
165
        .has_range_offset = false,
724
165
        .is_vertical = false,
725
165
      };
726
165
      AArch64_insert_detail_op_sme(MI, -1, op);
727
165
      AArch64_get_detail_op(MI, -1)->vas = AARCH64LAYOUT_VL_H;
728
165
      AArch64_get_detail_op(MI, -1)->access = CS_AC_WRITE;
729
165
      return;
730
165
    }
731
1.98k
    disp_off = strstr(OS->buffer, "{za0.h}");
732
1.98k
    if (disp_off) {
733
93
      aarch64_op_sme op = {
734
93
        .type = AARCH64_SME_OP_TILE,
735
93
        .tile = AARCH64_REG_ZAH0,
736
93
        .slice_reg = AARCH64_REG_INVALID,
737
93
        .slice_offset = { -1 },
738
93
        .has_range_offset = false,
739
93
        .is_vertical = false,
740
93
      };
741
93
      AArch64_insert_detail_op_sme(MI, -1, op);
742
93
      AArch64_get_detail_op(MI, -1)->vas = AARCH64LAYOUT_VL_H;
743
93
      AArch64_get_detail_op(MI, -1)->access = CS_AC_WRITE;
744
93
      return;
745
93
    }
746
1.89k
    disp_off = strstr(OS->buffer, "{za0.s}");
747
1.89k
    if (disp_off) {
748
567
      ADD_ZA0_S;
749
567
      return;
750
567
    }
751
1.32k
    disp_off = strstr(OS->buffer, "{za1.s}");
752
1.32k
    if (disp_off) {
753
38
      ADD_ZA1_S;
754
38
      return;
755
38
    }
756
1.29k
    disp_off = strstr(OS->buffer, "{za2.s}");
757
1.29k
    if (disp_off) {
758
19
      ADD_ZA2_S;
759
19
      return;
760
19
    }
761
1.27k
    disp_off = strstr(OS->buffer, "{za3.s}");
762
1.27k
    if (disp_off) {
763
90
      ADD_ZA3_S;
764
90
      return;
765
90
    }
766
1.18k
    disp_off = strstr(OS->buffer, "{za0.s,za1.s}");
767
1.18k
    if (disp_off) {
768
69
      ADD_ZA0_S;
769
69
      ADD_ZA1_S;
770
69
      return;
771
69
    }
772
1.11k
    disp_off = strstr(OS->buffer, "{za0.s,za3.s}");
773
1.11k
    if (disp_off) {
774
403
      ADD_ZA0_S;
775
403
      ADD_ZA3_S;
776
403
      return;
777
403
    }
778
709
    disp_off = strstr(OS->buffer, "{za1.s,za2.s}");
779
709
    if (disp_off) {
780
18
      ADD_ZA1_S;
781
18
      ADD_ZA2_S;
782
18
      return;
783
18
    }
784
691
    disp_off = strstr(OS->buffer, "{za2.s,za3.s}");
785
691
    if (disp_off) {
786
84
      ADD_ZA2_S;
787
84
      ADD_ZA3_S;
788
84
      return;
789
84
    }
790
607
    disp_off = strstr(OS->buffer, "{za0.s,za1.s,za2.s}");
791
607
    if (disp_off) {
792
131
      ADD_ZA0_S;
793
131
      ADD_ZA1_S;
794
131
      ADD_ZA2_S;
795
131
      return;
796
131
    }
797
476
    disp_off = strstr(OS->buffer, "{za0.s,za1.s,za3.s}");
798
476
    if (disp_off) {
799
77
      ADD_ZA0_S;
800
77
      ADD_ZA1_S;
801
77
      ADD_ZA3_S;
802
77
      return;
803
77
    }
804
399
    disp_off = strstr(OS->buffer, "{za0.s,za2.s,za3.s}");
805
399
    if (disp_off) {
806
328
      ADD_ZA0_S;
807
328
      ADD_ZA2_S;
808
328
      ADD_ZA3_S;
809
328
      return;
810
328
    }
811
71
    disp_off = strstr(OS->buffer, "{za1.s,za2.s,za3.s}");
812
71
    if (disp_off) {
813
71
      ADD_ZA1_S;
814
71
      ADD_ZA2_S;
815
71
      ADD_ZA3_S;
816
71
      return;
817
71
    }
818
0
    break;
819
71
  }
820
41.4k
  }
821
41.4k
}
822
823
void AArch64_set_instr_map_data(MCInst *MI)
824
331k
{
825
331k
  map_cs_id(MI, aarch64_insns, ARR_SIZE(aarch64_insns));
826
331k
  map_implicit_reads(MI, aarch64_insns);
827
331k
  map_implicit_writes(MI, aarch64_insns);
828
331k
  map_groups(MI, aarch64_insns);
829
331k
}
830
831
bool AArch64_getInstruction(csh handle, const uint8_t *code, size_t code_len,
832
          MCInst *MI, uint16_t *size, uint64_t address,
833
          void *info)
834
331k
{
835
331k
  AArch64_init_cs_detail(MI);
836
331k
  DecodeStatus Result = AArch64_LLVM_getInstruction(
837
331k
    handle, code, code_len, MI, size, address, info);
838
331k
  AArch64_set_instr_map_data(MI);
839
331k
  if (Result == MCDisassembler_SoftFail) {
840
7.42k
    MCInst_setSoftFail(MI);
841
7.42k
  }
842
331k
  return Result != MCDisassembler_Fail;
843
331k
}
844
845
/// Patches the register names with Capstone specific alias.
846
/// Those are common alias for registers (e.g. r15 = pc)
847
/// which are not set in LLVM.
848
static void patch_cs_reg_alias(char *asm_str)
849
0
{
850
0
  bool skip_sub = false;
851
0
  char *x29 = strstr(asm_str, "x29");
852
0
  if (x29 > asm_str && strstr(asm_str, "0x29") == (x29 - 1)) {
853
    // Check for hex prefix
854
0
    skip_sub = true;
855
0
  }
856
0
  while (x29 && !skip_sub) {
857
0
    x29[0] = 'f';
858
0
    x29[1] = 'p';
859
0
    memmove(x29 + 2, x29 + 3, strlen(x29 + 3));
860
0
    asm_str[strlen(asm_str) - 1] = '\0';
861
0
    x29 = strstr(asm_str, "x29");
862
0
  }
863
0
  skip_sub = false;
864
0
  char *x30 = strstr(asm_str, "x30");
865
0
  if (x30 > asm_str && strstr(asm_str, "0x30") == (x30 - 1)) {
866
    // Check for hex prefix
867
0
    skip_sub = true;
868
0
  }
869
0
  while (x30 && !skip_sub) {
870
0
    x30[0] = 'l';
871
0
    x30[1] = 'r';
872
0
    memmove(x30 + 2, x30 + 3, strlen(x30 + 3));
873
0
    asm_str[strlen(asm_str) - 1] = '\0';
874
0
    x30 = strstr(asm_str, "x30");
875
0
  }
876
0
}
877
878
/// Adds group to the instruction which are not defined in LLVM.
879
static void AArch64_add_cs_groups(MCInst *MI)
880
324k
{
881
324k
  unsigned Opcode = MI->flat_insn->id;
882
324k
  switch (Opcode) {
883
319k
  default:
884
319k
    return;
885
319k
  case AARCH64_INS_SVC:
886
355
    add_group(MI, AARCH64_GRP_INT);
887
355
    break;
888
199
  case AARCH64_INS_SMC:
889
3.30k
  case AARCH64_INS_MSR:
890
4.30k
  case AARCH64_INS_MRS:
891
4.30k
    add_group(MI, AARCH64_GRP_PRIVILEGE);
892
4.30k
    break;
893
35
  case AARCH64_INS_RET:
894
69
  case AARCH64_INS_RETAA:
895
113
  case AARCH64_INS_RETAB:
896
113
    add_group(MI, AARCH64_GRP_RET);
897
113
    break;
898
324k
  }
899
324k
}
900
901
static void AArch64_correct_mem_access(MCInst *MI)
902
324k
{
903
324k
#ifndef CAPSTONE_DIET
904
324k
  if (!detail_is_set(MI))
905
0
    return;
906
324k
  cs_ac_type access =
907
324k
    aarch64_insns[MI->Opcode].suppl_info.aarch64.mem_acc;
908
324k
  if (access == CS_AC_INVALID) {
909
209k
    return;
910
209k
  }
911
238k
  for (int i = 0; i < AArch64_get_detail(MI)->op_count; ++i) {
912
237k
    if (AArch64_get_detail_op(MI, -i)->type == AARCH64_OP_MEM) {
913
112k
      AArch64_get_detail_op(MI, -i)->access = access;
914
112k
      return;
915
112k
    }
916
237k
  }
917
114k
#endif
918
114k
}
919
920
void AArch64_printer(MCInst *MI, SStream *O, void * /* MCRegisterInfo* */ info)
921
324k
{
922
324k
  MCRegisterInfo *MRI = (MCRegisterInfo *)info;
923
324k
  MI->MRI = MRI;
924
324k
  MI->fillDetailOps = detail_is_set(MI);
925
324k
  MI->flat_insn->usesAliasDetails = map_use_alias_details(MI);
926
324k
  AArch64_LLVM_printInstruction(MI, O, info);
927
324k
  if (detail_is_set(MI)) {
928
324k
    if (AArch64_get_detail(MI)->is_doing_sme) {
929
      // Last operand still needs to be closed.
930
5.88k
      AArch64_get_detail(MI)->is_doing_sme = false;
931
5.88k
      AArch64_inc_op_count(MI);
932
5.88k
    }
933
324k
    AArch64_get_detail(MI)->post_index =
934
324k
      AArch64_check_post_index_am(MI, O);
935
324k
  }
936
324k
  AArch64_check_updates_flags(MI);
937
324k
  map_set_alias_id(MI, O, insn_alias_mnem_map,
938
324k
       ARR_SIZE(insn_alias_mnem_map) - 1);
939
324k
  int syntax_opt = MI->csh->syntax;
940
324k
  if (syntax_opt & CS_OPT_SYNTAX_CS_REG_ALIAS)
941
0
    patch_cs_reg_alias(O->buffer);
942
324k
  AArch64_add_not_defined_ops(MI, O);
943
324k
  AArch64_add_cs_groups(MI);
944
324k
  AArch64_add_vas(MI, O);
945
324k
  AArch64_correct_mem_access(MI);
946
324k
}
947
948
// given internal insn id, return public instruction info
949
void AArch64_get_insn_id(cs_struct *h, cs_insn *insn, unsigned int id)
950
324k
{
951
  // Done after disassembly
952
324k
  return;
953
324k
}
954
955
static const char *const insn_name_maps[] = {
956
#include "AArch64GenCSMappingInsnName.inc"
957
};
958
959
const char *AArch64_insn_name(csh handle, unsigned int id)
960
324k
{
961
324k
#ifndef CAPSTONE_DIET
962
324k
  if (id < AARCH64_INS_ALIAS_END && id > AARCH64_INS_ALIAS_BEGIN) {
963
0
    if (id - AARCH64_INS_ALIAS_BEGIN >=
964
0
        ARR_SIZE(insn_alias_mnem_map))
965
0
      return NULL;
966
967
0
    return insn_alias_mnem_map[id - AARCH64_INS_ALIAS_BEGIN - 1]
968
0
      .name;
969
0
  }
970
324k
  if (id >= AARCH64_INS_ENDING)
971
0
    return NULL;
972
973
324k
  if (id < ARR_SIZE(insn_name_maps))
974
324k
    return insn_name_maps[id];
975
976
  // not found
977
0
  return NULL;
978
#else
979
  return NULL;
980
#endif
981
324k
}
982
983
#ifndef CAPSTONE_DIET
984
static const name_map group_name_maps[] = {
985
  // generic groups
986
  { AARCH64_GRP_INVALID, NULL },
987
  { AARCH64_GRP_JUMP, "jump" },
988
  { AARCH64_GRP_CALL, "call" },
989
  { AARCH64_GRP_RET, "return" },
990
  { AARCH64_GRP_PRIVILEGE, "privilege" },
991
  { AARCH64_GRP_INT, "int" },
992
  { AARCH64_GRP_BRANCH_RELATIVE, "branch_relative" },
993
994
// architecture-specific groups
995
#include "AArch64GenCSFeatureName.inc"
996
};
997
#endif
998
999
const char *AArch64_group_name(csh handle, unsigned int id)
1000
263k
{
1001
263k
#ifndef CAPSTONE_DIET
1002
263k
  return id2name(group_name_maps, ARR_SIZE(group_name_maps), id);
1003
#else
1004
  return NULL;
1005
#endif
1006
263k
}
1007
1008
// map instruction name to public instruction ID
1009
aarch64_insn AArch64_map_insn(const char *name)
1010
0
{
1011
0
  unsigned int i;
1012
1013
0
  for (i = 1; i < ARR_SIZE(insn_name_maps); i++) {
1014
0
    if (!strcmp(name, insn_name_maps[i]))
1015
0
      return i;
1016
0
  }
1017
1018
  // not found
1019
0
  return AARCH64_INS_INVALID;
1020
0
}
1021
1022
#ifndef CAPSTONE_DIET
1023
1024
static const map_insn_ops insn_operands[] = {
1025
#include "AArch64GenCSMappingInsnOp.inc"
1026
};
1027
1028
void AArch64_reg_access(const cs_insn *insn, cs_regs regs_read,
1029
      uint8_t *regs_read_count, cs_regs regs_write,
1030
      uint8_t *regs_write_count)
1031
0
{
1032
0
  uint8_t i;
1033
0
  uint8_t read_count, write_count;
1034
0
  cs_aarch64 *aarch64 = &(insn->detail->aarch64);
1035
1036
0
  read_count = insn->detail->regs_read_count;
1037
0
  write_count = insn->detail->regs_write_count;
1038
1039
  // implicit registers
1040
0
  memcpy(regs_read, insn->detail->regs_read,
1041
0
         read_count * sizeof(insn->detail->regs_read[0]));
1042
0
  memcpy(regs_write, insn->detail->regs_write,
1043
0
         write_count * sizeof(insn->detail->regs_write[0]));
1044
1045
  // explicit registers
1046
0
  for (i = 0; i < aarch64->op_count; i++) {
1047
0
    cs_aarch64_op *op = &(aarch64->operands[i]);
1048
0
    switch ((int)op->type) {
1049
0
    case AARCH64_OP_REG:
1050
0
      if ((op->access & CS_AC_READ) &&
1051
0
          !arr_exist(regs_read, read_count, op->reg)) {
1052
0
        regs_read[read_count] = (uint16_t)op->reg;
1053
0
        read_count++;
1054
0
      }
1055
0
      if ((op->access & CS_AC_WRITE) &&
1056
0
          !arr_exist(regs_write, write_count, op->reg)) {
1057
0
        regs_write[write_count] = (uint16_t)op->reg;
1058
0
        write_count++;
1059
0
      }
1060
0
      break;
1061
0
    case AARCH64_OP_MEM:
1062
      // registers appeared in memory references always being read
1063
0
      if ((op->mem.base != AARCH64_REG_INVALID) &&
1064
0
          !arr_exist(regs_read, read_count, op->mem.base)) {
1065
0
        regs_read[read_count] = (uint16_t)op->mem.base;
1066
0
        read_count++;
1067
0
      }
1068
0
      if ((op->mem.index != AARCH64_REG_INVALID) &&
1069
0
          !arr_exist(regs_read, read_count, op->mem.index)) {
1070
0
        regs_read[read_count] = (uint16_t)op->mem.index;
1071
0
        read_count++;
1072
0
      }
1073
0
      if ((insn->detail->writeback) &&
1074
0
          (op->mem.base != AARCH64_REG_INVALID) &&
1075
0
          !arr_exist(regs_write, write_count, op->mem.base)) {
1076
0
        regs_write[write_count] =
1077
0
          (uint16_t)op->mem.base;
1078
0
        write_count++;
1079
0
      }
1080
0
      break;
1081
0
    case AARCH64_OP_SME:
1082
0
      if ((op->access & CS_AC_READ) &&
1083
0
          (op->sme.tile != AARCH64_REG_INVALID) &&
1084
0
          !arr_exist(regs_read, read_count, op->sme.tile)) {
1085
0
        regs_read[read_count] = (uint16_t)op->sme.tile;
1086
0
        read_count++;
1087
0
      }
1088
0
      if ((op->access & CS_AC_WRITE) &&
1089
0
          (op->sme.tile != AARCH64_REG_INVALID) &&
1090
0
          !arr_exist(regs_write, write_count, op->sme.tile)) {
1091
0
        regs_write[write_count] =
1092
0
          (uint16_t)op->sme.tile;
1093
0
        write_count++;
1094
0
      }
1095
0
      if ((op->sme.slice_reg != AARCH64_REG_INVALID) &&
1096
0
          !arr_exist(regs_read, read_count,
1097
0
               op->sme.slice_reg)) {
1098
0
        regs_read[read_count] =
1099
0
          (uint16_t)op->sme.slice_reg;
1100
0
        read_count++;
1101
0
      }
1102
0
      break;
1103
0
    case AARCH64_OP_PRED:
1104
0
      if ((op->access & CS_AC_READ) &&
1105
0
          (op->pred.reg != AARCH64_REG_INVALID) &&
1106
0
          !arr_exist(regs_read, read_count, op->pred.reg)) {
1107
0
        regs_read[read_count] = (uint16_t)op->pred.reg;
1108
0
        read_count++;
1109
0
      }
1110
0
      if ((op->access & CS_AC_WRITE) &&
1111
0
          (op->pred.reg != AARCH64_REG_INVALID) &&
1112
0
          !arr_exist(regs_write, write_count, op->pred.reg)) {
1113
0
        regs_write[write_count] =
1114
0
          (uint16_t)op->pred.reg;
1115
0
        write_count++;
1116
0
      }
1117
0
      if ((op->pred.vec_select != AARCH64_REG_INVALID) &&
1118
0
          !arr_exist(regs_read, read_count,
1119
0
               op->pred.vec_select)) {
1120
0
        regs_read[read_count] =
1121
0
          (uint16_t)op->pred.vec_select;
1122
0
        read_count++;
1123
0
      }
1124
0
      break;
1125
0
    default:
1126
0
      break;
1127
0
    }
1128
0
    if (op->shift.type >= AARCH64_SFT_LSL_REG) {
1129
0
      if (!arr_exist(regs_read, read_count,
1130
0
               op->shift.value)) {
1131
0
        regs_read[read_count] =
1132
0
          (uint16_t)op->shift.value;
1133
0
        read_count++;
1134
0
      }
1135
0
    }
1136
0
  }
1137
1138
0
  switch (insn->alias_id) {
1139
0
  default:
1140
0
    break;
1141
0
  case AARCH64_INS_ALIAS_RET:
1142
0
    regs_read[read_count] = AARCH64_REG_X30;
1143
0
    read_count++;
1144
0
    break;
1145
0
  }
1146
1147
0
  *regs_read_count = read_count;
1148
0
  *regs_write_count = write_count;
1149
0
}
1150
#endif
1151
1152
static AArch64Layout_VectorLayout get_vl_by_suffix(const char suffix)
1153
206k
{
1154
206k
  switch (suffix) {
1155
68.2k
  default:
1156
68.2k
    return AARCH64LAYOUT_INVALID;
1157
30.8k
  case 'b':
1158
30.8k
  case 'B':
1159
30.8k
    return AARCH64LAYOUT_VL_B;
1160
37.7k
  case 'h':
1161
37.7k
  case 'H':
1162
37.7k
    return AARCH64LAYOUT_VL_H;
1163
29.2k
  case 's':
1164
29.2k
  case 'S':
1165
29.2k
    return AARCH64LAYOUT_VL_S;
1166
38.4k
  case 'd':
1167
38.4k
  case 'D':
1168
38.4k
    return AARCH64LAYOUT_VL_D;
1169
2.29k
  case 'q':
1170
2.29k
  case 'Q':
1171
2.29k
    return AARCH64LAYOUT_VL_Q;
1172
206k
  }
1173
206k
}
1174
1175
static unsigned get_vec_list_num_regs(MCInst *MI, unsigned Reg)
1176
69.7k
{
1177
  // Work out how many registers there are in the list (if there is an actual
1178
  // list).
1179
69.7k
  unsigned NumRegs = 1;
1180
69.7k
  if (MCRegisterClass_contains(
1181
69.7k
        MCRegisterInfo_getRegClass(MI->MRI, AArch64_DDRegClassID),
1182
69.7k
        Reg) ||
1183
68.4k
      MCRegisterClass_contains(
1184
68.4k
        MCRegisterInfo_getRegClass(MI->MRI, AArch64_ZPR2RegClassID),
1185
68.4k
        Reg) ||
1186
56.7k
      MCRegisterClass_contains(
1187
56.7k
        MCRegisterInfo_getRegClass(MI->MRI, AArch64_QQRegClassID),
1188
56.7k
        Reg) ||
1189
51.2k
      MCRegisterClass_contains(
1190
51.2k
        MCRegisterInfo_getRegClass(MI->MRI, AArch64_PPR2RegClassID),
1191
51.2k
        Reg) ||
1192
49.9k
      MCRegisterClass_contains(
1193
49.9k
        MCRegisterInfo_getRegClass(MI->MRI,
1194
49.9k
                 AArch64_ZPR2StridedRegClassID),
1195
49.9k
        Reg))
1196
22.0k
    NumRegs = 2;
1197
47.6k
  else if (MCRegisterClass_contains(
1198
47.6k
       MCRegisterInfo_getRegClass(MI->MRI,
1199
47.6k
                AArch64_DDDRegClassID),
1200
47.6k
       Reg) ||
1201
46.6k
     MCRegisterClass_contains(
1202
46.6k
       MCRegisterInfo_getRegClass(MI->MRI,
1203
46.6k
                AArch64_ZPR3RegClassID),
1204
46.6k
       Reg) ||
1205
45.5k
     MCRegisterClass_contains(
1206
45.5k
       MCRegisterInfo_getRegClass(MI->MRI,
1207
45.5k
                AArch64_QQQRegClassID),
1208
45.5k
       Reg))
1209
9.83k
    NumRegs = 3;
1210
37.7k
  else if (MCRegisterClass_contains(
1211
37.7k
       MCRegisterInfo_getRegClass(MI->MRI,
1212
37.7k
                AArch64_DDDDRegClassID),
1213
37.7k
       Reg) ||
1214
37.2k
     MCRegisterClass_contains(
1215
37.2k
       MCRegisterInfo_getRegClass(MI->MRI,
1216
37.2k
                AArch64_ZPR4RegClassID),
1217
37.2k
       Reg) ||
1218
30.3k
     MCRegisterClass_contains(
1219
30.3k
       MCRegisterInfo_getRegClass(MI->MRI,
1220
30.3k
                AArch64_QQQQRegClassID),
1221
30.3k
       Reg) ||
1222
24.3k
     MCRegisterClass_contains(
1223
24.3k
       MCRegisterInfo_getRegClass(
1224
24.3k
         MI->MRI, AArch64_ZPR4StridedRegClassID),
1225
24.3k
       Reg))
1226
14.2k
    NumRegs = 4;
1227
69.7k
  return NumRegs;
1228
69.7k
}
1229
1230
static unsigned get_vec_list_stride(MCInst *MI, unsigned Reg)
1231
69.7k
{
1232
69.7k
  unsigned Stride = 1;
1233
69.7k
  if (MCRegisterClass_contains(
1234
69.7k
        MCRegisterInfo_getRegClass(MI->MRI,
1235
69.7k
                 AArch64_ZPR2StridedRegClassID),
1236
69.7k
        Reg))
1237
2.37k
    Stride = 8;
1238
67.3k
  else if (MCRegisterClass_contains(
1239
67.3k
       MCRegisterInfo_getRegClass(
1240
67.3k
         MI->MRI, AArch64_ZPR4StridedRegClassID),
1241
67.3k
       Reg))
1242
854
    Stride = 4;
1243
69.7k
  return Stride;
1244
69.7k
}
1245
1246
static unsigned get_vec_list_first_reg(MCInst *MI, unsigned RegL)
1247
69.7k
{
1248
69.7k
  unsigned Reg = RegL;
1249
  // Now forget about the list and find out what the first register is.
1250
69.7k
  if (MCRegisterInfo_getSubReg(MI->MRI, RegL, AArch64_dsub0))
1251
2.79k
    Reg = MCRegisterInfo_getSubReg(MI->MRI, RegL, AArch64_dsub0);
1252
66.9k
  else if (MCRegisterInfo_getSubReg(MI->MRI, RegL, AArch64_qsub0))
1253
19.2k
    Reg = MCRegisterInfo_getSubReg(MI->MRI, RegL, AArch64_qsub0);
1254
47.6k
  else if (MCRegisterInfo_getSubReg(MI->MRI, RegL, AArch64_zsub0))
1255
22.8k
    Reg = MCRegisterInfo_getSubReg(MI->MRI, RegL, AArch64_zsub0);
1256
24.8k
  else if (MCRegisterInfo_getSubReg(MI->MRI, RegL, AArch64_psub0))
1257
1.26k
    Reg = MCRegisterInfo_getSubReg(MI->MRI, RegL, AArch64_psub0);
1258
1259
  // If it's a D-reg, we need to promote it to the equivalent Q-reg before
1260
  // printing (otherwise getRegisterName fails).
1261
69.7k
  if (MCRegisterClass_contains(MCRegisterInfo_getRegClass(
1262
69.7k
               MI->MRI, AArch64_FPR64RegClassID),
1263
69.7k
             Reg)) {
1264
3.36k
    const MCRegisterClass *FPR128RC = MCRegisterInfo_getRegClass(
1265
3.36k
      MI->MRI, AArch64_FPR128RegClassID);
1266
3.36k
    Reg = MCRegisterInfo_getMatchingSuperReg(
1267
3.36k
      MI->MRI, Reg, AArch64_dsub, FPR128RC);
1268
3.36k
  }
1269
69.7k
  return Reg;
1270
69.7k
}
1271
1272
static bool is_vector_reg(unsigned Reg)
1273
212k
{
1274
212k
  if ((Reg >= AArch64_Q0) && (Reg <= AArch64_Q31))
1275
71.0k
    return true;
1276
141k
  else if ((Reg >= AArch64_Z0) && (Reg <= AArch64_Z31))
1277
139k
    return true;
1278
2.58k
  else if ((Reg >= AArch64_P0) && (Reg <= AArch64_P15))
1279
2.58k
    return true;
1280
0
  return false;
1281
212k
}
1282
1283
static unsigned getNextVectorRegister(unsigned Reg, unsigned Stride /* = 1 */)
1284
154k
{
1285
367k
  while (Stride--) {
1286
212k
    if (!is_vector_reg(Reg)) {
1287
0
      CS_ASSERT(0 && "Vector register expected!");
1288
0
      return 0;
1289
0
    }
1290
    // Vector lists can wrap around.
1291
212k
    else if (Reg == AArch64_Q31)
1292
2.30k
      Reg = AArch64_Q0;
1293
    // Vector lists can wrap around.
1294
210k
    else if (Reg == AArch64_Z31)
1295
1.73k
      Reg = AArch64_Z0;
1296
    // Vector lists can wrap around.
1297
208k
    else if (Reg == AArch64_P15)
1298
98
      Reg = AArch64_P0;
1299
208k
    else
1300
      // Assume ordered registers
1301
208k
      ++Reg;
1302
212k
  }
1303
154k
  return Reg;
1304
154k
}
1305
1306
static aarch64_extender llvm_to_cs_ext(AArch64_AM_ShiftExtendType ExtType)
1307
15.8k
{
1308
15.8k
  switch (ExtType) {
1309
11.8k
  default:
1310
11.8k
    return AARCH64_EXT_INVALID;
1311
567
  case AArch64_AM_UXTB:
1312
567
    return AARCH64_EXT_UXTB;
1313
299
  case AArch64_AM_UXTH:
1314
299
    return AARCH64_EXT_UXTH;
1315
209
  case AArch64_AM_UXTW:
1316
209
    return AARCH64_EXT_UXTW;
1317
2.03k
  case AArch64_AM_UXTX:
1318
2.03k
    return AARCH64_EXT_UXTX;
1319
288
  case AArch64_AM_SXTB:
1320
288
    return AARCH64_EXT_SXTB;
1321
87
  case AArch64_AM_SXTH:
1322
87
    return AARCH64_EXT_SXTH;
1323
306
  case AArch64_AM_SXTW:
1324
306
    return AARCH64_EXT_SXTW;
1325
153
  case AArch64_AM_SXTX:
1326
153
    return AARCH64_EXT_SXTX;
1327
15.8k
  }
1328
15.8k
}
1329
1330
static aarch64_shifter llvm_to_cs_shift(AArch64_AM_ShiftExtendType ShiftExtType)
1331
11.8k
{
1332
11.8k
  switch (ShiftExtType) {
1333
0
  default:
1334
0
    return AARCH64_SFT_INVALID;
1335
6.63k
  case AArch64_AM_LSL:
1336
6.63k
    return AARCH64_SFT_LSL;
1337
1.77k
  case AArch64_AM_LSR:
1338
1.77k
    return AARCH64_SFT_LSR;
1339
1.95k
  case AArch64_AM_ASR:
1340
1.95k
    return AARCH64_SFT_ASR;
1341
1.29k
  case AArch64_AM_ROR:
1342
1.29k
    return AARCH64_SFT_ROR;
1343
202
  case AArch64_AM_MSL:
1344
202
    return AARCH64_SFT_MSL;
1345
11.8k
  }
1346
11.8k
}
1347
1348
/// Initializes or finishes a memory operand of Capstone (depending on \p
1349
/// status). A memory operand in Capstone can be assembled by two LLVM operands.
1350
/// E.g. the base register and the immediate disponent.
1351
void AArch64_set_mem_access(MCInst *MI, bool status)
1352
386k
{
1353
386k
  if (!detail_is_set(MI))
1354
0
    return;
1355
386k
  set_doing_mem(MI, status);
1356
386k
  if (status) {
1357
193k
    if (AArch64_get_detail(MI)->op_count > 0 &&
1358
191k
        AArch64_get_detail_op(MI, -1)->type == AARCH64_OP_MEM &&
1359
78.0k
        AArch64_get_detail_op(MI, -1)->mem.index ==
1360
78.0k
          AARCH64_REG_INVALID &&
1361
77.2k
        AArch64_get_detail_op(MI, -1)->mem.disp == 0) {
1362
      // Previous memory operand not done yet. Select it.
1363
77.2k
      AArch64_dec_op_count(MI);
1364
77.2k
      return;
1365
77.2k
    }
1366
1367
    // Init a new one.
1368
116k
    AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_MEM;
1369
116k
    AArch64_get_detail_op(MI, 0)->mem.base = AARCH64_REG_INVALID;
1370
116k
    AArch64_get_detail_op(MI, 0)->mem.index = AARCH64_REG_INVALID;
1371
116k
    AArch64_get_detail_op(MI, 0)->mem.disp = 0;
1372
1373
116k
#ifndef CAPSTONE_DIET
1374
116k
    uint8_t access =
1375
116k
      map_get_op_access(MI, AArch64_get_detail(MI)->op_count);
1376
116k
    AArch64_get_detail_op(MI, 0)->access = access;
1377
116k
#endif
1378
193k
  } else {
1379
    // done, select the next operand slot
1380
193k
    AArch64_inc_op_count(MI);
1381
193k
  }
1382
386k
}
1383
1384
/// Common prefix for all AArch64_add_cs_detail_* functions
1385
static bool add_cs_detail_begin(MCInst *MI, unsigned op_num)
1386
1.01M
{
1387
1.01M
  if (!detail_is_set(MI) || !map_fill_detail_ops(MI))
1388
0
    return false;
1389
1390
1.01M
  if (AArch64_get_detail(MI)->is_doing_sme) {
1391
    // Unset the flag if there is no bound operand anymore.
1392
121k
    if (!(map_get_op_type(MI, op_num) & CS_OP_BOUND)) {
1393
88.5k
      AArch64_get_detail(MI)->is_doing_sme = false;
1394
88.5k
      AArch64_inc_op_count(MI);
1395
88.5k
    }
1396
121k
  }
1397
1.01M
  return true;
1398
1.01M
}
1399
1400
/// Fills cs_detail with the data of the operand.
1401
/// This function handles operands which's original printer function has no
1402
/// specialities.
1403
void AArch64_add_cs_detail_0(MCInst *MI, aarch64_op_group op_group,
1404
           unsigned OpNum)
1405
593k
{
1406
593k
  if (!add_cs_detail_begin(MI, OpNum))
1407
0
    return;
1408
1409
  // Fill cs_detail
1410
593k
  switch (op_group) {
1411
0
  default:
1412
0
    printf("ERROR: Operand group %d not handled!\n", op_group);
1413
0
    CS_ASSERT_RET(0);
1414
426k
  case AArch64_OP_GROUP_Operand: {
1415
426k
    cs_op_type primary_op_type = map_get_op_type(MI, OpNum) &
1416
426k
               ~(CS_OP_MEM | CS_OP_BOUND);
1417
426k
    switch (primary_op_type) {
1418
0
    default:
1419
0
      printf("Unhandled operand type 0x%x\n",
1420
0
             primary_op_type);
1421
0
      CS_ASSERT_RET(0);
1422
364k
    case AARCH64_OP_REG:
1423
364k
      AArch64_set_detail_op_reg(MI, OpNum,
1424
364k
              MCInst_getOpVal(MI, OpNum));
1425
364k
      break;
1426
60.7k
    case AARCH64_OP_IMM:
1427
60.7k
      AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1428
60.7k
              MCInst_getOpVal(MI, OpNum));
1429
60.7k
      break;
1430
1.19k
    case AARCH64_OP_FP: {
1431
      // printOperand does not handle FP operands. But sometimes
1432
      // is used to print FP operands as normal immediate.
1433
1.19k
      AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_IMM;
1434
1.19k
      AArch64_get_detail_op(MI, 0)->imm =
1435
1.19k
        MCInst_getOpVal(MI, OpNum);
1436
1.19k
      AArch64_get_detail_op(MI, 0)->access =
1437
1.19k
        map_get_op_access(MI, OpNum);
1438
1.19k
      AArch64_inc_op_count(MI);
1439
1.19k
      break;
1440
0
    }
1441
426k
    }
1442
426k
    break;
1443
426k
  }
1444
426k
  case AArch64_OP_GROUP_AddSubImm: {
1445
3.72k
    unsigned Val = (MCInst_getOpVal(MI, OpNum) & 0xfff);
1446
3.72k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM, Val);
1447
    // Shift is added in printShifter()
1448
3.72k
    break;
1449
426k
  }
1450
0
  case AArch64_OP_GROUP_AdrLabel: {
1451
0
    if (MCOperand_isImm(MCInst_getOperand(MI, OpNum))) {
1452
0
      int64_t Offset = MCInst_getOpVal(MI, OpNum);
1453
0
      AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1454
0
              (MI->address & -4) + Offset);
1455
0
    } else {
1456
      // Expression
1457
0
      AArch64_set_detail_op_imm(
1458
0
        MI, OpNum, AARCH64_OP_IMM,
1459
0
        MCOperand_isImm(MCInst_getOperand(MI, OpNum)));
1460
0
    }
1461
0
    break;
1462
426k
  }
1463
0
  case AArch64_OP_GROUP_AdrpLabel: {
1464
0
    if (MCOperand_isImm(MCInst_getOperand(MI, OpNum))) {
1465
0
      int64_t Offset = MCInst_getOpVal(MI, OpNum) * 4096;
1466
0
      AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1467
0
              (MI->address & -4096) +
1468
0
                Offset);
1469
0
    } else {
1470
      // Expression
1471
0
      AArch64_set_detail_op_imm(
1472
0
        MI, OpNum, AARCH64_OP_IMM,
1473
0
        MCOperand_isImm(MCInst_getOperand(MI, OpNum)));
1474
0
    }
1475
0
    break;
1476
426k
  }
1477
8.16k
  case AArch64_OP_GROUP_AdrAdrpLabel: {
1478
8.16k
    if (!MCOperand_isImm(MCInst_getOperand(MI, OpNum))) {
1479
      // Expression
1480
0
      AArch64_set_detail_op_imm(
1481
0
        MI, OpNum, AARCH64_OP_IMM,
1482
0
        MCOperand_isImm(MCInst_getOperand(MI, OpNum)));
1483
0
      break;
1484
0
    }
1485
8.16k
    int64_t Offset = MCInst_getOpVal(MI, OpNum);
1486
8.16k
    uint64_t Address = MI->address;
1487
8.16k
    if (MCInst_getOpcode(MI) == AArch64_ADRP) {
1488
3.23k
      Offset = Offset * 4096;
1489
3.23k
      Address = Address & -4096;
1490
3.23k
    }
1491
8.16k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1492
8.16k
            Address + Offset);
1493
8.16k
    break;
1494
8.16k
  }
1495
16.0k
  case AArch64_OP_GROUP_AlignedLabel: {
1496
16.0k
    if (MCOperand_isImm(MCInst_getOperand(MI, OpNum))) {
1497
15.9k
      int64_t Offset = MCInst_getOpVal(MI, OpNum) * 4;
1498
15.9k
      AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1499
15.9k
              MI->address + Offset);
1500
15.9k
    } else {
1501
      // Expression
1502
96
      AArch64_set_detail_op_imm(
1503
96
        MI, OpNum, AARCH64_OP_IMM,
1504
96
        MCOperand_isImm(MCInst_getOperand(MI, OpNum)));
1505
96
    }
1506
16.0k
    break;
1507
8.16k
  }
1508
0
  case AArch64_OP_GROUP_AMNoIndex: {
1509
0
    AArch64_set_detail_op_mem(MI, OpNum,
1510
0
            MCInst_getOpVal(MI, OpNum));
1511
0
    break;
1512
8.16k
  }
1513
3.94k
  case AArch64_OP_GROUP_ArithExtend: {
1514
3.94k
    unsigned Val = MCInst_getOpVal(MI, OpNum);
1515
3.94k
    AArch64_AM_ShiftExtendType ExtType =
1516
3.94k
      AArch64_AM_getArithExtendType(Val);
1517
3.94k
    unsigned ShiftVal = AArch64_AM_getArithShiftValue(Val);
1518
1519
3.94k
    AArch64_get_detail_op(MI, -1)->ext = llvm_to_cs_ext(ExtType);
1520
3.94k
    AArch64_get_detail_op(MI, -1)->shift.value = ShiftVal;
1521
3.94k
    AArch64_get_detail_op(MI, -1)->shift.type = AARCH64_SFT_LSL;
1522
3.94k
    break;
1523
8.16k
  }
1524
889
  case AArch64_OP_GROUP_BarriernXSOption: {
1525
889
    unsigned Val = MCInst_getOpVal(MI, OpNum);
1526
889
    aarch64_sysop sysop = { 0 };
1527
889
    const AArch64DBnXS_DBnXS *DB =
1528
889
      AArch64DBnXS_lookupDBnXSByEncoding(Val);
1529
889
    if (DB)
1530
889
      sysop.imm.dbnxs = (aarch64_dbnxs)DB->SysImm.dbnxs;
1531
0
    else
1532
0
      sysop.imm.raw_val = Val;
1533
889
    sysop.sub_type = AARCH64_OP_DBNXS;
1534
889
    AArch64_set_detail_op_sys(MI, OpNum, sysop, AARCH64_OP_SYSIMM);
1535
889
    break;
1536
8.16k
  }
1537
124
  case AArch64_OP_GROUP_AppleSysBarrierOption: {
1538
    // Proprietary stuff. We just add the
1539
    // immediate here.
1540
124
    unsigned Val = MCOperand_getImm(MCInst_getOperand(MI, OpNum));
1541
124
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM, Val);
1542
124
    break;
1543
8.16k
  }
1544
1.06k
  case AArch64_OP_GROUP_BarrierOption: {
1545
1.06k
    unsigned Val = MCOperand_getImm(MCInst_getOperand(MI, OpNum));
1546
1.06k
    unsigned Opcode = MCInst_getOpcode(MI);
1547
1.06k
    aarch64_sysop sysop = { 0 };
1548
1549
1.06k
    if (Opcode == AArch64_ISB) {
1550
27
      const AArch64ISB_ISB *ISB =
1551
27
        AArch64ISB_lookupISBByEncoding(Val);
1552
27
      if (ISB)
1553
0
        sysop.alias.isb =
1554
0
          (aarch64_isb)ISB->SysAlias.isb;
1555
27
      else
1556
27
        sysop.alias.raw_val = Val;
1557
27
      sysop.sub_type = AARCH64_OP_ISB;
1558
27
      AArch64_set_detail_op_sys(MI, OpNum, sysop,
1559
27
              AARCH64_OP_SYSALIAS);
1560
1.03k
    } else if (Opcode == AArch64_TSB) {
1561
34
      const AArch64TSB_TSB *TSB =
1562
34
        AArch64TSB_lookupTSBByEncoding(Val);
1563
34
      if (TSB)
1564
34
        sysop.alias.tsb =
1565
34
          (aarch64_tsb)TSB->SysAlias.tsb;
1566
0
      else
1567
0
        sysop.alias.raw_val = Val;
1568
34
      sysop.sub_type = AARCH64_OP_TSB;
1569
34
      AArch64_set_detail_op_sys(MI, OpNum, sysop,
1570
34
              AARCH64_OP_SYSALIAS);
1571
1.00k
    } else {
1572
1.00k
      const AArch64DB_DB *DB =
1573
1.00k
        AArch64DB_lookupDBByEncoding(Val);
1574
1.00k
      if (DB)
1575
725
        sysop.alias.db = (aarch64_db)DB->SysAlias.db;
1576
277
      else
1577
277
        sysop.alias.raw_val = Val;
1578
1.00k
      sysop.sub_type = AARCH64_OP_DB;
1579
1.00k
      AArch64_set_detail_op_sys(MI, OpNum, sysop,
1580
1.00k
              AARCH64_OP_SYSALIAS);
1581
1.00k
    }
1582
1.06k
    break;
1583
8.16k
  }
1584
58
  case AArch64_OP_GROUP_BTIHintOp: {
1585
58
    aarch64_sysop sysop = { 0 };
1586
58
    unsigned btihintop = MCInst_getOpVal(MI, OpNum) ^ 32;
1587
58
    const AArch64BTIHint_BTI *BTI =
1588
58
      AArch64BTIHint_lookupBTIByEncoding(btihintop);
1589
58
    if (BTI)
1590
58
      sysop.alias.bti = (aarch64_bti)BTI->SysAlias.bti;
1591
0
    else
1592
0
      sysop.alias.raw_val = btihintop;
1593
58
    sysop.sub_type = AARCH64_OP_BTI;
1594
58
    AArch64_set_detail_op_sys(MI, OpNum, sysop,
1595
58
            AARCH64_OP_SYSALIAS);
1596
58
    break;
1597
8.16k
  }
1598
2.99k
  case AArch64_OP_GROUP_CondCode: {
1599
2.99k
    AArch64_get_detail(MI)->cc = MCInst_getOpVal(MI, OpNum);
1600
2.99k
    break;
1601
8.16k
  }
1602
2.28k
  case AArch64_OP_GROUP_ExtendedRegister: {
1603
2.28k
    AArch64_set_detail_op_reg(MI, OpNum,
1604
2.28k
            MCInst_getOpVal(MI, OpNum));
1605
2.28k
    break;
1606
8.16k
  }
1607
841
  case AArch64_OP_GROUP_FPImmOperand: {
1608
841
    MCOperand *MO = MCInst_getOperand(MI, (OpNum));
1609
841
    float FPImm =
1610
841
      MCOperand_isDFPImm(MO) ?
1611
0
        BitsToDouble(MCOperand_getImm(MO)) :
1612
841
        AArch64_AM_getFPImmFloat(MCOperand_getImm(MO));
1613
841
    AArch64_set_detail_op_float(MI, OpNum, FPImm);
1614
841
    break;
1615
8.16k
  }
1616
4.74k
  case AArch64_OP_GROUP_GPR64as32: {
1617
4.74k
    unsigned Reg = MCInst_getOpVal(MI, OpNum);
1618
4.74k
    AArch64_set_detail_op_reg(MI, OpNum, getWRegFromXReg(Reg));
1619
4.74k
    break;
1620
8.16k
  }
1621
100
  case AArch64_OP_GROUP_GPR64x8: {
1622
100
    unsigned Reg = MCInst_getOpVal(MI, (OpNum));
1623
100
    Reg = MCRegisterInfo_getSubReg(MI->MRI, Reg, AArch64_x8sub_0);
1624
100
    AArch64_set_detail_op_reg(MI, OpNum, Reg);
1625
100
    break;
1626
8.16k
  }
1627
5.79k
  case AArch64_OP_GROUP_Imm:
1628
6.41k
  case AArch64_OP_GROUP_ImmHex:
1629
6.41k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1630
6.41k
            MCInst_getOpVal(MI, OpNum));
1631
6.41k
    break;
1632
0
  case AArch64_OP_GROUP_ImplicitlyTypedVectorList:
1633
    // The TypedVectorList implements the logic of implicitly typed operand.
1634
0
    AArch64_add_cs_detail_2(
1635
0
      MI, AArch64_OP_GROUP_TypedVectorList_0_b, OpNum, 0, 0);
1636
0
    break;
1637
206
  case AArch64_OP_GROUP_InverseCondCode: {
1638
206
    AArch64CC_CondCode CC = (AArch64CC_CondCode)MCOperand_getImm(
1639
206
      MCInst_getOperand(MI, (OpNum)));
1640
206
    AArch64_get_detail(MI)->cc = AArch64CC_getInvertedCondCode(CC);
1641
206
    break;
1642
5.79k
  }
1643
2.47k
  case AArch64_OP_GROUP_MatrixTile: {
1644
2.47k
    const char *RegName = AArch64_LLVM_getRegisterName(
1645
2.47k
      MCInst_getOpVal(MI, OpNum), AArch64_NoRegAltName);
1646
2.47k
    const char *Dot = strstr(RegName, ".");
1647
2.47k
    AArch64Layout_VectorLayout vas = AARCH64LAYOUT_INVALID;
1648
2.47k
    if (!Dot) {
1649
      // The matrix dimensions are machine dependent.
1650
      // Currently we do not support differentiation of machines.
1651
      // So we just indicate the use of the complete matrix.
1652
0
      vas = sme_reg_to_vas(MCInst_getOpVal(MI, OpNum));
1653
0
    } else
1654
2.47k
      vas = get_vl_by_suffix(Dot[1]);
1655
2.47k
    AArch64_set_detail_op_sme(MI, OpNum, AARCH64_SME_MATRIX_TILE,
1656
2.47k
            vas, 0, 0);
1657
2.47k
    break;
1658
5.79k
  }
1659
603
  case AArch64_OP_GROUP_MatrixTileList: {
1660
603
    unsigned MaxRegs = 8;
1661
603
    unsigned RegMask = MCInst_getOpVal(MI, (OpNum));
1662
1663
5.42k
    for (unsigned I = 0; I < MaxRegs; ++I) {
1664
4.82k
      unsigned Reg = RegMask & (1 << I);
1665
4.82k
      if (Reg == 0)
1666
2.27k
        continue;
1667
2.55k
      AArch64_get_detail_op(MI, 0)->is_list_member = true;
1668
2.55k
      AArch64_set_detail_op_sme(MI, OpNum,
1669
2.55k
              AARCH64_SME_MATRIX_TILE_LIST,
1670
2.55k
              AARCH64LAYOUT_VL_D,
1671
2.55k
              (int)(AARCH64_REG_ZAD0 + I),
1672
2.55k
              0);
1673
2.55k
      AArch64_inc_op_count(MI);
1674
2.55k
    }
1675
603
    AArch64_get_detail(MI)->is_doing_sme = false;
1676
603
    break;
1677
5.79k
  }
1678
1.18k
  case AArch64_OP_GROUP_MRSSystemRegister:
1679
4.16k
  case AArch64_OP_GROUP_MSRSystemRegister: {
1680
4.16k
    unsigned Val = MCInst_getOpVal(MI, OpNum);
1681
4.16k
    const AArch64SysReg_SysReg *Reg =
1682
4.16k
      AArch64SysReg_lookupSysRegByEncoding(Val);
1683
4.16k
    bool Read = (op_group == AArch64_OP_GROUP_MRSSystemRegister) ?
1684
4.16k
            true :
1685
4.16k
            false;
1686
1687
4.16k
    bool isValidSysReg =
1688
4.16k
      (Reg && (Read ? Reg->Readable : Reg->Writeable) &&
1689
925
       AArch64_testFeatureList(MI->csh->mode,
1690
925
             Reg->FeaturesRequired));
1691
1692
4.16k
    if (Reg && !isValidSysReg)
1693
725
      Reg = AArch64SysReg_lookupSysRegByName(Reg->AltName);
1694
4.16k
    aarch64_sysop sysop = { 0 };
1695
    // If Reg is NULL it is a generic system register.
1696
4.16k
    if (Reg)
1697
1.62k
      sysop.reg.sysreg = (aarch64_sysreg)Reg->SysReg.sysreg;
1698
2.53k
    else {
1699
2.53k
      sysop.reg.raw_val = Val;
1700
2.53k
    }
1701
4.16k
    aarch64_op_type type =
1702
4.16k
      (op_group == AArch64_OP_GROUP_MRSSystemRegister) ?
1703
1.18k
        AARCH64_OP_REG_MRS :
1704
4.16k
        AARCH64_OP_REG_MSR;
1705
4.16k
    sysop.sub_type = type;
1706
4.16k
    AArch64_set_detail_op_sys(MI, OpNum, sysop, AARCH64_OP_SYSREG);
1707
4.16k
    break;
1708
1.18k
  }
1709
284
  case AArch64_OP_GROUP_PSBHintOp: {
1710
284
    unsigned psbhintop = MCInst_getOpVal(MI, OpNum);
1711
284
    const AArch64PSBHint_PSB *PSB =
1712
284
      AArch64PSBHint_lookupPSBByEncoding(psbhintop);
1713
284
    aarch64_sysop sysop = { 0 };
1714
284
    if (PSB)
1715
284
      sysop.alias.psb = (aarch64_psb)PSB->SysAlias.psb;
1716
0
    else
1717
0
      sysop.alias.raw_val = psbhintop;
1718
284
    sysop.sub_type = AARCH64_OP_PSB;
1719
284
    AArch64_set_detail_op_sys(MI, OpNum, sysop,
1720
284
            AARCH64_OP_SYSALIAS);
1721
284
    break;
1722
1.18k
  }
1723
457
  case AArch64_OP_GROUP_RPRFMOperand: {
1724
457
    unsigned prfop = MCInst_getOpVal(MI, OpNum);
1725
457
    const AArch64PRFM_PRFM *PRFM =
1726
457
      AArch64PRFM_lookupPRFMByEncoding(prfop);
1727
457
    aarch64_sysop sysop = { 0 };
1728
457
    if (PRFM)
1729
339
      sysop.alias.prfm = (aarch64_prfm)PRFM->SysAlias.prfm;
1730
118
    else
1731
118
      sysop.alias.raw_val = prfop;
1732
457
    sysop.sub_type = AARCH64_OP_PRFM;
1733
457
    AArch64_set_detail_op_sys(MI, OpNum, sysop,
1734
457
            AARCH64_OP_SYSALIAS);
1735
457
    break;
1736
1.18k
  }
1737
7.03k
  case AArch64_OP_GROUP_ShiftedRegister: {
1738
7.03k
    AArch64_set_detail_op_reg(MI, OpNum,
1739
7.03k
            MCInst_getOpVal(MI, OpNum));
1740
    // Shift part is handled in printShifter()
1741
7.03k
    break;
1742
1.18k
  }
1743
11.8k
  case AArch64_OP_GROUP_Shifter: {
1744
11.8k
    unsigned Val = MCInst_getOpVal(MI, OpNum);
1745
11.8k
    AArch64_AM_ShiftExtendType ShExtType =
1746
11.8k
      AArch64_AM_getShiftType(Val);
1747
11.8k
    AArch64_get_detail_op(MI, -1)->ext = llvm_to_cs_ext(ShExtType);
1748
11.8k
    AArch64_get_detail_op(MI, -1)->shift.type =
1749
11.8k
      llvm_to_cs_shift(ShExtType);
1750
11.8k
    AArch64_get_detail_op(MI, -1)->shift.value =
1751
11.8k
      AArch64_AM_getShiftValue(Val);
1752
11.8k
    break;
1753
1.18k
  }
1754
2.28k
  case AArch64_OP_GROUP_SIMDType10Operand: {
1755
2.28k
    unsigned RawVal = MCInst_getOpVal(MI, OpNum);
1756
2.28k
    uint64_t Val = AArch64_AM_decodeAdvSIMDModImmType10(RawVal);
1757
2.28k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM, Val);
1758
2.28k
    break;
1759
1.18k
  }
1760
0
  case AArch64_OP_GROUP_SVCROp: {
1761
0
    unsigned svcrop = MCInst_getOpVal(MI, OpNum);
1762
0
    const AArch64SVCR_SVCR *SVCR =
1763
0
      AArch64SVCR_lookupSVCRByEncoding(svcrop);
1764
0
    aarch64_sysop sysop = { 0 };
1765
0
    if (SVCR)
1766
0
      sysop.alias.svcr = (aarch64_svcr)SVCR->SysAlias.svcr;
1767
0
    else
1768
0
      sysop.alias.raw_val = svcrop;
1769
0
    sysop.sub_type = AARCH64_OP_SVCR;
1770
0
    AArch64_set_detail_op_sys(MI, OpNum, sysop,
1771
0
            AARCH64_OP_SYSALIAS);
1772
0
    break;
1773
1.18k
  }
1774
5.10k
  case AArch64_OP_GROUP_SVEPattern: {
1775
5.10k
    unsigned Val = MCInst_getOpVal(MI, OpNum);
1776
5.10k
    const AArch64SVEPredPattern_SVEPREDPAT *Pat =
1777
5.10k
      AArch64SVEPredPattern_lookupSVEPREDPATByEncoding(Val);
1778
5.10k
    if (!Pat) {
1779
2.60k
      AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1780
2.60k
              Val);
1781
2.60k
      break;
1782
2.60k
    }
1783
2.50k
    aarch64_sysop sysop = { 0 };
1784
2.50k
    sysop.alias = Pat->SysAlias;
1785
2.50k
    sysop.sub_type = AARCH64_OP_SVEPREDPAT;
1786
2.50k
    AArch64_set_detail_op_sys(MI, OpNum, sysop,
1787
2.50k
            AARCH64_OP_SYSALIAS);
1788
2.50k
    break;
1789
5.10k
  }
1790
827
  case AArch64_OP_GROUP_SVEVecLenSpecifier: {
1791
827
    unsigned Val = MCInst_getOpVal(MI, OpNum);
1792
    // Pattern has only 1 bit
1793
827
    if (Val > 1)
1794
0
      CS_ASSERT_RET(0 && "Invalid vector length specifier");
1795
827
    const AArch64SVEVecLenSpecifier_SVEVECLENSPECIFIER *Pat =
1796
827
      AArch64SVEVecLenSpecifier_lookupSVEVECLENSPECIFIERByEncoding(
1797
827
        Val);
1798
827
    if (!Pat)
1799
0
      break;
1800
827
    aarch64_sysop sysop = { 0 };
1801
827
    sysop.alias = Pat->SysAlias;
1802
827
    sysop.sub_type = AARCH64_OP_SVEVECLENSPECIFIER;
1803
827
    AArch64_set_detail_op_sys(MI, OpNum, sysop,
1804
827
            AARCH64_OP_SYSALIAS);
1805
827
    break;
1806
827
  }
1807
9.40k
  case AArch64_OP_GROUP_SysCROperand: {
1808
9.40k
    uint64_t cimm = MCInst_getOpVal(MI, OpNum);
1809
9.40k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_CIMM, cimm);
1810
9.40k
    break;
1811
827
  }
1812
1.15k
  case AArch64_OP_GROUP_SyspXzrPair: {
1813
1.15k
    unsigned Reg = MCInst_getOpVal(MI, OpNum);
1814
1.15k
    AArch64_set_detail_op_reg(MI, OpNum, Reg);
1815
1.15k
    AArch64_set_detail_op_reg(MI, OpNum, Reg);
1816
1.15k
    break;
1817
827
  }
1818
251
  case AArch64_OP_GROUP_SystemPStateField: {
1819
251
    unsigned Val = MCInst_getOpVal(MI, OpNum);
1820
1821
251
    aarch64_sysop sysop = { 0 };
1822
251
    const AArch64PState_PStateImm0_15 *PStateImm15 =
1823
251
      AArch64PState_lookupPStateImm0_15ByEncoding(Val);
1824
251
    const AArch64PState_PStateImm0_1 *PStateImm1 =
1825
251
      AArch64PState_lookupPStateImm0_1ByEncoding(Val);
1826
251
    if (PStateImm15 &&
1827
100
        AArch64_testFeatureList(MI->csh->mode,
1828
100
              PStateImm15->FeaturesRequired)) {
1829
100
      sysop.alias = PStateImm15->SysAlias;
1830
100
      sysop.sub_type = AARCH64_OP_PSTATEIMM0_15;
1831
100
      AArch64_set_detail_op_sys(MI, OpNum, sysop,
1832
100
              AARCH64_OP_SYSALIAS);
1833
151
    } else if (PStateImm1 &&
1834
151
         AArch64_testFeatureList(
1835
151
           MI->csh->mode,
1836
151
           PStateImm1->FeaturesRequired)) {
1837
151
      sysop.alias = PStateImm1->SysAlias;
1838
151
      sysop.sub_type = AARCH64_OP_PSTATEIMM0_1;
1839
151
      AArch64_set_detail_op_sys(MI, OpNum, sysop,
1840
151
              AARCH64_OP_SYSALIAS);
1841
151
    } else {
1842
0
      AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1843
0
              Val);
1844
0
    }
1845
251
    break;
1846
827
  }
1847
70.0k
  case AArch64_OP_GROUP_VRegOperand: {
1848
70.0k
    unsigned Reg = MCInst_getOpVal(MI, OpNum);
1849
70.0k
    AArch64_get_detail_op(MI, 0)->is_vreg = true;
1850
70.0k
    AArch64_set_detail_op_reg(MI, OpNum, Reg);
1851
70.0k
    break;
1852
827
  }
1853
593k
  }
1854
593k
}
1855
1856
/// Fills cs_detail with the data of the operand.
1857
/// This function handles operands which original printer function is a template
1858
/// with one argument.
1859
void AArch64_add_cs_detail_1(MCInst *MI, aarch64_op_group op_group,
1860
           unsigned OpNum, uint64_t temp_arg_0)
1861
312k
{
1862
312k
  if (!add_cs_detail_begin(MI, OpNum))
1863
0
    return;
1864
312k
  switch (op_group) {
1865
0
  default:
1866
0
    printf("ERROR: Operand group %d not handled!\n", op_group);
1867
0
    CS_ASSERT_RET(0);
1868
184
  case AArch64_OP_GROUP_GPRSeqPairsClassOperand_32:
1869
2.26k
  case AArch64_OP_GROUP_GPRSeqPairsClassOperand_64: {
1870
2.26k
    unsigned size = temp_arg_0;
1871
2.26k
    unsigned Reg = MCInst_getOpVal(MI, (OpNum));
1872
1873
2.26k
    unsigned Sube = (size == 32) ? AArch64_sube32 : AArch64_sube64;
1874
2.26k
    unsigned Subo = (size == 32) ? AArch64_subo32 : AArch64_subo64;
1875
1876
2.26k
    unsigned Even = MCRegisterInfo_getSubReg(MI->MRI, Reg, Sube);
1877
2.26k
    unsigned Odd = MCRegisterInfo_getSubReg(MI->MRI, Reg, Subo);
1878
2.26k
    AArch64_set_detail_op_reg(MI, OpNum, Even);
1879
2.26k
    AArch64_set_detail_op_reg(MI, OpNum, Odd);
1880
2.26k
    break;
1881
184
  }
1882
774
  case AArch64_OP_GROUP_Imm8OptLsl_int16_t:
1883
1.05k
  case AArch64_OP_GROUP_Imm8OptLsl_int32_t:
1884
1.31k
  case AArch64_OP_GROUP_Imm8OptLsl_int64_t:
1885
1.70k
  case AArch64_OP_GROUP_Imm8OptLsl_int8_t:
1886
1.96k
  case AArch64_OP_GROUP_Imm8OptLsl_uint16_t:
1887
2.10k
  case AArch64_OP_GROUP_Imm8OptLsl_uint32_t:
1888
2.32k
  case AArch64_OP_GROUP_Imm8OptLsl_uint64_t:
1889
2.56k
  case AArch64_OP_GROUP_Imm8OptLsl_uint8_t: {
1890
2.56k
    unsigned UnscaledVal = MCInst_getOpVal(MI, (OpNum));
1891
2.56k
    unsigned Shift = MCInst_getOpVal(MI, (OpNum + 1));
1892
1893
2.56k
    if ((UnscaledVal == 0) &&
1894
720
        (AArch64_AM_getShiftValue(Shift) != 0)) {
1895
352
      AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1896
352
              UnscaledVal);
1897
      // Shift is handled in printShifter()
1898
352
      break;
1899
352
    }
1900
1901
2.21k
#define SCALE_SET(T) \
1902
2.21k
  do { \
1903
2.21k
    T Val; \
1904
2.21k
    if (CHAR(T) == 'i') /* Signed */ \
1905
2.21k
      Val = (int8_t)UnscaledVal * \
1906
1.60k
            (1 << AArch64_AM_getShiftValue(Shift)); \
1907
2.21k
    else \
1908
2.21k
      Val = (uint8_t)UnscaledVal * \
1909
610
            (1 << AArch64_AM_getShiftValue(Shift)); \
1910
2.21k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM, Val); \
1911
2.21k
  } while (0)
1912
1913
2.21k
    switch (op_group) {
1914
0
    default:
1915
0
      CS_ASSERT_RET(
1916
0
        0 &&
1917
0
        "Operand group for Imm8OptLsl not handled.");
1918
728
    case AArch64_OP_GROUP_Imm8OptLsl_int16_t: {
1919
728
      SCALE_SET(int16_t);
1920
728
      break;
1921
0
    }
1922
261
    case AArch64_OP_GROUP_Imm8OptLsl_int32_t: {
1923
261
      SCALE_SET(int32_t);
1924
261
      break;
1925
0
    }
1926
225
    case AArch64_OP_GROUP_Imm8OptLsl_int64_t: {
1927
225
      SCALE_SET(int64_t);
1928
225
      break;
1929
0
    }
1930
391
    case AArch64_OP_GROUP_Imm8OptLsl_int8_t: {
1931
391
      SCALE_SET(int8_t);
1932
391
      break;
1933
0
    }
1934
156
    case AArch64_OP_GROUP_Imm8OptLsl_uint16_t: {
1935
156
      SCALE_SET(uint16_t);
1936
156
      break;
1937
0
    }
1938
67
    case AArch64_OP_GROUP_Imm8OptLsl_uint32_t: {
1939
67
      SCALE_SET(uint32_t);
1940
67
      break;
1941
0
    }
1942
143
    case AArch64_OP_GROUP_Imm8OptLsl_uint64_t: {
1943
143
      SCALE_SET(uint64_t);
1944
143
      break;
1945
0
    }
1946
244
    case AArch64_OP_GROUP_Imm8OptLsl_uint8_t: {
1947
244
      SCALE_SET(uint8_t);
1948
244
      break;
1949
0
    }
1950
2.21k
    }
1951
2.21k
    break;
1952
2.21k
  }
1953
4.31k
  case AArch64_OP_GROUP_ImmScale_16:
1954
6.42k
  case AArch64_OP_GROUP_ImmScale_2:
1955
7.42k
  case AArch64_OP_GROUP_ImmScale_3:
1956
7.53k
  case AArch64_OP_GROUP_ImmScale_32:
1957
17.3k
  case AArch64_OP_GROUP_ImmScale_4:
1958
23.2k
  case AArch64_OP_GROUP_ImmScale_8: {
1959
23.2k
    unsigned Scale = temp_arg_0;
1960
23.2k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
1961
23.2k
            Scale * MCInst_getOpVal(MI, OpNum));
1962
23.2k
    break;
1963
17.3k
  }
1964
1.05k
  case AArch64_OP_GROUP_LogicalImm_int16_t:
1965
2.62k
  case AArch64_OP_GROUP_LogicalImm_int32_t:
1966
5.64k
  case AArch64_OP_GROUP_LogicalImm_int64_t:
1967
7.87k
  case AArch64_OP_GROUP_LogicalImm_int8_t: {
1968
7.87k
    unsigned TypeSize = temp_arg_0;
1969
7.87k
    uint64_t Val = AArch64_AM_decodeLogicalImmediate(
1970
7.87k
      MCInst_getOpVal(MI, OpNum), 8 * TypeSize);
1971
7.87k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM, Val);
1972
7.87k
    break;
1973
5.64k
  }
1974
330
  case AArch64_OP_GROUP_Matrix_0:
1975
2.39k
  case AArch64_OP_GROUP_Matrix_16:
1976
6.53k
  case AArch64_OP_GROUP_Matrix_32:
1977
7.92k
  case AArch64_OP_GROUP_Matrix_64: {
1978
7.92k
    unsigned EltSize = temp_arg_0;
1979
7.92k
    AArch64_set_detail_op_sme(MI, OpNum, AARCH64_SME_MATRIX_TILE,
1980
7.92k
            (AArch64Layout_VectorLayout)EltSize,
1981
7.92k
            0, 0);
1982
7.92k
    break;
1983
6.53k
  }
1984
0
  case AArch64_OP_GROUP_MatrixIndex_0:
1985
10.0k
  case AArch64_OP_GROUP_MatrixIndex_1:
1986
10.2k
  case AArch64_OP_GROUP_MatrixIndex_8: {
1987
10.2k
    unsigned scale = temp_arg_0;
1988
10.2k
    if (AArch64_get_detail_op(MI, 0)->type == AARCH64_OP_SME) {
1989
      // The index is part of an SME matrix
1990
9.24k
      AArch64_set_detail_op_sme(
1991
9.24k
        MI, OpNum, AARCH64_SME_MATRIX_SLICE_OFF,
1992
9.24k
        AARCH64LAYOUT_INVALID,
1993
9.24k
        (uint32_t)(MCInst_getOpVal(MI, OpNum) * scale),
1994
9.24k
        0);
1995
9.24k
    } else if (AArch64_get_detail_op(MI, 0)->type ==
1996
1.02k
         AARCH64_OP_PRED) {
1997
      // The index is part of a predicate
1998
754
      AArch64_set_detail_op_pred(MI, OpNum);
1999
754
    } else {
2000
      // The index is used for an SVE2 instruction.
2001
272
      AArch64_set_detail_op_imm(
2002
272
        MI, OpNum, AARCH64_OP_IMM,
2003
272
        scale * MCInst_getOpVal(MI, OpNum));
2004
272
    }
2005
10.2k
    break;
2006
10.0k
  }
2007
3.34k
  case AArch64_OP_GROUP_MatrixTileVector_0:
2008
7.69k
  case AArch64_OP_GROUP_MatrixTileVector_1: {
2009
7.69k
    bool isVertical = temp_arg_0;
2010
7.69k
    const char *RegName = AArch64_LLVM_getRegisterName(
2011
7.69k
      MCInst_getOpVal(MI, OpNum), AArch64_NoRegAltName);
2012
7.69k
    const char *Dot = strstr(RegName, ".");
2013
7.69k
    AArch64Layout_VectorLayout vas = AARCH64LAYOUT_INVALID;
2014
7.69k
    if (!Dot) {
2015
      // The matrix dimensions are machine dependent.
2016
      // Currently we do not support differentiation of machines.
2017
      // So we just indicate the use of the complete matrix.
2018
0
      vas = sme_reg_to_vas(MCInst_getOpVal(MI, OpNum));
2019
0
    } else
2020
7.69k
      vas = get_vl_by_suffix(Dot[1]);
2021
7.69k
    setup_sme_operand(MI);
2022
7.69k
    AArch64_set_detail_op_sme(MI, OpNum, AARCH64_SME_MATRIX_TILE,
2023
7.69k
            vas, 0, 0);
2024
7.69k
    AArch64_get_detail_op(MI, 0)->sme.is_vertical = isVertical;
2025
7.69k
    break;
2026
3.34k
  }
2027
830
  case AArch64_OP_GROUP_PostIncOperand_1:
2028
1.26k
  case AArch64_OP_GROUP_PostIncOperand_12:
2029
2.26k
  case AArch64_OP_GROUP_PostIncOperand_16:
2030
3.16k
  case AArch64_OP_GROUP_PostIncOperand_2:
2031
4.26k
  case AArch64_OP_GROUP_PostIncOperand_24:
2032
5.20k
  case AArch64_OP_GROUP_PostIncOperand_3:
2033
5.43k
  case AArch64_OP_GROUP_PostIncOperand_32:
2034
6.41k
  case AArch64_OP_GROUP_PostIncOperand_4:
2035
6.54k
  case AArch64_OP_GROUP_PostIncOperand_48:
2036
7.68k
  case AArch64_OP_GROUP_PostIncOperand_6:
2037
7.86k
  case AArch64_OP_GROUP_PostIncOperand_64:
2038
9.12k
  case AArch64_OP_GROUP_PostIncOperand_8: {
2039
9.12k
    uint64_t Imm = temp_arg_0;
2040
9.12k
    unsigned Reg = MCInst_getOpVal(MI, OpNum);
2041
9.12k
    if (Reg == AArch64_XZR) {
2042
0
      AArch64_get_detail_op(MI, -1)->mem.disp = Imm;
2043
0
      AArch64_get_detail(MI)->post_index = true;
2044
0
      AArch64_inc_op_count(MI);
2045
0
    } else
2046
9.12k
      AArch64_set_detail_op_reg(MI, OpNum, Reg);
2047
9.12k
    break;
2048
7.86k
  }
2049
5.60k
  case AArch64_OP_GROUP_PredicateAsCounter_0:
2050
5.68k
  case AArch64_OP_GROUP_PredicateAsCounter_16:
2051
5.94k
  case AArch64_OP_GROUP_PredicateAsCounter_32:
2052
6.28k
  case AArch64_OP_GROUP_PredicateAsCounter_64:
2053
6.46k
  case AArch64_OP_GROUP_PredicateAsCounter_8: {
2054
6.46k
    unsigned EltSize = temp_arg_0;
2055
6.46k
    AArch64_get_detail_op(MI, 0)->vas = EltSize;
2056
6.46k
    AArch64_set_detail_op_reg(MI, OpNum,
2057
6.46k
            MCInst_getOpVal(MI, OpNum));
2058
6.46k
    break;
2059
6.28k
  }
2060
1.39k
  case AArch64_OP_GROUP_PrefetchOp_0:
2061
6.67k
  case AArch64_OP_GROUP_PrefetchOp_1: {
2062
6.67k
    bool IsSVEPrefetch = (bool)temp_arg_0;
2063
6.67k
    unsigned prfop = MCInst_getOpVal(MI, (OpNum));
2064
6.67k
    aarch64_sysop sysop = { 0 };
2065
6.67k
    if (IsSVEPrefetch) {
2066
5.27k
      const AArch64SVEPRFM_SVEPRFM *PRFM =
2067
5.27k
        AArch64SVEPRFM_lookupSVEPRFMByEncoding(prfop);
2068
5.27k
      if (PRFM) {
2069
4.77k
        sysop.alias = PRFM->SysAlias;
2070
4.77k
        sysop.sub_type = AARCH64_OP_SVEPRFM;
2071
4.77k
        AArch64_set_detail_op_sys(MI, OpNum, sysop,
2072
4.77k
                AARCH64_OP_SYSALIAS);
2073
4.77k
        break;
2074
4.77k
      }
2075
5.27k
    } else {
2076
1.39k
      const AArch64PRFM_PRFM *PRFM =
2077
1.39k
        AArch64PRFM_lookupPRFMByEncoding(prfop);
2078
1.39k
      if (PRFM &&
2079
754
          AArch64_testFeatureList(MI->csh->mode,
2080
754
                PRFM->FeaturesRequired)) {
2081
754
        sysop.alias = PRFM->SysAlias;
2082
754
        sysop.sub_type = AARCH64_OP_PRFM;
2083
754
        AArch64_set_detail_op_sys(MI, OpNum, sysop,
2084
754
                AARCH64_OP_SYSALIAS);
2085
754
        break;
2086
754
      }
2087
1.39k
    }
2088
1.14k
    AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_IMM;
2089
1.14k
    AArch64_get_detail_op(MI, 0)->imm = prfop;
2090
1.14k
    AArch64_get_detail_op(MI, 0)->access =
2091
1.14k
      map_get_op_access(MI, OpNum);
2092
1.14k
    AArch64_inc_op_count(MI);
2093
1.14k
    break;
2094
6.67k
  }
2095
884
  case AArch64_OP_GROUP_SImm_16:
2096
1.08k
  case AArch64_OP_GROUP_SImm_8: {
2097
1.08k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
2098
1.08k
            MCInst_getOpVal(MI, OpNum));
2099
1.08k
    break;
2100
884
  }
2101
1.54k
  case AArch64_OP_GROUP_SVELogicalImm_int16_t:
2102
2.77k
  case AArch64_OP_GROUP_SVELogicalImm_int32_t:
2103
3.43k
  case AArch64_OP_GROUP_SVELogicalImm_int64_t: {
2104
    // General issue here that we do not save the operand type
2105
    // for each operand. So we choose the largest type.
2106
3.43k
    uint64_t Val = MCInst_getOpVal(MI, OpNum);
2107
3.43k
    uint64_t DecodedVal =
2108
3.43k
      AArch64_AM_decodeLogicalImmediate(Val, 64);
2109
3.43k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
2110
3.43k
            DecodedVal);
2111
3.43k
    break;
2112
2.77k
  }
2113
59.5k
  case AArch64_OP_GROUP_SVERegOp_0:
2114
89.2k
  case AArch64_OP_GROUP_SVERegOp_b:
2115
114k
  case AArch64_OP_GROUP_SVERegOp_d:
2116
150k
  case AArch64_OP_GROUP_SVERegOp_h:
2117
151k
  case AArch64_OP_GROUP_SVERegOp_q:
2118
175k
  case AArch64_OP_GROUP_SVERegOp_s: {
2119
175k
    char Suffix = (char)temp_arg_0;
2120
175k
    AArch64_get_detail_op(MI, 0)->vas = get_vl_by_suffix(Suffix);
2121
175k
    AArch64_set_detail_op_reg(MI, OpNum,
2122
175k
            MCInst_getOpVal(MI, OpNum));
2123
175k
    break;
2124
151k
  }
2125
2.39k
  case AArch64_OP_GROUP_UImm12Offset_1:
2126
2.71k
  case AArch64_OP_GROUP_UImm12Offset_16:
2127
4.75k
  case AArch64_OP_GROUP_UImm12Offset_2:
2128
5.89k
  case AArch64_OP_GROUP_UImm12Offset_4:
2129
7.01k
  case AArch64_OP_GROUP_UImm12Offset_8: {
2130
    // Otherwise it is an expression. For which we only add the immediate
2131
7.01k
    unsigned Scale = MCOperand_isImm(MCInst_getOperand(MI, OpNum)) ?
2132
7.01k
           temp_arg_0 :
2133
7.01k
           1;
2134
7.01k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM,
2135
7.01k
            Scale * MCInst_getOpVal(MI, OpNum));
2136
7.01k
    break;
2137
5.89k
  }
2138
39.6k
  case AArch64_OP_GROUP_VectorIndex_1:
2139
39.6k
  case AArch64_OP_GROUP_VectorIndex_8: {
2140
39.6k
    CS_ASSERT_RET(AArch64_get_detail(MI)->op_count > 0);
2141
39.6k
    unsigned Scale = temp_arg_0;
2142
39.6k
    unsigned VIndex = Scale * MCInst_getOpVal(MI, OpNum);
2143
    // The index can either be for one operand, or for each operand of a list.
2144
39.6k
    if (!AArch64_get_detail_op(MI, -1)->is_list_member) {
2145
22.2k
      AArch64_get_detail_op(MI, -1)->vector_index = VIndex;
2146
22.2k
      break;
2147
22.2k
    }
2148
62.7k
    for (int i = AArch64_get_detail(MI)->op_count - 1; i >= 0;
2149
45.3k
         --i) {
2150
45.3k
      if (!AArch64_get_detail(MI)->operands[i].is_list_member)
2151
0
        break;
2152
45.3k
      AArch64_get_detail(MI)->operands[i].vector_index =
2153
45.3k
        VIndex;
2154
45.3k
    }
2155
17.3k
    break;
2156
39.6k
  }
2157
73
  case AArch64_OP_GROUP_ZPRasFPR_128:
2158
747
  case AArch64_OP_GROUP_ZPRasFPR_16:
2159
1.06k
  case AArch64_OP_GROUP_ZPRasFPR_32:
2160
1.75k
  case AArch64_OP_GROUP_ZPRasFPR_64:
2161
1.87k
  case AArch64_OP_GROUP_ZPRasFPR_8: {
2162
1.87k
    unsigned Base = AArch64_NoRegister;
2163
1.87k
    unsigned Width = temp_arg_0;
2164
1.87k
    switch (Width) {
2165
126
    case 8:
2166
126
      Base = AArch64_B0;
2167
126
      break;
2168
674
    case 16:
2169
674
      Base = AArch64_H0;
2170
674
      break;
2171
314
    case 32:
2172
314
      Base = AArch64_S0;
2173
314
      break;
2174
690
    case 64:
2175
690
      Base = AArch64_D0;
2176
690
      break;
2177
73
    case 128:
2178
73
      Base = AArch64_Q0;
2179
73
      break;
2180
0
    default:
2181
0
      CS_ASSERT_RET(0 && "Unsupported width");
2182
1.87k
    }
2183
1.87k
    unsigned Reg = MCInst_getOpVal(MI, (OpNum));
2184
1.87k
    AArch64_set_detail_op_reg(MI, OpNum, Reg - AArch64_Z0 + Base);
2185
1.87k
    break;
2186
1.87k
  }
2187
312k
  }
2188
312k
}
2189
2190
/// Fills cs_detail with the data of the operand.
2191
/// This function handles operands which original printer function is a template
2192
/// with two arguments.
2193
void AArch64_add_cs_detail_2(MCInst *MI, aarch64_op_group op_group,
2194
           unsigned OpNum, uint64_t temp_arg_0,
2195
           uint64_t temp_arg_1)
2196
82.5k
{
2197
82.5k
  if (!add_cs_detail_begin(MI, OpNum))
2198
0
    return;
2199
82.5k
  switch (op_group) {
2200
0
  default:
2201
0
    printf("ERROR: Operand group %d not handled!\n", op_group);
2202
0
    CS_ASSERT_RET(0);
2203
667
  case AArch64_OP_GROUP_ComplexRotationOp_180_90:
2204
3.60k
  case AArch64_OP_GROUP_ComplexRotationOp_90_0: {
2205
3.60k
    unsigned Angle = temp_arg_0;
2206
3.60k
    unsigned Remainder = temp_arg_1;
2207
3.60k
    unsigned Imm = (MCInst_getOpVal(MI, OpNum) * Angle) + Remainder;
2208
3.60k
    AArch64_set_detail_op_imm(MI, OpNum, AARCH64_OP_IMM, Imm);
2209
3.60k
    break;
2210
667
  }
2211
37
  case AArch64_OP_GROUP_ExactFPImm_AArch64ExactFPImm_half_AArch64ExactFPImm_one:
2212
195
  case AArch64_OP_GROUP_ExactFPImm_AArch64ExactFPImm_half_AArch64ExactFPImm_two:
2213
415
  case AArch64_OP_GROUP_ExactFPImm_AArch64ExactFPImm_zero_AArch64ExactFPImm_one: {
2214
415
    aarch64_exactfpimm ImmIs0 = temp_arg_0;
2215
415
    aarch64_exactfpimm ImmIs1 = temp_arg_1;
2216
415
    const AArch64ExactFPImm_ExactFPImm *Imm0Desc =
2217
415
      AArch64ExactFPImm_lookupExactFPImmByEnum(ImmIs0);
2218
415
    const AArch64ExactFPImm_ExactFPImm *Imm1Desc =
2219
415
      AArch64ExactFPImm_lookupExactFPImmByEnum(ImmIs1);
2220
415
    unsigned Val = MCInst_getOpVal(MI, (OpNum));
2221
415
    aarch64_sysop sysop = { 0 };
2222
415
    sysop.imm = Val ? Imm1Desc->SysImm : Imm0Desc->SysImm;
2223
415
    sysop.sub_type = AARCH64_OP_EXACTFPIMM;
2224
415
    AArch64_set_detail_op_sys(MI, OpNum, sysop, AARCH64_OP_SYSIMM);
2225
415
    break;
2226
195
  }
2227
3.78k
  case AArch64_OP_GROUP_ImmRangeScale_2_1:
2228
6.37k
  case AArch64_OP_GROUP_ImmRangeScale_4_3: {
2229
6.37k
    uint64_t Scale = temp_arg_0;
2230
6.37k
    uint64_t Offset = temp_arg_1;
2231
6.37k
    unsigned FirstImm = Scale * MCInst_getOpVal(MI, (OpNum));
2232
6.37k
    AArch64_set_detail_op_imm_range(MI, OpNum, FirstImm,
2233
6.37k
            FirstImm + Offset);
2234
6.37k
    break;
2235
3.78k
  }
2236
69
  case AArch64_OP_GROUP_MemExtend_w_128:
2237
176
  case AArch64_OP_GROUP_MemExtend_w_16:
2238
189
  case AArch64_OP_GROUP_MemExtend_w_32:
2239
368
  case AArch64_OP_GROUP_MemExtend_w_64:
2240
777
  case AArch64_OP_GROUP_MemExtend_w_8:
2241
902
  case AArch64_OP_GROUP_MemExtend_x_128:
2242
1.25k
  case AArch64_OP_GROUP_MemExtend_x_16:
2243
1.27k
  case AArch64_OP_GROUP_MemExtend_x_32:
2244
1.87k
  case AArch64_OP_GROUP_MemExtend_x_64:
2245
2.40k
  case AArch64_OP_GROUP_MemExtend_x_8: {
2246
2.40k
    char SrcRegKind = (char)temp_arg_0;
2247
2.40k
    unsigned ExtWidth = temp_arg_1;
2248
2.40k
    bool SignExtend = MCInst_getOpVal(MI, OpNum);
2249
2.40k
    bool DoShift = MCInst_getOpVal(MI, OpNum + 1);
2250
2.40k
    AArch64_set_detail_shift_ext(MI, OpNum, SignExtend, DoShift,
2251
2.40k
               ExtWidth, SrcRegKind);
2252
2.40k
    break;
2253
1.87k
  }
2254
12.5k
  case AArch64_OP_GROUP_TypedVectorList_0_b:
2255
31.4k
  case AArch64_OP_GROUP_TypedVectorList_0_d:
2256
45.2k
  case AArch64_OP_GROUP_TypedVectorList_0_h:
2257
45.8k
  case AArch64_OP_GROUP_TypedVectorList_0_q:
2258
59.7k
  case AArch64_OP_GROUP_TypedVectorList_0_s:
2259
59.9k
  case AArch64_OP_GROUP_TypedVectorList_0_0:
2260
62.4k
  case AArch64_OP_GROUP_TypedVectorList_16_b:
2261
62.9k
  case AArch64_OP_GROUP_TypedVectorList_1_d:
2262
64.4k
  case AArch64_OP_GROUP_TypedVectorList_2_d:
2263
65.3k
  case AArch64_OP_GROUP_TypedVectorList_2_s:
2264
66.1k
  case AArch64_OP_GROUP_TypedVectorList_4_h:
2265
67.0k
  case AArch64_OP_GROUP_TypedVectorList_4_s:
2266
68.2k
  case AArch64_OP_GROUP_TypedVectorList_8_b:
2267
69.7k
  case AArch64_OP_GROUP_TypedVectorList_8_h: {
2268
69.7k
    uint8_t NumLanes = (uint8_t)temp_arg_0;
2269
69.7k
    char LaneKind = (char)temp_arg_1;
2270
69.7k
    uint16_t Pair = ((NumLanes << 8) | LaneKind);
2271
2272
69.7k
    AArch64Layout_VectorLayout vas = AARCH64LAYOUT_INVALID;
2273
69.7k
    switch (Pair) {
2274
0
    default:
2275
0
      printf("Typed vector list with NumLanes = %d and LaneKind = %c not handled.\n",
2276
0
             NumLanes, LaneKind);
2277
0
      CS_ASSERT_RET(0);
2278
1.13k
    case ((8 << 8) | 'b'):
2279
1.13k
      vas = AARCH64LAYOUT_VL_8B;
2280
1.13k
      break;
2281
837
    case ((4 << 8) | 'h'):
2282
837
      vas = AARCH64LAYOUT_VL_4H;
2283
837
      break;
2284
906
    case ((2 << 8) | 's'):
2285
906
      vas = AARCH64LAYOUT_VL_2S;
2286
906
      break;
2287
493
    case ((1 << 8) | 'd'):
2288
493
      vas = AARCH64LAYOUT_VL_1D;
2289
493
      break;
2290
2.54k
    case ((16 << 8) | 'b'):
2291
2.54k
      vas = AARCH64LAYOUT_VL_16B;
2292
2.54k
      break;
2293
1.48k
    case ((8 << 8) | 'h'):
2294
1.48k
      vas = AARCH64LAYOUT_VL_8H;
2295
1.48k
      break;
2296
940
    case ((4 << 8) | 's'):
2297
940
      vas = AARCH64LAYOUT_VL_4S;
2298
940
      break;
2299
1.47k
    case ((2 << 8) | 'd'):
2300
1.47k
      vas = AARCH64LAYOUT_VL_2D;
2301
1.47k
      break;
2302
12.5k
    case 'b':
2303
12.5k
      vas = AARCH64LAYOUT_VL_B;
2304
12.5k
      break;
2305
13.7k
    case 'h':
2306
13.7k
      vas = AARCH64LAYOUT_VL_H;
2307
13.7k
      break;
2308
13.9k
    case 's':
2309
13.9k
      vas = AARCH64LAYOUT_VL_S;
2310
13.9k
      break;
2311
18.9k
    case 'd':
2312
18.9k
      vas = AARCH64LAYOUT_VL_D;
2313
18.9k
      break;
2314
630
    case 'q':
2315
630
      vas = AARCH64LAYOUT_VL_Q;
2316
630
      break;
2317
126
    case '0':
2318
      // Implicitly Typed register
2319
126
      break;
2320
69.7k
    }
2321
2322
69.7k
    unsigned Reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum));
2323
69.7k
    unsigned NumRegs = get_vec_list_num_regs(MI, Reg);
2324
69.7k
    unsigned Stride = get_vec_list_stride(MI, Reg);
2325
69.7k
    Reg = get_vec_list_first_reg(MI, Reg);
2326
2327
69.7k
    if ((MCRegisterClass_contains(
2328
69.7k
           MCRegisterInfo_getRegClass(MI->MRI,
2329
69.7k
              AArch64_ZPRRegClassID),
2330
69.7k
           Reg) ||
2331
28.4k
         MCRegisterClass_contains(
2332
28.4k
           MCRegisterInfo_getRegClass(MI->MRI,
2333
28.4k
              AArch64_PPRRegClassID),
2334
28.4k
           Reg)) &&
2335
42.5k
        NumRegs > 1 && Stride == 1 &&
2336
20.8k
        Reg < getNextVectorRegister(Reg, NumRegs - 1)) {
2337
20.7k
      AArch64_get_detail_op(MI, 0)->is_list_member = true;
2338
20.7k
      AArch64_get_detail_op(MI, 0)->vas = vas;
2339
20.7k
      AArch64_set_detail_op_reg(MI, OpNum, Reg);
2340
20.7k
      if (NumRegs > 1) {
2341
        // Add all registers of the list to the details.
2342
56.2k
        for (size_t i = 0; i < NumRegs - 1; ++i) {
2343
35.5k
          AArch64_get_detail_op(MI, 0)
2344
35.5k
            ->is_list_member = true;
2345
35.5k
          AArch64_get_detail_op(MI, 0)->vas = vas;
2346
35.5k
          AArch64_set_detail_op_reg(
2347
35.5k
            MI, OpNum,
2348
35.5k
            getNextVectorRegister(Reg + i,
2349
35.5k
                      1));
2350
35.5k
        }
2351
20.7k
      }
2352
48.9k
    } else {
2353
146k
      for (unsigned i = 0; i < NumRegs;
2354
97.9k
           ++i, Reg = getNextVectorRegister(Reg, Stride)) {
2355
97.9k
        if (!(MCRegisterClass_contains(
2356
97.9k
                MCRegisterInfo_getRegClass(
2357
97.9k
                  MI->MRI,
2358
97.9k
                  AArch64_ZPRRegClassID),
2359
97.9k
                Reg) ||
2360
71.1k
              MCRegisterClass_contains(
2361
71.1k
                MCRegisterInfo_getRegClass(
2362
71.1k
                  MI->MRI,
2363
71.1k
                  AArch64_PPRRegClassID),
2364
71.1k
                Reg))) {
2365
71.0k
          AArch64_get_detail_op(MI, 0)->is_vreg =
2366
71.0k
            true;
2367
71.0k
        }
2368
97.9k
        AArch64_get_detail_op(MI, 0)->is_list_member =
2369
97.9k
          true;
2370
97.9k
        AArch64_get_detail_op(MI, 0)->vas = vas;
2371
97.9k
        AArch64_set_detail_op_reg(MI, OpNum, Reg);
2372
97.9k
      }
2373
48.9k
    }
2374
69.7k
  }
2375
82.5k
  }
2376
82.5k
}
2377
2378
/// Fills cs_detail with the data of the operand.
2379
/// This function handles operands which original printer function is a template
2380
/// with four arguments.
2381
void AArch64_add_cs_detail_4(MCInst *MI, aarch64_op_group op_group,
2382
           unsigned OpNum, uint64_t temp_arg_0,
2383
           uint64_t temp_arg_1, uint64_t temp_arg_2,
2384
           uint64_t temp_arg_3)
2385
21.1k
{
2386
21.1k
  if (!add_cs_detail_begin(MI, OpNum))
2387
0
    return;
2388
21.1k
  switch (op_group) {
2389
0
  default:
2390
0
    printf("ERROR: Operand group %d not handled!\n", op_group);
2391
0
    CS_ASSERT_RET(0);
2392
1.66k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_128_x_0:
2393
2.57k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_16_w_d:
2394
2.83k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_16_w_s:
2395
4.63k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_16_x_0:
2396
4.84k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_16_x_d:
2397
4.93k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_16_x_s:
2398
5.64k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_32_w_d:
2399
5.98k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_32_w_s:
2400
6.94k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_32_x_0:
2401
7.33k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_32_x_d:
2402
7.35k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_32_x_s:
2403
8.11k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_64_w_d:
2404
8.14k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_64_w_s:
2405
9.49k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_64_x_0:
2406
10.2k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_64_x_d:
2407
10.2k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_64_x_s:
2408
11.4k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_8_w_d:
2409
11.9k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_8_w_s:
2410
14.9k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_8_x_0:
2411
16.8k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_8_x_d:
2412
16.9k
  case AArch64_OP_GROUP_RegWithShiftExtend_0_8_x_s:
2413
17.3k
  case AArch64_OP_GROUP_RegWithShiftExtend_1_16_w_d:
2414
17.7k
  case AArch64_OP_GROUP_RegWithShiftExtend_1_16_w_s:
2415
18.2k
  case AArch64_OP_GROUP_RegWithShiftExtend_1_32_w_d:
2416
18.3k
  case AArch64_OP_GROUP_RegWithShiftExtend_1_32_w_s:
2417
19.2k
  case AArch64_OP_GROUP_RegWithShiftExtend_1_64_w_d:
2418
19.3k
  case AArch64_OP_GROUP_RegWithShiftExtend_1_64_w_s:
2419
20.6k
  case AArch64_OP_GROUP_RegWithShiftExtend_1_8_w_d:
2420
21.1k
  case AArch64_OP_GROUP_RegWithShiftExtend_1_8_w_s: {
2421
    // signed (s) and unsigned (u) extend
2422
21.1k
    bool SignExtend = (bool)temp_arg_0;
2423
    // Extend width
2424
21.1k
    int ExtWidth = (int)temp_arg_1;
2425
    // w = word, x = doubleword
2426
21.1k
    char SrcRegKind = (char)temp_arg_2;
2427
    // Vector register element/arrangement specifier:
2428
    // B = 8bit, H = 16bit, S = 32bit, D = 64bit, Q = 128bit
2429
    // No suffix = complete register
2430
    // According to: ARM Reference manual supplement, doc number: DDI 0584
2431
21.1k
    char Suffix = (char)temp_arg_3;
2432
2433
    // Register will be added in printOperand() afterwards. Here we only handle
2434
    // shift and extend.
2435
21.1k
    AArch64_get_detail_op(MI, -1)->vas = get_vl_by_suffix(Suffix);
2436
2437
21.1k
    bool DoShift = ExtWidth != 8;
2438
21.1k
    if (!(SignExtend || DoShift || SrcRegKind == 'w'))
2439
4.93k
      return;
2440
2441
16.1k
    AArch64_set_detail_shift_ext(MI, OpNum, SignExtend, DoShift,
2442
16.1k
               ExtWidth, SrcRegKind);
2443
16.1k
    break;
2444
21.1k
  }
2445
21.1k
  }
2446
21.1k
}
2447
2448
/// Adds a register AArch64 operand at position OpNum and increases the op_count by
2449
/// one.
2450
void AArch64_set_detail_op_reg(MCInst *MI, unsigned OpNum, aarch64_reg Reg)
2451
812k
{
2452
812k
  if (!detail_is_set(MI))
2453
0
    return;
2454
812k
  AArch64_check_safe_inc(MI);
2455
2456
812k
  if (Reg == AARCH64_REG_ZA ||
2457
812k
      (Reg >= AARCH64_REG_ZAB0 && Reg < AARCH64_REG_ZT0)) {
2458
    // A tile register should be treated as SME operand.
2459
0
    AArch64_set_detail_op_sme(MI, OpNum, AARCH64_SME_MATRIX_TILE,
2460
0
            sme_reg_to_vas(Reg), 0, 0);
2461
0
    return;
2462
812k
  } else if (((Reg >= AARCH64_REG_P0) && (Reg <= AARCH64_REG_P15)) ||
2463
741k
       ((Reg >= AARCH64_REG_PN0) && (Reg <= AARCH64_REG_PN15))) {
2464
    // SME/SVE predicate register.
2465
77.5k
    AArch64_set_detail_op_pred(MI, OpNum);
2466
77.5k
    return;
2467
735k
  } else if (AArch64_get_detail(MI)->is_doing_sme) {
2468
16.3k
    CS_ASSERT_RET(map_get_op_type(MI, OpNum) & CS_OP_BOUND);
2469
16.3k
    if (AArch64_get_detail_op(MI, 0)->type == AARCH64_OP_SME) {
2470
15.6k
      AArch64_set_detail_op_sme(MI, OpNum,
2471
15.6k
              AARCH64_SME_MATRIX_SLICE_REG,
2472
15.6k
              AARCH64LAYOUT_INVALID, 0, 0);
2473
15.6k
    } else if (AArch64_get_detail_op(MI, 0)->type ==
2474
754
         AARCH64_OP_PRED) {
2475
754
      AArch64_set_detail_op_pred(MI, OpNum);
2476
754
    } else {
2477
0
      CS_ASSERT_RET(0 && "Unkown SME/SVE operand type");
2478
0
    }
2479
16.3k
    return;
2480
16.3k
  }
2481
718k
  if (map_get_op_type(MI, OpNum) & CS_OP_MEM) {
2482
136k
    AArch64_set_detail_op_mem(MI, OpNum, Reg);
2483
136k
    return;
2484
136k
  }
2485
2486
582k
  CS_ASSERT_RET(!(map_get_op_type(MI, OpNum) & CS_OP_BOUND));
2487
582k
  CS_ASSERT_RET(!(map_get_op_type(MI, OpNum) & CS_OP_MEM));
2488
582k
  CS_ASSERT_RET(map_get_op_type(MI, OpNum) == CS_OP_REG);
2489
2490
582k
  AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_REG;
2491
582k
  AArch64_get_detail_op(MI, 0)->reg = Reg;
2492
582k
  AArch64_get_detail_op(MI, 0)->access = map_get_op_access(MI, OpNum);
2493
582k
  AArch64_inc_op_count(MI);
2494
582k
}
2495
2496
/// Check if the previous operand is a memory operand
2497
/// with only the base register set AND if this base register
2498
/// is write-back.
2499
/// This indicates the following immediate is a post-indexed
2500
/// memory offset.
2501
static bool prev_is_membase_wb(MCInst *MI)
2502
115k
{
2503
115k
  return AArch64_get_detail(MI)->op_count > 0 &&
2504
96.9k
         AArch64_get_detail_op(MI, -1)->type == AARCH64_OP_MEM &&
2505
7.22k
         AArch64_get_detail_op(MI, -1)->mem.disp == 0 &&
2506
7.22k
         get_detail(MI)->writeback;
2507
115k
}
2508
2509
/// Adds an immediate AArch64 operand at position OpNum and increases the op_count
2510
/// by one.
2511
void AArch64_set_detail_op_imm(MCInst *MI, unsigned OpNum,
2512
             aarch64_op_type ImmType, int64_t Imm)
2513
165k
{
2514
165k
  if (!detail_is_set(MI))
2515
0
    return;
2516
165k
  AArch64_check_safe_inc(MI);
2517
2518
165k
  if (AArch64_get_detail(MI)->is_doing_sme) {
2519
0
    CS_ASSERT_RET(map_get_op_type(MI, OpNum) & CS_OP_BOUND);
2520
0
    if (AArch64_get_detail_op(MI, 0)->type == AARCH64_OP_SME) {
2521
0
      AArch64_set_detail_op_sme(MI, OpNum,
2522
0
              AARCH64_SME_MATRIX_SLICE_OFF,
2523
0
              AARCH64LAYOUT_INVALID,
2524
0
              (uint32_t)1, 0);
2525
0
    } else if (AArch64_get_detail_op(MI, 0)->type ==
2526
0
         AARCH64_OP_PRED) {
2527
0
      AArch64_set_detail_op_pred(MI, OpNum);
2528
0
    } else {
2529
0
      CS_ASSERT_RET(0 && "Unkown SME operand type");
2530
0
    }
2531
0
    return;
2532
0
  }
2533
165k
  if (map_get_op_type(MI, OpNum) & CS_OP_MEM || prev_is_membase_wb(MI)) {
2534
57.2k
    AArch64_set_detail_op_mem(MI, OpNum, Imm);
2535
57.2k
    return;
2536
57.2k
  }
2537
2538
108k
  CS_ASSERT_RET(!(map_get_op_type(MI, OpNum) & CS_OP_MEM));
2539
108k
  CS_ASSERT_RET((map_get_op_type(MI, OpNum) & ~CS_OP_BOUND) == CS_OP_IMM);
2540
108k
  CS_ASSERT_RET(ImmType == AARCH64_OP_IMM || ImmType == AARCH64_OP_CIMM);
2541
2542
108k
  AArch64_get_detail_op(MI, 0)->type = ImmType;
2543
108k
  AArch64_get_detail_op(MI, 0)->imm = Imm;
2544
108k
  AArch64_get_detail_op(MI, 0)->access = map_get_op_access(MI, OpNum);
2545
108k
  AArch64_inc_op_count(MI);
2546
108k
}
2547
2548
void AArch64_set_detail_op_imm_range(MCInst *MI, unsigned OpNum,
2549
             uint32_t FirstImm, uint32_t Offset)
2550
6.37k
{
2551
6.37k
  if (!detail_is_set(MI))
2552
0
    return;
2553
6.37k
  AArch64_check_safe_inc(MI);
2554
2555
6.37k
  if (AArch64_get_detail(MI)->is_doing_sme) {
2556
6.37k
    CS_ASSERT_RET(map_get_op_type(MI, OpNum) & CS_OP_BOUND);
2557
6.37k
    if (AArch64_get_detail_op(MI, 0)->type == AARCH64_OP_SME) {
2558
6.37k
      AArch64_set_detail_op_sme(
2559
6.37k
        MI, OpNum, AARCH64_SME_MATRIX_SLICE_OFF_RANGE,
2560
6.37k
        AARCH64LAYOUT_INVALID, (uint32_t)FirstImm,
2561
6.37k
        (uint32_t)Offset);
2562
6.37k
    } else if (AArch64_get_detail_op(MI, 0)->type ==
2563
0
         AARCH64_OP_PRED) {
2564
0
      CS_ASSERT_RET(0 &&
2565
0
              "Unkown SME predicate imm range type");
2566
0
    } else {
2567
0
      CS_ASSERT_RET(0 && "Unkown SME operand type");
2568
0
    }
2569
6.37k
    return;
2570
6.37k
  }
2571
2572
0
  CS_ASSERT_RET(!(map_get_op_type(MI, OpNum) & CS_OP_MEM));
2573
0
  CS_ASSERT_RET(map_get_op_type(MI, OpNum) == CS_OP_IMM);
2574
2575
0
  AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_IMM_RANGE;
2576
0
  AArch64_get_detail_op(MI, 0)->imm_range.first = FirstImm;
2577
0
  AArch64_get_detail_op(MI, 0)->imm_range.offset = Offset;
2578
0
  AArch64_get_detail_op(MI, 0)->access = map_get_op_access(MI, OpNum);
2579
0
  AArch64_inc_op_count(MI);
2580
0
}
2581
2582
/// Adds a memory AARCH64 operand at position OpNum. op_count is *not* increased by
2583
/// one. This is done by set_mem_access().
2584
void AArch64_set_detail_op_mem(MCInst *MI, unsigned OpNum, uint64_t Val)
2585
193k
{
2586
193k
  if (!detail_is_set(MI))
2587
0
    return;
2588
193k
  AArch64_check_safe_inc(MI);
2589
2590
193k
  AArch64_set_mem_access(MI, true);
2591
2592
193k
  cs_op_type secondary_type = map_get_op_type(MI, OpNum) & ~CS_OP_MEM;
2593
193k
  switch (secondary_type) {
2594
0
  default:
2595
0
    CS_ASSERT_RET(0 && "Secondary type not supported yet.");
2596
136k
  case CS_OP_REG: {
2597
136k
    bool is_index_reg = AArch64_get_detail_op(MI, 0)->mem.base !=
2598
136k
            AARCH64_REG_INVALID;
2599
136k
    if (is_index_reg)
2600
25.6k
      AArch64_get_detail_op(MI, 0)->mem.index = Val;
2601
110k
    else {
2602
110k
      AArch64_get_detail_op(MI, 0)->mem.base = Val;
2603
110k
    }
2604
2605
136k
    if (MCInst_opIsTying(MI, OpNum)) {
2606
      // Especially base registers can be writeback registers.
2607
      // For this they tie an MC operand which has write
2608
      // access. But this one is never processed in the printer
2609
      // (because it is never emitted). Therefor it is never
2610
      // added to the modified list.
2611
      // Here we check for this case and add the memory register
2612
      // to the modified list.
2613
26.9k
      map_add_implicit_write(MI, MCInst_getOpVal(MI, OpNum));
2614
26.9k
    }
2615
136k
    break;
2616
0
  }
2617
57.2k
  case CS_OP_IMM: {
2618
57.2k
    AArch64_get_detail_op(MI, 0)->mem.disp = Val;
2619
57.2k
    break;
2620
0
  }
2621
193k
  }
2622
2623
193k
  AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_MEM;
2624
193k
  AArch64_get_detail_op(MI, 0)->access = map_get_op_access(MI, OpNum);
2625
193k
  AArch64_set_mem_access(MI, false);
2626
193k
}
2627
2628
/// Adds the shift and sign extend info to the previous operand.
2629
/// op_count is *not* incremented by one.
2630
void AArch64_set_detail_shift_ext(MCInst *MI, unsigned OpNum, bool SignExtend,
2631
          bool DoShift, unsigned ExtWidth,
2632
          char SrcRegKind)
2633
18.5k
{
2634
18.5k
  bool IsLSL = !SignExtend && SrcRegKind == 'x';
2635
18.5k
  if (IsLSL)
2636
8.14k
    AArch64_get_detail_op(MI, -1)->shift.type = AARCH64_SFT_LSL;
2637
10.4k
  else {
2638
10.4k
    aarch64_extender ext = SignExtend ? AARCH64_EXT_SXTB :
2639
10.4k
                AARCH64_EXT_UXTB;
2640
10.4k
    switch (SrcRegKind) {
2641
0
    default:
2642
0
      CS_ASSERT_RET(0 && "Extender not handled\n");
2643
0
    case 'b':
2644
0
      ext += 0;
2645
0
      break;
2646
0
    case 'h':
2647
0
      ext += 1;
2648
0
      break;
2649
9.68k
    case 'w':
2650
9.68k
      ext += 2;
2651
9.68k
      break;
2652
748
    case 'x':
2653
748
      ext += 3;
2654
748
      break;
2655
10.4k
    }
2656
10.4k
    AArch64_get_detail_op(MI, -1)->ext = ext;
2657
10.4k
  }
2658
18.5k
  if (DoShift || IsLSL) {
2659
14.6k
    unsigned ShiftAmount = DoShift ? Log2_32(ExtWidth / 8) : 0;
2660
14.6k
    AArch64_get_detail_op(MI, -1)->shift.type = AARCH64_SFT_LSL;
2661
14.6k
    AArch64_get_detail_op(MI, -1)->shift.value = ShiftAmount;
2662
14.6k
  }
2663
18.5k
}
2664
2665
/// Transforms the immediate of the operand to a float and stores it.
2666
/// Increments the op_counter by one.
2667
void AArch64_set_detail_op_float(MCInst *MI, unsigned OpNum, float Val)
2668
841
{
2669
841
  if (!detail_is_set(MI))
2670
0
    return;
2671
841
  AArch64_check_safe_inc(MI);
2672
2673
841
  AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_FP;
2674
841
  AArch64_get_detail_op(MI, 0)->fp = Val;
2675
841
  AArch64_get_detail_op(MI, 0)->access = map_get_op_access(MI, OpNum);
2676
841
  AArch64_inc_op_count(MI);
2677
841
}
2678
2679
/// Adds a the system operand and increases the op_count by
2680
/// one.
2681
void AArch64_set_detail_op_sys(MCInst *MI, unsigned OpNum, aarch64_sysop sys_op,
2682
             aarch64_op_type type)
2683
16.4k
{
2684
16.4k
  if (!detail_is_set(MI))
2685
0
    return;
2686
16.4k
  AArch64_check_safe_inc(MI);
2687
2688
16.4k
  AArch64_get_detail_op(MI, 0)->type = type;
2689
16.4k
  AArch64_get_detail_op(MI, 0)->sysop = sys_op;
2690
16.4k
  if (sys_op.sub_type == AARCH64_OP_EXACTFPIMM) {
2691
415
    AArch64_get_detail_op(MI, 0)->fp =
2692
415
      aarch64_exact_fp_to_fp(sys_op.imm.exactfpimm);
2693
415
  }
2694
16.4k
  AArch64_inc_op_count(MI);
2695
16.4k
}
2696
2697
void AArch64_set_detail_op_pred(MCInst *MI, unsigned OpNum)
2698
79.0k
{
2699
79.0k
  if (!detail_is_set(MI))
2700
0
    return;
2701
79.0k
  AArch64_check_safe_inc(MI);
2702
2703
79.0k
  if (AArch64_get_detail_op(MI, 0)->type == AARCH64_OP_INVALID) {
2704
76.3k
    setup_pred_operand(MI);
2705
76.3k
  }
2706
79.0k
  aarch64_op_pred *p = &AArch64_get_detail_op(MI, 0)->pred;
2707
79.0k
  if (p->reg == AARCH64_REG_INVALID) {
2708
76.3k
    p->reg = MCInst_getOpVal(MI, OpNum);
2709
76.3k
    AArch64_get_detail_op(MI, 0)->access =
2710
76.3k
      map_get_op_access(MI, OpNum);
2711
76.3k
    AArch64_get_detail(MI)->is_doing_sme = true;
2712
76.3k
    return;
2713
76.3k
  } else if (p->vec_select == AARCH64_REG_INVALID) {
2714
2.02k
    p->vec_select = MCInst_getOpVal(MI, OpNum);
2715
2.02k
    return;
2716
2.02k
  } else if (p->imm_index == -1) {
2717
754
    p->imm_index = MCInst_getOpVal(MI, OpNum);
2718
754
    return;
2719
754
  }
2720
0
  CS_ASSERT_RET(0 && "Should not be reached.");
2721
0
}
2722
2723
/// Adds a SME matrix component to a SME operand.
2724
void AArch64_set_detail_op_sme(MCInst *MI, unsigned OpNum,
2725
             aarch64_sme_op_part part,
2726
             AArch64Layout_VectorLayout vas, uint64_t arg_0,
2727
             uint64_t arg_1)
2728
51.8k
{
2729
51.8k
  if (!detail_is_set(MI))
2730
0
    return;
2731
51.8k
  AArch64_check_safe_inc(MI);
2732
2733
51.8k
  AArch64_get_detail_op(MI, 0)->type = AARCH64_OP_SME;
2734
51.8k
  switch (part) {
2735
0
  default:
2736
0
    printf("Unhandled SME operand part %d\n", part);
2737
0
    CS_ASSERT_RET(0);
2738
2.55k
  case AARCH64_SME_MATRIX_TILE_LIST: {
2739
2.55k
    setup_sme_operand(MI);
2740
2.55k
    int Tile = arg_0;
2741
2.55k
    AArch64_get_detail_op(MI, 0)->sme.type = AARCH64_SME_OP_TILE;
2742
2.55k
    AArch64_get_detail_op(MI, 0)->sme.tile = Tile;
2743
2.55k
    AArch64_get_detail_op(MI, 0)->vas = vas;
2744
2.55k
    AArch64_get_detail_op(MI, 0)->access =
2745
2.55k
      map_get_op_access(MI, OpNum);
2746
2.55k
    AArch64_get_detail(MI)->is_doing_sme = true;
2747
2.55k
    break;
2748
0
  }
2749
18.0k
  case AARCH64_SME_MATRIX_TILE:
2750
18.0k
    CS_ASSERT_RET(map_get_op_type(MI, OpNum) == CS_OP_REG);
2751
2752
18.0k
    setup_sme_operand(MI);
2753
18.0k
    AArch64_get_detail_op(MI, 0)->sme.type = AARCH64_SME_OP_TILE;
2754
18.0k
    AArch64_get_detail_op(MI, 0)->sme.tile =
2755
18.0k
      MCInst_getOpVal(MI, OpNum);
2756
18.0k
    AArch64_get_detail_op(MI, 0)->vas = vas;
2757
18.0k
    AArch64_get_detail_op(MI, 0)->access =
2758
18.0k
      map_get_op_access(MI, OpNum);
2759
18.0k
    AArch64_get_detail(MI)->is_doing_sme = true;
2760
18.0k
    break;
2761
15.6k
  case AARCH64_SME_MATRIX_SLICE_REG:
2762
15.6k
    CS_ASSERT_RET((map_get_op_type(MI, OpNum) &
2763
15.6k
             ~(CS_OP_MEM | CS_OP_BOUND)) == CS_OP_REG);
2764
15.6k
    CS_ASSERT_RET(AArch64_get_detail_op(MI, 0)->type ==
2765
15.6k
            AARCH64_OP_SME);
2766
2767
    // SME operand already present. Add the slice to it.
2768
15.6k
    AArch64_get_detail_op(MI, 0)->sme.type =
2769
15.6k
      AARCH64_SME_OP_TILE_VEC;
2770
15.6k
    AArch64_get_detail_op(MI, 0)->sme.slice_reg =
2771
15.6k
      MCInst_getOpVal(MI, OpNum);
2772
15.6k
    break;
2773
9.24k
  case AARCH64_SME_MATRIX_SLICE_OFF: {
2774
9.24k
    CS_ASSERT_RET((map_get_op_type(MI, OpNum) &
2775
9.24k
             ~(CS_OP_MEM | CS_OP_BOUND)) == CS_OP_IMM);
2776
    // Because we took care of the slice register before, the op at -1 must be a SME operand.
2777
9.24k
    CS_ASSERT_RET(AArch64_get_detail_op(MI, 0)->type ==
2778
9.24k
            AARCH64_OP_SME);
2779
9.24k
    CS_ASSERT_RET(
2780
9.24k
      AArch64_get_detail_op(MI, 0)->sme.slice_offset.imm ==
2781
9.24k
      AARCH64_SLICE_IMM_INVALID);
2782
9.24k
    uint16_t offset = arg_0;
2783
9.24k
    AArch64_get_detail_op(MI, 0)->sme.slice_offset.imm = offset;
2784
9.24k
    break;
2785
9.24k
  }
2786
6.37k
  case AARCH64_SME_MATRIX_SLICE_OFF_RANGE: {
2787
6.37k
    uint8_t First = arg_0;
2788
6.37k
    uint8_t Offset = arg_1;
2789
6.37k
    AArch64_get_detail_op(MI, 0)->sme.slice_offset.imm_range.first =
2790
6.37k
      First;
2791
6.37k
    AArch64_get_detail_op(MI, 0)->sme.slice_offset.imm_range.offset =
2792
6.37k
      Offset;
2793
6.37k
    AArch64_get_detail_op(MI, 0)->sme.has_range_offset = true;
2794
6.37k
    break;
2795
9.24k
  }
2796
51.8k
  }
2797
51.8k
}
2798
2799
static void insert_op(MCInst *MI, unsigned index, cs_aarch64_op op)
2800
18.4k
{
2801
18.4k
  if (!detail_is_set(MI)) {
2802
0
    return;
2803
0
  }
2804
2805
18.4k
  AArch64_check_safe_inc(MI);
2806
18.4k
  cs_aarch64_op *ops = AArch64_get_detail(MI)->operands;
2807
18.4k
  int i = AArch64_get_detail(MI)->op_count;
2808
18.4k
  if (index == -1) {
2809
18.4k
    ops[i] = op;
2810
18.4k
    AArch64_inc_op_count(MI);
2811
18.4k
    return;
2812
18.4k
  }
2813
0
  for (; i > 0 && i > index; --i) {
2814
0
    ops[i] = ops[i - 1];
2815
0
  }
2816
0
  ops[index] = op;
2817
0
  AArch64_inc_op_count(MI);
2818
0
}
2819
2820
/// Inserts a float to the detail operands at @index.
2821
/// If @index == -1, it pushes the operand to the end of the ops array.
2822
/// Already present operands are moved.
2823
void AArch64_insert_detail_op_float_at(MCInst *MI, unsigned index, double val,
2824
               cs_ac_type access)
2825
0
{
2826
0
  if (!detail_is_set(MI))
2827
0
    return;
2828
2829
0
  AArch64_check_safe_inc(MI);
2830
2831
0
  cs_aarch64_op op;
2832
0
  AArch64_setup_op(&op);
2833
0
  op.type = AARCH64_OP_FP;
2834
0
  op.fp = val;
2835
0
  op.access = access;
2836
2837
0
  insert_op(MI, index, op);
2838
0
}
2839
2840
/// Inserts a register to the detail operands at @index.
2841
/// If @index == -1, it pushes the operand to the end of the ops array.
2842
/// Already present operands are moved.
2843
void AArch64_insert_detail_op_reg_at(MCInst *MI, unsigned index,
2844
             aarch64_reg Reg, cs_ac_type access)
2845
773
{
2846
773
  if (!detail_is_set(MI))
2847
0
    return;
2848
2849
773
  AArch64_check_safe_inc(MI);
2850
2851
773
  cs_aarch64_op op;
2852
773
  AArch64_setup_op(&op);
2853
773
  op.type = AARCH64_OP_REG;
2854
773
  op.reg = Reg;
2855
773
  op.access = access;
2856
2857
773
  insert_op(MI, index, op);
2858
773
}
2859
2860
/// Inserts a immediate to the detail operands at @index.
2861
/// If @index == -1, it pushes the operand to the end of the ops array.
2862
/// Already present operands are moved.
2863
void AArch64_insert_detail_op_imm_at(MCInst *MI, unsigned index, int64_t Imm)
2864
6.64k
{
2865
6.64k
  if (!detail_is_set(MI))
2866
0
    return;
2867
6.64k
  AArch64_check_safe_inc(MI);
2868
2869
6.64k
  cs_aarch64_op op;
2870
6.64k
  AArch64_setup_op(&op);
2871
6.64k
  op.type = AARCH64_OP_IMM;
2872
6.64k
  op.imm = Imm;
2873
6.64k
  op.access = CS_AC_READ;
2874
2875
6.64k
  insert_op(MI, index, op);
2876
6.64k
}
2877
2878
void AArch64_insert_detail_op_sys(MCInst *MI, unsigned index,
2879
          aarch64_sysop sys_op, aarch64_op_type type)
2880
6.43k
{
2881
6.43k
  if (!detail_is_set(MI))
2882
0
    return;
2883
6.43k
  AArch64_check_safe_inc(MI);
2884
2885
6.43k
  cs_aarch64_op op;
2886
6.43k
  AArch64_setup_op(&op);
2887
6.43k
  op.type = type;
2888
6.43k
  op.sysop = sys_op;
2889
6.43k
  if (op.sysop.sub_type == AARCH64_OP_EXACTFPIMM) {
2890
6.24k
    op.fp = aarch64_exact_fp_to_fp(op.sysop.imm.exactfpimm);
2891
6.24k
  }
2892
6.43k
  insert_op(MI, index, op);
2893
6.43k
}
2894
2895
void AArch64_insert_detail_op_sme(MCInst *MI, unsigned index,
2896
          aarch64_op_sme sme_op)
2897
4.58k
{
2898
4.58k
  if (!detail_is_set(MI))
2899
0
    return;
2900
4.58k
  AArch64_check_safe_inc(MI);
2901
2902
4.58k
  cs_aarch64_op op;
2903
4.58k
  AArch64_setup_op(&op);
2904
4.58k
  op.type = AARCH64_OP_SME;
2905
4.58k
  op.sme = sme_op;
2906
4.58k
  insert_op(MI, index, op);
2907
4.58k
}
2908
2909
#endif