Coverage Report

Created: 2025-10-10 06:20

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/capstonenext/arch/MOS65XX/MOS65XXDisassembler.c
Line
Count
Source
1
/* Capstone Disassembly Engine */
2
/* MOS65XX Backend by Sebastian Macke <sebastian@macke.de> 2018 */
3
4
#include "capstone/mos65xx.h"
5
#include "MOS65XXDisassembler.h"
6
#include "MOS65XXDisassemblerInternals.h"
7
8
typedef struct OpInfo {
9
  mos65xx_insn ins;
10
  mos65xx_address_mode am;
11
  int operand_bytes;
12
} OpInfo;
13
14
static const struct OpInfo OpInfoTable[] = {
15
16
#include "m6502.inc"
17
#include "m65c02.inc"
18
#include "mw65c02.inc"
19
#include "m65816.inc"
20
21
};
22
23
#ifndef CAPSTONE_DIET
24
static const char *const RegNames[] = { "invalid", "A",  "X", "Y", "P",
25
          "SP",    "DP", "B", "K" };
26
27
static const char *const GroupNames[] = {
28
  NULL, "jump", "call", "ret", "int", "iret", "branch_relative"
29
};
30
31
typedef struct InstructionInfo {
32
  const char *name;
33
  mos65xx_group_type group_type;
34
  mos65xx_reg write, read;
35
  bool modifies_status;
36
} InstructionInfo;
37
38
static const struct InstructionInfo InstructionInfoTable[] = {
39
40
#include "instruction_info.inc"
41
42
};
43
#endif
44
45
#ifndef CAPSTONE_DIET
46
static void fillDetails(MCInst *MI, struct OpInfo opinfo, int cpu_type)
47
1.98k
{
48
1.98k
  int i;
49
1.98k
  cs_detail *detail = MI->flat_insn->detail;
50
51
1.98k
  InstructionInfo insinfo = InstructionInfoTable[opinfo.ins];
52
53
1.98k
  detail->mos65xx.am = opinfo.am;
54
1.98k
  detail->mos65xx.modifies_flags = insinfo.modifies_status;
55
1.98k
  detail->groups_count = 0;
56
1.98k
  detail->regs_read_count = 0;
57
1.98k
  detail->regs_write_count = 0;
58
1.98k
  detail->mos65xx.op_count = 0;
59
60
1.98k
  if (insinfo.group_type != MOS65XX_GRP_INVALID) {
61
396
    detail->groups[detail->groups_count] = insinfo.group_type;
62
396
    detail->groups_count++;
63
396
  }
64
65
1.98k
  if (opinfo.am == MOS65XX_AM_REL || opinfo.am == MOS65XX_AM_ZP_REL) {
66
235
    detail->groups[detail->groups_count] =
67
235
      MOS65XX_GRP_BRANCH_RELATIVE;
68
235
    detail->groups_count++;
69
235
  }
70
71
1.98k
  if (insinfo.read != MOS65XX_REG_INVALID) {
72
832
    detail->regs_read[detail->regs_read_count++] = insinfo.read;
73
832
  } else
74
1.15k
    switch (opinfo.am) {
75
192
    case MOS65XX_AM_ACC:
76
192
      detail->regs_read[detail->regs_read_count++] =
77
192
        MOS65XX_REG_ACC;
78
192
      break;
79
4
    case MOS65XX_AM_ZP_Y:
80
23
    case MOS65XX_AM_ZP_IND_Y:
81
236
    case MOS65XX_AM_ABS_Y:
82
236
    case MOS65XX_AM_ZP_IND_LONG_Y:
83
236
      detail->regs_read[detail->regs_read_count++] =
84
236
        MOS65XX_REG_Y;
85
236
      break;
86
87
44
    case MOS65XX_AM_ZP_X:
88
45
    case MOS65XX_AM_ZP_X_IND:
89
192
    case MOS65XX_AM_ABS_X:
90
192
    case MOS65XX_AM_ABS_X_IND:
91
192
    case MOS65XX_AM_ABS_LONG_X:
92
192
      detail->regs_read[detail->regs_read_count++] =
93
192
        MOS65XX_REG_X;
94
192
      break;
95
96
0
    case MOS65XX_AM_SR:
97
0
      detail->regs_read[detail->regs_read_count++] =
98
0
        MOS65XX_REG_SP;
99
0
      break;
100
0
    case MOS65XX_AM_SR_IND_Y:
101
0
      detail->regs_read[detail->regs_read_count++] =
102
0
        MOS65XX_REG_SP;
103
0
      detail->regs_read[detail->regs_read_count++] =
104
0
        MOS65XX_REG_Y;
105
0
      break;
106
107
530
    default:
108
530
      break;
109
1.15k
    }
110
111
1.98k
  if (insinfo.write != MOS65XX_REG_INVALID) {
112
569
    detail->regs_write[detail->regs_write_count++] = insinfo.write;
113
1.41k
  } else if (opinfo.am == MOS65XX_AM_ACC) {
114
192
    detail->regs_write[detail->regs_write_count++] =
115
192
      MOS65XX_REG_ACC;
116
192
  }
117
118
1.98k
  switch (opinfo.ins) {
119
4
  case MOS65XX_INS_ADC:
120
68
  case MOS65XX_INS_SBC:
121
315
  case MOS65XX_INS_ROL:
122
453
  case MOS65XX_INS_ROR:
123
    /* these read carry flag (and decimal for ADC/SBC) */
124
453
    detail->regs_read[detail->regs_read_count++] = MOS65XX_REG_P;
125
453
    break;
126
  /* stack operations */
127
0
  case MOS65XX_INS_JSL:
128
27
  case MOS65XX_INS_JSR:
129
27
  case MOS65XX_INS_PEA:
130
27
  case MOS65XX_INS_PEI:
131
27
  case MOS65XX_INS_PER:
132
170
  case MOS65XX_INS_PHA:
133
170
  case MOS65XX_INS_PHB:
134
170
  case MOS65XX_INS_PHD:
135
170
  case MOS65XX_INS_PHK:
136
348
  case MOS65XX_INS_PHP:
137
348
  case MOS65XX_INS_PHX:
138
348
  case MOS65XX_INS_PHY:
139
398
  case MOS65XX_INS_PLA:
140
398
  case MOS65XX_INS_PLB:
141
398
  case MOS65XX_INS_PLD:
142
544
  case MOS65XX_INS_PLP:
143
544
  case MOS65XX_INS_PLX:
144
544
  case MOS65XX_INS_PLY:
145
559
  case MOS65XX_INS_RTI:
146
559
  case MOS65XX_INS_RTL:
147
604
  case MOS65XX_INS_RTS:
148
604
    detail->regs_read[detail->regs_read_count++] = MOS65XX_REG_SP;
149
604
    detail->regs_write[detail->regs_write_count++] = MOS65XX_REG_SP;
150
604
    break;
151
925
  default:
152
925
    break;
153
1.98k
  }
154
155
1.98k
  if (cpu_type == MOS65XX_CPU_TYPE_65816) {
156
0
    switch (opinfo.am) {
157
0
    case MOS65XX_AM_ZP:
158
0
    case MOS65XX_AM_ZP_X:
159
0
    case MOS65XX_AM_ZP_Y:
160
0
    case MOS65XX_AM_ZP_IND:
161
0
    case MOS65XX_AM_ZP_X_IND:
162
0
    case MOS65XX_AM_ZP_IND_Y:
163
0
    case MOS65XX_AM_ZP_IND_LONG:
164
0
    case MOS65XX_AM_ZP_IND_LONG_Y:
165
0
      detail->regs_read[detail->regs_read_count++] =
166
0
        MOS65XX_REG_DP;
167
0
      break;
168
0
    case MOS65XX_AM_BLOCK:
169
0
      detail->regs_read[detail->regs_read_count++] =
170
0
        MOS65XX_REG_ACC;
171
0
      detail->regs_read[detail->regs_read_count++] =
172
0
        MOS65XX_REG_X;
173
0
      detail->regs_read[detail->regs_read_count++] =
174
0
        MOS65XX_REG_Y;
175
0
      detail->regs_write[detail->regs_write_count++] =
176
0
        MOS65XX_REG_ACC;
177
0
      detail->regs_write[detail->regs_write_count++] =
178
0
        MOS65XX_REG_X;
179
0
      detail->regs_write[detail->regs_write_count++] =
180
0
        MOS65XX_REG_Y;
181
0
      detail->regs_write[detail->regs_write_count++] =
182
0
        MOS65XX_REG_B;
183
0
      break;
184
0
    default:
185
0
      break;
186
0
    }
187
188
0
    switch (opinfo.am) {
189
0
    case MOS65XX_AM_ZP_IND:
190
0
    case MOS65XX_AM_ZP_X_IND:
191
0
    case MOS65XX_AM_ZP_IND_Y:
192
0
    case MOS65XX_AM_ABS:
193
0
    case MOS65XX_AM_ABS_X:
194
0
    case MOS65XX_AM_ABS_Y:
195
0
    case MOS65XX_AM_ABS_X_IND:
196
      /* these depend on the databank to generate a 24-bit address */
197
      /* exceptions: PEA, PEI, and JMP (abs) */
198
0
      if (opinfo.ins == MOS65XX_INS_PEI ||
199
0
          opinfo.ins == MOS65XX_INS_PEA)
200
0
        break;
201
0
      detail->regs_read[detail->regs_read_count++] =
202
0
        MOS65XX_REG_B;
203
0
      break;
204
0
    default:
205
0
      break;
206
0
    }
207
0
  }
208
209
1.98k
  if (insinfo.modifies_status) {
210
1.01k
    detail->regs_write[detail->regs_write_count++] = MOS65XX_REG_P;
211
1.01k
  }
212
213
1.98k
  switch (opinfo.am) {
214
849
  case MOS65XX_AM_IMP:
215
849
    break;
216
16
  case MOS65XX_AM_IMM:
217
16
    detail->mos65xx.operands[detail->mos65xx.op_count].type =
218
16
      MOS65XX_OP_IMM;
219
16
    detail->mos65xx.operands[detail->mos65xx.op_count].imm =
220
16
      MI->Operands[0].ImmVal;
221
16
    detail->mos65xx.op_count++;
222
16
    break;
223
192
  case MOS65XX_AM_ACC:
224
192
    detail->mos65xx.operands[detail->mos65xx.op_count].type =
225
192
      MOS65XX_OP_REG;
226
192
    detail->mos65xx.operands[detail->mos65xx.op_count].reg =
227
192
      MOS65XX_REG_ACC;
228
192
    detail->mos65xx.op_count++;
229
192
    break;
230
235
  case MOS65XX_AM_REL: {
231
235
    int value = MI->Operands[0].ImmVal;
232
235
    if (MI->op1_size == 1)
233
235
      value = 2 + (signed char)value;
234
0
    else
235
0
      value = 3 + (signed short)value;
236
235
    detail->mos65xx.operands[detail->mos65xx.op_count].type =
237
235
      MOS65XX_OP_MEM;
238
235
    detail->mos65xx.operands[detail->mos65xx.op_count].mem =
239
235
      (MI->address + value) & 0xffff;
240
235
    detail->mos65xx.op_count++;
241
235
    break;
242
0
  }
243
0
  case MOS65XX_AM_ZP_REL: {
244
0
    int value = 3 + (signed char)MI->Operands[1].ImmVal;
245
    /* BBR0, zp, rel  and BBS0, zp, rel */
246
0
    detail->mos65xx.operands[detail->mos65xx.op_count].type =
247
0
      MOS65XX_OP_MEM;
248
0
    detail->mos65xx.operands[detail->mos65xx.op_count].mem =
249
0
      MI->Operands[0].ImmVal;
250
0
    detail->mos65xx.operands[detail->mos65xx.op_count + 1].type =
251
0
      MOS65XX_OP_MEM;
252
0
    detail->mos65xx.operands[detail->mos65xx.op_count + 1].mem =
253
0
      (MI->address + value) & 0xffff;
254
0
    detail->mos65xx.op_count += 2;
255
0
    break;
256
0
  }
257
690
  default:
258
1.38k
    for (i = 0; i < MI->size; ++i) {
259
690
      detail->mos65xx.operands[detail->mos65xx.op_count].type =
260
690
        MOS65XX_OP_MEM;
261
690
      detail->mos65xx.operands[detail->mos65xx.op_count].mem =
262
690
        MI->Operands[i].ImmVal;
263
690
      detail->mos65xx.op_count++;
264
690
    }
265
690
    break;
266
1.98k
  }
267
1.98k
}
268
#endif
269
270
void MOS65XX_printInst(MCInst *MI, struct SStream *O, void *PrinterInfo)
271
1.98k
{
272
1.98k
#ifndef CAPSTONE_DIET
273
1.98k
  unsigned int value;
274
1.98k
  unsigned opcode = MCInst_getOpcode(MI);
275
1.98k
  mos65xx_info *info = (mos65xx_info *)PrinterInfo;
276
277
1.98k
  OpInfo opinfo = OpInfoTable[opcode];
278
279
1.98k
  const char *prefix = info->hex_prefix ? info->hex_prefix : "0x";
280
281
1.98k
  SStream_concat0(O, InstructionInfoTable[opinfo.ins].name);
282
1.98k
  switch (opinfo.ins) {
283
  /* special case - bit included as part of the instruction name */
284
0
  case MOS65XX_INS_BBR:
285
0
  case MOS65XX_INS_BBS:
286
0
  case MOS65XX_INS_RMB:
287
0
  case MOS65XX_INS_SMB:
288
0
    SStream_concat(O, "%d", (opcode >> 4) & 0x07);
289
0
    break;
290
1.98k
  default:
291
1.98k
    break;
292
1.98k
  }
293
294
1.98k
  value = MI->Operands[0].ImmVal;
295
296
1.98k
  switch (opinfo.am) {
297
0
  default:
298
0
    break;
299
300
849
  case MOS65XX_AM_IMP:
301
849
    break;
302
303
192
  case MOS65XX_AM_ACC:
304
192
    SStream_concat0(O, " a");
305
192
    break;
306
307
16
  case MOS65XX_AM_IMM:
308
16
    if (MI->imm_size == 1)
309
16
      SStream_concat(O, " #%s%02x", prefix, value);
310
0
    else
311
0
      SStream_concat(O, " #%s%04x", prefix, value);
312
16
    break;
313
314
46
  case MOS65XX_AM_ZP:
315
46
    SStream_concat(O, " %s%02x", prefix, value);
316
46
    break;
317
318
63
  case MOS65XX_AM_ABS:
319
63
    SStream_concat(O, " %s%04x", prefix, value);
320
63
    break;
321
322
0
  case MOS65XX_AM_ABS_LONG_X:
323
0
    SStream_concat(O, " %s%06x, x", prefix, value);
324
0
    break;
325
326
40
  case MOS65XX_AM_INT:
327
40
    SStream_concat(O, " %s%02x", prefix, value);
328
40
    break;
329
330
147
  case MOS65XX_AM_ABS_X:
331
147
    SStream_concat(O, " %s%04x, x", prefix, value);
332
147
    break;
333
334
217
  case MOS65XX_AM_ABS_Y:
335
217
    SStream_concat(O, " %s%04x, y", prefix, value);
336
217
    break;
337
338
0
  case MOS65XX_AM_ABS_LONG:
339
0
    SStream_concat(O, " %s%06x", prefix, value);
340
0
    break;
341
342
44
  case MOS65XX_AM_ZP_X:
343
44
    SStream_concat(O, " %s%02x, x", prefix, value);
344
44
    break;
345
346
4
  case MOS65XX_AM_ZP_Y:
347
4
    SStream_concat(O, " %s%02x, y", prefix, value);
348
4
    break;
349
350
235
  case MOS65XX_AM_REL:
351
235
    if (MI->op1_size == 1)
352
235
      value = 2 + (signed char)value;
353
0
    else
354
0
      value = 3 + (signed short)value;
355
356
235
    SStream_concat(O, " %s%04x", prefix,
357
235
             (MI->address + value) & 0xffff);
358
235
    break;
359
360
34
  case MOS65XX_AM_ABS_IND:
361
34
    SStream_concat(O, " (%s%04x)", prefix, value);
362
34
    break;
363
364
0
  case MOS65XX_AM_ABS_X_IND:
365
0
    SStream_concat(O, " (%s%04x, x)", prefix, value);
366
0
    break;
367
368
0
  case MOS65XX_AM_ABS_IND_LONG:
369
0
    SStream_concat(O, " [%s%04x]", prefix, value);
370
0
    break;
371
372
0
  case MOS65XX_AM_ZP_IND:
373
0
    SStream_concat(O, " (%s%02x)", prefix, value);
374
0
    break;
375
376
41
  case MOS65XX_AM_ZP_X_IND:
377
41
    SStream_concat(O, " (%s%02x, x)", prefix, value);
378
41
    break;
379
380
54
  case MOS65XX_AM_ZP_IND_Y:
381
54
    SStream_concat(O, " (%s%02x), y", prefix, value);
382
54
    break;
383
384
0
  case MOS65XX_AM_ZP_IND_LONG:
385
0
    SStream_concat(O, " [%s%02x]", prefix, value);
386
0
    break;
387
388
0
  case MOS65XX_AM_ZP_IND_LONG_Y:
389
0
    SStream_concat(O, " [%s%02x], y", prefix, value);
390
0
    break;
391
392
0
  case MOS65XX_AM_SR:
393
0
    SStream_concat(O, " %s%02x, s", prefix, value);
394
0
    break;
395
396
0
  case MOS65XX_AM_SR_IND_Y:
397
0
    SStream_concat(O, " (%s%02x, s), y", prefix, value);
398
0
    break;
399
400
0
  case MOS65XX_AM_BLOCK:
401
0
    SStream_concat(O, " %s%02x, %s%02x", prefix,
402
0
             MI->Operands[0].ImmVal, prefix,
403
0
             MI->Operands[1].ImmVal);
404
0
    break;
405
406
0
  case MOS65XX_AM_ZP_REL:
407
0
    value = 3 + (signed char)MI->Operands[1].ImmVal;
408
    /* BBR0, zp, rel  and BBS0, zp, rel */
409
0
    SStream_concat(O, " %s%02x, %s%04x", prefix,
410
0
             MI->Operands[0].ImmVal, prefix,
411
0
             (MI->address + value) & 0xffff);
412
0
    break;
413
1.98k
  }
414
1.98k
#endif
415
1.98k
}
416
417
bool MOS65XX_getInstruction(csh ud, const uint8_t *code, size_t code_len,
418
          MCInst *MI, uint16_t *size, uint64_t address,
419
          void *inst_info)
420
1.99k
{
421
1.99k
  int i;
422
1.99k
  unsigned char opcode;
423
1.99k
  unsigned char len;
424
1.99k
  unsigned cpu_offset = 0;
425
1.99k
  int cpu_type = MOS65XX_CPU_TYPE_6502;
426
1.99k
  cs_struct *handle = MI->csh;
427
1.99k
  mos65xx_info *info = (mos65xx_info *)handle->printer_info;
428
1.99k
  OpInfo opinfo;
429
430
1.99k
  if (code_len == 0) {
431
0
    *size = 1;
432
0
    return false;
433
0
  }
434
435
1.99k
  cpu_type = info->cpu_type;
436
1.99k
  cpu_offset = cpu_type * 256;
437
438
1.99k
  opcode = code[0];
439
1.99k
  opinfo = OpInfoTable[cpu_offset + opcode];
440
1.99k
  if (opinfo.ins == MOS65XX_INS_INVALID) {
441
4
    *size = 1;
442
4
    return false;
443
4
  }
444
445
1.99k
  len = opinfo.operand_bytes + 1;
446
447
1.99k
  if (cpu_type == MOS65XX_CPU_TYPE_65816 && opinfo.am == MOS65XX_AM_IMM) {
448
0
    switch (opinfo.ins) {
449
0
    case MOS65XX_INS_CPX:
450
0
    case MOS65XX_INS_CPY:
451
0
    case MOS65XX_INS_LDX:
452
0
    case MOS65XX_INS_LDY:
453
0
      if (info->long_x)
454
0
        ++len;
455
0
      break;
456
0
    case MOS65XX_INS_ADC:
457
0
    case MOS65XX_INS_AND:
458
0
    case MOS65XX_INS_BIT:
459
0
    case MOS65XX_INS_CMP:
460
0
    case MOS65XX_INS_EOR:
461
0
    case MOS65XX_INS_LDA:
462
0
    case MOS65XX_INS_ORA:
463
0
    case MOS65XX_INS_SBC:
464
0
      if (info->long_m)
465
0
        ++len;
466
0
      break;
467
0
    default:
468
0
      break;
469
0
    }
470
0
  }
471
472
1.99k
  if (code_len < len) {
473
9
    *size = 1;
474
9
    return false;
475
9
  }
476
477
1.98k
  MI->address = address;
478
479
1.98k
  MCInst_setOpcode(MI, cpu_offset + opcode);
480
1.98k
  MCInst_setOpcodePub(MI, opinfo.ins);
481
482
1.98k
  *size = len;
483
484
  /* needed to differentiate relative vs relative long */
485
1.98k
  MI->op1_size = len - 1;
486
1.98k
  if (opinfo.ins == MOS65XX_INS_NOP) {
487
141
    for (i = 1; i < len; ++i)
488
0
      MCOperand_CreateImm0(MI, code[i]);
489
141
  }
490
491
1.98k
  switch (opinfo.am) {
492
0
  case MOS65XX_AM_ZP_REL:
493
0
    MCOperand_CreateImm0(MI, code[1]);
494
0
    MCOperand_CreateImm0(MI, code[2]);
495
0
    break;
496
0
  case MOS65XX_AM_BLOCK:
497
0
    MCOperand_CreateImm0(MI, code[2]);
498
0
    MCOperand_CreateImm0(MI, code[1]);
499
0
    break;
500
849
  case MOS65XX_AM_IMP:
501
1.04k
  case MOS65XX_AM_ACC:
502
1.04k
    break;
503
504
16
  case MOS65XX_AM_IMM:
505
16
    MI->has_imm = 1;
506
16
    MI->imm_size = len - 1;
507
    /* 65816 immediate is either 1 or 2 bytes */
508
    /* drop through */
509
941
  default:
510
941
    if (len == 2)
511
480
      MCOperand_CreateImm0(MI, code[1]);
512
461
    else if (len == 3)
513
461
      MCOperand_CreateImm0(MI, (code[2] << 8) | code[1]);
514
0
    else if (len == 4)
515
0
      MCOperand_CreateImm0(
516
0
        MI, (code[3] << 16) | (code[2] << 8) | code[1]);
517
941
    break;
518
1.98k
  }
519
520
1.98k
#ifndef CAPSTONE_DIET
521
1.98k
  if (MI->flat_insn->detail) {
522
1.98k
    fillDetails(MI, opinfo, cpu_type);
523
1.98k
  }
524
1.98k
#endif
525
526
1.98k
  return true;
527
1.98k
}
528
529
const char *MOS65XX_insn_name(csh handle, unsigned int id)
530
1.98k
{
531
#ifdef CAPSTONE_DIET
532
  return NULL;
533
#else
534
1.98k
  if (id >= ARR_SIZE(InstructionInfoTable)) {
535
0
    return NULL;
536
0
  }
537
1.98k
  return InstructionInfoTable[id].name;
538
1.98k
#endif
539
1.98k
}
540
541
const char *MOS65XX_reg_name(csh handle, unsigned int reg)
542
4.89k
{
543
#ifdef CAPSTONE_DIET
544
  return NULL;
545
#else
546
4.89k
  if (reg >= ARR_SIZE(RegNames)) {
547
0
    return NULL;
548
0
  }
549
4.89k
  return RegNames[(int)reg];
550
4.89k
#endif
551
4.89k
}
552
553
void MOS65XX_get_insn_id(cs_struct *h, cs_insn *insn, unsigned int id)
554
1.98k
{
555
  /* id is cpu_offset + opcode */
556
1.98k
  if (id < ARR_SIZE(OpInfoTable)) {
557
1.98k
    insn->id = OpInfoTable[id].ins;
558
1.98k
  }
559
1.98k
}
560
561
const char *MOS65XX_group_name(csh handle, unsigned int id)
562
631
{
563
#ifdef CAPSTONE_DIET
564
  return NULL;
565
#else
566
631
  if (id >= ARR_SIZE(GroupNames)) {
567
0
    return NULL;
568
0
  }
569
631
  return GroupNames[(int)id];
570
631
#endif
571
631
}