Coverage Report

Created: 2026-01-10 06:34

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/capstonenext/arch/BPF/BPFDisassembler.c
Line
Count
Source
1
/* Capstone Disassembly Engine */
2
/* BPF Backend by david942j <david942j@gmail.com>, 2019 */
3
/* SPDX-FileCopyrightText: 2024 Roee Toledano <roeetoledano10@gmail.com> */
4
/* SPDX-License-Identifier: BSD-3 */
5
6
#ifdef CAPSTONE_HAS_BPF
7
8
#include <string.h>
9
#include <stddef.h> // offsetof macro
10
11
#include "BPFConstants.h"
12
#include "BPFDisassembler.h"
13
#include "BPFMapping.h"
14
#include "../../Mapping.h"
15
#include "../../cs_priv.h"
16
#include "../../utils.h"
17
18
///< Malloc bpf_internal, also checks if code_len is large enough.
19
static bpf_internal *alloc_bpf_internal(const size_t code_len)
20
34.8k
{
21
34.8k
  bpf_internal *bpf;
22
23
34.8k
  if (code_len < 8)
24
542
    return NULL;
25
34.2k
  bpf = cs_mem_malloc(sizeof(bpf_internal));
26
34.2k
  if (bpf == NULL)
27
0
    return NULL;
28
  /* default value */
29
34.2k
  bpf->insn_size = 8;
30
34.2k
  return bpf;
31
34.2k
}
32
33
///< Fetch a cBPF structure from code
34
static bpf_internal *fetch_cbpf(MCInst *instr, const uint8_t *code,
35
        const size_t code_len)
36
12.7k
{
37
12.7k
  bpf_internal *bpf;
38
39
12.7k
  bpf = alloc_bpf_internal(code_len);
40
12.7k
  if (bpf == NULL)
41
170
    return NULL;
42
43
12.6k
  bpf->op = readBytes16(instr, code);
44
12.6k
  bpf->jt = code[2];
45
12.6k
  bpf->jf = code[3];
46
12.6k
  bpf->k = readBytes32(instr, code + 4);
47
12.6k
  return bpf;
48
12.7k
}
49
50
///< Fetch an eBPF structure from code
51
static bpf_internal *fetch_ebpf(MCInst *instr, const uint8_t *code,
52
        const size_t code_len)
53
22.0k
{
54
22.0k
  bpf_internal *bpf;
55
56
22.0k
  bpf = alloc_bpf_internal(code_len);
57
22.0k
  if (bpf == NULL)
58
372
    return NULL;
59
60
21.6k
  bpf->op = (uint16_t)code[0];
61
21.6k
  bpf->dst = code[1] & 0xf;
62
21.6k
  bpf->src = (code[1] & 0xf0) >> 4;
63
64
  // eBPF has one 16-byte instruction: BPF_LD | BPF_DW | BPF_IMM,
65
  // in this case imm is combined with the next block's imm.
66
21.6k
  if (bpf->op == (BPF_CLASS_LD | BPF_SIZE_DW | BPF_MODE_IMM)) {
67
777
    if (code_len < 16) {
68
4
      cs_mem_free(bpf);
69
4
      return NULL;
70
4
    }
71
773
    bpf->k = readBytes32(instr, code + 4) |
72
773
       (((uint64_t)readBytes32(instr, code + 12)) << 32);
73
773
    bpf->insn_size = 16;
74
20.8k
  } else {
75
20.8k
    bpf->offset = readBytes16(instr, code + 2);
76
20.8k
    bpf->k = readBytes32(instr, code + 4);
77
20.8k
  }
78
21.6k
  return bpf;
79
21.6k
}
80
81
#define CHECK_READABLE_REG(ud, reg) \
82
11.7k
  do { \
83
11.7k
    if (!((reg) >= BPF_REG_R0 && (reg) <= BPF_REG_R10)) \
84
11.7k
      return false; \
85
11.7k
  } while (0)
86
87
#define CHECK_WRITEABLE_REG(ud, reg) \
88
6.26k
  do { \
89
6.26k
    if (!((reg) >= BPF_REG_R0 && (reg) < BPF_REG_R10)) \
90
6.26k
      return false; \
91
6.26k
  } while (0)
92
93
#define CHECK_READABLE_AND_PUSH(ud, MI, r) \
94
11.7k
  do { \
95
11.7k
    CHECK_READABLE_REG(ud, r + BPF_REG_R0); \
96
11.7k
    MCOperand_CreateReg0(MI, r + BPF_REG_R0); \
97
11.7k
  } while (0)
98
99
#define CHECK_WRITABLE_AND_PUSH(ud, MI, r) \
100
6.26k
  do { \
101
6.26k
    CHECK_WRITEABLE_REG(ud, r + BPF_REG_R0); \
102
6.26k
    MCOperand_CreateReg0(MI, r + BPF_REG_R0); \
103
6.25k
  } while (0)
104
105
static bool decodeLoad(MCInst *MI, bpf_internal *bpf)
106
9.04k
{
107
9.04k
  if (!EBPF_MODE(MI->csh->mode)) {
108
    /*
109
     *  +-----+-----------+--------------------+
110
     *  | ldb |    [k]    |       [x+k]        |
111
     *  | ldh |    [k]    |       [x+k]        |
112
     *  +-----+-----------+--------------------+
113
     */
114
4.48k
    if (BPF_SIZE(bpf->op) == BPF_SIZE_DW)
115
10
      return false;
116
4.47k
    if (BPF_SIZE(bpf->op) == BPF_SIZE_B ||
117
3.74k
        BPF_SIZE(bpf->op) == BPF_SIZE_H) {
118
      /* no ldx */
119
1.04k
      if (BPF_CLASS(bpf->op) != BPF_CLASS_LD)
120
6
        return false;
121
      /* can only be BPF_ABS and BPF_IND */
122
1.03k
      if (BPF_MODE(bpf->op) == BPF_MODE_ABS) {
123
592
        MCOperand_CreateImm0(MI, bpf->k);
124
592
        return true;
125
592
      } else if (BPF_MODE(bpf->op) == BPF_MODE_IND) {
126
441
        MCOperand_CreateReg0(MI, BPF_REG_X);
127
441
        MCOperand_CreateImm0(MI, bpf->k);
128
441
        return true;
129
441
      }
130
6
      return false;
131
1.03k
    }
132
    /*
133
     *  +-----+----+------+------+-----+-------+
134
     *  | ld  | #k | #len | M[k] | [k] | [x+k] |
135
     *  +-----+----+------+------+-----+-------+
136
     *  | ldx | #k | #len | M[k] | 4*([k]&0xf) |
137
     *  +-----+----+------+------+-------------+
138
     */
139
3.43k
    switch (BPF_MODE(bpf->op)) {
140
1.66k
    default:
141
1.66k
      break;
142
1.66k
    case BPF_MODE_IMM:
143
992
      MCOperand_CreateImm0(MI, bpf->k);
144
992
      return true;
145
421
    case BPF_MODE_LEN:
146
421
      return true;
147
358
    case BPF_MODE_MEM:
148
358
      MCOperand_CreateImm0(MI, bpf->k);
149
358
      return true;
150
3.43k
    }
151
1.66k
    if (BPF_CLASS(bpf->op) == BPF_CLASS_LD) {
152
1.35k
      if (BPF_MODE(bpf->op) == BPF_MODE_ABS) {
153
936
        MCOperand_CreateImm0(MI, bpf->k);
154
936
        return true;
155
936
      } else if (BPF_MODE(bpf->op) == BPF_MODE_IND) {
156
416
        MCOperand_CreateReg0(MI, BPF_REG_X);
157
416
        MCOperand_CreateImm0(MI, bpf->k);
158
416
        return true;
159
416
      }
160
1.35k
    } else { /* LDX */
161
306
      if (BPF_MODE(bpf->op) == BPF_MODE_MSH) {
162
301
        MCOperand_CreateImm0(MI, bpf->k);
163
301
        return true;
164
301
      }
165
306
    }
166
10
    return false;
167
1.66k
  }
168
169
  /* eBPF mode */
170
  /*
171
   * - IMM: lddw dst, imm64
172
   * - ABS: ld{w,h,b} [k]
173
   * - IND: ld{w,h,b} [src]
174
   * - MEM: ldx{w,h,b,dw} dst, [src+off]
175
   */
176
4.55k
  if (BPF_CLASS(bpf->op) == BPF_CLASS_LD) {
177
3.32k
    switch (BPF_MODE(bpf->op)) {
178
796
    case BPF_MODE_IMM:
179
796
      if (bpf->op !=
180
796
          (BPF_CLASS_LD | BPF_SIZE_DW | BPF_MODE_IMM))
181
23
        return false;
182
773
      CHECK_WRITABLE_AND_PUSH(ud, MI, bpf->dst);
183
770
      MCOperand_CreateImm0(MI, bpf->k);
184
770
      return true;
185
1.45k
    case BPF_MODE_ABS:
186
1.45k
      MCOperand_CreateImm0(MI, bpf->k);
187
1.45k
      return true;
188
1.06k
    case BPF_MODE_IND:
189
1.06k
      CHECK_READABLE_AND_PUSH(ud, MI, bpf->src);
190
1.06k
      return true;
191
3.32k
    }
192
12
    return false;
193
3.32k
  }
194
  /* LDX */
195
1.22k
  if (BPF_MODE(bpf->op) == BPF_MODE_MEM) {
196
1.21k
    CHECK_WRITABLE_AND_PUSH(ud, MI, bpf->dst);
197
1.21k
    CHECK_READABLE_AND_PUSH(ud, MI, bpf->src);
198
1.21k
    MCOperand_CreateImm0(MI, bpf->offset);
199
1.21k
    return true;
200
1.21k
  }
201
11
  return false;
202
1.22k
}
203
204
static bool decodeStore(MCInst *MI, bpf_internal *bpf)
205
4.24k
{
206
  /* in cBPF, only BPF_ST* | BPF_MEM | BPF_W is valid
207
   * while in eBPF:
208
   * - BPF_STX | BPF_XADD | BPF_{W,DW}
209
   * - BPF_ST* | BPF_MEM | BPF_{W,H,B,DW}
210
   * are valid
211
   */
212
4.24k
  if (!EBPF_MODE(MI->csh->mode)) {
213
    /* can only store to M[] */
214
748
    if (bpf->op != (BPF_CLASS(bpf->op) | BPF_MODE_MEM | BPF_SIZE_W))
215
29
      return false;
216
719
    MCOperand_CreateImm0(MI, bpf->k);
217
719
    return true;
218
748
  }
219
220
  /* eBPF */
221
3.49k
  if (BPF_MODE(bpf->op) == BPF_MODE_ATOMIC) {
222
870
    if (BPF_CLASS(bpf->op) != BPF_CLASS_STX)
223
3
      return false;
224
867
    if (BPF_SIZE(bpf->op) != BPF_SIZE_W &&
225
522
        BPF_SIZE(bpf->op) != BPF_SIZE_DW)
226
2
      return false;
227
    /* xadd [dst + off], src */
228
865
    CHECK_READABLE_AND_PUSH(ud, MI, bpf->dst);
229
860
    MCOperand_CreateImm0(MI, bpf->offset);
230
860
    CHECK_READABLE_AND_PUSH(ud, MI, bpf->src);
231
857
    return true;
232
860
  }
233
234
2.62k
  if (BPF_MODE(bpf->op) != BPF_MODE_MEM)
235
15
    return false;
236
237
  /* st [dst + off], src */
238
2.61k
  CHECK_READABLE_AND_PUSH(ud, MI, bpf->dst);
239
2.60k
  MCOperand_CreateImm0(MI, bpf->offset);
240
2.60k
  if (BPF_CLASS(bpf->op) == BPF_CLASS_ST)
241
1.78k
    MCOperand_CreateImm0(MI, bpf->k);
242
820
  else
243
820
    CHECK_READABLE_AND_PUSH(ud, MI, bpf->src);
244
2.60k
  return true;
245
2.60k
}
246
247
static bool decodeALU(MCInst *MI, bpf_internal *bpf)
248
6.02k
{
249
  /* Set MI->Operands */
250
251
  /* cBPF */
252
6.02k
  if (!EBPF_MODE(MI->csh->mode)) {
253
1.69k
    if (BPF_OP(bpf->op) > BPF_ALU_XOR)
254
3
      return false;
255
    /* cBPF's NEG has no operands */
256
1.69k
    if (BPF_OP(bpf->op) == BPF_ALU_NEG)
257
202
      return true;
258
1.48k
    if (BPF_SRC(bpf->op) == BPF_SRC_K)
259
740
      MCOperand_CreateImm0(MI, bpf->k);
260
748
    else /* BPF_SRC_X */
261
748
      MCOperand_CreateReg0(MI, BPF_REG_X);
262
1.48k
    return true;
263
1.69k
  }
264
265
  /* eBPF */
266
267
4.33k
  if (BPF_OP(bpf->op) > BPF_ALU_END)
268
6
    return false;
269
  /* ENDian's imm must be one of 16, 32, 64 */
270
4.32k
  if (BPF_OP(bpf->op) == BPF_ALU_END) {
271
785
    if (bpf->k != 16 && bpf->k != 32 && bpf->k != 64)
272
47
      return false;
273
738
    if (BPF_CLASS(bpf->op) == BPF_CLASS_ALU64 &&
274
56
        BPF_SRC(bpf->op) != BPF_SRC_LITTLE)
275
2
      return false;
276
738
  }
277
278
  /* - op dst, imm
279
   * - op dst, src
280
   * - neg dst
281
   * - le<imm> dst
282
   */
283
  /* every ALU instructions have dst op */
284
4.27k
  CHECK_WRITABLE_AND_PUSH(ud, MI, bpf->dst);
285
286
  /* special cases */
287
4.26k
  if (BPF_OP(bpf->op) == BPF_ALU_NEG)
288
356
    return true;
289
3.91k
  if (BPF_OP(bpf->op) == BPF_ALU_END) {
290
    /* bpf->k must be one of 16, 32, 64 */
291
736
    bpf->op |= ((uint32_t)bpf->k << 4);
292
736
    return true;
293
736
  }
294
295
  /* normal cases */
296
3.17k
  if (BPF_SRC(bpf->op) == BPF_SRC_K) {
297
2.79k
    MCOperand_CreateImm0(MI, bpf->k);
298
2.79k
  } else { /* BPF_SRC_X */
299
381
    CHECK_READABLE_AND_PUSH(ud, MI, bpf->src);
300
381
  }
301
3.17k
  return true;
302
3.17k
}
303
304
static bool decodeJump(MCInst *MI, bpf_internal *bpf)
305
5.60k
{
306
  /* cBPF and eBPF are very different in class jump */
307
5.60k
  if (!EBPF_MODE(MI->csh->mode)) {
308
1.03k
    if (BPF_OP(bpf->op) > BPF_JUMP_JSET)
309
3
      return false;
310
311
    /* ja is a special case of jumps */
312
1.02k
    if (BPF_OP(bpf->op) == BPF_JUMP_JA) {
313
224
      MCOperand_CreateImm0(MI, bpf->k);
314
224
      return true;
315
224
    }
316
317
804
    if (BPF_SRC(bpf->op) == BPF_SRC_K)
318
494
      MCOperand_CreateImm0(MI, bpf->k);
319
310
    else /* BPF_SRC_X */
320
310
      MCOperand_CreateReg0(MI, BPF_REG_X);
321
804
    MCOperand_CreateImm0(MI, bpf->jt);
322
804
    MCOperand_CreateImm0(MI, bpf->jf);
323
4.57k
  } else {
324
4.57k
    if (BPF_OP(bpf->op) > BPF_JUMP_JSLE)
325
1
      return false;
326
327
    /* JMP32 has no CALL/EXIT instruction */
328
    /* No operands for exit */
329
4.57k
    if (BPF_OP(bpf->op) == BPF_JUMP_EXIT)
330
197
      return bpf->op == (BPF_CLASS_JMP | BPF_JUMP_EXIT);
331
4.37k
    if (BPF_OP(bpf->op) == BPF_JUMP_CALL) {
332
251
      if (bpf->op == (BPF_CLASS_JMP | BPF_JUMP_CALL)) {
333
195
        MCOperand_CreateImm0(MI, bpf->k);
334
195
        return true;
335
195
      }
336
56
      if (bpf->op ==
337
56
          (BPF_CLASS_JMP | BPF_JUMP_CALL | BPF_SRC_X)) {
338
55
        CHECK_READABLE_AND_PUSH(ud, MI, bpf->k);
339
19
        return true;
340
55
      }
341
1
      return false;
342
56
    }
343
344
    /* ja is a special case of jumps */
345
4.12k
    if (BPF_OP(bpf->op) == BPF_JUMP_JA) {
346
400
      if (BPF_SRC(bpf->op) != BPF_SRC_K)
347
1
        return false;
348
399
      if (BPF_CLASS(bpf->op) == BPF_CLASS_JMP)
349
197
        MCOperand_CreateImm0(MI, bpf->offset);
350
202
      else
351
202
        MCOperand_CreateImm0(MI, bpf->k);
352
353
399
      return true;
354
400
    }
355
356
    /* <j>  dst, src, +off */
357
3.72k
    CHECK_READABLE_AND_PUSH(ud, MI, bpf->dst);
358
3.72k
    if (BPF_SRC(bpf->op) == BPF_SRC_K)
359
3.54k
      MCOperand_CreateImm0(MI, bpf->k);
360
173
    else
361
173
      CHECK_READABLE_AND_PUSH(ud, MI, bpf->src);
362
3.72k
    MCOperand_CreateImm0(MI, bpf->offset);
363
3.72k
  }
364
4.52k
  return true;
365
5.60k
}
366
367
static bool decodeReturn(MCInst *MI, bpf_internal *bpf)
368
1.44k
{
369
  /* Here only handles the BPF_RET class in cBPF */
370
1.44k
  switch (BPF_RVAL(bpf->op)) {
371
883
  case BPF_SRC_K:
372
883
    MCOperand_CreateImm0(MI, bpf->k);
373
883
    return true;
374
273
  case BPF_SRC_X:
375
273
    MCOperand_CreateReg0(MI, BPF_REG_X);
376
273
    return true;
377
282
  case BPF_SRC_A:
378
282
    MCOperand_CreateReg0(MI, BPF_REG_A);
379
282
    return true;
380
1.44k
  }
381
5
  return false;
382
1.44k
}
383
384
static bool decodeMISC(MCInst *MI, bpf_internal *bpf)
385
559
{
386
559
  uint16_t op = bpf->op ^ BPF_CLASS_MISC;
387
559
  return op == BPF_MISCOP_TAX || op == BPF_MISCOP_TXA;
388
559
}
389
390
///< 1. Check if the instruction is valid
391
///< 2. Set MI->opcode
392
///< 3. Set MI->Operands
393
static bool getInstruction(MCInst *MI, bpf_internal *bpf)
394
20.1k
{
395
20.1k
  cs_detail *detail;
396
397
20.1k
  detail = MI->flat_insn->detail;
398
  // initialize detail
399
20.1k
  if (detail) {
400
20.1k
    memset(detail, 0, offsetof(cs_detail, bpf) + sizeof(cs_bpf));
401
20.1k
  }
402
403
20.1k
  MCInst_clear(MI);
404
405
20.1k
  switch (BPF_CLASS(bpf->op)) {
406
0
  default: /* should never happen */
407
0
    return false;
408
3.88k
  case BPF_CLASS_LD:
409
5.06k
  case BPF_CLASS_LDX:
410
5.06k
    return decodeLoad(MI, bpf);
411
1.46k
  case BPF_CLASS_ST:
412
2.69k
  case BPF_CLASS_STX:
413
2.69k
    return decodeStore(MI, bpf);
414
3.64k
  case BPF_CLASS_ALU:
415
3.64k
    return decodeALU(MI, bpf);
416
3.39k
  case BPF_CLASS_JMP:
417
3.39k
    return decodeJump(MI, bpf);
418
2.90k
  case BPF_CLASS_RET:
419
    /* case BPF_CLASS_JMP32: */
420
2.90k
    if (EBPF_MODE(MI->csh->mode))
421
2.21k
      return decodeJump(MI, bpf);
422
688
    else
423
688
      return decodeReturn(MI, bpf);
424
2.49k
  case BPF_CLASS_MISC:
425
    /* case BPF_CLASS_ALU64: */
426
2.49k
    if (EBPF_MODE(MI->csh->mode))
427
2.38k
      return decodeALU(MI, bpf);
428
114
    else
429
114
      return decodeMISC(MI, bpf);
430
20.1k
  }
431
20.1k
}
432
433
// Check for regular load instructions
434
#define REG_LOAD_CASE(c) \
435
3.65k
  case BPF_SIZE_##c: \
436
3.65k
    if (BPF_CLASS(opcode) == BPF_CLASS_LD) \
437
3.65k
      return BPF_INS_LD##c; \
438
3.65k
    else \
439
3.65k
      return BPF_INS_LDX##c;
440
441
static bpf_insn op2insn_ld_cbpf(unsigned opcode)
442
3.65k
{
443
3.65k
  switch (BPF_SIZE(opcode)) {
444
1.77k
    REG_LOAD_CASE(W);
445
476
    REG_LOAD_CASE(H);
446
499
    REG_LOAD_CASE(B);
447
907
    REG_LOAD_CASE(DW);
448
3.65k
  }
449
450
0
  return BPF_INS_INVALID;
451
3.65k
}
452
#undef REG_LOAD_CASE
453
454
// Check for packet load instructions
455
#define PACKET_LOAD_CASE(c) \
456
1.36k
  case BPF_SIZE_##c: \
457
1.36k
    if (BPF_MODE(opcode) == BPF_MODE_ABS) \
458
1.36k
      return BPF_INS_LDABS##c; \
459
1.36k
    else if (BPF_MODE(opcode) == BPF_MODE_IND) \
460
635
      return BPF_INS_LDIND##c; \
461
635
    else \
462
635
      return BPF_INS_INVALID;
463
464
static bpf_insn op2insn_ld_ebpf(unsigned opcode)
465
2.92k
{
466
2.92k
  if (BPF_CLASS(opcode) == BPF_CLASS_LD) {
467
2.07k
    switch (BPF_SIZE(opcode)) {
468
570
      PACKET_LOAD_CASE(W);
469
368
      PACKET_LOAD_CASE(H);
470
429
      PACKET_LOAD_CASE(B);
471
2.07k
    }
472
2.07k
  }
473
474
  // If it's not a packet load instruction, it must be a regular load instruction
475
1.56k
  return op2insn_ld_cbpf(opcode);
476
2.92k
}
477
#undef PACKET_LOAD_CASE
478
479
/* During parsing we already checked to make sure the size is D/DW and 
480
 * mode is STX and not ST, so we don't need to check again*/
481
#define ALU_CASE_REG(c) \
482
293
  case BPF_ALU_##c: \
483
293
    if (BPF_SIZE(opcode) == BPF_SIZE_W) \
484
293
      return BPF_INS_A##c; \
485
293
    else \
486
293
      return BPF_INS_A##c##64;
487
488
#define ALU_CASE_FETCH(c) \
489
140
  case BPF_ALU_##c | BPF_MODE_FETCH: \
490
140
    if (BPF_SIZE(opcode) == BPF_SIZE_W) \
491
140
      return BPF_INS_AF##c; \
492
140
    else \
493
140
      return BPF_INS_AF##c##64;
494
495
#define COMPLEX_CASE(c) \
496
30
  case BPF_ATOMIC_##c | BPF_MODE_FETCH: \
497
30
    if (BPF_SIZE(opcode) == BPF_SIZE_DW) \
498
30
      return BPF_INS_A##c##64; \
499
30
    else \
500
30
      return BPF_INS_INVALID;
501
502
#define CASE(c) \
503
2.19k
  case BPF_SIZE_##c: \
504
2.19k
    if (BPF_CLASS(opcode) == BPF_CLASS_ST) \
505
2.19k
      return BPF_INS_ST##c; \
506
2.19k
    else \
507
2.19k
      return BPF_INS_STX##c;
508
509
static bpf_insn op2insn_st(unsigned opcode, const uint32_t imm)
510
2.67k
{
511
  /*
512
   * - BPF_STX | ALU atomic operations | BPF_{W,DW}
513
   * - BPF_STX | Complex atomic operations | BPF_{DW}
514
   * - BPF_ST* | BPF_MEM | BPF_{W,H,B,DW}
515
   */
516
517
2.67k
  if (BPF_MODE(opcode) == BPF_MODE_ATOMIC) {
518
472
    switch (imm) {
519
42
      ALU_CASE_REG(ADD);
520
113
      ALU_CASE_REG(OR);
521
84
      ALU_CASE_REG(AND);
522
54
      ALU_CASE_REG(XOR);
523
21
      ALU_CASE_FETCH(ADD);
524
28
      ALU_CASE_FETCH(OR);
525
36
      ALU_CASE_FETCH(AND);
526
55
      ALU_CASE_FETCH(XOR);
527
11
      COMPLEX_CASE(XCHG);
528
19
      COMPLEX_CASE(CMPXCHG);
529
9
    default: // Reached if complex atomic operation is used without fetch modifier
530
9
      return BPF_INS_INVALID;
531
472
    }
532
472
  }
533
534
  /* should be BPF_MEM */
535
2.19k
  switch (BPF_SIZE(opcode)) {
536
665
    CASE(W);
537
791
    CASE(H);
538
403
    CASE(B);
539
339
    CASE(DW);
540
2.19k
  }
541
542
0
  return BPF_INS_INVALID;
543
2.19k
}
544
#undef CASE
545
546
#define CASE(c) \
547
4.22k
  case BPF_ALU_##c: \
548
4.22k
    CASE_IF(c)
549
550
#define CASE_IF(c) \
551
5.17k
  do { \
552
5.17k
    if (BPF_CLASS(opcode) == BPF_CLASS_ALU) \
553
5.17k
      return BPF_INS_##c; \
554
5.17k
    else \
555
5.17k
      return BPF_INS_##c##64; \
556
5.17k
  } while (0)
557
558
static bpf_insn op2insn_alu(unsigned opcode, const uint16_t off,
559
          const bool is_ebpf)
560
5.95k
{
561
  /* Endian is a special case */
562
5.95k
  if (BPF_OP(opcode) == BPF_ALU_END) {
563
736
    if (BPF_CLASS(opcode) == BPF_CLASS_ALU64) {
564
54
      switch (opcode ^ BPF_CLASS_ALU64 ^ BPF_ALU_END ^
565
54
        BPF_SRC_LITTLE) {
566
18
      case (16 << 4):
567
18
        return BPF_INS_BSWAP16;
568
18
      case (32 << 4):
569
18
        return BPF_INS_BSWAP32;
570
18
      case (64 << 4):
571
18
        return BPF_INS_BSWAP64;
572
0
      default:
573
0
        return BPF_INS_INVALID;
574
54
      }
575
54
    }
576
577
682
    switch (opcode ^ BPF_CLASS_ALU ^ BPF_ALU_END) {
578
18
    case BPF_SRC_LITTLE | (16 << 4):
579
18
      return BPF_INS_LE16;
580
67
    case BPF_SRC_LITTLE | (32 << 4):
581
67
      return BPF_INS_LE32;
582
66
    case BPF_SRC_LITTLE | (64 << 4):
583
66
      return BPF_INS_LE64;
584
160
    case BPF_SRC_BIG | (16 << 4):
585
160
      return BPF_INS_BE16;
586
336
    case BPF_SRC_BIG | (32 << 4):
587
336
      return BPF_INS_BE32;
588
35
    case BPF_SRC_BIG | (64 << 4):
589
35
      return BPF_INS_BE64;
590
682
    }
591
0
    return BPF_INS_INVALID;
592
682
  }
593
594
5.22k
  switch (BPF_OP(opcode)) {
595
421
    CASE(ADD);
596
325
    CASE(SUB);
597
408
    CASE(MUL);
598
410
    CASE(OR);
599
284
    CASE(AND);
600
438
    CASE(LSH);
601
431
    CASE(RSH);
602
558
    CASE(NEG);
603
424
    CASE(XOR);
604
530
    CASE(ARSH);
605
431
  case BPF_ALU_DIV:
606
431
    if (!is_ebpf || off == 0)
607
320
      CASE_IF(DIV);
608
111
    else if (off == 1)
609
100
      CASE_IF(SDIV);
610
11
    else
611
11
      return BPF_INS_INVALID;
612
378
  case BPF_ALU_MOD:
613
378
    if (!is_ebpf || off == 0)
614
282
      CASE_IF(MOD);
615
96
    else if (off == 1)
616
84
      CASE_IF(SMOD);
617
12
    else
618
12
      return BPF_INS_INVALID;
619
183
  case BPF_ALU_MOV:
620
    /* BPF_CLASS_ALU can have: mov, mov8s, mov16s
621
     * BPF_CLASS_ALU64 can have: mov, mov8s, mov16s, mov32s
622
     * */
623
183
    if (off == 0)
624
54
      CASE_IF(MOV);
625
129
    else if (off == 8)
626
36
      CASE_IF(MOVSB);
627
93
    else if (off == 16)
628
70
      CASE_IF(MOVSH);
629
23
    else if (off == 32 && BPF_CLASS(opcode) == BPF_CLASS_ALU64)
630
12
      return BPF_INS_MOVSW64;
631
11
    else
632
11
      return BPF_INS_INVALID;
633
5.22k
  }
634
635
0
  return BPF_INS_INVALID;
636
5.22k
}
637
#undef CASE_IF
638
#undef CASE
639
640
5.55k
#define BPF_CALLX (BPF_CLASS_JMP | BPF_JUMP_CALL | BPF_SRC_X)
641
642
#define CASE(c) \
643
4.52k
  case BPF_JUMP_##c: \
644
4.52k
    if (BPF_CLASS(opcode) == BPF_CLASS_JMP) \
645
4.52k
      return BPF_INS_##c; \
646
4.52k
    else \
647
4.52k
      return BPF_INS_##c##32;
648
649
#define SPEC_CASE(c) \
650
392
  case BPF_JUMP_##c: \
651
392
    if (BPF_CLASS(opcode) == BPF_CLASS_JMP) \
652
392
      return BPF_INS_##c; \
653
392
    else \
654
392
      return BPF_INS_INVALID;
655
656
static bpf_insn op2insn_jmp(unsigned opcode)
657
5.55k
{
658
5.55k
  if (opcode == BPF_CALLX) {
659
19
    return BPF_INS_CALLX;
660
19
  }
661
662
5.54k
  switch (BPF_OP(opcode)) {
663
623
  case BPF_JUMP_JA:
664
623
    if (BPF_CLASS(opcode) == BPF_CLASS_JMP)
665
421
      return BPF_INS_JA;
666
202
    else
667
202
      return BPF_INS_JAL;
668
489
    CASE(JEQ);
669
287
    CASE(JGT);
670
352
    CASE(JGE);
671
510
    CASE(JSET);
672
270
    CASE(JNE);
673
400
    CASE(JSGT);
674
495
    CASE(JSGE);
675
195
    SPEC_CASE(CALL);
676
197
    SPEC_CASE(EXIT);
677
495
    CASE(JLT);
678
416
    CASE(JLE);
679
403
    CASE(JSLT);
680
408
    CASE(JSLE);
681
5.54k
  }
682
683
0
  return BPF_INS_INVALID;
684
5.54k
}
685
#undef SPEC_CASE
686
#undef CASE
687
#undef BPF_CALLX
688
689
#ifndef CAPSTONE_DIET
690
691
static void update_regs_access(MCInst *MI, cs_detail *detail, bpf_insn insn_id,
692
             unsigned int opcode)
693
19.9k
{
694
19.9k
  if (insn_id == BPF_INS_INVALID)
695
0
    return;
696
  /*
697
   * In eBPF mode, only these instructions have implicit registers access:
698
   * - legacy ld{w,h,b,dw} * // w: r0
699
   * - exit // r: r0
700
   */
701
19.9k
  if (EBPF_MODE(MI->csh->mode)) {
702
13.9k
    switch (insn_id) {
703
11.6k
    default:
704
11.6k
      break;
705
11.6k
    case BPF_INS_LDABSW:
706
497
    case BPF_INS_LDABSH:
707
732
    case BPF_INS_LDABSB:
708
939
    case BPF_INS_LDINDW:
709
1.17k
    case BPF_INS_LDINDH:
710
1.36k
    case BPF_INS_LDINDB:
711
2.07k
    case BPF_INS_LDDW:
712
2.07k
      if (BPF_MODE(opcode) == BPF_MODE_ABS ||
713
1.17k
          BPF_MODE(opcode) == BPF_MODE_IND)
714
1.57k
        map_add_implicit_write(MI, BPF_REG_R0);
715
2.07k
      break;
716
197
    case BPF_INS_EXIT:
717
197
      map_add_implicit_read(MI, BPF_REG_R0);
718
197
      break;
719
13.9k
    }
720
13.9k
    return;
721
13.9k
  }
722
723
  /* cBPF mode */
724
5.99k
  switch (BPF_CLASS(opcode)) {
725
686
  default:
726
686
    break;
727
1.77k
  case BPF_CLASS_LD:
728
1.77k
    map_add_implicit_write(MI, BPF_REG_A);
729
1.77k
    break;
730
318
  case BPF_CLASS_LDX:
731
318
    map_add_implicit_write(MI, BPF_REG_X);
732
318
    break;
733
68
  case BPF_CLASS_ST:
734
68
    map_add_implicit_read(MI, BPF_REG_A);
735
68
    break;
736
327
  case BPF_CLASS_STX:
737
327
    map_add_implicit_read(MI, BPF_REG_X);
738
327
    break;
739
1.69k
  case BPF_CLASS_ALU:
740
1.69k
    map_add_implicit_read(MI, BPF_REG_A);
741
1.69k
    map_add_implicit_write(MI, BPF_REG_A);
742
1.69k
    break;
743
1.02k
  case BPF_CLASS_JMP:
744
1.02k
    if (insn_id != BPF_INS_JA) // except the unconditional jump
745
804
      map_add_implicit_read(MI, BPF_REG_A);
746
1.02k
    break;
747
  /* case BPF_CLASS_RET: */
748
102
  case BPF_CLASS_MISC:
749
102
    if (insn_id == BPF_INS_TAX) {
750
68
      map_add_implicit_read(MI, BPF_REG_A);
751
68
      map_add_implicit_write(MI, BPF_REG_X);
752
68
    } else {
753
34
      map_add_implicit_read(MI, BPF_REG_X);
754
34
      map_add_implicit_write(MI, BPF_REG_A);
755
34
    }
756
102
    break;
757
5.99k
  }
758
5.99k
}
759
#endif
760
761
static bool setFinalOpcode(MCInst *MI, const bpf_internal *bpf)
762
19.9k
{
763
19.9k
  bpf_insn id = BPF_INS_INVALID;
764
19.9k
#ifndef CAPSTONE_DIET
765
19.9k
  cs_detail *detail;
766
767
19.9k
  detail = get_detail(MI);
768
19.9k
#endif
769
770
19.9k
  const uint16_t opcode = bpf->op;
771
19.9k
  switch (BPF_CLASS(opcode)) {
772
0
  default: // will never happen
773
0
    break;
774
3.85k
  case BPF_CLASS_LD:
775
5.02k
  case BPF_CLASS_LDX:
776
5.02k
    if (EBPF_MODE(MI->csh->mode))
777
2.92k
      id = op2insn_ld_ebpf(opcode);
778
2.09k
    else
779
2.09k
      id = op2insn_ld_cbpf(opcode);
780
5.02k
    add_group(MI, BPF_GRP_LOAD);
781
5.02k
    break;
782
1.44k
  case BPF_CLASS_ST:
783
2.67k
  case BPF_CLASS_STX:
784
2.67k
    id = op2insn_st(opcode, bpf->k);
785
2.67k
    add_group(MI, BPF_GRP_STORE);
786
2.67k
    break;
787
3.60k
  case BPF_CLASS_ALU:
788
3.60k
    id = op2insn_alu(opcode, bpf->offset, EBPF_MODE(MI->csh->mode));
789
3.60k
    add_group(MI, BPF_GRP_ALU);
790
3.60k
    break;
791
3.34k
  case BPF_CLASS_JMP:
792
3.34k
    id = op2insn_jmp(opcode);
793
3.34k
#ifndef CAPSTONE_DIET
794
3.34k
    if (id == BPF_INS_CALL || id == BPF_INS_CALLX)
795
214
      add_group(MI, BPF_GRP_CALL);
796
3.13k
    else if (id == BPF_INS_EXIT)
797
197
      add_group(MI, BPF_GRP_RETURN);
798
2.93k
    else
799
2.93k
      add_group(MI, BPF_GRP_JUMP);
800
3.34k
#endif
801
3.34k
    break;
802
2.89k
  case BPF_CLASS_RET:
803
    /* case BPF_CLASS_JMP32: */
804
2.89k
    if (EBPF_MODE(MI->csh->mode)) {
805
2.21k
      id = op2insn_jmp(opcode);
806
2.21k
      add_group(MI, BPF_GRP_JUMP);
807
2.21k
    } else {
808
686
      id = BPF_INS_RET;
809
686
      add_group(MI, BPF_GRP_RETURN);
810
686
    }
811
2.89k
    break;
812
  // BPF_CLASS_MISC and BPF_CLASS_ALU64 have exactly same value
813
2.45k
  case BPF_CLASS_MISC:
814
    /* case BPF_CLASS_ALU64: */
815
2.45k
    if (EBPF_MODE(MI->csh->mode)) {
816
      // ALU64 in eBPF
817
2.35k
      id = op2insn_alu(opcode, bpf->offset, true);
818
2.35k
      add_group(MI, BPF_GRP_ALU);
819
2.35k
    } else {
820
102
      if (BPF_MISCOP(opcode) == BPF_MISCOP_TXA)
821
34
        id = BPF_INS_TXA;
822
68
      else
823
68
        id = BPF_INS_TAX;
824
102
      add_group(MI, BPF_GRP_MISC);
825
102
    }
826
2.45k
    break;
827
19.9k
  }
828
829
19.9k
  if (id == BPF_INS_INVALID)
830
45
    return false;
831
832
19.9k
  MCInst_setOpcodePub(MI, id);
833
19.9k
#undef PUSH_GROUP
834
835
19.9k
#ifndef CAPSTONE_DIET
836
19.9k
  if (detail) {
837
19.9k
    update_regs_access(MI, detail, id, opcode);
838
19.9k
  }
839
19.9k
#endif
840
19.9k
  return true;
841
19.9k
}
842
843
bool BPF_getInstruction(csh ud, const uint8_t *code, size_t code_len,
844
      MCInst *instr, uint16_t *size, uint64_t address,
845
      void *info)
846
20.5k
{
847
20.5k
  bpf_internal *bpf;
848
849
20.5k
  if (EBPF_MODE(instr->csh->mode))
850
14.4k
    bpf = fetch_ebpf(instr, code, code_len);
851
6.13k
  else
852
6.13k
    bpf = fetch_cbpf(instr, code, code_len);
853
20.5k
  if (bpf == NULL)
854
370
    return false;
855
20.1k
  if (!getInstruction(instr, bpf) || !setFinalOpcode(instr, bpf)) {
856
242
    cs_mem_free(bpf);
857
242
    return false;
858
242
  }
859
19.9k
  MCInst_setOpcode(instr, bpf->op);
860
861
19.9k
  *size = bpf->insn_size;
862
19.9k
  cs_mem_free(bpf);
863
864
  return true;
865
20.1k
}
866
867
#endif